In a First, Man Receives a Heart From a Genetically Altered Pig – The New York Times

It was either die or do this transplant, Mr. Bennett said before the surgery, according to officials at the University of Maryland Medical Center. I want to live. I know its a shot in the dark, but its my last choice.

Dr. Griffith said he first broached the experimental treatment in mid-December, a memorable and pretty strange conversation.

I said, We cant give you a human heart; you dont qualify. But maybe we can use one from an animal, a pig, Dr. Griffith recalled. Its never been done before, but we think we can do it.

I wasnt sure he was understanding me, Dr. Griffith added. Then he said, Well, will I oink?

Xenotransplantation, the process of grafting or transplanting organs or tissues from animals to humans, has a long history. Efforts to use the blood and skin of animals go back hundreds of years.

In the 1960s, chimpanzee kidneys were transplanted into some human patients, but the longest a recipient lived was nine months. In 1983, a baboon heart was transplanted into an infant known as Baby Fae, but she died 20 days later.

Pigs offer advantages over primates for organ procurements, because they are easier to raise and achieve adult human size in six months. Pig heart valves are routinely transplanted into humans, and some patients with diabetes have received porcine pancreas cells. Pig skin has also been used as a temporary graft for burn patients.

Two newer technologies gene editing and cloning have yielded genetically altered pig organs less likely to be rejected by humans. Pig hearts have been transplanted successfully into baboons by Dr. Muhammad Mohiuddin, a professor of surgery at University of Maryland School of Medicine who established the cardiac xenotransplantation program with Dr. Griffith and is its scientific director. But safety concerns and fear of setting off a dangerous immune response that can be life-threatening precluded their use in humans until recently.

Excerpt from:

In a First, Man Receives a Heart From a Genetically Altered Pig - The New York Times

Man City star James McAtee, 19 related to England 1966 hero Alan Ball was spotted by Guardiola BEFORE h… – The Sun

PEP GUARDIOLA knows talent when he sees it.

Before the Manchester City boss took over the Etihad, he secretly visited their youth academy and spied on a 13-year-old James McAtee.

8

Wowed by what he saw, he immediately turned to his coaches with a question.

"Who's that?" the maestro manager enquired nodding towards the bright talent.

Some six years later, Pep handed the midfielder his full debut.

However, instead of wearing blue the teenaged, dubbed a David Silva clone by Sky Sports pundit Gary Neville, could have been playing in red for crosstown rivals Manchester United.

Before he hit his teens. McAtee trained with the Red Devils aged 11.

Alongside older brother John, now a pro at Grimsby Town, he had someone to look up to as he learned his craft.

But, when John was released by the club the family made the decision to also pull James out of their academy.

City immediately pounced, sensing the prospect's ability from an early age, as well as a sporting heritage that runs through his family.

His dad, also John, played rugby league for St Helen's.

While mum Gill's uncle was England World Cup winner Alan Ball.

Since his cross-city move, James McAtee hasn't looked back as he's climbed through the youth ranks.

This season, he's starred for the U23's this season - scoring 12 goals in 13 games.

That prompted Guardiola to hand him his first senior debut against Wycombe in the EFL Cup back in September.

Then in November, he made an impressive cameo against Everton for his first Premier League appearance.

8

8

8

Dubbed 'Salford Silva' by his team mates, McAtee boasts similar characteristics to the legend from Grand Canaria who played for the club for 10 years.

Some of those skills, his close control, nimble feet, and constant probing of opposition defences were on display against the Toffees, which saw ex-Manchester United star Gary Neville wax lyrical about the boy wonder.

"Its not an academy, its a cloning system," Neville said after seeing McAtee and Cole Palmer impress.

"Theyre like clones, theyre all the same.

"Its almost likeDavid Silvas left them all behind!"

It's a reason why Guardiola was so quick to find out who he was back in 2016.

And something he also did with Phil Foden, who has become the beacon for youngsters to emulate at the Etihad.

8

8

However, as his McAtee's ambition - he won't rest on making the odd FA Cup or League Cup appearance.

Several clubs have reportedly declared their interest in taking the youngster on loan, including Premier League Southampton and promotion-chasing AFC Bournemouth.

But, it is believed City are unsure about letting him go elsewhere. They share a theory that his development would be best served training with first team stars.

Although, with his contract expiring in 2023, there is a fear that McAtee could leave the club for good.

Astonishingly, Manchester United have been linked with taking him back.

Could it be that McAtee ends up strutting his stuff at the Theatre of Dreams? Whatever the stage, he appears ready for a starring role.

8

8

Read more here:

Man City star James McAtee, 19 related to England 1966 hero Alan Ball was spotted by Guardiola BEFORE h... - The Sun

Unknown Hard Error, Nothing Helps (Not BSOD) – Windows Crashes and Blue Screen of Death (BSOD) Help and Support – BleepingComputer

Hello! I always make extensive efforts to search the web and so forth in order to fix my own problems, since I'm pretty adept with Windows. But I've spent the last two weeks trying everything I can find, yet nothing helps (the overwhelming majority of the sites I've checked are near duplicates, right down to the syntax and other errors. But to be fair, I've submitted this post elsewhere.)

Here's the situation: I have one SSD containing the system I'm using right now, which works quite well. But I want to copy this system partition to another SSD, more specifically a pair of identical SSDs setup in a RAID 0 configuration (Intel soft RAID). That RAID configuration has worked perfectly for several years. However, when I make any kind of clone, but the most appropriate type (IMHO) of clone for an OS partition is a byte-for-byte copy (although I've tried other types with the same result). I've tried cloning with the following applications: DiskGenius Pro, Acronis Disk Director 12.5, EaseUS Partition Master Pro v16.0, and AOMEI Partition Assistant Pro. All cloning operations work properly, with no error messages. A visual inspection of the clone seems fine, and I can run all the applications off the clone that I've tried.

But...

When I try to boot from the new clone, the Windows 10 bootloader correctly allows me to choose to boot the clone (and the BCD is entirely correct), then I correctly see the rotating circles both before and after the BIOS page, then the logon screen correctly shows up, whereupon I enter my password, which is accepted.

Then I see a very bright, mostly white screen (it looks like a photo negative of the normal screen) with a dialog box in the center with the title bar reading: "sihost.exe - System Warning", with the actual message reading: "Unknown Hard Error". Thereupon the screen flashes roughly every second and the logon fails. But if I press CTRL-ALT-DEL, it correctly brings up the task manager, and there I see all the correct startup tasks. But that's all I ever see from then on.

I have the advantage that I can boot from the single, working SSD and easily work on the system volume on the RAID disks. Thus I don't have to boot from the repair or installation disk(s), although I've tried that too and run startup repair and double-checked the BCD and other such procedures. I've run CHKDSK both from the working online system as well as during boot up.

I've also tried running DISM offline repairs and offline SFC, but none of the sites which claim to provide instructions for those procedures are correct; they always produce syntax errors or the like, and as I said, nearly all of those sites are just plagiarized from each other (with minor variations) so I can't perform DISM or SFC according to their instructions.

Therefore, I've turned to the posters here. Can any of you offer help, please? Even the correct instructions and command lines for offline DISM and SFC would be a tremendous help.

Thanks!

More here:

Unknown Hard Error, Nothing Helps (Not BSOD) - Windows Crashes and Blue Screen of Death (BSOD) Help and Support - BleepingComputer

Cloning its Blowing Rock success in Morganton is the next challenge for Town Tavern – Watauga Democrat

Boone Best of the Best 2021 Best Sports Bar. Accepting the award for Best Sports Bar are, from left, Emily Sullivan, William Dennis, Victoria Bird, Rachel McCloskey, Liz Bell, Lindsey Hiatt, Brett Beaty, Erin Frye and Megan Berry of The Town Tavern.

BLOWING ROCK Success in the Blowing Rock hospitality market led Town Tavern owner Justin Davis and his associates to consider expansion of their brand. But, Davis said, they had to be careful not to cannibalize their existing business in Blowing Rock.

Davis Town Tavern does more than serve up burgers, Philly cheesesteaks, or fish and chips with customers favorite beverages. It also provides a gathering place for watching top sports competitions on large screen TVs and accommodates small to larger groups to enjoy each others company in a comfortable ambience, indoor or outdoor.

It is a formula that has worked for us in Blowing Rock, said Davis. As it turns out, we have a lot of customers come up here from Morganton just because they like our restaurant, bar, and the atmosphere that we provide. So we decided that Morganton would be the perfect opportunity to expand our brand, but far enough away that we would not cannibalize our success in the Blowing Rock and High Country market.

There are aspects to expansion, though, that have been challenging. Once they identified their preferred market, they had to find the right location within that market.

Town Tavern on Main Street has become a fixture in Blowing Rocks hospitality industry. One reason is its participation in fun community events and activities, such as this ice sculpture entry in the 2019 Winterfest.

We found a place right on the river. It used to be a restaurant, so at least some of our outfitting requirements will already have been met. We think it is the perfect location for our Morganton Town Tavern. It gives us the opportunity to offer that market another dining, beverage, and entertainment option, said Davis.

The location is in the River Village shopping center and for 15 years was home to the popular Friday Friends restaurant. They were unable to survive the impact of the COVID-19 pandemic, according to an article in the Morganton New Herald on April 14, 2021. After closing the doors of the restaurant, River Village shopping center owners L.H. and W.C. Kirksey began actively seeking a new tenant for the space. Enter Davis and Town Tavern, which proved to be a successful model in Blowing Rock, attracting both residents and tourists.

Davis said that while the space was previously a restaurant, they will have to do some extensive renovations of the interior to fit their business model and replicate, to an extent, what they have in Blowing Rock.

Were going to have the same menu, as well as a lot of the features that have contributed to Blowing Rocks success. Sure, it is a different market, but we think a lot of our Blowing Rock appeal is universal.

Town Tavern in Morganton is planned to be open in late October or early November in time to capture the last half of the football season.

That is our plan but there have, of course, been challenges to hiring the tradesmen to do certain things, said Davis.

Responding to other questions about rumors that he and a partner might be looking at the more than two acres on Valley Boulevard, near the Blowing Rock Fire Station as a possible site for another venture, Davis dismissed the idea.

We looked at it. Certainly from a location standpoint it is appealing for, maybe, a fast food restaurant, but we just couldnt make it work, Davis said. We hired an architect to get some design ideas, but restaurants really change the dynamics of a location vs., say, an office. In addition to parking per table, there are a number of other variables, such as accommodating garbage collection and management, where you place a dumpster, food and beverage deliveries, landscape needs, watershed and water usage, and such.

It is a wonderful location, but there are some problems, such as one way in and one way out ingress and egress from Valley Boulevard, the way the traffic flows, said Davis. Then there are issues with the setbacks are on that lot, as well as the NCDOT right of way. That lot is actually deceiving. It is about two and a half acres, but there is really only less than an acre that is usable, at least for our purposes. Without spending a ton of money on a 45-foot retaining wall and cutting back into the mountain, it just didnt make sense.

Here is the original post:

Cloning its Blowing Rock success in Morganton is the next challenge for Town Tavern - Watauga Democrat

Ask Dr. Universe: How do we clone things? – The Spokesman-Review

Washington State University

Dr. Universe: How do we clone things? Raphael, 8, So Paulo, Brazil

Dear Raphael,

From frogs and sheep to cats, humans have learned to clone all kinds of organisms. Like you, I was curious how it all works, so I talked to my friend Jon Oatley, a researcher at Washington State University.

First, he told me that mammals like you and me are made up of billions of building blocks called cells. Other organisms, like amoebas, are just a single cell.

Inside each cell is a nucleus, which is like a small envelope that protects something very important: DNA.

DNA holds the code to all sorts of different traits, such as hair color, eye color and skin color. This genetic information can be passed down from grandparents to parents to their offspring.

One type of reproduction requires both the DNA from inside a sperm cell and inside an egg cell for an organism to start developing. When these two cells join, they form a single cell and then start multiplying. These cells make up an embryo, the earliest stage of development.

But when we want to clone something, we dont need DNA from both a sperm cell and an egg cell. Instead, the DNA comes from a single, non-reproductive cell called a somatic cell. It might be a cell from muscle, brain or even skin.

