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Category Archives: Transhuman News

Katie Holmes and Suri Cruise Share Some Very Stylish DNA – Vogue

Posted: April 27, 2024 at 12:09 pm

Suri Cruise inherited more than just her mother Katie Holmess faceher fabulous sense of style was also clearly woven into her DNA. The mother-daughter duo turned a coffee run into a runway, each of them showing off their personal style.

Wearing a very Holmesian outfit, the actor donned a cozy gray crewneck sweater, which she layered over a striped button-up shirt. She paired her layered look with a pair of indigo blue jeans and black Adidas Sambasa stalwart shoe in her closet full of funky loafers and cork wedges. Holmes gave her preppy look a touch of boho chic with her accessorizing, adding a pair of oversized sunglasses and a black leather hobo bag slung over her shoulder.

Cruise, meanwhile, is all in on the boho revival. The freshly minted 18-year-old was too young to fully participate in the last bohemian moment, and is making up for lost time. She wore a tiered maxi dress with a red pattern with a pair of well-worn light brown Frye boots. Layering up on a chilly morning, Cruise layered an olive corduroy jacket underneath a denim overcoat.

Like her daughter, Holmes has also been known to love a good boho moment now and again. A longtime fan of Chlo, shes worn iterations of the brand from Phoebe Philos tenure to Gabriella Hearsts. Chemena Kamali, Chlos new creative director, recently posted a photo on Instagram of her own mother, dubbing her Chlo at heart. Might we suggest Kamali kick off the new Chlo era with a mother-daughter campaign starring, say, Katie Holmes and Suri Cruise?

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DNA evidence leads to arrest of 75-year-old Auburn man – Opelika Auburn News

Posted: at 12:09 pm

New DNA evidence has led police to arrest a75-year-old Auburn man who allegedly raped an underage victim in the woods near Lee Road 57 over 20 years ago, authorities said.

Bobby Lee Pitts was charged with first-degree kidnapping, rapeand sodomy in the 2003 incident. He is being held in the Lee County Detention Center without bond.

"I hope this sends a powerful message that no matter how much time has passed, we will never relent in our pursuit of justice. Every case matters deeply to us, and we will continue to pursue truth and accountability. Today, we stand firm in our promise," Auburn Police Chief Cedric Anderson said.

Anders said the arrest does more than give thevictim and their family closure.

"Its a testament to the unwavering commitment of our police department," the police chief said.

Auburn police launched an investigation into the incident onOct. 4, 2003. They met with a underaged victim who reported being sexual assaulted in a wooded area near Lee Road 57. The victim told police that theassailant forced them into the woods and subjected them to multiple acts of sexual violence.

At the time of the crime, police couldn't identify a suspect based on the physical evidence and description of the attacker.

APD cold case investigators submitted evidence through the Alabama Department of Forensic Sciences to the FBIs Combined DNA Index System. In January, APD received results fromforensic examinationthat authorities said identified Pitts as the offender.

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DNA evidence leads to arrest of 75-year-old Auburn man - Opelika Auburn News

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Genetics Studies Have a Diversity Problem That Researchers Struggle To Fix – Kaiser Health News

Posted: at 12:09 pm

By Lauren Sausser April 25, 2024

CHARLESTON, S.C. When he recently walked into the dental clinic at the Medical University of South Carolina donning a bright-blue pullover with In Our DNA SC embroidered prominently on the front, Lee Moultrie said, two Black women stopped him to ask questions.

Its a walking billboard, said Moultrie, a health care advocate who serves on the community advisory board for In Our DNA SC, a study underway at the university that aims to enroll 100,000 South Carolinians including a representative percentage of Black people in genetics research. The goal is to better understand how genes affect health risks such as cancer and heart disease.

Moultrie, who is Black and has participated in the research project himself, used the opportunity at the dental clinic to encourage the women to sign up and contribute their DNA. He keeps brochures about the study in his car and at the barbershop he visits weekly for this reason. Its one way he wants to help solve a problem that has plagued the field of genetics research for decades: The data is based mostly on DNA from white people.

Project leaders in Charleston told KFF Health News in 2022 that they hoped to enroll participants who reflect the demographic diversity of South Carolina, where just under 27% of residents identify as Black or African American. To date, though, theyve failed to hit that mark. Only about 12% of the projects participants who provided sociodemographic data identify as Black, while an additional 5% have identified as belonging to another racial minority group.

Wed like to be a lot more diverse, acknowledged Daniel Judge, principal investigator for the study and a cardiovascular genetics specialist at the Medical University of South Carolina.

