Category Archives: DNA

A St. Paul man has been charged after DNA from a left-behind item linked him to a gas station robbery.

Christian Allan Gorr, 22, is charged via warrant with first-degree aggravated robbery. He was not yet in custody as of Tuesday morning.

A criminal complaint states law enforcement was called to investigate a robbery at a gas station in St. Paul at around 5:30 p.m. on Nov. 21, 2021. The suspect was wearing black clothing and an Aeropostale sweatshirt while carrying a revolver and a black bag.

About an hour later, authorities learned a Super USA gas station in Inver Grove Heights was robbed at gunpoint by a person with the same description.

The complaint states the suspect left behind a bag at the St. Paul robbery, and the bag contained a white surgical mask and a pair of gloves. When the items were sent to the Minnesota Bureau of Criminal Apprehension for DNA testing, the results matched the profile of Gorr and his brother, who was in Nashville at the time.

According to the complaint, Gorr is a suspect in several other robberies in the east metro that are similar in nature. However, he currently faces just one count of aggravated robbery.

With a conviction, first-degree aggravated robbery carries a maximum penalty of 20 years in prison and a $35,000 fine.

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Man linked to Inver Grove Heights robbery by DNA; suspect in others - KSTP

In an interview at the American Society of Clinical Oncology (ASCO) 2022 Annual Meeting, Bruce Feinberg, DO, vice president and chief medical officer at Cardinal Health Specialty Solutions, discussed the use of circulating tumor DNA (ctDNA) and how it can be used in colorectal cancer. Although it has clear benefits when monitoring and managing cancer, Feinberg said more widespread use of this testing method will take time.

Your research found that nearly half of respondents did not use ctDNA to make treatment decisions in colorectal cancer. Why is this?

Bruce Feinberg, DO: So, this is going to be something that would likely be trending over time. And this is not unusual for our research. There's just a certain learning curve, and a certain amount of time that it takes for new science to get fully adopted, and often in that first wave of data there's a little bit of hesitancy. Is there enough data? Do I need to see a confirmatory study? Was the study performed large enough? Do I want to see it in a different tumor type? And so, there will be physicians who will be early adopters and understand the science and want to start using it. And there will be physicians who will be a little bit on the fence, and also physicians who will say, This is not ready for primetime. It's fascinating, you know, but come back to me in 10 years, and we'll see. And we saw some of that.

I would say that we saw the 50% maybe in a more favorable light. So, we saw the glass half full, not half empty, given the fact it really is a single tumor type. That's one, although the research is much broader, but one that's come into the mainstream with a large well-defined trial, in which multiple experts in the field have weighed in. We thought that that speaks favorably to the recognition that this is something which could move forward and move forward quickly. I still think it could be 5 to 10 years for it really to replace more traditional ways of assessing treatment response. I think we're going to see it sooner in blood malignancies, multiple myeloma in particular. But even now that we're using it, in areas like blood-based cancers, like multiple myeloma, there still is hesitancy to base the full decision making on the result and we're still doing the traditional processes in addition to that test, but they're always at a point of transition. And I think we're well on our way now. Because the science is there, the science has been validated, it's just going to take a little bit of time to kind of move that needle, where we'll have the full adoption.

Is ctDNA used in other diseases, and how widespread is this use?

Bruce Feinberg, DO: So, in the hematologic malignancies I would say it is already primetime. It's used, but we haven't gotten to the next step, which is at what point is its effectiveness in being able to measure the amount of cancer? So let's just say that we determined that we had 2 consecutive readings, in which there is no measurable cancer and, again, at this level, you know, we're down to far below anything that could be seen on an X-ray. At what point do we say, okay, based on that we're no longer going to treat, as opposed to, Oh, that's great. And we're going to continue treatment anyway. So, we're not quite there, where we're basing our full decisions on that and that's going to take more time.

So, you'll see a study will be done in which patients who had, let's say, 2 consecutive levels which were unmeasurable on minimal residual disease down to multiple logs down of a tumor regression, and well actually discontinue half of those patients on further therapy, the other half will continue. And then we'll see over 2 years what the outcomes are. That's what's going to start to happen. Now, how do we now take this tool which has been validated, which is being used, and then start to apply it where it really will influence the way in which we treat the patient going forward?

What steps could be taken to improve utilization of ctDNA in colorectal cancer?

Bruce Feinberg, DO: What made medicine modern is the concept of the randomized controlled clinical trial, the idea that we weren't going to make decisions based on anecdote. I observe this, so I'm going to try this again on this patient, I thought it seemed to work in that patient, I'm going to tell my colleague, and there's this groundswell. I write a letter to the editor, a case study of 3 patients, and suddenly it starts to be adopted. That was the world of medicine up until the mid-1980s, to some degree. The introduction of randomized controlled clinical trials really elevated it. We're going to remove all biases of the observer, you're not going to know if the patient got the treatment or they got the sham, if they got the experimental drug or they got the standard of care. And patients won't know and doctors won't knowdouble blinded. And we're going to have independent assessments done, what's called blinded independent review of the X-rays of the pathology. So, again, we're going to have a central source looking at everything and looking with the same eyes. So, we don't have all these different investigators with their own little ways of doing things. And we introduced a rigor to the process. Now, there were problems with that, and the problems were that it took time and it took money. Now we're finding ways to expedite and accelerate those processes, but they still represent a scientific rigor which we need to continue. And that's what's going to be done with ctDNA. It's going to be applying, now that we know that the science is sound, doing those kinds of studies as accelerated as we can do them, in order to prove the effectiveness of it as a tool that's going to directly impact the care of the patient, as opposed to information for informations sake.

What does implementation of ctDNA look like in the community setting versus the hospital setting? What are the benefits or obstacles of this environment for ctDNA testing?

Bruce Feinberg, DO: So, fortunately, the ctDNA technology is readily available now. And there are multiple commercial labs that do it. And so, it's no longer something which can only be done in an academic institution, by that hospital or a sophisticated laboratory. So, it's readily available to all providers in whatever sphere they're working in. And therefore, it's a readily available tool for the management of all patients. So, I don't think we have any barriers to access of the technology. I think the barrier will be really overcoming what are reasonable health care provider reservations with a new technology.

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Expert: Increasing Use of Circulating Tumor DNA in Oncology Will Take Time - Pharmacy Times

Cloning, expression and purification

ORC, Cdc6, Mcm27Cdt1, DDK, CDK, Sld2, Sld3Sld7, Cdc45, Dpb11, Pol , Pol exo-, Pol , TopoI, Mcm10 and yeast histone octamer were purified on the basis of previously established protocols1,11,24,33,48,49,50,51.