Scientists can pull out DNA from inside one of those cells and put it into the empty shell of organisms egg cell. With a zap of electricity, the cells start multiplying and form an embryo.

After the embryo stage comes the fetus stage and then finally the offspring. The offspring, or clone, will have the same DNA as the original organism.

We can do this in essentially all mammals, Oatley said.

Even though the DNA is identical, that doesnt mean a clone will be a perfect carbon copy of the original, he adds. For instance, the first cat clone had the same DNA as her donor cat Rainbow. Rainbow was a calico cat with orange, black and white fur. But C.C., the clone, was gray and white.

A clone may look different than its donor because some traits occur randomly as the clone develops in the womb. The environment where a clone lives can also make the clone look or behave differently than its donor, too.

Cloning is a tool scientists can use in the lab to help us better understand genetics. It can help us identify genes and improve the traits of different food products, which is especially important for feeding Earths growing population.

Cloning also helps us gain a better understanding of how genes work and when those genes might be the source of health problems.

Oatley said its great to hear that you are already curious about the world of life sciences, Raphael. Who knows, maybe one day you can help us learn more about the way genes work and how DNA shapes life on our planet.

Sincerely,

Dr. Universe

Ask Dr. Universe is a project from Washington State University. Submit a question at askdruniverse.wsu.edu.

Continue reading here:

Ask Dr. Universe: How do we clone things? - The Spokesman-Review

The Bad Batch season 2: everything we know so far – TechRadar

The Bad Batch season 2: key info

- Release date coming in 2022- Some crossover with elements of The Mandalorian expected- Likely to focus on the Clones being phased out by the Empire- Voice cast expected to return- Could young Boba Fett turn up next season?

The Clone Wars may be over but Clone Troopers still have a major role to play in that galaxy far, far away. The Bad Batch season 2 will continue the adventures of Clone Force 99, a ragtag group of unique troopers genetically engineered to possess traits that make them superior soldiers.

While the first run of 16 episodes took a while finding its reason to exist, the show eventually carved out its niche in Star Wars canon, with potentially significant implications for The Mandalorian. The Bad Batch season 2 seems set to expand the mythology further, as Hunter, Tech, Wrecker, Echo, Crosshair and their young sidekick Omega try to find their place in a universe where the newly formed Empire is starting to throw its weight around.

So, with the shows return confirmed for 2022, weve sent our troopers on a covert mission to tell you everything you need to know about The Bad Batch season 2 release date, story, cast and more. Spoilers follow for season 1.

Release date: The shows been confirmed for a 2022 return. If we were gamblers like Lando Calrissian, wed bet on a May debut.

Cast: Dee Bradley Baker will return to voice the main cast of characters Hunter, Tech, Wrecker, Echo, Crosshair and any other clones they might encounter. We wouldn't bet against seeing the return of Ming-Na Wen as Fennec Shand and maybe some other deep cuts from Star Wars lore will turn up.

Story: With the Clones being phased out by the end of season 1, we expect to see the galaxy changing further around our characters in season 2. What happens to the dispossessed Clones is likely to come up more in future seasons, too.

On August 5, just ahead of the two-part season 1 finale, Disney Plus confirmed confirmed (via StarWars.com) that the show will return. All we know for sure about The Bad Batch season 2 release date is that it will be some time in 2022. But, seeing as the first run kicked off (rather appropriately) on May 4 (aka Star Wars Day), we wouldnt be surprised if season 2 debuts on the same date not least because it falls on a Wednesday in 2022, which (after Loki and What If?) now appears to be Disney Pluss new favorite day for original launches.

Its still early days for a proper Bad Batch season 2 trailer. The first season 1 teaser didnt appear until late March, just over a month before the shows debut, and wed expect to see a similar pattern for the follow-up. In the meantime, you can enjoy the announcement teaser that debuted on Instagram in August 2021.

Spoilers follow for The Bad Batch season 1. If you're yet to watch it on Disney Plus, proceed with caution.

Like its counterparts at Marvel, Lucasfilm isnt in the habit of giving away major story details ahead of a Star Wars movie or TV shows release. It would be a massive surprise, however, if The Bad Batch season 2 didnt pick up where its predecessor left off.

Following the Imperial fleets brutal destruction of Tipoca City and the cloning facilities on Kamino, Hunter, Tech, Wrecker, Echo and Omega parted ways with ex-Clone Force 99 member Crosshair. Even though Crosshair told the Bad Batch that his Order 66-initiated inhibitor chip had been removed a fact confirmed by head writer Jennifer Corbett in an interview with StarWars.com his allegiance remains with the Empire.

As hes so fond of reminding his brothers, good soldiers follow orders, but the question remains: will the Empire value his services now that Clones are being phased out in favour of conscripted TK Troopers, the forerunners of Imperial Stormtroopers?

The Bad Batch, meanwhile, are likely to have some big decisions to make after theyve departed Kamino in their ship, the Havoc Marauder. We didnt want to have everyones purpose locked in at the end of season 1, supervising director Brad Rau told StarWars.com. Its something that they deal with in a big way as we move into season 2. What is their purpose from all of their different points of view? Its going to be a big deal, something we really wanted to dig into.

Although the Bad Batch are on the run from Imperial forces, theyre yet to take up arms in earnest against the Emperors totalitarian regime. As they see more and more of the oppressive tactics employed against the populace, however, it seems unlikely theyll continue doing odd jobs for former Jedi informant/information broker Cid when they could be joining the fight.

So will Clone Force 99 have a role to play in establishing the Rebellion against the Empire?

The Martez sisters appearance in season 1 strongly hinted the duo are involved in some kind of resistance movement, and their contact looked a lot like Rebel Alliance bigwig (and Leias adopted dad) Bail Organa. (That said, we know from Star Wars Rebels that the Alliance wont come together for over a decade, so theres a limit to how pivotal the Bad Batch can be in its formation.)

We also expect The Bad Batch season 2 to tell us more about the backstory of Omega, the unique female clone of Jango Fett whos become Hunter, Tech, Wrecker and Echos travelling companion. Although still a child, shes actually older than the members of Clone Force 99 who like their Clone brothers had their growth rate accelerated by the Kaminoans. Omega knows that the Batch were created with desirable genetic mutations to make them into superior soldiers and theres surely more to learn about her own origins.

We can also expect to learn more about the Clones spread throughout the galaxy in the wake of the Clone Wars. We will not let that storyline go undiscussed, for sure, confirmed Rau. It remains to be seen, however, whether that means Clone Wars veteran Rex and his future Rebels sidekick Gregor will see more action, or the introduction of new Clones.

The Bad Batch may be animated but its just as important to Star Wars canon as its live-action counterparts. As the first TV show or movie to dive into the early days of the Galactic Empire, its travelling to previously unexplored regions of the Star Wars timeline and has surprisingly major implications for The Mandalorian season 3.

The final scene of The Bad Batchs first season saw chief Kaminoan scientist Nala Se arriving at an Imperial outpost concept art suggests this is Mount Tantiss on Wayland, a planet that appeared in the (now non-canonical) expanded universe. Intriguingly, the Imperial scientist who greets Nala Se is wearing the same uniform as Dr Pershing, the geneticist who used Grogu (aka Baby Yoda) as a test subject in The Mandalorian.

Its long been speculated that Pershings experiments are part of Palpatines long-standing plan to clone himself a project that came to fruition in The Rise of Skywalker so theres a good chance Nala Se will be laying the groundwork for the Emperors nefarious schemes. Where Nala Se is, what Nala Se is doing, should be a mystery to the audience, Corbett told StarWars.com, and we hope to explore that in the upcoming season.

Bounty hunters always integral to the Star Wars mix also help to tie The Bad Batch season 2 into existing canon.

In the first season, Kaminoan prime minister Lama Su hired The Clone Wars biggest Clint Eastwood fan, Cad Bane, to track down Omega, prompting Nala Se to dispatch Fennec Shand to protect her. Shands presence is unlikely to be a coincidence.

The infamous Boba Fett saved her from death by on the surface of Tatooine in the first season of The Mandalorian, and the bounty hunting duo subsequently became associates to the point that theyre the two leads in spin-off show The Book of Boba Fett. Could The Bad Batch set more than 20 years earlier detail the beginnings of their friendship?

With Fett still in his teens at this point in the Star Wars timeline, theyll both be young bounty hunters making their way in the universe. We also know from The Clone Wars that the young Fett had associations with other representatives of the trade, including Dengar, Bossk and Aurra Sing.

Assuming he does turn up in The Bad Batch season 2 (Fennec Shand actor Ming-Na Wen was cagey when TechRadar asked her about his return back in June), Fett is likely to have a particular interest in Omega. After all, like him, shes an unaltered clone of their father, Jango.

With the show set between the prequel trilogy and the original trilogy, most of the major characters in the franchise are potentially in play. While its unlikely Han Solo, Luke and Leia will make an appearance (the twins are just infants at this point in the timeline), the cargo bay doors are open for the likes of Darth Maul, Grand Admiral Thrawn and even Darth Vader to cross paths with Clone Force 99.

Official confirmation of The Bad Batch season 2 cast is yet to emerge, but it would be a surprise of Death Star-shattering proportions if the headliners dont look something like this:

Put simply, there would be no Bad Batch without Dee Bradley Baker. Having voiced legions of Clone Troopers throughout The Clone Wars, the actor plays the five lead roles in the show, giving unique personalities to Hunter, Tech, Wrecker, Echo and Crosshair. He also voiced additional Clones in season one, including a couple of veterans of The Clone Wars and Rebels, Rex and Gregor.

Michelle Ang is likely to be back as the Bad Batchs sister Omega, and wed be surprised if Cheers Rhea Perlman doesnt return as Cid. With Kaminoan scientist Nala Se now working at an Imperial facility, wed expect to hear more from Gwendoline Yeo, while Noshir Dalal is likely to lead the Empires pursuit of Clone Force 99 as Vice Admiral Rampart.

Beyond those regulars, were into less predictable guest star territory.

On the bounty hunter front, were predicting returns for Ming-Na Wen and Corey Burton as Fennec Shand and Cad Bane, respectively. And if Boba Fett does make an appearance in The Bad Batch season 2, that could mean a return for Daniel Logan, who played the young version of the bounty hunter in both Attack of the Clones and The Clone Wars.

As for the Imperials, its likely Stephen Stanton will crop up again as future Grand Moff Tarkin. A Palpatine cameo, meanwhile, would probably prompt the return of Sam Witwer, who voiced the character in Rebels and later episodes of The Clone Wars as well as playing Darth Maul. (While Ian McDiarmid reprised his live-action role as Palpatine in the first episode of The Bad Batch, the scene was lifted from his performance in Revenge of the Sith.)

Part of the fun with any of the Star Wars animated shows, however, is listening out for big-name actors cropping up in the soundtrack, whether theyre Star Wars legends (Billy Dee Williams appeared as Lando in Star Wars Rebels), or simply fans of the franchise (Simon Pegg cropped up as bounty hunter Dengar in The Clone Wars). The Bad Batchs first season featured a cameo from Fleabags Sian Clifford as a protocol droid.

Behind the camera, the principal production team remains largely unchanged, with Jennifer Corbett as lead writer, Brad Rau as supervising director, and Dave Filoni (a veteran of The Clone Wars and Rebels, the creator of The Bad Batch, and Lucasfilms executive creative director) serving as executive producer.

Today's best Disney Plus deals

Read more from the original source:

The Bad Batch season 2: everything we know so far - TechRadar

Cloning the investment portfolio of a star fund manager? Stay disciplined to succeed – Moneycontrol.com

James (Jim) OShaughnessy is a renowned investor, author and Chairman of OShaughnessy Asset Management. He is well-known for his book What Works on Wall Street. It was one of the first investment books I read when I started my career. However, what I found most interesting about his achievements was the research he published in his first book Invest like the best.

In 1987, Jim worked as a consultant for various pension funds. During this stint, he studied the performance and portfolios of seven separate pension funds in detail. He profiled the fund managers based on their strategy and the factors they used to make investment decisions. Using this information, he prepared a set of rules that would mirror the strategy of these fund managers in essence, a clone portfolio.

In a years time, when he evaluated the performance of the clone portfolios vis--vis those of the fund managers (that were being cloned), he found something very interesting. All the clone portfolios were beating their fund managers in terms of returns!