Lack of diversity in genetics research has real health care implications. Since the completion more than 20 years ago of the Human Genome Project, which mapped most human genes for the first time, close to 90% of genomics studies have been conducted using DNA from participants of European descent, research shows. And while human beings of all races and ancestries are more than 99% genetically identical, even small differences in genes can spell big differences in health outcomes.

Precision medicine is a term used to describe how genetics can improve the way diseases are diagnosed and treated by considering a persons DNA, environment, and lifestyle. But if this emerging field of health care is based on research involving mostly white people, it could lead to mistakes, unknowingly, said Misa Graff, an associate professor in epidemiology at the University of North Carolina and a genetics researcher.

In fact, thats already happening. In 2016, for example, research found that some Black patients had been misdiagnosed with a potentially fatal heart condition because theyd tested positive for a genetic variant thought to be harmful. That variant is much more common among Black Americans than white Americans, the research found, and is considered likely harmless among Black people. Misclassifications can be avoided if even modest numbers of people from diverse populations are included in sequence databases, the authors wrote.

The genetics research project in Charleston requires participants to complete an online consent form and submit a saliva sample, either in person at a designated lab or collection event or by mail. They are not paid to participate, but they do receive a report outlining their DNA results. Those who test positive for a genetic marker linked to cancer or high cholesterol are offered a virtual appointment with a genetics counselor free of charge.

Some research projects require more time from their volunteers, which can skew the pool of participants, Graff said, because not everyone has the luxury of free time. We need to be even more creative in how we obtain people to help contribute to studies, she said.

Moultrie said he recently asked project leaders to reach out to African American media outlets throughout the Palmetto State to explain how the genetics research project works and to encourage Black people to participate. He also suggested that when researchers talk to Black community leaders, such as church pastors, they ought to persuade those leaders to enroll in the study instead of simply passing the message along to their congregations.

We have new ideas. We have ways we can do this, Moultrie said. Well get there.

Other ongoing efforts are already improving diversity in genetics research. At the National Institutes of Health, a program called All of Us aims to analyze the DNA of more than 1 million people across the country to build a diverse health database. So far, that program has enrolled more than 790,000 participants. Of these, more than 560,000 have provided DNA samples and about 45% identify as being part of a racial or ethnic minority group.

Diversity is so important, said Karriem Watson, chief engagement officer for the All of Us research program. When you think about groups that carry the greatest burden of disease, we know that those groups are often from minoritized populations.

Diverse participation in All of Us hasnt come about by accident. NIH researchers strategically partnered with community health centers, faith-based groups, and Black fraternities and sororities to recruit people who have been historically underrepresented in biomedical research.

In South Carolina, for example, the NIH works with Cooperative Health, a network of federally qualified health centers near the state capital that serve many patients who are uninsured and Black, to recruit patients for All of Us. Eric Schlueter, chief medical officer of Cooperative Health, said the partnership works because their patients trust them.

We have a strong history of being integrated into the community. Many of our employees grew up and still live in the same communities that we serve, Schlueter said. That is what is part of our secret sauce.

So far, Cooperative Health has enrolled almost 3,000 people in the research program, about 70% of whom are Black.

Our patients are just like other patients, Schlueter said. They want to be able to provide an opportunity for their children and their childrens children to have better health, and they realize this is an opportunity to do that.

Theoretically, researchers at the NIH and the Medical University of South Carolina may be trying to recruit some of the same people for their separate genetics studies, although nothing would prevent a patient from participating in both efforts.

The researchers in Charleston acknowledge they still have work to do. To date, In Our DNA SC has recruited about half of the 100,000 people it hopes for, and of those, about three-quarters have submitted DNA samples.

Caitlin Allen, a program investigator and a public health researcher at the medical university, acknowledged that some of the programs tactics havent succeeded in recruiting many Black participants.

For example, some patients scheduled to see providers at the Medical University of South Carolina receive an electronic message through their patient portal before an appointment, which includes information about participating in the research project. But studies show that racial and ethnic minorities are less likely to engage with their electronic health records than white patients, Allen said.

We see low uptake with that strategy, she said, because many of the people researchers are trying to engage likely arent receiving the message.

The study involves four research coordinators trained to take DNA samples, but theres a limit to how many people they can talk to face-to-face. Were not necessarily able to go into every single room, Allen said.

That said, in-person community events seem to work well for enrolling diverse participants. In March, In Our DNA SC research coordinators collected more than 30 DNA samples at a bicentennial event in Orangeburg, South Carolina, where more than 60% of residents identify as Black. Between the first and second year of the research project, Allen said, In Our DNA SC doubled the number of these community events that research coordinators attended.