Designed DNA fragments (Supplementary Table 1) were subcloned from pMA vectors (Supplementary Table 2) to pRS shuttle vectors (Supplementary Table 2), which were used to generate yeast strains (Supplementary Table 3) used to overexpress Mcm27Cdt1 mutants. The oMG25 DNA fragment was subcloned from pMG39 to pAM38 using MluI and XbaI restriction sites to obtain pMG69, which was integrated into the yJF21 yeast strain, thus generating the yAE164 strain that was used to overexpress the Mcm2 6A mutant (Mcm2 V580A/K582A/P584A/K587A/W589A/K633A). The oMG27 DNA fragment was subcloned from pMG43 to pJF4 using BsiWI and SphI restriction sites to obtain pMG53, followed by the integration of pMG53 into the yAM20 strain, yielding the yAE160 strain, which was used for overexpression of the Mcm6 2E mutant (Mcm6 T423E/R424E). The oMG28 DNA fragment was subcloned from plasmid pMG44 to pJF4 using BsiWI and SphI restriction sites, thus obtaining plasmid pMG54. The pMG54 plasmid was integrated into the yAM20 strain, yielding the yAE161 strain that was used to overexpress the Mcm6 5E mutant (Mcm6 T408E/Q409E/L410E/G411E/L412E). All Mcm27Cdt1 mutants were purified essentially as wild type50.

A gene block encoding a twin-strep tag and the first three codons of Psf3 was amplified and cloned into pFJD5 by restriction-free cloning techniques. A list of primers and gene blocks used is included in Supplementary Table 1. BL21(DE3)-CodonPlus-RIL cells (Agilent) were transformed with GINS expression plasmid (pJL003). Transformant colonies were inoculated into a 250-ml LB culture containing kanamycin (50gml1) and chloramphenicol 35gml1), which was grown overnight at 37C with shaking at 200rpm. The following morning, the culture was diluted 100-fold into 6 1l of LB with kanamycin (100gml1) and chloramphenicol (35gml1). The cultures were left to grow at 37C until an optical density at 600nm (OD600nm) of 0.5 was reached; 0.5mM isopropyl -d-1-thiogalactopyranoside (IPTG) was added to induce expression and cells were left shaking for 3h. Cells were collected by centrifugation at 4,000rpm for 20min in a JS.4.2 rotor (Beckman). For lysis, cell pellets were resuspended in 120ml of lysis buffer (100mM Tris-HCl pH 8.0, 10% glycerol, 0.02% NP-40, 1mM EDTA, 200mM NaCl, Roche protease inhibitor tablets and 1mM dithiothreitol (DTT) + 0.7mM phenylmethylsulfonyl fluoride(PMSF). The lysate was sonicated for 120s (5s on, 5s off) at 40% on a Sonics Vibra-Cell sonicator. Insoluble material was removed by centrifugation at 20,000rpm for 30min in a JS.25.50 rotor (Beckman). The supernatant was loaded by gravity onto a 1-ml Strep-TactinXT column (IBA). The resin was washed extensively with wash buffer (100mM Tris-HCl pH 8.0, 10% glycerol, 1mM DTT and 1mM EDTA). GINS was eluted by the addition of 6ml of 1 buffer BXT (IBA) supplemented with 10% glycerol and 1mM DTT. The GINS-containing fractions were pooled and dialysed overnight in gel filtration buffer (25mM HEPES-KOH pH 7.6, 10% glycerol, 0.02% NP-40, 200mM potassium acetate and 1mM DTT). The sample was concentrated and loaded onto a HiLoad 16/600 Superdex 200 equilibrated in the same buffer. GINS-containing fractions were pooled, aliquoted and snap-frozen in liquid N2. About 22mg GINS was purified from a 6-litre culture.

The codon-optimized expression sequence for MH containing a HRV 3C protease cleavage site followed by a twin-strep tag was synthesized and cloned into pET302 by GeneWiz Synthesis (pJL004). T7 express cells (NEB) were transformed with pJL004. Transformant colonies were inoculated into a 250-ml LB culture with ampicillin (100gml1), which was grown overnight at 37C with shaking at 200rpm. The following morning, the culture was diluted 100-fold into 6 1l of LB with ampicillin (100gml1). The cultures were left to grow at 37C until an OD600nm of 0.5 was reached; 0.5mM IPTG was added to induce expression and cells were left shaking for 3h. Cells were collected by centrifugation at 4,000rpm for 20min in a JS.4.2 rotor (Beckman). For lysis, cell pellets were resuspended in 80ml of lysis buffer (20mM Tris-HCl pH 8.5, 10% glycerol 0.5mM EDTA, 500mM KCl, Roche protease inhibitor tablets and 2mM tris(2-carboxyethyl)phosphine (TCEP)) + 0.7mM PMSF. The lysate was sonicated for 120s (5s on, 5s off) at 40% on a Sonics Vibra-Cell sonicator. Insoluble material was removed by centrifugation at 20,000rpm for 30min in a JS.25.50 rotor (Beckman). The supernatant was loaded by gravity onto a 5-ml Strep-TactinXT column (IBA). The resin was washed extensively with lysis buffer. MH was eluted by the addition of 12ml of 1 BXT (IBA) supplemented with 10% glycerol and 1mM DTT. The MH-containing fractions were pooled and loaded onto a HiLoad 16/600 Superdex 75 equilibrated in gel filtration buffer (20mM Tris-HCl pH 8.5, 10% glycerol 0.5mM EDTA, 100mM KCl and 0.5mM TCEP). MH-containing fractions were pooled, aliquoted and snap-frozen in liquid N2. About 36mg MH was purified from a 6-litre culture.

The native ARS1 origin of replication flanked by Widom 601 and 603 sites or MH-flanked was amplified by PCR and purified as previously described24. The 6 ARS1 array (pSSH005) was assembled by inserting an array of 6 ARS1 origins with 40-bp spacing flanked by MH sites using NEBuilder HiFi assembly. The 6 ARS1 origin array was amplified from pSSH005 using primer oSSH038 and concentrated by ethanol precipitation. A list of primers and DNAs used is included in Supplementary Table 1.

Soluble yeast nucleosomes were reconstituted from octamers and DNA by salt gradient dialysis in several steps from 2 to 0.2 M NaCl as previously described24. Following nucleosome refolding, a final dialysis step was performed into loading buffer (25mM HEPES-KOH pH 7.6, 80mM KCl, 100mM sodium acetate, 0.5mM TCEP) and loaded onto a Superose 6 Increase 3.2/300 column equilibrated in the same buffer. Fractions containing ARS1 origin DNA bound by 2 nucleosomes were pooled, concentrated, and stored at 4C. Reconstitution conditions were optimized by small-scale titration and nucleosomes checked by 6% native PAGE.