He repeated the performance evaluation after a few time intervals, and yet the story remained the same. What was the reason for this difference? After all, the clone portfolios were merely trying to mimic the fund managers strategy. The difference was: discipline. The clones followed the rules of buying and selling exactly as per the strategy, but the fund managers deviated periodically.

There are many studies done in the past to understand the superior returns generated by certain investors over the long term. These super-investors have different strategies and investment styles. But they have one characteristic in common discipline. The case is the same in short-term investing styles too. Jack Schwager who has written some impressive books under the Market Wizards series says, When I asked the Market Wizards what differentiated them from the majority of traders, the most common reply I got was discipline. Success in investing is like going on a diet plan: one can learn and draw up a fantastic, high-return, proven strategy on paper. But it counts for nothing unless followed with discipline.

Your key competitor tries to beat you on discipline

Most of us compare our performance against a broad-based generic benchmark. That is the measurement of our opportunity cost and that is the competition we try to beat. How does this competitor of ours invest? Most of these indices consider market capitalization (size, based on total or free float), liquidity (generally in trading frequency and impact cost), listing history, profitability criteria and any other country-specific restriction. The companies are selected based on specified criteria that are followed by a formula-based weight allocation strategy, which is reviewed on specific periods of time. This competitor neither looks at any economic forecasts nor understands the business it is investing in.

But this competitor beats many fund managers mainly on discipline (without performance pressure!). It follows its path without worrying about what others are doing.

Need to be disciplined through the cycle

There are many different strategies, factors and styles that investors adopt to beat the market. Some of them dont work at all. But, of the ones that do work, none click all the time. Each one has a phase of underperformance. Many super-investors have undergone painful underperformance for a long period of time. However, they have generated superior returns over a longer run because they stuck to their philosophies and did not switch their styles during downturns.

Markets have cycles of booms and busts. And so do investment styles. If investors give up discipline and succumb to emotional pressures, the resultant inconsistency in decision-making will often lead to poor returns. Changes in the core philosophy also impact predictability of future performance. When an investor changes the style, for example, from value to momentum, the past performance becomes irrelevant in determining future expectations. The pressure to change is highest at the lowest point of underperformance. Abandoning a good investment approach during this time may lead to a lack of participation in the rally and, in a worse scenario, positions one in a downcycle of the new approach.

Clone yourself

In investing, you have to deal with complexity and uncertainty. But that doesnt mean you need be extra clever and think out of the box every day. Once a good, time-tested and profitable, investment approach or style is identified, one has to focus on executing it well. This approach or style can have multiple factors or combination of variables.

For example, in The Little Book that beats the Market, Joel Greenblatt speaks about the Magic Formula that combines two factors: a) business quality (Return on Capital) with b) value (Earnings yield). He shows how this simple formula delivers good index-beating returns to investors over the long term. But he also highlights that the challenge is to stick with a formula during the times it underperforms so that you dont miss out on the years that it delivers superior returns.

Once you identify a successful way of investing, clone yourself. Like James OShaughnessy did for the pension fund managers, make investment rules such that some decisions are automatic. Make an algorithm out of your secret sauce of success. This clone will keep you disciplined.

This clone should help you make the success repeatable. The algorithm should run the regular steps in the process like you would, but it should do it automatically with defined rules. For instance, steps such as:

-Screening the investment universe for the characteristics that qualify for your investment approach (Screeners)

-Ensuring that important data and analytical steps are being followed (Investment checklist)

-Undertake scenario analysis through external as well as internal estimates (Bull-Base-Bear Cases with probabilities)

-Design an ideal portfolio allocation based on probabilities and payoff with other risk limits or criteria (Allocation formula or program)

Here is the original post:

Cloning the investment portfolio of a star fund manager? Stay disciplined to succeed - Moneycontrol.com

Clones planted from last surviving Gilfillan Farm apple tree in USC – Observer-Reporter

During the Great Depression, as the story goes, residents of the nearby Beadling neighborhood would walk through Upper St. Clairs Gilfillan Farm on their way to various destinations.

They came to the Gilfillans and said, Hey, can we pick up all of the apples that have fallen onto the ground? family scion Rachel Carlson said. And Margaret supposedly told them, Take as may apples as you want. But if we ever find that you were selling the apples, thats a different story.

Harry Funk/The Almanac

Rachel Carlson tells a Depression-era apple story.

Apparently, neither Margaret Gilfillan nor her housemate brothers ever heard anything of the sort.

That entire winter, the Beadling community lived off of apple everything, Carlson said.

Today, Gilfillan fruit isnt feeding anyone. Remaining from an orchard of 60 or so apple trees in the 1930s is just a single sad-looking specimen, bent significantly toward one side with a hollowed-out trunk on the other.

But thanks to the efforts of a self-professed apple geek, up to 15 new trees could be on the way.

Harry Funk/The Almanac

Stainless-steel grafting knife

Chris Kubiak, director of education for the Audubon Society of Western Pennsylvania, visited Upper St. Clair on an unseasonably warm spring afternoon to start the process while demonstrating grafting techniques for several observers, including students from local schools.

His mission is to produce what effectively are clones of the sole survivor to grow on the farms remaining 15 acres, owned by the Historical Society of Upper St. Clair, for which Carlson serves as president.

Using a seriously sharp stainless-steel knife made especially for grafting, Kubiak showed how to attach budding branches from the apple tree to rootstock, the part that is planted.

This is actually a specialized skill, he said. I taught myself how to do this, but it was a lot of trial and error. Its way easier to put a seed in the ground, put a fence around it and forget about it.

Harry Funk/The Almanac

Chris Kubiak shows an example of a cleft graft, with a piece of the Gilfillan Farm apple tree placed in the middle of the rootstick limb.

Seedling apples, though, represent an example of extreme heterozygosity, basically meaning they inherit none of the DNA from their parent trees.

Every single apple seed in this tree would be a new variety, each seed, completely different, Kubiak said, and that applies to seeds everywhere.

When you go to the store and buy apples, youre essentially having cloned apples from that original, he said. Macintosh grew one time, and that was in Ontario. People liked it enough that theyve been cloning it. So every single apple comes from that original tree.

Harry Funk/The Almanac

Harry Funk/The Almanac

Three clones are ready for planting.

His deep-seated interest in apples extends to other facets of the fruits history, such as its use primarily for making hard cider everyone drank it, including the under-21 crowd during the United States formative years.

And he likes to debunk the myth of John Chapmans alter ego, Johnny Appleseed, as some kind of altruistic spreader of botanical goodwill. According to Kubiak, Chapman was a businessman capitalizing on a certain requirement associated with 19th-century land grants.

To prove that you were going to stay, and you werent just some squatter or someone taking advantage of someone who owned the property, you had to plant apple trees or fruit trees, Kubiak said. He knew if he went out ahead of where a settlement was, he could make money on people who had to prove that they were settling and staying.

Regarding the history of the last Gilfillan apple tree, Kubiak estimated it to be about 120 years old and explained the probable cause of its disheveled appearance.

Apples and some other trees, when they get really old, they rot from the inside, because the only thing alive is a skinny layer called the cambium, he said, and that layer surrounds the woody cellulose, which makes up the bulk. The living frame is around the bones. Think of it that way.

And regarding the newly grafted clones, Kubiak plans to return in the summer to make sure theyre doing OK, just as any apple geek would.

Courtesey of Pennsylvania Imagery Navigator

Gilfillan property, 1939

Courtesy of Pennsylvania Imagery Navigator

Lone apple tree, 2019

More here:

Clones planted from last surviving Gilfillan Farm apple tree in USC - Observer-Reporter

OnePlus Watch cloned Wear OS but made it so much worse [Video] – 9to5Google

After years of its loyal community asking for a smartwatch, OnePlus has finally delivered with its $159 OnePlus Watch. We have a full review of the new product in the works, but in the several days Ive spent so far with the OnePlus Watch, theres been one major standout in the software; thats not a good thing.

They say imitation is the sincerest form of flattery, and from the looks of it, OnePlus really likes what Google has done with Wear OS.

The software that ships on the OnePlus Watch is about as close as you can get to a 1-to-1 clone of Googles platform. That starts with the navigation. From the watchface, a swipe down reveals the quick settings menu, looking nearly identical to its Wear OS counterpart, albeit with some different functions. A swipe up from the watchface shows your notifications, which, again, look identical to how they do on Googles platform. To the right of the watchface, you have cards for options such as workouts, weather, music, and more.

The similarities continue from there. When switching watchfaces or adding cards, the design is blatantly identical to the same functions on Wear OS. The app drawer also looks the same and rotates around in the same way. The only thing OnePlus doesnt have is a left-most screen, which on Wear OS is a Google Assistant page.

Unlike Wear OS, though, the software on OnePlus Watch doesnt feel as modern. Animations dont exist, and little touches that improve how these functions work on Wear OS are gone as well. For example, notifications lack the ability to reply, to open on your phone, and to show any media previews. In the app drawer, you cant pin apps to the top. These are minor things, but they make the experience a little better.

I could go on about the similarities, but looking at them side-by-side tells the whole story. Take a look.

OnePlus makes its software a point of pride, which is why I was shocked at just how many major flaws I found with the Watch. Here are some of the examples Ive found so far.

The first flaw appears during setup. Pairing is remarkably quick, but the OnePlus Health app is messy. During setup, youre asked to put in your gender and birthday, but the icons for genders are unnecessarily confusing. Thats minor compared to the rest, though. I had to install a system update on my Watch after unboxing it, and during that process, the Watch switched from English back to Chinese. It was confusing!

After setup is complete, the app also shows a Device Connected notification 24/7, and by default, its set to Important priority. Theres no way to turn this notification off from within the settings of the app. You can set it to Silent priority, which keeps it at the bottom of your notifications, but it doesnt remove the icon from appearing in the Android status bar at all times. Its obvious that this is being used to keep the app in system memory. OnePlus also pushes users to change battery optimization of the app through a clunky instruction pop-up, not a shortcut, which is possible. The app even asks you to lock it to the system memory if youre on a OnePlus smartphone.

This is a problem Android solved years ago, so why is OnePlus putting users through so much work? The company says it fixed background app issues on OxygenOS, but this sends a message to the contrary.

A core problem I had with the OnePlus comes down to using it as a watch. Inexcusably, OnePlus doesnt offer an option to use a 12-hour option for time, something users in the United States absolutely need. Its mind-boggling that during the development time for this product, no one thought to include this option, but at the very least, OnePlus tells us the option will be included in an update shortly after launch.

Another legitimately hilarious issue is with the health tracking app. As with any fitness tracking wearable, youll set a daily step goal and a notification appears when you hit it. Honestly, the picture just speaks for itself in this instance.

This all begs the question. If youre going to go through the effort of cloning Wear OS so effectively, why not just use it in the first place? The answer, obviously, comes down to two things. First, battery life. OnePlus said as much before launch, and even under the best-case scenario, the OnePlus Watch could only manage about two days of battery life using Googles platform. Without it, they claim up to two weeks. Thats a figure Ive not had time to test based on the embargo times were holding our full review until weve successfully killed the battery but seems doable based on what Ive seen so far.After nearly five days, Im at 63% charge.

The second reason is cost. The chips powering the OnePlus Watch are significantly less powerful and, thereby, more affordable than Qualcomms Snapdragon Wear chips. Its pretty safe to say that this would be a considerably more expensive product if it were using Wear OS. At the very least, it almost certainly wouldnt be $159.

Well have a full review of the OnePlus Watch soon to talk about battery life, health tracking, and more soon. Sales open today from OnePlus.com. Drop a comment below and let us know if the software weve detailed today is a deal-breaker for you.

FTC: We use income earning auto affiliate links. More.

Check out 9to5Google on YouTube for more news:

Read the original here:

OnePlus Watch cloned Wear OS but made it so much worse [Video] - 9to5Google

Clones planted from last surviving Gilfillan Farm apple tree in Upper St. Clair – The Almanac

During the Great Depression, as the story goes, residents of the nearby Beadling neighborhood would walk through Upper St. Clairs Gilfillan Farm on their way to various destinations.

They came to the Gilfillans and said, Hey, can we pick up all of the apples that have fallen onto the ground? family scion Rachel Carlson said. And Margaret supposedly told them, Take as may apples as you want. But if we ever find that you were selling the apples, thats a different story.