I would love to see it ramp up even more, she said.

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Genetics Studies Have a Diversity Problem That Researchers Struggle To Fix - Kaiser Health News

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Ancient nomads you’ve probably never heard of disappeared from Europe 1,000 years ago. Now, DNA analysis … – The Conversation

Posted: at 12:09 pm

How do we understand past societies? For centuries, our main sources of information have been pottery sherds, burial sites and ancient texts.

But the study of ancient DNA is changing what we know about the human past, and what we can know. In a new study, we analysed the genetics of hundreds of people who lived in the Carpathian Basin in southeastern central Europe more than 1,000 years ago, revealing detailed family trees, pictures of a complex society, and stories of change over centuries.

The Avars were a nomadic people originating from eastern central Asia. From the 6th to the 9th century CE, they wielded power over much of eastern central Europe.

The Avars are renowned among archaeologists for their distinctive belt garnitures, but their broader legacy has been overshadowed by predecessors such as the Huns. Nevertheless, Avar burial sites provide invaluable insights into their customs and way of life. To date, archaeologists have excavated more than 100,000 Avar graves.

Now, through the lens of archaeogenetics, we can delve even deeper into the intricate web of relationships among individuals who lived more than a millennium ago.

Much of what we know about Avar society comes from descriptions written by their enemies, such as the Byzantines and the Franks, so this work represents a significant leap forward in our understanding.

We combined ancient DNA data with archaeological, anthropological and historical context. As a result, we have been able to reconstruct extensive pedigrees, shedding light on kinship patterns, social practices and population dynamics of this enigmatic period.

We sampled all available human remains from four fully excavated Avar-era cemeteries, including those at Rkczifalva and Hajdnns in what is now Hungary. This resulted in a meticulous analysis of 424 individuals.

Around 300 of these individuals had close relatives buried in the same cemetery. This allowed us to reconstruct multiple extensive pedigrees spanning up to nine generations and 250 years.

Our research uncovered a sophisticated social framework. Our results suggest Avar society ran on a strict system of descent through the fathers line (patrilineal descent).

Following marriage, men typically remained within their paternal community, preserving the lineage continuity. In contrast, women played a crucial role in fostering social ties by marrying outside their familys community. This practice, called female exogamy, underscores the pivotal contribution of women in maintaining social cohesion.

Additionally, our study identified instances where closely related male individuals, such as siblings or a father and son, had offspring with the same female partner. Such couplings are called levirate unions.

Read more: In a Stone Age cemetery, DNA reveals a treasured 'founding father' and a legacy of prosperity for his sons

Despite these practices, we found no evidence of pairings between genetically related people. This suggests Avar societies meticulously preserved an ancestral memory.

These findings align with historical and anthropological evidence from societies of the Eurasian steppe.

Our study also revealed a transition in the main line of descent within Rkczifalva, when one pedigree took over from another. This occurred together with archaeological and dietary shifts likely linked to political changes in the region.

The transition, though significant, cannot be detected from higher-level genetic studies. Our results show an apparent genetic continuity can mask the replacement of entire communities. This insight may have far-reaching implications for future archaeological and genetic research.

Our study, carried out with researchers from the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany and at Etvs Lornd University in Budapest, Hungary, is part of a larger project called HistoGenes funded by the European Research Council.

This project shows we can use ancient DNA to examine entire communities, rather than just individuals. We think there is a lot more we can learn.

Now we aim to deepen our understanding of ancestral Avar society by expanding our research over a wider geographical area within the Avar realm. This broader scope will allow us to investigate the origins of the women who married into the communities we have studied. We hope it will also illuminate the connections between communities in greater detail.

Additionally, we plan to study evidence of pathogens and disease among the individuals in this research, to understand more about their health and lives.

Read more: Ancient DNA reveals children with Down syndrome in past societies. What can their burials tell us about their lives?

Another avenue of research is improving the dating of Avar sites. We are currently analysing multiple radiocarbon dates from individual burials to reveal a more precise timeline of Avar society. This detailed chronology will help us pinpoint significant cultural changes and interactions with neighbouring societies.

The authors would like to acknowledge the contributions to this work of Zsfia Rcz, Tivadar Vida, Johannes Krause and Zuzana Hofmanov.

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Ancient nomads you've probably never heard of disappeared from Europe 1,000 years ago. Now, DNA analysis ... - The Conversation

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Keeping Telomeres in Their Places – The Scientist

Posted: at 12:09 pm

A day in the life of DNA can be rough. It gets yanked across a dividing cell, zapped by radiation, and assaulted by chemicals. Luckily, cells have developed a complex set of repair mechanisms to protect vulnerable DNA and fix damage so that the cells genomic instruction manual remains intact. Cells use homologous recombination to stitch double-stranded breaks (DSB) back together and the enzyme telomerase to cap exposed ends of a DNA strand with a repetitive DNA sequence called a telomere.