The conjugation of MH with origin substrates was performed in 50mM Tris-HCl pH 8.0, 1mM EDTA and 0.5mM 2-mercaptoethanol supplemented with 100M S-adenosylmethionine (NEB). The reaction was carried out overnight at 30C, with a 10:1 molar ratio of MH:DNA. After conjugation, reactions were centrifuged at 14,680rpm for 5min and loaded onto a 1ml RESOURCE-Q column equilibrated into DNA buffer (50mM Tris-HCl pH 8.0 and 5mM 2-mercaptoethanol). MH-conjugated DNA was eluted in a linear gradient of DNA buffer B (50mM Tris-HCl pH 8.0, 5mM 2-mercaptoethanol and 2M NaCl) over 24column volumes. Fractions containing MH-conjugated DNA were pooled, concentrated and stored at 80C. Conjugations were checked by 6% native PAGE.

The conjugation of MH with origin substrates was performed in 25mM Tris-HCl pH 7.5, 10mM magnesium acetate, 50mM potassium acetate and 1mgml1 BSA supplemented with 150M S-adenosylmethionine (NEB). The reaction was carried out at 32C for 1h then overnight at 4C, with a 20:1 molar ratio of MH:DNA. After conjugation, reactions were centrifuged at 14,680rpm for 5min and loaded onto a Superose 6 Increase 10/300 column equilibrated into array buffer (25mM HEPES-KOH pH 7.5, 200mM NaCl and 1mM DTT). Fractions containing MH-conjugated array DNA were pooled, concentrated and stored at 4C. Conjugations were checked by 6% native PAGE.

The 616-bp ARS1 circles were assembled and prepared as previously described1 with the following modifications. The dephosphorylation step was performed with the use of quickCIP, instead of Antarctic phosphatase, for 30min at 37C followed by enzyme inactivation at 80C for 2min. After the ligation step, the DNA was concentrated as described and incubated with T5 exonuclease (NEB; 37C for 1h) to eliminate non-ligated DNA. Ethanol precipitation, agarose electrophoresis and electroelution were omitted; instead, phenol/chloroform/isoamyl-alcohol extraction was performed, followed by ethanol precipitation using sodium acetate (pH 5.1) and the neutral carrier GeneElute Linear Polymer (LPA, MERCK).

ARS1 nucleosome-flanked origin DNA (20nM) was incubated with 52nM ORC, 52nM Cdc6 and 110nM Mcm27Cdt1 for 30min at 24C in loading buffer (25mM HEPES-KOH pH 7.6, 100mM potassium glutamate, 10mM magnesium acetate, 0.02% NP-40 and 0.5mM TCEP) + 5mM ATP. The reaction was supplemented with 80nM DDK, and incubation continued for a further 10min at 24C. Nucleoprotein complexes were isolated by incubation with 5l MagStrep type3 XT beads (IBA) pre-washed in 1 loading buffer for 30min at 24C. The beads were washed three times with 100l wash buffer (25mM HEPES-KOH pH 7.6, 105mM potassium glutamate, 5mM magnesium acetate, 0.02% NP-40 and 500mM NaCl) and once with 100l loading buffer. Loaded, phosphorylated double hexamers were eluted in 20l elution buffer (25mM HEPES-KOH pH 7.6, 105mM potassium glutamate, 10mM magnesium acetate, 0.02% NP-40, 0.5mM TCEP, 27mM biotin and 5mM ATP) for 10min at 24C. The remaining supernatant was removed and incubated with 200nM CDK for 5min at 30C. A mix of firing factors was then added to a final concentration of 30nM Dpb11, 100nM GINS, 80nM Cdc45, 20nM Pol , 30nM Sld3Sld7 and 50nM Sld2. After 30min of incubation, the reaction was applied directly to grids or diluted fivefold in 1 loading buffer for ReconSil experiments.

MH-capped ARS1 array DNA (5nM) was incubated with 52nM ORC, 52nM Cdc6 and 110nM Mcm27Cdt1 for 30min at 24C in loading buffer (25mM HEPES-KOH pH 7.6, 100mM potassium glutamate, 10mM magnesium acetate, 0.02% NP-40 and 0.5mM TCEP) + 5mM ATP. The reaction was supplemented with 80nM DDK, and incubation continued for a further 10min at 24C. Nucleoprotein complexes were isolated by incubation with 5l MagStrep type3 XT beads (IBA) pre-washed in 1 loading buffer for 30min at 24C. The beads were washed three times with 100l wash buffer (25mM HEPES-KOH pH 7.6, 105mM potassium glutamate, 5mM magnesium acetate, 0.02% NP-40 and 500mM NaCl) and once with 100l loading buffer. Loaded, phosphorylated double hexamers were eluted in 20l elution buffer (25mM HEPES-KOH pH 7.6, 105mM potassium glutamate, 10mM magnesium acetate, 0.02% NP-40, 0.5mM TCEP, 27mM biotin and 5mM ATP) for 10min at 24C. The remaining supernatant was removed and incubated with 200nM CDK for 5min at 30C. A mix of firing factors was then added to a final concentration of 90nM Dpb11, 300nM GINS, 240nM Cdc45, 60nM Pol , 90nM Sld3Sld7 and 150nM Sld2. After 30min of incubation, the reaction was diluted fivefold in 1 loading buffer and applied to grids.

For experiments in which DNA was partially digested after the CMG formation reaction, MseI (NEB) was added at a concentration of 0.1U diluted in 1 loading buffer. Incubation was performed for 10min at 30C before applying to EM grids.

Replication assays were performed as described previously52. The reactions were incubated in a ThermoMixer at 30C with 1,250rpm shaking. The reaction buffer was as follows: 25mM HEPES-KOH pH 7.6, 10mM magnesium acetate, 2mM DTT, 0.02% NP-40, 100mM potassium glutamate and 5mM ATP. MCM helicase loading reaction (5l) contained 30nM ORC, 30nM Cdc6, 60nM Mcm27Cdt1 (or MCM mutants) and either 4nM ARS-containing 10.6kb supercoiled plasmid (pJY22; Supplementary Table 2) or 40nM ARS-containing short linear DNA (flanked by nucleosomes or MH; Supplementary Table 2) as for Fig. 1. After 20min, DDK was added to a final concentration of 50nM and further incubated for 20min. Next, the reaction volume was doubled (final volume was 10l) by adding proteins (20nM Pol , 30nM Dpb11, 20nM GINS, 50nM Cdc45, 20nM CDK, 50nM RPA, 10nM TopoI, 100nM Pol , 25nM Sld3Sld7, 10nM Mcm10 and 50nM Sld2) and nucleotides (200M CTP, 200M GTP, 200M UTP, 80M dCTP, 80M dGTP, 80M dTTP, 80M dATP and 50nM 32P-dCTP). For replication reactions with linear DNA (Fig. 1) Pol exo- was used instead of Pol wild type to reduce end labelling and the concentration of deoxynucleotides was modified (that is, 30M dCTP, 30M dGTP, 30M dTTP, 30M dATP and 100nM 32P-dCTP). The reactions were stopped by EDTA after 15 and 30min for reactions with 10.6-kb supercoiled DNA or after 20min for reactions with short linear DNA substrates and processed as described51,52. The replication products were separated using 0.8% agarose alkaline gel for 17h at 25V for reactions with 10.6-kb supercoiled DNA. For reactions with short DNA substrates, samples were separated using 2% agarose alkaline gel for 4h at 38V. The image signal from Fig. 1e was background-subtracted in Fiji using the subtract background algorithm in Fiji v.2.0.0 (ref. 53).