Rachel Carlson tells a Depression-era apple story.

Apparently, neither Margaret Gilfillan nor her housemate brothers ever heard anything of the sort.

That entire winter, the Beadling community lived off of apple everything, Carlson said.

Today, Gilfillan fruit isnt feeding anyone. Remaining from an orchard of 60 or so apple trees in the 1930s is just a single sad-looking specimen, bent significantly toward one side with a hollowed-out trunk on the other.

But thanks to the efforts of a self-professed apple geek, up to 15 new trees could be on the way.

Stainless-steel grafting knife

Chris Kubiak, director of education for the Audubon Society of Western Pennsylvania, visited Upper St. Clair on an unseasonably warm spring afternoon to start the process while demonstrating grafting techniques for several observers, including students from local schools.

His mission is to produce what effectively are clones of the sole survivor to grow on the farms remaining 15 acres, owned by the Historical Society of Upper St. Clair, for which Carlson serves as president.

Using a seriously sharp stainless-steel knife made especially for grafting, Kubiak showed how to attach budding branches from the apple tree to rootstock, the part that is planted.

This is actually a specialized skill, he said. I taught myself how to do this, but it was a lot of trial and error. Its way easier to put a seed in the ground, put a fence around it and forget about it.

Chris Kubiak shows an example of a cleft graft, with a piece of the Gilfillan Farm apple tree placed in the middle of the rootstick limb.

Seedling apples, though, represent an example of extreme heterozygosity, basically meaning they inherit none of the DNA from their parent trees.

Every single apple seed in this tree would be a new variety, each seed, completely different, Kubiak said, and that applies to seeds everywhere.

When you go to the store and buy apples, youre essentially having cloned apples from that original, he said. Macintosh grew one time, and that was in Ontario. People liked it enough that theyve been cloning it. So every single apple comes from that original tree.

Harry Funk/The Almanac

Three clones are ready for planting.

His deep-seated interest in apples extends to other facets of the fruits history, such as its use primarily for making hard cider everyone drank it, including the under-21 crowd during the United States formative years.

And he likes to debunk the myth of John Chapmans alter ego, Johnny Appleseed, as some kind of altruistic spreader of botanical goodwill. According to Kubiak, Chapman was a businessman capitalizing on a certain requirement associated with 19th-century land grants.

To prove that you were going to stay, and you werent just some squatter or someone taking advantage of someone who owned the property, you had to plant apple trees or fruit trees, Kubiak said. He knew if he went out ahead of where a settlement was, he could make money on people who had to prove that they were settling and staying.

Regarding the history of the last Gilfillan apple tree, Kubiak estimated it to be about 120 years old and explained the probable cause of its disheveled appearance.

Apples and some other trees, when they get really old, they rot from the inside, because the only thing alive is a skinny layer called the cambium, he said, and that layer surrounds the woody cellulose, which makes up the bulk. The living frame is around the bones. Think of it that way.

And regarding the newly grafted clones, Kubiak plans to return in the summer to make sure theyre doing OK, just as any apple geek would.

Gilfillan property, 1939 (Pennsylvania Imagery Navigator)

Lone apple tree, 2019 (Pennsylvania Imagery Navigator)

See the article here:

Clones planted from last surviving Gilfillan Farm apple tree in Upper St. Clair - The Almanac

Voice Cloning Market Competitive Landscape and Recent Industry Development Analysis 2021-2025| International Business Corporation, Google, Inc.,…

The report on the global Voice Cloning Market helps the emerging players by offering information about the approaching market prospects and give figures on improvement rate and market share. Further, it contains scraps of information concerning the monstrous affiliations that have a brief effect considering the occasions occurring in the global Voice Cloning Market. The literature gives upper hand to the emerging players and the investors who are planning to invest their money in the recent trends following the market. It offers high different freedoms to the gigantic business players that are pondering entering the market. Additionally, the report on global Voice Cloning Market contains evaluation of connection portfolio and products that the customers are implying for nearby the progressions in the products. There are speculations made by the business experts subject to these events and happenings and states the opportunity of movement a couple of markets across zones reliant on various topographies and segments additionally as sub segments like production range, application scene and others.

Some of the Important and Key Players of the Global Voice Cloning Market: International Business Corporation, Google, Inc., Lyrebird, Nuance Communication, Baidu, Microsoft Corporation, Amazon Web Services, AT&T Inc., Smartbox Assistive Technology, and Acapela Group.

Further, it contains evaluation of the past and current industry data to find out trends and patterns that have existed in the business space and finds ways to use that data to create future opportunities for the newly emerging industry players in the coming years. The document predicts insights about the growth rate of the Voice Cloning Market overall along with the segmental and regional growth rate of the industry space over the analysis time frame. Also, it gives major data based on statistics and numbers regarding the industry share, competitive spectrum, production patterns, losses made by the companies, and several others.

It contains a complete outlook on the industry supply chain spectrum and offers highlights about the production houses and manufacturing units of the key players that play an important role in the business space. Further, the record makes reference to experiences about the rising pandemic of Covid-19 which fiscally impacts the business space. The Voice Cloning Market report further states about the extended length and smart effect of this global emergency and embraces approaches to manage administer it and affirmation benefits soon by keeping up authenticity over the tricky occasions.

Voice Cloning Market Segmentation

Type Analysis of Voice Cloning Market: By Component (Solutions, and Components), Deployment (On-Premise, and Cloud), Industry Vertical (BFSI, Healthcare, IT & Telecommunication, Travel & Hospitality, Media & Entertainment and Others)

Applications Analysis of Voice Cloning Market: NA

Also, it gives an idea about the feasibility study of the new projects that are been taken up by the major companies or by the emerging players in this business space. Also it offers the raw data in various easily readable forms such as graphs, pie charts, bar graphs, tables and other formats which are easily readable by the reader.

Key questions answered in this report:

1. What will the market size be in 2027and what will the growth rate be?

2. What are the key market trends?

3. What is driving this market?

4. What are the challenges to market growth?

5. Who are the key vendors in this market space?

6. What are the market opportunities and threats faced by the key vendors?

7. What are the strengths and weaknesses of the key vendors?

Report Investment: Top 5 Reasons

1. The Voice Cloning Market report entails multi-faceted information pertaining to diverse timelines across historical and current scenarios to influence future ready business decisions

2. The report categorizes new business avenues and novel opportunities thus allowing players to redesign and generate novel growth models.

3. The report delivers novel growth strategies thus allowing market investors to divert investments across novel fronts

4. The report also allows market participants to identify and practice new growth strategies thus invoking ample profits across various segments and sub-segments.

5. The report is a highly reliable investment guide to identify new trends in the market and encouraging market players to align with these trends in delivering optimistic growth outcome despite neck-deep competition.

6. The Voice Cloning Market report also shares vital aspects on COVID-19 outbreak and eventual pandemic management.

About Us

Adroit Market Research is an India-based business analytics and consulting company incorporated in 2018. Our target audience is a wide range of corporations, manufacturing companies, product/technology development institutions and industry associations that require understanding of a markets size, key trends, participants and future outlook of an industry. We intend to become our clients knowledge partner and provide them with valuable market insights to help create opportunities that increase their revenues. We follow a code Explore, Learn and Transform. At our core, we are curious people who love to identify and understand industry patterns, create an insightful study around our findings and churn out money-making roadmaps.

Contact Us:

Ryan Johnson

Account Manager Global

3131 McKinney Ave Ste 600, Dallas,

TX75204, U.S.A.

Phone No.: USA: +1 210-667-2421/ +91 9665341414

https://neighborwebsj.com/

The rest is here:

Voice Cloning Market Competitive Landscape and Recent Industry Development Analysis 2021-2025| International Business Corporation, Google, Inc.,...

The real reason we still haven’t cloned humans – Business Insider

Following is a transcript of the video.

Narrator: We've been able to clone human embryos for about seven years. But as far as we know, no one's actually cloned a whole person. Turns out, ethics aren't the only thing holding scientists back. Cloning isn't the sci-fi marvel we think it is. It can be dangerous, often ineffective, and, most of all, we just haven't thought of a good enough reason to do it. So, here's why you'll probably never have to fight your evil clone.

This is Dolly. Just kidding, that's a regular sheep. This is Dolly, the first mammal cloned successfully from an adult cell. She was born in 1996 after scientists figured out how to remove the DNA from the egg cell of a Scottish Blackface sheep and basically replace it with the DNA of a mammary cell from a Finn Dorset sheep. They gave it a little electric shock to fuse the cell and get it replicating, placed the cells in the uterus of another sheep, and boom, clone. This method, called reproductive cloning, could theoretically be used on humans. But this is a best-case scenario. It took 277 tries for the scientists to get one Dolly. Nowadays, cloning mammals generally has a success rate of about 10% to 20%. Better than one in 277, but still a majorly inefficient process.

Jose Cibelli: Technically, it's not difficult to produce a clone embryo, but human cloning has other hurdles that need to be considered.

Narrator: To even research human cloning, scientists would need to ethically collect a large amount of donated eggs and find enough surrogates to carry them. But even if they made it through that logistical nightmare, the biggest issue is this:

Cibelli: They're gonna hurt the baby, or they're gonna hurt the person carrying the cloned fetus.

Narrator: Across the board, scientists have found that some embryos expire before they're implanted. Others result in miscarriages. And those that make it to term often die soon after birth or end up with severe abnormalities. Simply, these are risks that are easier to take when it comes to experimenting with sheep than with people. But arguably the biggest reason we haven't cloned a human being? There's not a good enough reason to.

In pop culture, cloning is used to bring people back from the dead. But that's not how it works. Cloning someone would only create a twin, not a replica, since identical twins have the same genetics, but not necessarily personalities. And a "Never Let Me Go" scenario, where organs are harvested from clones to save the rich, is not only unethical, but unnecessary. Why clone an entire person when you can just make the part you need? Something, theoretically, therapeutic cloning can solve.

Therapeutic cloning is almost identical to reproductive, except the cloned embryo is never implanted in a uterus. Instead, the embryo is cloned for the sole purpose of extracting stem cells. Stem cells have the incredible ability to turn into any other cell in the human body, which means they're great for developing new treatments for disease and have the potential to repair or regenerate tissues and organs.

But, no surprise, there are a lot of downsides with therapeutic cloning. The thing about stem cells is that they're a pretty limited resource. The most substantial source for embryonic stem cells? Three- to five-day-old embryos, cloned or otherwise. And when someone else's stem cells are transplanted into a patient, the body will sometimes fight them off like a disease. Some researchers believe that cloned stem cells, since they share the patient's DNA, would be less likely to be rejected. But this use case is still in the research stage.

And, finally, therapeutic cloning is an individualized treatment in a world where drug companies are more interested in standardized ones. And there are easier ways to create multipurpose cells nowadays, like the method for creating induced pluripotent stem cells. They're basically adult cells that have been reprogrammed to be a different type of cell.

Cibelli: The problem with therapeutic cloning, of course, is that you need a lab personnel that is qualified to do it, specific equipment to do it. Whereas the other technique, you can just buy a kit and one person can do it in a lab that has some expertise in tissue culture.

Narrator: Cloned cells still have an advantage when it comes to healthier mitochondria and the ability to grow into entire animals, whereas iPSCs often peter out. But since iPSCs safely and reliably do most everything but create entire living animals, why fund the harder, ethically ambiguous thing? So, cloning might actually have a bigger place in movies than it does in real life, because the money just isn't there. And just because we can do something doesn't mean we need to.

Ian: Your scientists were so preoccupied with whether or not they could, they didn't stop to think if they should.

Abby Tang: So, in the research for this video, I did come across one very interesting tidbit, and that is the announcement of cloned human baby Eve, who was born on December 26, 2002. And the source of this announcement is a company called Clonaid, which was formed in 1997 by the Raelian cult. And they're a cult that believes that humans were cloned from aliens and the only way for us to reach immortality is to clone ourselves. It's been 18 years, and we haven't gotten any proof that baby Eve exists or has ever existed, but the company is still alive and well. So if any proof does come through, we will update you.

EDITOR'S NOTE: This video was originally published in July 2020.