However, if cells use the wrong repair mechanism for a given situation, it can be disastrous. For example, if telomerase tries to seal up a DSB, it can sever the chromosome, causing the cell to lose key genes. The whole system falls apart, said Titia de Lange, a cell biologist at Rockefeller University.

Scientists have observed that this can happen in yeast and corn, but whether it occurred in humans remained a mystery until now.1,2 de Langes team has finally figured out just how rare this catastrophic event is in humans and how cells keep it in check. In a study published in Science, they revealed that while telomerase occasionally acts at DSB, the ataxia telangiectasia and Rad3-related (ATR) protein typically runs interference to give the cell a chance to repair these breaks.3 The findings shed light on how this type of genomic instability could play a role in diseases such as cancer.

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If telomeres formed at DSB, de Lange suspected that it would be infrequent, given how few telomerases there are in any cell and how much damage it would cause. We expected that this would be instantly repressed, de Lange said. Cells would not tolerate this.

Starting with immortalized HeLa cells with artificially high levels of telomerase, the researchers cut the cells DNA with Cas9 enzyme to create DSB. They carefully designed the system to target positions in the DNA that telomerase gravitates towards but that are not fatal to the cell when broken. As de Lange expected, telomerase added telomeres at the DSB, but this was very rare; telomerase only created approximately four new telomeres per 1,000 genomes.

I don't know if it's surprising that it occurs, or if it's surprising that it doesn't occur more often, said Nausica Arnoult, a cell biologist at the University of Colorado Boulder who was not involved in this study. It's really well controlled.

To figure out how the cells blocked telomerase from acting at DSB, de Langes team genetically inactivated many different enzymes and repair pathways to see if any of them repressed telomere formation. Eventually, they discovered the genomic guardian: ATR, a protein that senses DNA damage and triggers homologous recombination. When they inhibited ATR, the number of new telomeres nearly tripled.

In the process of pinpointing ATRs role, the researchers stumbled upon other cellular surprises. For example, they knew that certain proteins were required for telomerase to interact with DNA, but reducing those proteins levels didnt seem to block telomere formation at Cas9-induced DSB. They quickly realized that telomerase could act directly on the type of DNA cuts that Cas9 makes, which creates a little wrinkle in the use of CRISPR, de Lange said.

Arnoult agreed. Especially if you consider the therapeutic use of CRISPR-Cas9, we really need to understand if there are some contexts where that misguided action of telomerase is going to be more frequent, she said.

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Much remains for de Lange and her team to reveal about ATR. Although they found that ATR represses telomerase, they dont know how this happens. Arnoult said that she wonders whether there are other redundant pathways that can also influence telomere formation at DSB in other contexts. She pointed to other species where telomeres that form at DSB are a normal part of development.4,5 Studying those species may give us clues of how they can do that very efficiently and why it's prevented in humans, Arnoult said.

de Lange is also thinking about how this process could be involved in cancer. Cancer cells genomes are plagued by DNA breaks, but their survival and proliferation depends on them finding a way to stabilize that damaged DNA; inappropriate telomerase activity may be one tool at their disposal. de Langes team is creating cells with abnormal chromosomes similar to those in cancer to see if telomerase helps these cells survive.

1. Kramer KM, Haber JE. New telomeres in yeast are initiated with a highly selected subset of TG1-3 repeats.Genes Dev. 1993;7(12A):2345-56. 2. McClintock B. The stability of broken ends of chromosomes in Zea Mays.Genetics. 1941;26(2):234-82. 3. Kinzig CG, et al. ATR blocks telomerase from converting DNA breaks into telomeres.Science. 2024;383(6684):763-770. 4. Yu G, Blackburn EH. Developmentally programmed healing of chromosomes by telomerase in tetrahymena.Cell. 1991;67(4):823-32. 5. Mller F, et al. New telomere formation after developmentally regulated chromosomal breakage during the process of chromatin diminution in ascaris lumbricoides. Cell. 1991;67(4):815-22.

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WWII veteran Ward Thomas identified through genealogy testing – 10TV

Posted: at 12:09 pm

Ward Raymond Thomas went missing from the Chillicothe VA Medical Center in 1972. Decades later, his family has closure with the help of genetic genealogy testing.

CHILLICOTHE, Ohio Ohio World War II veteran, Ward Raymond Thomas, was laid to rest in April in a traditional military service in Chillicothe.