The experiment was performed as described previously1. The concentrations of proteins were as follows: 10nM ORC, 50nM Cdc6, 100nM Mcm27Cdt1 (or Mcm mutants), 80nM DDK for the helicase loading step (5l) and 20nM Pol , 30nM Dpb11, 40nM GINS, 50nM Cdc45, 30nM CDK, 10nM TopoI, 25nM Sld37, 5nM Mcm10, 50nM Sld2 for the helicase activation step (10l). Radiolabelled 616-bp circular DNA (25fmol) was used. After processing the reactions as described previously1, Ficoll 400 (final concentration was 2.5%) and Orange G were used to load the sample onto a native 3.5% bis-polyacrylamide gel (1 TBE) and separation was carried out for 21h at 90V using Protean II XL Cell apparatus (Bio-Rad) at room temperature. The 0.7-mm gel was dried (without fixation) at 80C for 105min, exposed to a phosphor screen and scanned with the use of Typhoon phosphor imager.

NS-EM sample preparation was performed on 400-mesh copper grids with carbon film (Agar Scientific). Grids were glow-discharged for 30s at 45mA using a K100X glow discharge unit (Electron Microscopy Sciences) before a 4-l sample was applied to the grids and incubated for 2min. Grids were stained by two successive applications of 4l 2% (w/v) uranyl acetate with blotting between the first and second application. Stained grids were blotted after 20s to remove excess stain. Unless described otherwise, data collection was carried out on a Tecnai LaB6 G2 Spirit transmission electron microscope (FEI) operating at 120keV. A 2K2K GATAN Ultrascan 100 camera was used to collect micrographs at a nominal magnification of 30,000 (with a physical pixel size of 3.45 per pixel) within a 0.5 to 2.0m defocus range.

A subset of particles was manually picked using RELION-3.1 (ref. 26) and used as a training dataset for Topaz training53. Subsequent image processing was performed using RELION-3.1. The CTF of each micrograph was estimated using Gctf (ref. 54) and particles were extracted and subjected to reference-free 2D classification in RELION-3.1.

For ReconSil experiments, image processing was carried out as detailed above. Reference-free 2D classification in RELION generates both 2D class averages and star files detailing the class assignment, particle coordinates and transformations (translations and rotations) applied to the raw particles for alignment.2D averages are superposed on the raw micrographs, overlaid on the particles that contributed to their generation. This yieldedsignal-enhanced ReconSiled micrographs reconstituting the contextof complete origins of replication. ReconSiled micrographs were used for the selection and rejection of origin nucleoproteins for further analysis.

ReconSiled origins were analysed as previously described24. In brief, ReconSiled micrographs were used to re-extract particles of interest in RELION. Selected particles were manually classified for statistical analysis. Measurements of ReconSiled origins were performed manually using Fiji55 and plotted in GraphPad Prism v.9.2.0.

CMG assembly reactions (reconstituted as described in In vitro CMG assembly on short chromatinized origins) were frozen on 400-mesh lacey grids with a layer of ultra-thin carbon (Agar Scientific). All grids were freshly glow-discharged for 1min at 45mA using a K100X glow discharge unit (Electron Microscopy Sciences) before plunge freezing. Samples were prepared by applying 4l of undiluted CMG assembly reactions for 2min on a grid equilibrated to 25C in 90% humidity. The grid was blotted for 4.5s and plunged into liquid ethane. Data collection was performed on an in-house Thermo Fisher Scientific Titan Krios transmission electron microscope operated at 300kV, equipped with a Gatan K2 direct electron detector camera (Gatan) and a GIF Quantum energy filter (Gatan). Images were collected automatically using the EPU software (Thermo Fisher Scientific) in counting mode with a physical pixel size of 1.08 per pixel, with a total electron dose of 51.4 electrons per 2 during a total exposure time of 10s dose-fractionated into 32 movie frames (Extended Data Table 1). We used a slit width of 20eV on the energy filter and a defocus range of 2.0 to 4.4m. A total of 65,286 micrographs were collected from two separate sessions.

Data processing was performed using RELION-3.1 (ref. 26) and cryoSPARC v.3.2 (ref. 56) (Extended Data Fig. 3). The movies for each micrograph were first corrected for drift and dose-weighted using MotionCorr2 (ref. 57). CTF parameters were estimated for the drift-corrected micrographs using Gctf within RELION-3.1 (ref. 54). Dataset one was first processed separately and combined with dataset two at a later stage.

For the first dataset, particles were picked using a manually curated particle set as a template in crYOLO v.1.7.5 (ref. 58). These particles were binned by 2 and extracted with a box size of 360 pixels for 2D and 3D classification. A subset of 1,600 representative particles across the entire defocus range was selected. Picks in areas of obvious particle aggregation were removed along with particles located on the carbon lace. A Topaz53 model was then iteratively trained on the remaining particles. All particles were re-picked with the Topaz model with the default score threshold of 0 for particle prediction. The two datasets were combined and a total of 927,109 particles were picked, binned by 2 and extracted with a box size of 360 pixels. We carried out 2D classification to remove remaining smaller particles and contaminants. We subjected the remaining particles to 3D multi-reference classification with four sub-classes, angular sampling of 7.5, a regularization parameter T of 5 using low-pass-filtered initial models from previous ab initio and processing steps on dataset 1 of dCMGE complexes, and double hexamer model generated from EMD-3960 (Extended Data Fig. 3). The resulting 133,262 (trans-dCMGE) and 46,049 (cis-dCMGE) particles with density corresponding to Pol on both CMG molecules were un-binned and refined to yield maps with resolutions of 7.7 and 14.4. C2 symmetry imposition did not improve the quality of the maps. The 133,262 trans-dCMGE particles were imported into cryoSPARC and subjected to multiple rounds of non-uniform refinement, heterogenous 3D classification and non-uniform local refinement, yielding a map at approximately 8 (Extended Data Fig. 3). Attempts to improve cis-dCMGE were unsuccessful given the limited particle numbers. As expected, these reconstructions do not show secondary structural features owing to the conformational heterogeneity between the two CMGE molecules bound by flexible DNA. We applied a C2 symmetry expansion procedure to both trans- and cis-dCMGE particles (179,311) with re-centring on one CMGE in RELION and combined all particles. We also downsized the box size to 512 pixels during this process to speed up downstream processing. Following this, masked 3D refinement with local searches in C1 of the centred single CMGE (consisting of 358,622 particles) was refined to 4.2- resolution. These particles were subjected to several rounds of CTF refinement and two rounds of Bayesian polishing. After this, CTF-refined and polished particles were refined with local searches in C1 with a mask encompassing the entire CMGE density to 3.6- resolution. To better resolve the DNA inside the MCM central channel, densities corresponding to Cdc45, GINS and Pol were subtracted in RELION. Signal-subtracted particles were analysed by 3D variability analysis in cryoSPARC (ref. 56). A subset of 71,348 particles was selected based on the quality of DNA density. These signal-subtracted particles were subsequently reverted to the original particles and refined using local searches in C1 using local searches to 3.5- resolution.