See the article here:

The real reason we still haven't cloned humans - Business Insider

Why Star Wars Overlooked The Real Power Behind The Clone Wars – Screen Rant

Thanks in part to Star Wars' infamous aversion to the economy, the true power behind the Clone Wars is frequently overlooked, despite its key role.

The Clone Wars is one of the most epic Star Wars conflicts, but little has been said about the true power behind the struggle, the corporations such as the InterGalactic Banking Clan, and other powerful trade guilds. After all, waging war without the financial might of these organizations would be a tricky business. The Grand Army of the Republic cannot march on an empty stomachand nor are the Separatist battle droids made of thin air. Why then, is the economics of the Clone Wars as mysterious as the ways of the Force?

The economic side of the conflict is vaguely mentioned in the prequels, where scarce references to financial entanglements interchange with lightsaber fights and space battles. Some of the principal players in the Clone Wars are great economic powerhouses such as the Trade Federation, or the InterGalactic Banking Clan. The Trade Federations blockade of Naboo that kicks off the story is a result of the trade dispute. Cloning technology that provides a much-needed army for the Republic is both complex and costly. And after the war breaks out, someone has to supply weapons and the credits to both sides for three years of its duration.

Related:Star Wars: Clone Wars Cut Out Last Jedi Parallels

Yet, this important aspect of the story is almost entirely overlooked in the films. Why? The answer could be the Star WARS itself. Taxation, embargoes, or logistics are hardly the most important topics in a space fantasy focused on action and adventure. Additionally, there is a matter of a relatively cold reception of Star Wars: Episode I The Phantom Menace, which tried to introduce economics into the franchise. Similarly, its sequel, Star Wars: Episode II Attack of the Clones elevated politics over human drama, to the disappointment of many fans.

From a certain point of view, Star Wars was always a series of fables: a modern myth filled with different allegories and allusions. It does not come as a surprise that George Lucas continued this trend with the prequels, inserting the messages he deemed relevant for the time. The Republic falls from within, because of widespread corruption, predatory lending, war-profiteering, and similar actions capitalized upon by ambitious or greedy leaders to gain political and economic power. The Clone Wars is just a sideshow, which not only undermines the Republic but also draws everyones attention away from Darth Sidious' machinations. Although undoubtedly important for the story, economic elements are poorly presented in the films. The result is a convoluted and unclear message that led to disappointment.

Thus, it comes as a surprise that The Clone Wars series decided to tackle this less known, but quite important element of the conflict. Admittedly, it is not much, but it provides a valuable perspective on the internal economic, and political machinations of the principal corporations and gives a better explanation of the Republics fall. It is revealed that the neutrality of the InterGalactic Banking Clan and its financial support for both the Republic and Separatist cause made it even more powerful, resulting in its de-facto independence. As such, the Banking Clan became an essential element in Darth Sidious' grand plan to undermine the Republic through the covert actions of his agent Count Dooku. When the time arrived for Sidious to take the power, the organization and its leaders were sacrificed, the assets seized by the Republic, with Palpatine taking personal control over the banks. All of Lucass messages are present in the series, onlyhere they are better presented, enriching the story. However, even here the economic element is not exploited well, and due to the nature of the animated series, its presentation is still simplified.

Star Wars is not a story about economics, butit would be wrong to disregard it given its importance. The financial struggle behind the war is a good example of an overlooked element in the franchise that plays an integral part in its worldbuilding. The Clone Wars were primarily a military conflict, but under the surface, influential commercial organizations vied for power, unknowingly supporting sinister individuals, who eventually brought forth the new order. The Clone Wars are over, but the Star Wars Galaxy is always on the verge of conflict, and the story could profit from exploring the economics in the right way.

More: Star Wars: Clone Wars Changes Meaning Of Attack of the Clones Separatist Scene

Sony's Resident Evil Reboot Movie Gets September Release Date

See the original post:

Why Star Wars Overlooked The Real Power Behind The Clone Wars - Screen Rant

Primary Benefits of Disk Cloning – Latin Post

Disk cloning is a method of copying the entire contents of a hard drive onto another drive. There are a number of reasons to do this, ranging from simple data backup to the deployment of identical operating systems across multiple devices, but the outcome is always the same: a verbatim, one-to-one copy of the drive in question.

It's a rather straightforward process and, for the most part, it's a process that is completed automatically once it has been started. The standard disk cloning process could take some time, depending on the size of the disk in question, but it doesn't require user intervention once it's begun. You can simply begin the disk cloning and move onto other tasks in the meantime.

But this isn't the only benefit to disk cloning. In fact, there are a myriad of advantages associated with disk cloning that aren't necessarily seen in other methods of data backup.

#1: Receive a complete and comprehensive backup of your data. The first and most obvious benefit is that you'll have a full backup of all your data - including system files, installation files, temporary Internet files, personal documents, and more. Most backup methods intentionally skip certain files to save time and hard drive space.

#2: Disk cloning allows you to easily transfer your data to another device. In the case of an internal disk, the new drive can easily be installed into another computer once the cloning process has completed. With an external drive, simply plug the device into another computer for immediate access to the data. You'll even be able to boot from your new drive - as long as the old one was bootable to begin with.

#3: Easy disaster recovery. Disk cloning makes it easy to recover from an unexpected data disaster, especially when the incident is the result of a failing hard drive. As long as you maintain an up-to-date clone on a separate drive, you can simply install the new drive in your computer as a replacement for your failed hardware. Just make sure to make a new backup drive as soon as possible, so you'll be able to avoid any future data loss. If necessary, disk cloning even makes it easy to maintain multiple backup drives.

#4: Restore individual files and folders. You'll even be able to select individual files and folders to restore during a data recovery process, which could greatly reduce the amount of time it takes to get your system back up and running at full capacity. The ability to restore individual files and folders isn't a luxury with some other backup methods - like disk imaging, for example.

#5: Deploy an identical system on multiple devices. System deployment is one of the most common applications for disk cloning. Not only can clones be created and installed into new machines as necessary, but a single clone copied to an external hard drive can be cloned to hard drives that are already installed in computers and servers. This level of flexibility isn't always available with some of the other backup methods available today.

More here:

Primary Benefits of Disk Cloning - Latin Post

Hard Drive Cloning Software Market Trends, Cost Structure Analysis, Growth Opportunities And Forecast To 2026 NeighborWebSJ – NeighborWebSJ

A recent Updated study on the Global Hard Drive Cloning Software Market evaluates many aspects of the industry like the size, market status, key trends, and forecast 2026. the report also delivers brief information on the competitors and provides growth opportunities with key market drivers. Market segmentation by companies, region, and type is an integral part of this report. Historical data available in the report supports the Hard Drive Cloning Software Market development on a country level, regional and global. Based on these versatile information sets, market players in Hard Drive Cloning Software Industry can effectively deliver beneficial business decisions.

Global Hard Drive Cloning Software Market Report Highlights:

Request for a sample copy of the Hard Drive Cloning Software report with Figures, Graphs and Tocs: https://www.in4research.com/sample-request/18597

The Hard Drive Cloning Software report specifically highlights the market share, company profiles, regional outlook, product portfolio, a record of the recent developments, strategic analysis, key players in the market, sales, distribution chain, manufacturing, production, new market entrants as well as existing market players, advertising, brand value, popular products, demand and supply, and other important factors related to the market to help the new entrants understand the market scenario better.

Major Key Players Covered in Report are:

Hard Drive Cloning Software Market Segmentation by Type:

Hard Drive Cloning Software Market Segmentation by Application:

Hard Drive Cloning Software Market Segmentation by Region:

If you require more customization, Connect with us at https://www.in4research.com/customization/18597

Analysis of Drivers, Restraints, Opportunities, and Trends of Hard Drive Cloning Software Market:

Drivers:

The Hard Drive Cloning Software market report in this section identifies dominant market drivers and favorable trends that leverage high-end growth, peculiar to the usual growth trajectory. The report in this section also unearths eminent demand possibility and customer inclination towards product and service consumption, thus effectively deciding growth prognosis across the timeline.

Restraints:

The Hard Drive Cloning Software market report also carefully identifies various restraining factors operational in the market and their limitations which directly interfere with the usual growth spurt.

Opportunities:

The following sections of the report evaluate the potential of existing Hard Drive Cloning Software market opportunities in growth diversification, besides also unraveling new avenues that further enhance growth likelihood.

Trend Estimation:

Relentless market developments and novelties also augment the growth route in several desirable ways that also reflect growth stability and sustainability in the forthcoming years.

In the last section of the report, the companies responsible for increasing the sales in the Hard Drive Cloning Software Market have been presented. These companies have been analyzed in terms of their manufacturing base, basic information, and competitors. In addition, the application and product type introduced by each of these companies also form a key part of this section of the report. The recent enhancements that took place in the global Hard Drive Cloning Software market and their influence on the future growth of the market have also been presented through this study.

Buy Exclusive Report at https://www.in4research.com/buy-now/18597

Key Answers Captured in Hard Drive Cloning Software Study are

For More Details Contact Us:

Contact Name: Rohan

Email: [emailprotected]

Phone: +1 (407) 768-2028

https://neighborwebsj.com/

See the original post here:

Hard Drive Cloning Software Market Trends, Cost Structure Analysis, Growth Opportunities And Forecast To 2026 NeighborWebSJ - NeighborWebSJ

Police helicopter helps chase down cloned Audi which sped off from police in Pudsey – Yorkshire Evening Post

The cloned Audi failed to stop for police in the Pudsey area, according to West Yorkshire Police's Roads Policing Unit (RPU).

The National Police Air Service (NPAS) helicopter for the north-east helped officers on the ground track the car.

The driver tried to run off but was chased by police and arrested for several offences, including drug driving.

A tweet from the RPU account on Wednesday, January 27, said: "Cloned Audi failed to stop for us in the Pudsey area. Driver detained and arrested for numerous offences including drug driving. Thanks to NPAS North East Region for their assistance."

The NPAS tweeted: "NPAS 82 assisted with the below job in Leeds this afternoon, great team effort to all involved, the two cops out and running would have given West Yorkshire Police dogs a run for their money."

What is car cloning? A guide from the RAC:

Car cloning is an illegal practice whereby criminals steal the identity of a legally registered vehicle and use it to hide the identity of a stolen or salvaged vehicle, which is often similar in model and appearance.

Criminals then either attempt to sell the cloned vehicle or use it to carry out further crimes, ranging from motoring offences like speeding and parking illegally, to more serious crimes like ram-raiding and hit and runs.

If the cloned car is caught breaking the law, or involved in unlawful activity, these offences will often be attributed to the owner of the car that has been cloned.

How does car cloning work?

In order to clone a vehicle and hide the identity of a stolen or salvaged car, criminals either steal the number plates off a legally registered vehicle or, more commonly, have fake plates illegally produced.

These illegal plates are then attached to the stolen vehicle, meaning there are two vehicles with identical number plates on the road at the same time one legal and the other illegally cloned.

If criminals try to sell the cloned car on to unsuspecting motorists, they may also produce fake car registration documents, such as the V5C Logbook, and could even alter the cars Vehicle Identification Number (VIN).

On occasion, it can be almost impossible to tell if a vehicle has been cloned, especially if its VIN has been skillfully altered in each location.

What is a Vehicle Identification Number?

A VIN is a 17-digit number that identifies one specific vehicle, acting as a vehicles fingerprint because no two vehicles are produced with the same VIN.

A cars VIN displays unique details of the vehicle, including the manufacturer and other specifications, and can be used to track all registrations, warranty claims, thefts and insurance policies taken out against the vehicle in question.

The VIN can be found on a metal plate under the bonnet, on the dashboard of the vehicle and drivers door post and the number should always match the VIN in the vehicle title, V5C logbook and insurance premium.

How do I know if my cars been cloned?

Unfortunately, unless your number plates have been physically stolen from your vehicle, you might have no idea your cars been cloned until you receive a Penalty Charge Notice or fine for a motoring offence you didnt commit.

In more serious circumstances, you might even be visited by the police if the cloned vehicle has been involved in a serious crime and the authorities believe youre responsible.

What should I do if I think my cars been cloned?

If youre being accused of offences you havent committed and are worried your cars been cloned, the first thing you should do is contact the organisation issuing the fines and explain your situation to stop them from pursuing the case.

Next, you should contact both the police and Driver and Vehicle Licensing Agency (DVLA) and tell them you think your number plate has been cloned, providing them with all the relevant information you can.