The path to get to that moment was anything but traditional.

Thomas had been missing for more than 50 years.

In 1942, when Thomas was 24 years old, he joined the U.S. Army at Fort Hayes in Columbus and went to serve overseas in World War II.

He returned home three years later with a long list of accolades, including the Purple Heart, and was honorably discharged from service.

Years later in 1972, Thomas was being treated at the Chillicothe VA Medical Center when he disappeared.

His family searched for him, but for decades, what happened to Thomas would be a mystery, until his niece Carolyn Grandstaff got a phone call last year from investigators at the Ross County Coroners Office.

He asked me if Ward Thomas was my uncle, she said.

The investigator told her about a skull that had been discovered in the Scioto River near the Chillicothe Correctional Institute in 1996.

For years, the identity of the skull was a mystery, labeled John Doe, waiting at the coroners office for technology to catch up.

In our minds, we had done everything we could, until there was technology that came along. It was a cold case, said former Ross County Coroner Dr. John Gabis.

Decades later, Dr. Gabiss successor, Dr. Ben Trotter sent the skull to the state BCI lab for testing.

Technology finally caught up in a way that we could extract DNA from the bone, Dr. Trotter said.

There, scientists extracted enough DNA from a tooth on the skull to look further into its identity.

It was the non-profit, DNA Doe Project, that used genetic genealogy to come up with the name Ward Thomas.

They tracked down his living relatives and Grandstaffs DNA was a perfect match.

Shock, pure shock. I wish my mom was alive and my sisters too to be a part of this because they missed their brother, they loved their brother a lot, she said.

Grandstaff said Ward Thomas was one of 12 siblings. His siblings, wife and stepson have passed away.

For 52 years, the family held on to Thomas military medals, finally reuniting them with the soldier at a funeral organized by the Ross County Veterans Service Office.

Just thankful that he could get this honor. It is wonderful, someone who went to war and fought for our freedoms, it is very important, said Thomas niece, Debbie Riffle.

Lt. Col. Robert Leach organized the service and decided he was going to send off the American hero in the most honorable way possible.

He invited Thomas family, members of the coroner's office, the DNA Doe Project, local law enforcement and anyone who had a part in solving the more than 50-year mystery, even recruiting a local high school student to wear a replica of Thomas military uniform, complete with all of his awards, honors and medals.

What I feel we did today was give a name and a face and a family to Ward Thomas, so now it is more than just an interesting story about science and identification of remains. Now we have laid a World War II decorated combat veteran to rest with his comrades, Lt. Col. Leach said.

Thomas was laid to rest with fellow veterans at Greenlawn Cemetery in Chillicothe. The Ross County Veterans Service Office will place a flag at the site every Memorial Day.

The completed mission to identify a veteran offers hope for the more than 100 John and Jane Does in Ohio. Thomas case is one of the oldest to be solved through DNA at the BCI lab.

When it was sent out it was a smaller amount of DNA than theyre used to for genealogy, and it was successful so just the technology over the last few years in the genealogy world has advanced and its going to keep advancing, said BCI Criminal Intelligence Analyst Jennifer Lester.

Family members of missing persons are encouraged to submit their DNA for free throughProject LINK.

To learn more about the project, and how it could help solve your familys case, contact BCI at 855-BCI-OHIO or email LINK@OhioAttorneyGeneral.gov.

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This Guardians prospect has baseball in his DNA – 1330 WFIN

Posted: at 12:09 pm

RICHMOND, Va. Dayan Frias was immersed in the world of baseball from a young age. His dads heavy involvement within the sport gave Frias a front row seat of what a career in baseball would look like. Wherever his dad, David, was playing, training players, or managing a team throughout Colombia, Frias was right there watching.

It started with my family, watching them play and listening to them a lot I think thats what made my path toward baseball, he said in Spanish. I told [my dad] that I wanted to be like [the players] some day.

Naturally, the 21-year-old decided to embark on the journey of becoming a professional baseball player. The Cartagena, Colombia native trained with his dad and two-time Gold Glover Orlando Cabrera, played in different academies and attended tryouts and showcases. He didnt stop until he reached the goal of many aspiring ball players: to sign with a team.

The Guardians saw the potential in Frias and signed him as an international free agent in 2018 for $80,000. Having accomplished the goal of signing, the real work of honing his skills and developing his talents to fit the Guardians needs began.

Frias, the Guardians No. 29 prospect per MLB Pipeline, made notable improvements in his first two seasons as a rookie. He slashed .216/.383/.291 in 2019, then in 2021 he slashed .322/.420/.520. The 2020 season was canceled due to COVID.