All refinements were performed using fully independent data half-sets and resolutions are reported based on the Fourier shell correlation (FSC)=0.143 criterion (Extended Data Fig. 2). FSCs were calculated with a soft mask. Maps were corrected for the modulation transfer function of the detector and sharpened by applying a negative B-factor as determined by the post-processing function of RELION or in cryoSPARC. The final RELION half-maps were used to produce a density modified map using the PHENIX Resolve CryoEM (refs. 28,59). This 3.4- map showed significant improvements for side chain and DNA density as well as for overall interpretability. Local-resolution estimates were determined using PHENIX or cryoSPARC (Extended Data Fig. 2f,j). The conversions between cryoSPARC and RELION files were performed using the UCSF pyem v.0.5 package60.

CMG (from PDB 6SKL)31, Pol2 subunit (from PDB 6HV9)33 and a homology model of the N-terminal domain of Dpb2 obtained from the Phyre2 server61 were docked initially into the cryo-EM map produced from Resolve CryoEM, using USCF Chimera, and refined against the map using Namdinator62 as a starting point for modelling with Coot v.0.9.1 (ref. 63). The DNA and the MCM5 winged helix domain were built de novo. The register of origin DNA engagement of dCMGE is heterogeneous because MCM double hexamers can slide along duplex DNA before dCMGE is formed. For this reason we could not build the origin DNA sequence with certainty and modelled polyA:polyT DNA instead. The resulting model was then subjected to an iterative process of real-space refinement using Phenix.real_space_refinement64 with geometry and secondary structure restraints and base-pairing and base-stacking restraints where appropriate, followed by manual inspection and adjustments in Coot. The geometries of the atomic model were evaluated by the MolProbity webserver65.

Maps were visualized in UCSF Chimera66 and ChimeraX67 and all model illustrations and morphs were prepared using ChimeraX or PyMOL.

Statistical analysis was performed using a two-tailed Welchs t-test in GraphPad Prism v.9.2.0. No statistical methods were used to predetermine sample size. The experiments were not randomized, and investigators were not blinded to allocation during experiments and outcome assessment.

Further information on research design is available in theNature Research Reporting Summary linked to this paper.

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Mechanism of replication origin melting nucleated by CMG helicase assembly - Nature.com

Last week, following the Socceroos' World Cup qualifying win over the United Arab Emirates, News Corp.. publisheda column that suggested the Australian team were largely unknown entities.

"Go the Socceroos. But who are these blokes?" the title read.

"I've scrolled through the starting team and mostly come up with blanks. Who's Bailey Wright? Isn't he in the World Surf League? One of Tyler Wright's brothers?

"Who's Jackson Irvine? The Wests Tigers halfback? Martin Boyle? Didn't he win The Voice? Jamie Maclaren? At last, a recognisable name. The Bathurst 1000 winner.

"Point being, without well-known figures such as Harry Kewell, Tim Cahill and Mark Viduka, the Socceroos have an identity crisis."

Setting aside the admission the writer did not watch the game, the question around who the Socceroos are in their post-"Golden Generation" glow does reflect a wider perspective of the casual Australian sports fan as well as the lack of storytelling across many mainstream media platforms about who these new, young, exciting Socceroos players really are.

The lack of awareness is due, in part, to the circumstances the team have found themselves in over the past three years.

Their qualification campaign for the 2022 World Cup in Qatar has been one of the longest of any nation in the world. Their first qualifier began all the way back in September of 2019, with a 3-0 win over Kuwait, butthen took a 500+ day pause the following year as the COVID-19 pandemic put a stop to global sport.

Their final qualifying gameended on Tuesday morning in a dramatic penalty shoot-out win against Peru, 1,008 days after the whole process began.

Not only that, but the Socceroos' disappearance from the public consciousness was also due to them playing 16 of their 20 qualification games away from home, largely in the Middle East,due to border closures and quarantine regulations.

That meantgames were played in the latest or earliest hours of Australia's mornings.

Without the Socceroos on home soil, then, they were out of sight, and therefore out of mind.

Luckily, the team's final, heroic win against the higher-ranked Peru which saw photos and stories splashed across almost every newspaper in the country means the interest in the current crop has reached fever pitch.

So, in order to assist those still asking, "who are these blokes?", ABC has provided a selection of some of the Socceroos players who made Australian history by qualifying for their fifth consecutive men's World Cup.

We start, of course, with the man of the hour: goalkeeper Andrew Redmayne.

Known as "Redders", the 33-year-old Sydney FC shot-stopper made just his third appearance for Australia when he came on to replace captain Mat Ryan in the final 10 minutes of the Peru game.

He is the true A-Leaguejourneyman, having represented five different clubs around Australia over the course of 14 seasons.

It got to the point where, in 2016, Redmayne contemplated quitting the A-League altogether, completing a barista course with the plan to work at a friend's cafe while finishing his degree on the way to becoming a primary school teacher.

"I just didn't think I was good enough, to be honest. It was a pretty rough stage in my life," he told News Corp. a few years later.

But Redmayne stuck it out, ultimately linking up with his first goalkeeping coach John Crawley at Sydney FC in January of 2017 the same man who also coached the gloveman Redmayne replaced on Tuesday, Mat Ryan.

From there, Redmayne grew, emerging as the club's number one following the departure of fellow SoccerooDanny Vukovic.

Since then, the "Grey Wiggle" has been the Sky Blues' saviour on multiple occasions, especially from the penalty spot, helping the club win the 2019 A-League Men grand final against Perth Glory through similarly theatrical shoot-out heroics.

It was Crawley, too, who opened the Socceroos door to Redmayne after he joined Arnold's coaching unit in 2019, and who was one of the only members of the entire Australia staff and team who knew about Tuesday's shock substitution plan.

The humble giant may have only played a small role in the larger Socceroos campaign, but Redmayne's story echoes that of many others.

They includeJamie Maclaren, Adam Taggart, Rhyan Grant, Mitchell Duke, Andrew Nabboutand Craig Goodwin, whohave spent most of their senior careers in the A-League Men.

While it's a competitionthat may not beregarded as one of the world's best but which has provided full-time football, professional environments, financial stabilityand an opportunity to grow it has been ideal, even for late-bloomers like Redmayne.

It is testament to the A-Leagues' ability to produce national players that the majority of Socceroos 17of 23 players listedagainst Peru started right here at home, representing one of the country's 12 ALM teams.