Support the YEP and become a subscriber today. Enjoy unlimited access to local news and the latest on Leeds United, With a digital subscription, you see fewer ads, enjoy faster load times, and get access to exclusive newsletters and content. Click here to subscribe.

Originally posted here:

Police helicopter helps chase down cloned Audi which sped off from police in Pudsey - Yorkshire Evening Post

Cloning – Wikipedia

Process of producing genetically identical individuals of an organism

Cloning is the process of producing individuals with identical or virtually identical DNA, either naturally or artificially. In nature, many organisms produce clones through asexual reproduction. Cloning in biotechnology refers to the process of creating clones of organisms or copies of cells or DNA fragments (molecular cloning).

The term clone, coined by Herbert J. Webber, is derived from the Ancient Greek word kln, "twig", referring to the process whereby a new plant can be created from a twig. In botany, the term lusus was traditionally used.[1] In horticulture, the spelling clon was used until the twentieth century; the final e came into use to indicate the vowel is a "long o" instead of a "short o".[2][3] Since the term entered the popular lexicon in a more general context, the spelling clone has been used exclusively.

Cloning is a natural form of reproduction that has allowed life forms to spread for hundreds of millions of years. It is the reproduction method used by plants, fungi, and bacteria, and is also the way that clonal colonies reproduce themselves.[4][5] Examples of these organisms include blueberry plants, hazel trees, the Pando trees,[6][7] the Kentucky coffeetree, Myrica, and the American sweetgum.

Molecular cloning refers to the process of making multiple molecules. Cloning is commonly used to amplify DNA fragments containing whole genes, but it can also be used to amplify any DNA sequence such as promoters, non-coding sequences and randomly fragmented DNA. It is used in a wide array of biological experiments and practical applications ranging from genetic fingerprinting to large scale protein production. Occasionally, the term cloning is misleadingly used to refer to the identification of the chromosomal location of a gene associated with a particular phenotype of interest, such as in positional cloning. In practice, localization of the gene to a chromosome or genomic region does not necessarily enable one to isolate or amplify the relevant genomic sequence. To amplify any DNA sequence in a living organism, that sequence must be linked to an origin of replication, which is a sequence of DNA capable of directing the propagation of itself and any linked sequence. However, a number of other features are needed, and a variety of specialised cloning vectors (small piece of DNA into which a foreign DNA fragment can be inserted) exist that allow protein production, affinity tagging, single stranded RNA or DNA production and a host of other molecular biology tools.

Cloning of any DNA fragment essentially involves four steps[8]

Although these steps are invariable among cloning procedures a number of alternative routes can be selected; these are summarized as a cloning strategy.

Initially, the DNA of interest needs to be isolated to provide a DNA segment of suitable size. Subsequently, a ligation procedure is used where the amplified fragment is inserted into a vector (piece of DNA). The vector (which is frequently circular) is linearised using restriction enzymes, and incubated with the fragment of interest under appropriate conditions with an enzyme called DNA ligase. Following ligation the vector with the insert of interest is transfected into cells. A number of alternative techniques are available, such as chemical sensitisation of cells, electroporation, optical injection and biolistics. Finally, the transfected cells are cultured. As the aforementioned procedures are of particularly low efficiency, there is a need to identify the cells that have been successfully transfected with the vector construct containing the desired insertion sequence in the required orientation. Modern cloning vectors include selectable antibiotic resistance markers, which allow only cells in which the vector has been transfected, to grow. Additionally, the cloning vectors may contain colour selection markers, which provide blue/white screening (alpha-factor complementation) on X-gal medium. Nevertheless, these selection steps do not absolutely guarantee that the DNA insert is present in the cells obtained. Further investigation of the resulting colonies must be required to confirm that cloning was successful. This may be accomplished by means of PCR, restriction fragment analysis and/or DNA sequencing.

Cloning a cell means to derive a population of cells from a single cell. In the case of unicellular organisms such as bacteria and yeast, this process is remarkably simple and essentially only requires the inoculation of the appropriate medium. However, in the case of cell cultures from multi-cellular organisms, cell cloning is an arduous task as these cells will not readily grow in standard media.

A useful tissue culture technique used to clone distinct lineages of cell lines involves the use of cloning rings (cylinders).[9] In this technique a single-cell suspension of cells that have been exposed to a mutagenic agent or drug used to drive selection is plated at high dilution to create isolated colonies, each arising from a single and potentially clonal distinct cell. At an early growth stage when colonies consist of only a few cells, sterile polystyrene rings (cloning rings), which have been dipped in grease, are placed over an individual colony and a small amount of trypsin is added. Cloned cells are collected from inside the ring and transferred to a new vessel for further growth.

Somatic-cell nuclear transfer, popularly known as SCNT, can also be used to create embryos for research or therapeutic purposes. The most likely purpose for this is to produce embryos for use in stem cell research. This process is also called "research cloning" or "therapeutic cloning". The goal is not to create cloned human beings (called "reproductive cloning"), but rather to harvest stem cells that can be used to study human development and to potentially treat disease. While a clonal human blastocyst has been created, stem cell lines are yet to be isolated from a clonal source.[10]

Therapeutic cloning is achieved by creating embryonic stem cells in the hopes of treating diseases such as diabetes and Alzheimer's. The process begins by removing the nucleus (containing the DNA) from an egg cell and inserting a nucleus from the adult cell to be cloned.[11] In the case of someone with Alzheimer's disease, the nucleus from a skin cell of that patient is placed into an empty egg. The reprogrammed cell begins to develop into an embryo because the egg reacts with the transferred nucleus. The embryo will become genetically identical to the patient.[11] The embryo will then form a blastocyst which has the potential to form/become any cell in the body.[12]

The reason why SCNT is used for cloning is because somatic cells can be easily acquired and cultured in the lab. This process can either add or delete specific genomes of farm animals. A key point to remember is that cloning is achieved when the oocyte maintains its normal functions and instead of using sperm and egg genomes to replicate, the oocyte is inserted into the donor's somatic cell nucleus.[13] The oocyte will react on the somatic cell nucleus, the same way it would on sperm cells.[13]

The process of cloning a particular farm animal using SCNT is relatively the same for all animals. The first step is to collect the somatic cells from the animal that will be cloned. The somatic cells could be used immediately or stored in the laboratory for later use.[13] The hardest part of SCNT is removing maternal DNA from an oocyte at metaphase II. Once this has been done, the somatic nucleus can be inserted into an egg cytoplasm.[13] This creates a one-cell embryo. The grouped somatic cell and egg cytoplasm are then introduced to an electrical current.[13] This energy will hopefully allow the cloned embryo to begin development. The successfully developed embryos are then placed in surrogate recipients, such as a cow or sheep in the case of farm animals.[13]

SCNT is seen as a good method for producing agriculture animals for food consumption. It successfully cloned sheep, cattle, goats, and pigs. Another benefit is SCNT is seen as a solution to clone endangered species that are on the verge of going extinct.[13] However, stresses placed on both the egg cell and the introduced nucleus can be enormous, which led to a high loss in resulting cells in early research. For example, the cloned sheep Dolly was born after 277 eggs were used for SCNT, which created 29 viable embryos. Only three of these embryos survived until birth, and only one survived to adulthood.[14] As the procedure could not be automated, and had to be performed manually under a microscope, SCNT was very resource intensive. The biochemistry involved in reprogramming the differentiated somatic cell nucleus and activating the recipient egg was also far from being well understood. However, by 2014 researchers were reporting cloning success rates of seven to eight out of ten[15] and in 2016, a Korean Company Sooam Biotech was reported to be producing 500 cloned embryos per day.[16]

In SCNT, not all of the donor cell's genetic information is transferred, as the donor cell's mitochondria that contain their own mitochondrial DNA are left behind. The resulting hybrid cells retain those mitochondrial structures which originally belonged to the egg. As a consequence, clones such as Dolly that are born from SCNT are not perfect copies of the donor of the nucleus.

Organism cloning (also called reproductive cloning) refers to the procedure of creating a new multicellular organism, genetically identical to another. In essence this form of cloning is an asexual method of reproduction, where fertilization or inter-gamete contact does not take place. Asexual reproduction is a naturally occurring phenomenon in many species, including most plants and some insects. Scientists have made some major achievements with cloning, including the asexual reproduction of sheep and cows. There is a lot of ethical debate over whether or not cloning should be used. However, cloning, or asexual propagation,[17] has been common practice in the horticultural world for hundreds of years.

The term clone is used in horticulture to refer to descendants of a single plant which were produced by vegetative reproduction or apomixis. Many horticultural plant cultivars are clones, having been derived from a single individual, multiplied by some process other than sexual reproduction.[18] As an example, some European cultivars of grapes represent clones that have been propagated for over two millennia. Other examples are potato and banana.[19]

Grafting can be regarded as cloning, since all the shoots and branches coming from the graft are genetically a clone of a single individual, but this particular kind of cloning has not come under ethical scrutiny and is generally treated as an entirely different kind of operation.

Many trees, shrubs, vines, ferns and other herbaceous perennials form clonal colonies naturally. Parts of an individual plant may become detached by fragmentation and grow on to become separate clonal individuals. A common example is in the vegetative reproduction of moss and liverwort gametophyte clones by means of gemmae. Some vascular plants e.g. dandelion and certain viviparous grasses also form seeds asexually, termed apomixis, resulting in clonal populations of genetically identical individuals.

Clonal derivation exists in nature in some animal species and is referred to as parthenogenesis (reproduction of an organism by itself without a mate). This is an asexual form of reproduction that is only found in females of some insects, crustaceans, nematodes,[20] fish (for example the hammerhead shark[21]), and lizards including the Komodo dragon[21] and several whiptails. The growth and development occurs without fertilization by a male. In plants, parthenogenesis means the development of an embryo from an unfertilized egg cell, and is a component process of apomixis. In species that use the XY sex-determination system, the offspring will always be female. An example is the little fire ant (Wasmannia auropunctata), which is native to Central and South America but has spread throughout many tropical environments.

Artificial cloning of organisms may also be called reproductive cloning.

Hans Spemann, a German embryologist was awarded a Nobel Prize in Physiology or Medicine in 1935 for his discovery of the effect now known as embryonic induction, exercised by various parts of the embryo, that directs the development of groups of cells into particular tissues and organs. In 1924 he and his student, Hilde Mangold, were the first to perform somatic-cell nuclear transfer using amphibian embryos one of the first steps towards cloning.[22]

Reproductive cloning generally uses "somatic cell nuclear transfer" (SCNT) to create animals that are genetically identical. This process entails the transfer of a nucleus from a donor adult cell (somatic cell) to an egg from which the nucleus has been removed, or to a cell from a blastocyst from which the nucleus has been removed.[23] If the egg begins to divide normally it is transferred into the uterus of the surrogate mother. Such clones are not strictly identical since the somatic cells may contain mutations in their nuclear DNA. Additionally, the mitochondria in the cytoplasm also contains DNA and during SCNT this mitochondrial DNA is wholly from the cytoplasmic donor's egg, thus the mitochondrial genome is not the same as that of the nucleus donor cell from which it was produced. This may have important implications for cross-species nuclear transfer in which nuclear-mitochondrial incompatibilities may lead to death.

Artificial embryo splitting or embryo twinning, a technique that creates monozygotic twins from a single embryo, is not considered in the same fashion as other methods of cloning. During that procedure, a donor embryo is split in two distinct embryos, that can then be transferred via embryo transfer. It is optimally performed at the 6- to 8-cell stage, where it can be used as an expansion of IVF to increase the number of available embryos.[24] If both embryos are successful, it gives rise to monozygotic (identical) twins.

Dolly, a Finn-Dorset ewe, was the first mammal to have been successfully cloned from an adult somatic cell. Dolly was formed by taking a cell from the udder of her 6-year-old biological mother.[25] Dolly's embryo was created by taking the cell and inserting it into a sheep ovum. It took 434 attempts before an embryo was successful.[26] The embryo was then placed inside a female sheep that went through a normal pregnancy.[27] She was cloned at the Roslin Institute in Scotland by British scientists Sir Ian Wilmut and Keith Campbell and lived there from her birth in 1996 until her death in 2003 when she was six. She was born on 5 July 1996 but not announced to the world until 22 February 1997.[28] Her stuffed remains were placed at Edinburgh's Royal Museum, part of the National Museums of Scotland.[29]

Dolly was publicly significant because the effort showed that genetic material from a specific adult cell, designed to express only a distinct subset of its genes, can be redesigned to grow an entirely new organism. Before this demonstration, it had been shown by John Gurdon that nuclei from differentiated cells could give rise to an entire organism after transplantation into an enucleated egg.[30] However, this concept was not yet demonstrated in a mammalian system.