While he had a good start, Frias struggled in his introduction to full-season ball in 2022, batting .239/.344/.330 and totaling 21 errors. Soon after the season was over, Frias was invited to play for Colombia in the 2023 World Baseball Classic in which he competed with and learned from veterans in the league.

It helped me a lot, getting to play and share moments with veterans in the Major Leagues, the infielder said. I got a lot of advice and I also picked up stuff from them, routines, small things that have helped me in this sport.

He took the advice and good habits with him to the regular season at High-A Lake County and found success in 2023. The switch hitter slashed .260/.356/.426 and recorded 88 hits, 43 runs, and 11 home runs. Defensively at third base, Frias dropped to 13 errors for Lake County. He received Midwest League Player of the Week honors in late July and was named a Caribbean Series All-Star in February.

Frias brought his routines and small things from last season and implemented them into the new season. The advice he received that has been the most impactful, Frias shares with everyone: See it and hit it.

If you dont see anything then you cant hit and nothing happens, he said. I try to find a pitch that I know Im going to hit well and execute it Trying to miss less is what Im looking for at home plate.

He saw results early, collecting two hits and an RBI in five at-bats during his third season in the Cactus League with the Guardians in 2024. His improvements helped the plus defender break into the Guardians Top 30 prospect rankings this season.

As his growth continues, Frias wants to be remembered for his own style of play radiating excitement and passion on and off the field. After all, he has a passion for baseball that has been growing ever since he was introduced to the sport by his dad. He hopes his energy spreads not only within the clubhouse, but to fans as well.

I like to enjoy the game because its what I love, to be here in front of these fans, he said. I play for my team as much as for the fans as well. I love to play with enthusiasm all the time. Youre always going to see me smiling and messing around with the guys, making jokes all the time. I like to be a happy guy and infect my teammates with happiness.

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Tales of Kenzera review: a compassionate Afro-futurist exploration of grief – Eurogamer.net

Posted: April 24, 2024 at 10:39 am

What Tales of Kenzera lacks in creative game design it makes up for in vital, passionate storytelling.

Of all the Metroidvania elements in Tales of Kenzera: Zau, my favourite are the trees. Simply enough, meditating inside a tree provides a health boost. It's here the camera pans out to reveal these great, almost magical, natural structures which provide safety, sanctuary and a moment of reflection. Protagonist Zau is a hot-headed and petulant young man desperate to revive his father, but sat quietly in the trunk of a tree, he's just a boy.

The trees are a key example of how Tales of Kenzera transposes the genre to its African setting, but also where its heart lies: with the relationship between a father and son. The game's creator, voice actor Abubakar Salim (best known for his portrayal of Bayek in Assassin's Creed: Origins), has been particularly open about the personal inspiration behind the game: his own experience of grief following the death of his father. There's even a moving short film released ahead of the game. Yet even without knowing this, Tales of Kenzera itself exudes passion and love.

It's a story-within-a-story set in the fictional Afro-futurist land of Kenzera, and it tells the tale of desperate shaman Zau who bargains with Kalunga, god of death, following the passing of his father. Zau must deliver three spirits to win back his father and, along the way of his adventure, he learns to cope with his feelings of grief. Kalunga becomes his father-figure guide who speaks in proverbs and commands Zau with stern yet comforting lessons; Zau in return listens, rebels, argues, and accepts.

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Back to the trees: it's here we learn more about Zau's relationship with his father. As he reminisces on past moments - the sort you misunderstand as a child but appreciate with the wisdom of adulthood - he recognises the value of these lessons. Zau must learn to let go, and it's by reflecting with Kalunga in these trees he appreciates the extent of his loss and finds hope for the future. Throughout the adventure, Zau wrestles with his feelings and learns to express his emotions as he tackles the issues each of the three spirits represents. Kalunga acts as pseudo-therapist: "I see before me a strong, brave and intelligent young man who chooses to champion hope over despair," he tells Zau at one point.

There's humour too that touches deeper still than sincerity. Kalunga tells Zau of past shamans whose abilities he gradually acquires in typical Metroidvania fashion, yet Zau often laughs in disbelief at the seeming silliness of these stories. These are the Bantu Tales, traditional folk tales from across Africa that Salim shared with his father and directly influence Tales of Kenzera. The narrative often plays on the antagonistic relationship between generations, but it's not hard to picture Salim himself having similar conversations with his own father. He's the voice of Zau and their words are one. Despite the sorrow of its themes, there's an honesty and warmth to the storytelling in Tales of Kenzera that heightens the accomplished, if sometimes rote, gameplay.