As one of the Socceroos' most experienced players, 31-year-old Aziz Behich has been MrDependable for Australia throughout their World Cup campaign. A snowstorm back in January was the only thing stopping him from appearing in every single qualifier, and he's one of the first players Arnold lists on his team sheet, which included both play-off games.

The son of Turkish-Cypriot migrants, Behich emerged through Victoria's football pathways with Green Gully SC before debuting for Melbourne Victory's senior team in January 2010. He made the switch to cross-town rivals Melbourne Heart later that year, where he slowly transitioned from his more attack-oriented youth football to become one of the country's most dependable left-backs.

Behich's heritage meant he was eligible to represent three nations Turkey, Cyprus, and Australia but he chose the latter when he accepted his first senior call-up in 2012.

Soon afterwards, Behich helped blazea trail that many other young Socceroos have since followed: spring-boarding from the ALM to ply his trade overseas, first with Turkish club Bursaspor and then with Dutch giants PSV Eindhoven. He returned to Turkey following the 2018 men's World Cup in Russia, where he remains with Giresunspor.

Behich, along with Mat Ryan, Trent Sainsbury, Tom Rogic, Mat Leckie, Aaron Mooy, and Bailey Wright, is part of that middle generation of Socceroos connecting the legendary players Australia remembers to the emerging group of talent.

They're the ones who have not been quite as highly celebrated for ensuring the Socceroos maintained their World Cup appearance streak, which the win over Peru has extended to a historic five in a row, but who have maintained club careers abroad and been crucial in handing down the lessons they learned from the legends of the game tothose still to come.

Like the more senior players, Behich relishes his mentoring role in bringing through the likes of young defenders like Kye Rowles, Fran Karai, Joel King, and Nathaniel Atkinson, all of whom have been introduced into the fold over the course of these qualifiers.

"All these young boys coming in they've been brilliant," he said before the Peru game.

"We have a great mix of experience and a lot of young boys coming in through the Olyroos [U-23 team], which is great to see.

"They had a few good games in the Olympics and, working with Arnie, I think they'll only get better.

"With new players coming into camp, and for us as older players, it's all about making them feel welcome and just to be comfortable so they can show their best football when they get the chance.

"Our success so far is about brotherhood. Every time we come together, it's like we've never been apart."

One of those emerging talents Behich speaks of is 25-year-old Ajdin Hrustic, the midfielder who scored the Socceroos' winner against the UAE last week.

Hrustic, alongsideKenny Dougall and Jackson Irvine,represents a different kind ofAustralian player: one who, after playingyouth football in Australia, skipped the A-Leagues altogether and moved straight to Europe in order to chase thedream.

Hrusticstarted out in England with Nottingham Forest before joining clubs in Austria, Germanyand the Netherlands when he was still a teenager, working his way through the tiers before signing a contract with Bundesliga side Eintracht Frankfurt in 2020.

In May, he became the first Australian to win the UEFA Europa League Europe's second-biggest club trophy after defeating Scottish side Rangers, scoring in the penalty-shootout decider.

Like Behich, Hrustic was also eligible for multiple nations including Bosnia and Romania through his parents, but despite being contacted by the former in 2017, turned down the offer due to his desire to represent the country of his birth: Australia.

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Largely overlooked by the Australian national teams since moving overseas, his dedication to his football eventually got him noticed by the Olyroos later that year, making his "A" international debut for the senior team in 2018.

Despite being one of the outsiders at the beginning of Australia's tumultuous qualifiers, Hrustic's technical abilities, visionand goal-scoring ability have seen him become a regular starter for the Socceroos and one of the players that overseas media singled out as one of the team's most talented and dangerous attacking weapons.

He's part of a cohort of younger and fringe players who may not have spent significant time Down Under (or, in the case of players like Karai, Martin Boyle, and Harry Souttar, any time at all), but who have felt a calling to pull on the green and gold and represent Australia none the less.

Finally, one of the Socceroos' most exciting players of thisgeneration is winger Awer Mabil, who scored Australia's final penalty against Peru before Andrew Redmayne's crucial save.

The 26-year-old represents our new migrant story: a first-generation arrival from Kenya whose family sought refuge and opportunity on our shores.

It was in his birthplace the Kakuma refugee camp that he first learned how to play football, using a rolled-up sock or a bundleof plastic bags in place of a ball and practising withbare feet in the sand.

He arrived in Australia with his family in 2006, settling in Adelaide, where his talent was quickly noticed and nourished. He made his debut for Adelaide United when he was just 17 and earned his first call-up to the Socceroos the following year, scoring his first goal for his adopted country in 2018 and celebrating alongside fellow debutant and South Sudanese refugee, Thomas Deng.

His club football has taken him around the world from Denmark to Portugal to Turkey, with a move to Spain now on the horizon.

As he told media after the Socceroos' win over Peru: in the moments he was preparing to take the decisive spot-kick, running through his mind were images of his family, the opportunities provided by Australia, and how he could use this one act to give back.

"I knew I was going to score," he said. "It was the only way to say 'thank you' to Australia on behalf of my family.

"My family fled Sudan because of the war. I was born in a hut, a little hut:my hotel room here is definitely bigger than the room we had as a family in that refugee camp.

"For Australia to take us in and resettle us, it gave me and my siblings and my whole family a chance at life. That's what I mean by thanking Australia for that chance of life, that chance of opportunity."

These players might not be the household names of Kewell, Cahill, or Viduka, but they are arguably much more representative of the "Aussie DNA" than that which head coach Graham Arnold emphasised over the course of these final two play-offs.

While their gutsy win over Peru certainly embodied the mateship and underdog spirit often associated with a more mythologised Australian identity the kind associated with 20th-century politics and parochial bush poems they also reflect an Australia that is more modern, more real, and more relevant to the rest of the country.

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They're a group who have embraced the opportunities Australia has provided them while also striving for more, with many taking themselves off to lesser-known clubs and leagues abroad to keep their dream alive.

They're a group who have shown remarkable resilience and commitment to the larger Socceroos project, spending extended periods of time away from family and friends as Australia battled through their COVID-ravaged qualifiers.

They're a group filled with young and emerging players who have stepped up to fill the voids left by departed or absent veterans, carrying the at-times-unbearable weight of the Socceroos' own history on their shoulders.

They're a group whose belief in themselves and each other has seen them weather the storm of growing media criticism, as well as the fading hopes of a footballing public who all but wrote them off against their Tuesday opponents.

But most of all, they're a group who reflect Australia'smulticultural, migrant-rich population,perhaps more so than any other national team we have.

Since the first Socceroos team was established in 1922, they have been one of the most accurate reflections of the country's ever-shifting cultural landscape: from theEnglish and Scottish immigrants who first introduced the game in the late 19th century,to the influx of Western European families who embraced First Nations footballers during the two world warsto,morerecently, the arrival of Asian, Arab, and African communities fleeing war and persecution, or simply seeking a better life in Australia.