The first mammalian cloning (resulting in Dolly the sheep) had a success rate of 29 embryos per 277 fertilized eggs, which produced three lambs at birth, one of which lived. In a bovine experiment involving 70 cloned calves, one-third of the calves died quite young. The first successfully cloned horse, Prometea, took 814 attempts. Notably, although the first[clarification needed] clones were frogs, no adult cloned frog has yet been produced from a somatic adult nucleus donor cell.

There were early claims that Dolly the sheep had pathologies resembling accelerated aging. Scientists speculated that Dolly's death in 2003 was related to the shortening of telomeres, DNA-protein complexes that protect the end of linear chromosomes. However, other researchers, including Ian Wilmut who led the team that successfully cloned Dolly, argue that Dolly's early death due to respiratory infection was unrelated to problems with the cloning process. This idea that the nuclei have not irreversibly aged was shown in 2013 to be true for mice.[31]

Dolly was named after performer Dolly Parton because the cells cloned to make her were from a mammary gland cell, and Parton is known for her ample cleavage.[32]

The modern cloning techniques involving nuclear transfer have been successfully performed on several species. Notable experiments include:

Human cloning is the creation of a genetically identical copy of a human. The term is generally used to refer to artificial human cloning, which is the reproduction of human cells and tissues. It does not refer to the natural conception and delivery of identical twins. The possibility of human cloning has raised controversies. These ethical concerns have prompted several nations to pass legislation regarding human cloning and its legality. As of right now, scientists have no intention of trying to clone people and they believe their results should spark a wider discussion about the laws and regulations the world needs to regulate cloning.[66]

Two commonly discussed types of theoretical human cloning are therapeutic cloning and reproductive cloning. Therapeutic cloning would involve cloning cells from a human for use in medicine and transplants, and is an active area of research, but is not in medical practice anywhere in the world, as of 2020[update]. Two common methods of therapeutic cloning that are being researched are somatic-cell nuclear transfer and, more recently, pluripotent stem cell induction. Reproductive cloning would involve making an entire cloned human, instead of just specific cells or tissues.[67]

There are a variety of ethical positions regarding the possibilities of cloning, especially human cloning. While many of these views are religious in origin, the questions raised by cloning are faced by secular perspectives as well. Perspectives on human cloning are theoretical, as human therapeutic and reproductive cloning are not commercially used; animals are currently cloned in laboratories and in livestock production.

Advocates support development of therapeutic cloning in order to generate tissues and whole organs to treat patients who otherwise cannot obtain transplants,[68] to avoid the need for immunosuppressive drugs,[67] and to stave off the effects of aging.[69] Advocates for reproductive cloning believe that parents who cannot otherwise procreate should have access to the technology.[70]

Opponents of cloning have concerns that technology is not yet developed enough to be safe[71] and that it could be prone to abuse (leading to the generation of humans from whom organs and tissues would be harvested),[72][73] as well as concerns about how cloned individuals could integrate with families and with society at large.[74][75]

Religious groups are divided, with some opposing the technology as usurping "God's place" and, to the extent embryos are used, destroying a human life; others support therapeutic cloning's potential life-saving benefits.[76][77]

Cloning of animals is opposed by animal-groups due to the number of cloned animals that suffer from malformations before they die, and while food from cloned animals has been approved by the US FDA,[78][79] its use is opposed by groups concerned about food safety.[80][81]

Cloning, or more precisely, the reconstruction of functional DNA from extinct species has, for decades, been a dream. Possible implications of this were dramatized in the 1984 novel Carnosaur and the 1990 novel Jurassic Park.[82][83] The best current cloning techniques have an average success rate of 9.4 percent[84] (and as high as 25 percent[31]) when working with familiar species such as mice,[note 1] while cloning wild animals is usually less than 1 percent successful.[87] Several tissue banks have come into existence, including the "Frozen Zoo" at the San Diego Zoo, to store frozen tissue from the world's rarest and most endangered species.[82][88][89]

In 2001, a cow named Bessie gave birth to a cloned Asian gaur, an endangered species, but the calf died after two days. In 2003, a banteng was successfully cloned, followed by three African wildcats from a thawed frozen embryo. These successes provided hope that similar techniques (using surrogate mothers of another species) might be used to clone extinct species. Anticipating this possibility, tissue samples from the last bucardo (Pyrenean ibex) were frozen in liquid nitrogen immediately after it died in 2000. Researchers are also considering cloning endangered species such as the giant panda and cheetah.[90][91][92][93]

In 2002, geneticists at the Australian Museum announced that they had replicated DNA of the thylacine (Tasmanian tiger), at the time extinct for about 65 years, using polymerase chain reaction.[94] However, on 15 February 2005 the museum announced that it was stopping the project after tests showed the specimens' DNA had been too badly degraded by the (ethanol) preservative. On 15 May 2005 it was announced that the thylacine project would be revived, with new participation from researchers in New South Wales and Victoria.[95]

In 2003, for the first time, an extinct animal, the Pyrenean ibex mentioned above was cloned, at the Centre of Food Technology and Research of Aragon, using the preserved frozen cell nucleus of the skin samples from 2001 and domestic goat egg-cells. The ibex died shortly after birth due to physical defects in its lungs.[96]

One of the most anticipated targets for cloning was once the woolly mammoth, but attempts to extract DNA from frozen mammoths have been unsuccessful, though a joint Russo-Japanese team is currently working toward this goal. In January 2011, it was reported by Yomiuri Shimbun that a team of scientists headed by Akira Iritani of Kyoto University had built upon research by Dr. Wakayama, saying that they will extract DNA from a mammoth carcass that had been preserved in a Russian laboratory and insert it into the egg cells of an African elephant in hopes of producing a mammoth embryo. The researchers said they hoped to produce a baby mammoth within six years.[97][98] It was noted, however that the result, if possible, would be an elephant-mammoth hybrid rather than a true mammoth.[99] Another problem is the survival of the reconstructed mammoth: ruminants rely on a symbiosis with specific microbiota in their stomachs for digestion.[99]

Scientists at the University of Newcastle and University of New South Wales announced in March 2013 that the very recently extinct gastric-brooding frog would be the subject of a cloning attempt to resurrect the species.[100]

Many such "De-extinction" projects are described in the Long Now Foundation's Revive and Restore Project.[101]

After an eight-year project involving the use of a pioneering cloning technique, Japanese researchers created 25 generations of healthy cloned mice with normal lifespans, demonstrating that clones are not intrinsically shorter-lived than naturally born animals.[31][102] Other sources have noted that the offspring of clones tend to be healthier than the original clones and indistinguishable from animals produced naturally.[103]

Dolly the sheep was cloned from a six-year old cell sample from a mammary gland. Because of this, some posited she may have aged more quickly than other naturally born animals, as she died relatively early for a sheep at the age of six. Ultimately, her death was attributed to a respiratory illness, and the "advanced aging" theory is disputed.[104][dubious discuss]

A detailed study released in 2016 and less detailed studies by others suggest that once cloned animals get past the first month or two of life they are generally healthy. However, early pregnancy loss and neonatal losses are still greater with cloning than natural conception or assisted reproduction (IVF). Current research is attempting to overcome these problems.[32]

Discussion of cloning in the popular media often presents the subject negatively. In an article in the 8 November 1993 article of Time, cloning was portrayed in a negative way, modifying Michelangelo's Creation of Adam to depict Adam with five identical hands.[105] Newsweek's 10 March 1997 issue also critiqued the ethics of human cloning, and included a graphic depicting identical babies in beakers.[106]

The concept of cloning, particularly human cloning, has featured a wide variety of science fiction works. An early fictional depiction of cloning is Bokanovsky's Process which features in Aldous Huxley's 1931 dystopian novel Brave New World. The process is applied to fertilized human eggs in vitro, causing them to split into identical genetic copies of the original.[107][108] Following renewed interest in cloning in the 1950s, the subject was explored further in works such as Poul Anderson's 1953 story UN-Man, which describes a technology called "exogenesis", and Gordon Rattray Taylor's book The Biological Time Bomb, which popularised the term "cloning" in 1963.[109]

Cloning is a recurring theme in a number of contemporary science fiction films, ranging from action films such as Jurassic Park (1993), Alien Resurrection (1997), The 6th Day (2000), Resident Evil (2002), Star Wars: Episode II Attack of the Clones (2002), The Island (2005) and Moon (2009) to comedies such as Woody Allen's 1973 film Sleeper.[110]

The process of cloning is represented variously in fiction. Many works depict the artificial creation of humans by a method of growing cells from a tissue or DNA sample; the replication may be instantaneous, or take place through slow growth of human embryos in artificial wombs. In the long-running British television series Doctor Who, the Fourth Doctor and his companion Leela were cloned in a matter of seconds from DNA samples ("The Invisible Enemy", 1977) and then in an apparent homage to the 1966 film Fantastic Voyage shrunk to microscopic size in order to enter the Doctor's body to combat an alien virus. The clones in this story are short-lived, and can only survive a matter of minutes before they expire.[111] Science fiction films such as The Matrix and Star Wars: Episode II Attack of the Clones have featured scenes of human foetuses being cultured on an industrial scale in mechanical tanks.[112]

Cloning humans from body parts is also a common theme in science fiction. Cloning features strongly among the science fiction conventions parodied in Woody Allen's Sleeper, the plot of which centres around an attempt to clone an assassinated dictator from his disembodied nose.[113] In the 2008 Doctor Who story "Journey's End", a duplicate version of the Tenth Doctor spontaneously grows from his severed hand, which had been cut off in a sword fight during an earlier episode.[114]

After the death of her beloved 14-year-old Coton de Tulear named Samantha in late 2017, Barbra Streisand announced that she had cloned the dog, and was now "waiting for [the two cloned pups] to get older so [she] can see if they have [Samantha's] brown eyes and her seriousness".[115] The operation cost $50,000 through the pet cloning company ViaGen.[116]

Science fiction has used cloning, most commonly and specifically human cloning, to raise the controversial questions of identity.[117][118] A Number is a 2002 play by English playwright Caryl Churchill which addresses the subject of human cloning and identity, especially nature and nurture. The story, set in the near future, is structured around the conflict between a father (Salter) and his sons (Bernard 1, Bernard 2, and Michael Black) two of whom are clones of the first one. A Number was adapted by Caryl Churchill for television, in a co-production between the BBC and HBO Films.[119]

In 2012, a Japanese television series named "Bunshin" was created. The story's main character, Mariko, is a woman studying child welfare in Hokkaido. She grew up always doubtful about the love from her mother, who looked nothing like her and who died nine years before. One day, she finds some of her mother's belongings at a relative's house, and heads to Tokyo to seek out the truth behind her birth. She later discovered that she was a clone.[120]

In the 2013 television series Orphan Black, cloning is used as a scientific study on the behavioral adaptation of the clones.[121] In a similar vein, the book The Double by Nobel Prize winner Jos Saramago explores the emotional experience of a man who discovers that he is a clone.[122]

Cloning has been used in fiction as a way of recreating historical figures. In the 1976 Ira Levin novel The Boys from Brazil and its 1978 film adaptation, Josef Mengele uses cloning to create copies of Adolf Hitler.[123]

In Michael Crichton's 1990 novel Jurassic Park, which spawned a series of Jurassic Park feature films, a bioengineering company develops a technique to resurrect extinct species of dinosaurs by creating cloned creatures using DNA extracted from fossils. The cloned dinosaurs are used to populate the Jurassic Park wildlife park for the entertainment of visitors. The scheme goes disastrously wrong when the dinosaurs escape their enclosures. Despite being selectively cloned as females to prevent them from breeding, the dinosaurs develop the ability to reproduce through parthenogenesis.[124]

The use of cloning for military purposes has also been explored in several fictional works. In Doctor Who, an alien race of armour-clad, warlike beings called Sontarans was introduced in the 1973 serial "The Time Warrior". Sontarans are depicted as squat, bald creatures who have been genetically engineered for combat. Their weak spot is a "probic vent", a small socket at the back of their neck which is associated with the cloning process.[125] The concept of cloned soldiers being bred for combat was revisited in "The Doctor's Daughter" (2008), when the Doctor's DNA is used to create a female warrior called Jenny.[126]

The 1977 film Star Wars was set against the backdrop of a historical conflict called the Clone Wars. The events of this war were not fully explored until the prequel films Attack of the Clones (2002) and Revenge of the Sith (2005), which depict a space war waged by a massive army of heavily armoured clone troopers that leads to the foundation of the Galactic Empire. Cloned soldiers are "manufactured" on an industrial scale, genetically conditioned for obedience and combat effectiveness. It is also revealed that the popular character Boba Fett originated as a clone of Jango Fett, a mercenary who served as the genetic template for the clone troopers.[127][128]

A recurring sub-theme of cloning fiction is the use of clones as a supply of organs for transplantation. The 2005 Kazuo Ishiguro novel Never Let Me Go and the 2010 film adaption[129] are set in an alternate history in which cloned humans are created for the sole purpose of providing organ donations to naturally born humans, despite the fact that they are fully sentient and self-aware. The 2005 film The Island[130] revolves around a similar plot, with the exception that the clones are unaware of the reason for their existence.