If there's one Metroidvania convention Tales of Kenzera gets absolutely right, it's the free flow of movement. Zau begins the game with basic abilities already learned, like a dash and double jump, indicating his base capabilities as a hero. The feel of the game is superb as he swiftly leaps, wall jumps and bounds through each beautiful, African-inspired environment, and later abilities, like a grappling hook and powerful smash, complement the skillset. Narratively these abilities are based on the Bantu Tales, informing both Zau and us of these fantastical, insightful fables - from wrestling with clouds to alleviate drought, to the sacrifice of an elder sister to protect her shaman brother. On a gameplay level, though, they often serve a singular purpose that doesn't creatively push the limits of their function. Take the first ability, for instance, which can freeze water: this allows Zau to run up rivers and wall jump against waterfalls, yet after that initial use the game doesn't build on this in a meaningful way, or combine it with later abilities for more intricate platform-puzzle solving.

Zau also begins the game with his primary combat abilities: two masks, pertaining to the sun and moon, that provide melee and ranged attacks respectively and are switched between at the press of a button. Animations also change depending on the mask worn, from the moon's spiralling gymnastics to the sun's elegant pirouettes. Zau's a capable fighter, then, with attacks building up spirit energy that's used to either heal or unleash powerful blasts of anime-style energy. These are later boosted by unlocks in a simple upgrade tree. Again, it all flows well and feels satisfying at first, but combat is ultimately let down by a lack of enemy types that leads to repeated visual design and strategy, with higher difficulty achieved by simply throwing in more enemies at once. Bosses, though, punctuate story and gameplay with welcome challenge and there are some thrilling chase and escape sequences.

If some of this feels familiar, there are multiple gameplay devices that reveal Salim's gaming influences, from the Gears of War-style reload to prevent spamming shots, to the Ori-esque parrying of projectiles. Another is the trinket system, similar to the badges in Hollow Knight, that provide useful boosts, but their impact is lessened by the need to switch at workbenches that are spread too thinly throughout the map. Tales of Kenzera leans into player expectations of what a Metroidvania should be, resulting in an enjoyable, if straightforward, 2D adventure experience.

Multiple difficulty options. Control tweaks like controller aiming sensitivity and toggle for hold inputs. Screen shake, camera sway and chromatic aberration can be disabled. Controller input remappaing. Swahili voice option.

Yet I'm not quite convinced it satisfies as a Metroidvania. When I think of the genre, I mostly think of getting lost in labyrinthine worlds and needing to think creatively about my abilities to proceed. This didn't happen to me in Tales of Kenzera, and that's for two reasons. Firstly, the map - itself a little difficult to read between negative space - reveals an area in full at its start, meaning you never get the sense of exploration and discovery as you proceed. Secondly, while the world branches in multiple directions, progression is linear. There are optional areas to delve into to find new trinkets, often with plentiful insta-death hazards (so, so many spikes), but for the most part the main path is clear beyond simple (and literal) keys and locks. Metroid fans expecting an interconnected world of backtracking and disorientation may be left wanting.

Still, while it's easy enough to pick out flaws, they're forgivable due to the game's primary focus on compassionate storytelling, told mostly through expressive artwork. Tales of Kenzera thrives on its authentic African setting and offers vital representation as a result. The care and attention to detail here is clearly apparent, from the integration of the aforementioned Bantu Tales, to the inclusion of a Swahili vocal dub. The game's presentation merges modernity and tradition in a unique global melting pot of ideas. There's Afro-futuristim and folklore in its expansive visual design and intricately detailed costumes and hairstyles, plus anime eccentricity in combat. And its incredible score combines Western orchestration, sci-fi synths and ethnic instruments. I've not played a game like Tales of Kenzera before because this type of setting isn't seen enough in gaming, whether due to under-representation in the industry or perceived lack of interest from players. But these stories deserve to be told and Salim deserves praise for creating a game with a world that feels so fresh and unique.

The games industry needs diverse stories, both to highlight difference and prove their universality. Tales of Kenzera excites with its authenticity, yet its true power lies in its emotive, earnest narrative that tells a father-son story of grief that relates to us all and our hope for the future. As Zau tells Kalunga: "one thing I know about the human spirit is that if there is a chance - even a shred of hope - of potentially making things better, we take it." So reach out and grab it.

A copy of Tales of Kenzera: Zau was provided for review by EA.

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Mutant Bacteria Discovered Aboard International Space Station – Futurism

Posted: at 10:39 am

Gross! It's Alive!

The International Space Station has long been known as a unique and uniquely gross environment. But according to a new NASA study, it has stuff growing on it that is straight-up alien, too.