The country's multicultural threads are all tied together, as they have always done, in thisSocceroos teamwith all thecurrent players descending directly from these histories.

From Redmayne and Behich to Hrustic and Mabil, this grouphas emergedfrom all backgrounds and experiencesto meet here, in these moments, to help each other thrive. They are the global game in local colours.

This is the true "Aussie DNA"that the Socceroos embody: a team that not only represents the story of Australian footballbut the story of Australia itself.

So if someone ever asks you "who the hell are these blokes?", you can confidently point to the diverse, vibrant nation around you and say: "This is who they are."

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'Who are these blokes?': The other kinds of 'Aussie DNA' threaded throughout the Socceroos - ABC News

Quest Diagnostics: Sam Samad

Quest Diagnostics has named Sam Samad executive vice president and CFO. Effective July 11, he will succeed Mark Guinan who will be retiring after more than eight years in the role.

Samad joins Quest from Illumina, where he had been CFO for more than five years (for more on Samad's departure from Illumina, click here). Prior to Illumina, he was senior VP and treasurer at Cardinal Health. Before that he held a variety of sales and finance roles at Eli Lilly.

Molecular Assemblies: Jeffrey Sampson, David Hwang

Molecular Assemblies has appointed Jeffrey Sampson to its board of directors. Sampson is an associate VP and research fellow for Agilent Technologies. Sampson is also a core member of Agilent's early-stage partnership program, which identifies and fosters relationships with early-stage companies that are strategic to Agilent's interests for potential investment. Sampson is also currently a board member for Purigen Biosystems.

Molecular Assemblies also said that board member David Hwang has stepped down from his position. Hwang had been a board member since 2019.

Informed DNA: Sobha Pisharody

Informed DNA has hiredSobha Pisharodyfor the newly created role of chief strategy and product officer. As such,Pisharodywill lead efforts to modernize the firm's knowledgebaseinto a scalable technology platform, with the goal of improving the delivery of actionable decision support to healthcare providers and pharmaceutical and biotech researchers. Pisharody, who holds a Ph.D. in molecular oncology and immunology from New York University, has more than 20 years of experience in life sciences, with startups as well as with major companies including Thermo Fisher Scientific.

For additional recent items on executive appointments, promotions, and departures in omics and molecular diagnostics, please see the People in the News page on our website.

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People in the News at Quest Diagnostics, Molecular Assemblies, Informed DNA, More - GenomeWeb

Police tape at the scene of a shooting in downtown Whitehorse on Dec. 1, 2019. Crown prosecutors wrapped up presenting evidence that's part of the trial into the shooting. (Mike Rudyk/CBC - image credit)

DNA belonging to a man charged in connection to a 2019 shooting outside a Whitehorse bar, as well as that of two others,was found on a handgun, according to a forensic DNA analyst with the RCMP.

Connie Leung, along with RCMP officers, provided expert testimony this week as part of a trial into the shooting, which left one man, John Thomas Papequash, critically injured.

Malakl Kwony Tuel faces 13 charges, including attempted murder and various firearm offences.

A second man who was at the bar that night is also being tried. Joseph Wuor faces five charges, none of which are connected to the shooting. His counts include cocaine possession for the purposes of trafficking, and possessing a loaded prohibited or restricted firearm.

'I can't exclude him or include him'

Leung said she discovered a DNA profile that matches Tuel on the gun's frame, located below the slide, which is used to reload the weapon.

She told court she also foundDNA from at least two other individualson various gun parts, including the muzzle, trigger and magazine. Shesaid Tuel's profile on the firearm is, overall, "quite weak."

Asked by the Crown whether Tuel's DNA can be ruled out from the trigger and other areas, Leung said, "I can't exclude or include him."

She said she can't ascertain who, exactly, last held the gun, nor can she determine who fired the pistol.

"I can't say when or how [the DNA] got there," she said, "just that it's there."

Leung said DNA can, in theory, stay on items for an extended period of time. But, she added that certain environmental conditions heat and moisture, for example can affect the strength of a given DNA profile.

Asked whether Tuel's DNA could have been transferred to the gun by touching clothes or another item, Leung said it's possible.

RCMP officer says seized items could point to drug dealing

Officers tasked with investigating the shootingseized various items, including cash, cellphones,magnetic key holders, a handgun and "spitballs."

Story continues

A spitball is parlance for cocaine packed and tied in a plastic bag.

RCMP Sergeant Jill McLaren, who was part of theinvestigation into the shooting,told the court a cartridge was found at the scene, as well as a fully intact bullet.

RCMP Corporal Guy Lacroix, whose experience includes drug enforcement, said seized drugs point to trafficking. He was not involved in enforcement efforts relatedto the shooting or the subsequent investigation.

Lacroix said cocaine will eventually lead to "money, more cocaine and firearms."

Several photographs of drugs identified as cocaine were exhibited in court. Large and small bags appear to contain crack cocaine, said Lacroix, adding the way drugs are individually wrapped is consistent with drug trafficking.

Lacroix said as he conservatively estimates the gross value of the pictured drugs to be upward of $13,000.

"This is a significant amount of money," he said.

Under cross examination, Lacroix said the seizure could be indicative of street level drug dealing. He said drug trafficking in Yukon is a pyramid structure, but thepyramid is "squished," likely due to the territory's relativelysmallpopulation and its transient nature.

Lacroix also spoke to the more than 10 cellphones that were obtained. He said dealers typically used burner phones to communicate with clients, colleagues and suppliers. That multiple phones were found by police in sofew locationssuggests "bad housekeeping," Lacroix said.

He said magnetic key holders are devices used to house bulk portions of cocaine. He said these holders are commonly attached to the exterior of vehicles to not only hide drugs, but to avoid ownership of them if found by police.

"This is consistent with the distribution of cocaine," said Lacroix.

RCMP officers previously told the court about $500, two cellphones and four small bags of cocaine were found on Papequash.

Under cross examination by Dale Fedorchuk, Tuel's lawyer, Lacroix said these items could also suggest drug dealing.

"I would have to look at the bags, but it's possible," he said.

Prosecutors have wrapped up presenting their trial evidence. In the coming weeks, Crown and defence lawyers will submit written arguments. A judgment is expected sometime next month.

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Suspect's DNA among 3 profiles detected on handgun, expert testifies during Whitehorse shooting trial - Yahoo News Canada

Defense is at the core of the Celtics, not just this edition, but woven into the franchises championship DNA. In the spirit of Bill Russell, K.C. Jones, Dave Cowens, Dennis Johnson, and Kevin Garnett, the Celtics applied it suffocatingly when it was needed most. That adamantine defense was inescapable and impenetrable, even for a generationally gifted Golden State team. Their defensive stance and stand have the Celtics two wins away from Banner No. 18.

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In a sport where offensive output routinely lands in the triple digits, defense wins championships. Its clich and true. It definitely won this contest after the Warriors took their first lead since 2-0 83-82 on a Curry quick-trigger 27-footer with 3:45 left in the third, stunning the rowdy TD Garden crowd.