The exploitation of human clones for dangerous and undesirable work was examined in the 2009 British science fiction film Moon.[131] In the futuristic novel Cloud Atlas and subsequent film, one of the story lines focuses on a genetically-engineered fabricant clone named Sonmi~451, one of millions raised in an artificial "wombtank," destined to serve from birth. She is one of thousands created for manual and emotional labor; Sonmi herself works as a server in a restaurant. She later discovers that the sole source of food for clones, called 'Soap', is manufactured from the clones themselves.[132]

In the film Us, at some point prior to the 1980s, the US Government creates clones of every citizen of the United States with the intention of using them to control their original counterparts, akin to voodoo dolls. This fails, as they were able to copy bodies, but unable to copy the souls of those they cloned. The project is abandoned and the clones are trapped exactly mirroring their above-ground counterparts' actions for generations. In the present day, the clones launch a surprise attack and manage to complete a mass-genocide of their unaware counterparts.[133][134]

In the Anime, Manga and Light Novels of A Certain Magical Index and A Certain Scientific Railgun, one of the espers named Mikoto Misaka's DNA was harvested unknowingly, creating 12,000 exact but not equally powerful clones for an experiment. They were used as target practice by Accelerator, just to level up, as killing the original multiple times is impossible. The experiment ended when Tma Kamij saved and foiled the experiment. The remaining clones have been dispersed everywhere in the world to conduct further experiments to expand their lifespans, save for at least 10 who remained in Academy City, and the last clone, who was not fully developed when the experiment stopped.

See the original post here:

Cloning - Wikipedia

Cloning | National Geographic Society

Cloning is a technique scientists use to make exact genetic copies of living things. Genes, cells, tissues, and even whole animals can all be cloned.

Some clones already exist in nature. Single-celled organisms like bacteria make exact copies of themselves each time they reproduce. In humans, identical twins are similar to clones. They share almost the exact same genes. Identical twins are created when a fertilized egg splits in two.

Scientists also make clones in the lab. They often clone genes in order to study and better understand them. To clone a gene, researchers take DNA from a living creature and insert it into a carrier like bacteria or yeast. Every time that carrier reproduces, a new copy of the gene is made.

Animals are cloned in one of two ways. The first is called embryo twinning. Scientists first split an embryo in half. Those two halves are then placed in a mothers uterus. Each part of the embryo develops into a unique animal, and the two animals share the same genes. The second method is called somatic cell nuclear transfer. Somatic cells are all the cells that make up an organism, but that are not sperm or egg cells. Sperm and egg cells contain only one set of chromosomes, and when they join during fertilization, the mothers chromosomes merge with the fathers. Somatic cells, on the other hand, already contain two full sets of chromosomes. To make a clone, scientists transfer the DNA from an animals somatic cell into an egg cell that has had its nucleus and DNA removed. The egg develops into an embryo that contains the same genes as the cell donor. Then the embryo is implanted into an adult females uterus to grow.

In 1996, Scottish scientists cloned the first animal, a sheep they named Dolly. She was cloned using an udder cell taken from an adult sheep. Since then, scientists have cloned cows, cats, deer, horses, and rabbits. They still have not cloned a human, though. In part, this is because it is difficult to produce a viable clone. In each attempt, there can be genetic mistakes that prevent the clone from surviving. It took scientists 276 attempts to get Dolly right. There are also ethical concerns about cloning a human being.

Researchers can use clones in many ways. An embryo made by cloning can be turned into a stem cell factory. Stem cells are an early form of cells that can grow into many different types of cells and tissues. Scientists can turn them into nerve cells to fix a damaged spinal cord or insulin-making cells to treat diabetes.

The cloning of animals has been used in a number of different applications. Animals have been cloned to have gene mutations that help scientists study diseases that develop in the animals. Livestock like cows and pigs have been cloned to produce more milk or meat. Clones can even resurrect a beloved pet that has died. In 2001, a cat named CC was the first pet to be created through cloning. Cloning might one day bring back extinct species like the woolly mammoth or giant panda.

Original post:

Cloning | National Geographic Society

cloning | Definition, Process, & Types | Britannica

Cloning, the process of generating a genetically identical copy of a cell or an organism. Cloning happens often in naturefor example, when a cell replicates itself asexually without any genetic alteration or recombination. Prokaryotic organisms (organisms lacking a cell nucleus) such as bacteria create genetically identical duplicates of themselves using binary fission or budding. In eukaryotic organisms (organisms possessing a cell nucleus) such as humans, all the cells that undergo mitosis, such as skin cells and cells lining the gastrointestinal tract, are clones; the only exceptions are gametes (eggs and sperm), which undergo meiosis and genetic recombination.

Top Questions

Cloning is the process of generating a genetically identical copy of acellor an organism.Cloning happens all the time in nature. In biomedical research, cloning is broadly defined to mean the duplication of any kind of biological material for scientific study, such as a piece ofDNAor an individual cell.

Therapeutic cloning enables the cultivation of stem cells that are genetically identical to a patient. This approach, by avoiding risk of rejection by theimmune system, has the potential to benefit many patients,including those affected byAlzheimer disease,diabetes, andspinal cordinjury.

The cloning of humans remains universally condemned, primarily for the associated psychological, social, and physiological risks. There are also concerns that cloning promoteseugenics, the idea that humanity could be improved through the selection of individuals possessing desired traits. There also exists controversy over theethicsof therapeutic and research cloning, which makes use of embryos that are otherwise discarded.

In biomedical research, cloning is broadly defined to mean the duplication of any kind of biological material for scientific study, such as a piece of DNA or an individual cell. For example, segments of DNA are replicated exponentially by a process known as polymerase chain reaction, or PCR, a technique that is used widely in basic biological research. The type of cloning that is the focus of much ethical controversy involves the generation of cloned embryos, particularly those of humans, which are genetically identical to the organisms from which they are derived, and the subsequent use of these embryos for research, therapeutic, or reproductive purposes.

Reproductive cloning was originally carried out by artificial twinning, or embryo splitting, which was first performed on a salamander embryo in the early 1900s by German embryologist Hans Spemann. Later, Spemann, who was awarded the Nobel Prize for Physiology or Medicine (1935) for his research on embryonic development, theorized about another cloning procedure known as nuclear transfer. This procedure was performed in 1952 by American scientists Robert W. Briggs and Thomas J. King, who used DNA from embryonic cells of the frog Rana pipiens to generate cloned tadpoles. In 1958 British biologist John Bertrand Gurdon successfully carried out nuclear transfer using DNA from adult intestinal cells of African clawed frogs (Xenopus laevis). Gurdon was awarded a share of the 2012 Nobel Prize in Physiology or Medicine for this breakthrough.

Overview of somatic cell nuclear transfer (SCNT). In 1996 the first clone of an adult mammal, a female sheep named Dolly, was born. Dolly was created using SCNT, a process that later became a cornerstone of stem cell research.

Advancements in the field of molecular biology led to the development of techniques that allowed scientists to manipulate cells and to detect chemical markers that signal changes within cells. With the advent of recombinant DNA technology in the 1970s, it became possible for scientists to create transgenic clonesclones with genomes containing pieces of DNA from other organisms. Beginning in the 1980s mammals such as sheep were cloned from early and partially differentiated embryonic cells. In 1996 British developmental biologist Ian Wilmut generated a cloned sheep, named Dolly, by means of nuclear transfer involving an enucleated embryo and a differentiated cell nucleus. This technique, which was later refined and became known as somatic cell nuclear transfer (SCNT), represented an extraordinary advance in the science of cloning, because it resulted in the creation of a genetically identical clone of an already grown sheep. It also indicated that it was possible for the DNA in differentiated somatic (body) cells to revert to an undifferentiated embryonic stage, thereby reestablishing pluripotencythe potential of an embryonic cell to grow into any one of the numerous different types of mature body cells that make up a complete organism. The realization that the DNA of somatic cells could be reprogrammed to a pluripotent state significantly impacted research into therapeutic cloning and the development of stem cell therapies.

Soon after the generation of Dolly, a number of other animals were cloned by SCNT, including pigs, goats, rats, mice, dogs, horses, and mules. Despite those successes, the birth of a viable SCNT primate clone would not come to fruition until 2018, and scientists used other cloning processes in the meantime. In 2001 a team of scientists cloned a rhesus monkey through a process called embryonic cell nuclear transfer, which is similar to SCNT except that it uses DNA from an undifferentiated embryo. In 2007 macaque monkey embryos were cloned by SCNT, but those clones lived only to the blastocyst stage of embryonic development. It was more than 10 years later, after improvements to SCNT had been made, that scientists announced the live birth of two clones of the crab-eating macaque (Macaca fascicularis), the first primate clones using the SCNT process. (SCNT has been carried out with very limited success in humans, in part because of problems with human egg cells resulting from the mothers age and environmental factors.)

The first cloned cat, named CC (or Copy Cat), was born on December 22, 2001, to her surrogate mom, Allie (pictured).

More:

cloning | Definition, Process, & Types | Britannica

Cloning Fact Sheet – Genome.gov

Reproductive cloning may enable researchers to make copies of animals with the potential benefits for the fields of medicine and agriculture.

For instance, the same Scottish researchers who cloned Dolly have cloned other sheep that have been genetically modified to produce milk that contains a human protein essential for blood clotting. The hope is that someday this protein can be purified from the milk and given to humans whose blood does not clot properly. Another possible use of cloned animals is for testing new drugs and treatment strategies. The great advantage of using cloned animals for drug testing is that they are all genetically identical, which means their responses to the drugs should be uniform rather than variable as seen in animals with different genetic make-ups.

After consulting with many independent scientists and experts in cloning, the U.S. Food and Drug Administration (FDA) decided in January 2008 that meat and milk from cloned animals, such as cattle, pigs and goats, are as safe as those from non-cloned animals. The FDA action means that researchers are now free to using cloning methods to make copies of animals with desirable agricultural traits, such as high milk production or lean meat. However, because cloning is still very expensive, it will likely take many years until food products from cloned animals actually appear in supermarkets.

Another application is to create clones to build populations of endangered, or possibly even extinct, species of animals. In 2001, researchers produced the first clone of an endangered species: a type of Asian ox known as a guar. Sadly, the baby guar, which had developed inside a surrogate cow mother, died just a few days after its birth. In 2003, another endangered type of ox, called the Banteg, was successfully cloned. Soon after, three African wildcats were cloned using frozen embryos as a source of DNA. Although some experts think cloning can save many species that would otherwise disappear, others argue that cloning produces a population of genetically identical individuals that lack the genetic variability necessary for species survival.

Some people also have expressed interest in having their deceased pets cloned in the hope of getting a similar animal to replace the dead one. But as shown by Cc the cloned cat, a clone may not turn out exactly like the original pet whose DNA was used to make the clone.

Here is the original post:

Cloning Fact Sheet - Genome.gov