In a press release, NASA said that when scientists from the Jet Propulsion Lab looked at samples of the drug-resistant Enterobacter bugandensisbacteria found on the orbital outpost, they found that the strains had mutated into something that literally doesn't exist on Earth.

"Study findings indicate that under stress, the ISS isolated strains were mutated and became genetically and functionally distinct compared to their Earth counterparts," the press release reads. "The strains were able to viably persist in the ISS over time in significant abundances."

What's even crazier: E. bugandensis was apparently able to not only coexist "with multiple other microorganisms," but was also demonstrated in some cases to "have helped those organisms survive."

Published in the journalMicrobiome, a paper on the new study details how JPL researchers isolated 13 distinct strains of the gastrointestinal bacteria, which was discovered in 2018 and is associated with severe illnesses, including sepsis in newborns.

According to the paper, the strains studied in the new research were "isolated from various locations within the ISS," along with all the other nasty stuff that causes its peculiar smell. Along withE. bugandensis, NASA has been studying other potentially harmful viruses, fungi, and bacteria as part of its secondmicrobial tracking mission, which has astronauts literally scrape the ISS walls and put what they find under microscopes to see how weird they got.

"Closed human-built environments, such as the ISS, are unique areas that provide an extreme environment subject to microgravity, radiation, and elevated carbon dioxide levels," the press release explains. "Any microorganisms introduced to these areas must adapt to thrive."

And thrive it did! According to the study,E. bugandensis not only survived in the confines of the space station, but actually seemed to have become even more drug-resistant, placing it within the "ESKAPE pathogen group" comprised of several bugs that are known for "formidable resistance to antimicrobial treatments."

This study, the researchers insist, will help better contribute to the understanding of genetic evolution of pathogens and ultimately add to science's growing understanding of how to stay healthy in space.

For us on Earth, however, it's just another reminder that for all the damage we've done to our planet, we're still very lucky not to be trapped in space with mutated terrestrial germs.

More on the ISS:Departing Astronauts Leave Sticky Brown Surprise in Space Station

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Physicists Suggest Universe Is Full of Material Moving Faster Than Light – Futurism

Posted: at 10:39 am

It could be what makes up dark matter. Dark Secrets

New research suggests that the universe is filled with particles capable of traveling faster than light, LiveScience reports and that this scenario holds up as a potentially "viable alternative" to our current cosmological model.

The idea is a little far-fetched, sure, but it's worth hearing out. These hypothetical particles, known as tachyons, aren't likely to be real but they're not some hokey bit of sci-fi, either. The potential for their existence is something physicists have been giving serious thought for decades, raising fundamental questions about the nature of causality.

As detailed in a yet-to-be-peer-reviewed study, the researchers posit that tachyons are what make up dark matter, an unobservable and despite being widely considered to exist by scientists, technically hypothetical substance that is thought to account for around 85 percent of all matter in the universe.

Because we can only see dark matter's substantial gravitational influence, we don't know what it actually is, leaving the door open to all kinds of possibilities that are worth considering.

As it turns out, a tachyon-filled cosmos does a good job of explaining the universe's ongoing expansion, according to the researchers.

In the standard cosmological model, the existence of so-called dark energy is used to explain the expansion of the universe. Also unobservable, dark energy is thought to dwarf even dark matter, accounting for up to 70 percent of the entire universe.

Without it, the sheer gravity of all the mass in the universe would eventually slow down its expansion. Instead, scientists have observed the rate of expansion is actually accelerating driven by, it's hypothesized, dark energy.

But if tachyons are real and pervade the universe as dark matter, they could also potentially explain this acceleration. The researchers found that, in such a scenario, tachyonic dark matter would initially decelerate the universe's expansion, before reversing and causing it to accelerate like we see now. They call this an "inflected" expansion.

So far, their evidence to support this comes from observations of Type Ia supernovae, a type of supernova in which a dying star collapses and explodes caused in certain types of binary star systems.

These distinct supernovae serve as standard candles, cosmic objects with a known luminosity that allow astronomers to use as a reference point to calculate distances in space. It was by using Type Ia supernovae as standard candles,in fact, that scientists first confirmed that the expansion of the universe was accelerating.

When the researchers compared their tachyonic model to sample data from the Type Ia supernovae, they found that the two are "comfortably consistent with one another."

Of course, this is a very limited application of the model. It raises intriguing possibilities for followup research, sure, but it's a far cry from proving that tachyons actually exist. Nonetheless, it illustrates just how much we have left to learn about the fundamental phenomena that govern the cosmos.

More on cosmology: New Paper Claims Dark Matter Doesn't Exist at All

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