From that point, the Celtics limited the Warriors to just 7 of 22 from the floor over the final 15-plus minutes. Golden State registered two threes in its final 13 attempts. Curry (31 points and six threes) and Thompson (25 points and five treys), who rained 25 of their points in the third, were more like Drip and Drab than Splash Brothers, shooting a combined 3 for 12 after Currys lead-snatching salvo.

Of course, they hit some big shots there, said Celtics coach Ime Udoka. But we talked about it quite a bit, our group being resilient and being able to fight through a lot of things and at times when its most needed, being able to lock down on defense, which we did in the fourth quarter.

Did they ever

The Celtics turned more penurious than famed fake German heiress Anna Delvey. They gave Golden State nothing and took everything, drowning out the Dubs, 23-11, in the fourth after allowing 34 and 33 points in the second and third quarters.

Golden State shot 11 for 22 overall and 7 for 14 from three in the third to flip the game. However, coach Steve Kerrs crew mustered a meager 5 of 15 against the Celtics dominant defense in the final frame. The Celtics surrendered zero offensive rebounds and forced half of the 16 Warriors turnovers.

They did a great job pressuring us, said Kerr. We went back to Steph to start the fourth. We gave him the last three minutes or so of the third because we knew we were going to have to score to start that fourth quarter. Just couldnt get anything to go.

We had a couple turnovers and a couple shots that didnt go down, and they took advantage.

The Celtics defensive appetite and aptitude should not be surprising, nor should it be a surprise that defense carried the charge on a night when Jayson Tatum, Jaylen Brown, and Marcus Smart all scored 24 points or more.

The one constant in a season of unpredictability and a remarkable sea change in fortune has been the Greens defensive prowess.

Udoka said the defensive buy-in came quickly in his first season on the Boston bench. It was the offensive buy-in that didnt kick in until January when the season took a sharp U-turn toward title contention.

During the regular season, the Celtics had the No. 1 defense in the NBA, allowing 106.2 points per 100 possessions. Thats dipped to 105.9 in the postseason, second only to Milwaukee. They held opponents to a league-best 43.4 percent shooting during the regular season. Its 43.5 in the playoffs.

Defense is the Celtics calling card, and they dialed it up big time in the fourth. They had to after they wasted a 68-point first half in their personal basketball Bermuda Triangle the third quarter.

The third has become the vanishing point for the Celtics. They were outscored, 33-25, this time, salvaging a 4-point lead (93-89) to take into the fourth after leading in the third by as many as 14. In their Game 2 loss in San Francisco, they were obliterated, 35-14, in the third.

The theme for the Celtics with the game in the balance was deny, deny, deny.

It helped them restore a double-digit lead via a 9-2 run. The defensive catalyst was center Robert Williams. He collected three steals and had a monster block of a Curry floater in the fourth.

Williams, whos not 100 percent after late-season surgery on a torn meniscus in his left knee, left his imprint on this game against the undersized Warriors and motor-mouth Draymond Green, finishing with 8 points, 10 rebounds, 4 blocks, and 3 steals.

When hes healthy, he just adds another element, said Brown, who contributed a tone-setting block of his own in the fourth and finished with a team-high 27 points, 9 rebounds, and 5 assists.

On top of our defense being good, it turns it to great.

Brown said Williams couldve won Defensive Player of the Year. The Celtics have two Defensive Player of the Year-caliber defenders in Smart, the actual award winner, and Williams, the most impactful Celtic defender.

The Warriors went 0 for 9 when Smart contested a shot, and the fan favorite enjoyed a charmed night offensively too with 24 points, 7 rebounds, and 5 assists despite 5 turnovers, making his shots count and making them when it counted.

But what looked like a night that would be defined by offense when the Celtics played a sublime first half on that end was instead dictated by defense, fitting for this iteration of the team.

Defense kept them afloat in their darkest hours, and its what delivered them halfway home to a championship.

Christopher L. Gasper is a Globe columnist. He can be reached at christopher.gasper@globe.com. Follow him on Twitter @cgasper.

Originally posted here:
Defense has always been part of the Celtics' DNA, and it may lead them to Banner No. 18 - The Boston Globe

UPDATE: After our story aired, the Department of Child Services confirmed emergency blood tests would be done to determine the childs DNA before he was surrendered back to his birth parent.

Original story:

CARMEL, Ind. The founder of the Safe Haven Baby Boxes claims the Department of Child Services is giving a surrendered infant back to his parent without doing a DNA test first.

We cannot be just pretty sure that this is the bio parent, their words, not mine, Monica Kelsey, founder of the Safe Haven Baby Boxes, said in a popular video posted to social media.

Kelsey said she has spoken with a relative of the woman claiming to be the mother of an infant surrendered in a Carmel Safe Haven Baby Box in mid-May. She said the family member says a DNA test has not been done yet the reunification process has started.

Kelsey said the anonymity of these boxes is crucial to this service, and in all cases makes it impossible to figure out who the biological mother is without DNA testing.

No cameras are around these boxes and so, mother or a father places this child inside this box, there is no way for us to know who that parent is, Kelsey said.

The baby boxes are located at fire stations and hospitals around the state. Kelsey said once a baby is placed in the box, they are given medical care and then taken to the states Department of Child Services.

If theyre not going to do a DNA test or a drug test, or vet this family, we know has not happened, Kelsey explained. We have contact with the family. We know this has not happened yet. I have a problem with that. I have to be this little guys voice.

We investigated these claims, and reached out to DCS. The agency said the safe haven law prevents them from discussing a particular case, but they gave us this statement:

A social media post has raised questions regarding the steps the Indiana Department of Child Services takes after a baby is surrendered under theIndiana Safe Havenlaw.

It is common for children to come into DCS care without the identity of one or both parents being immediately known. DCS would never, under any circumstance, send a child home with someone claiming to be their parent without first confirming with certainty that persons relationship to the child. This may include genetic testing, along with many other steps to ensure safe reunification if it is in the best interest of the child. If an individual comes forward claiming parentage, DCS works hand in hand with the juvenile court to determine whether the child was surrendered with the knowing consent of both parents.

Information regarding Safe Haven surrenders is sealed under Indiana law as part of confidential juvenile records, and, with few statutory exceptions, only parties to the case are privy to those details.

Indiana law does not address this specific situation. We know it has captured the attention of State Senator Travis Holdman is aware of this situation and is in communication with DCS.

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UPDATE: DCS says DNA test will be done before child left in Baby Box is returned to parent - FOX 59 Indianapolis

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I was just gobsmacked. I keep saying, 'I can't believe it.' He's got the same build as my Dad, the same arms."

It wasnt the unusually strong DNA match that convinced Ottawas Bob Huson that hed discovered a half-brother living in England.

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It was the photo.

The photo was of Malcolm Ives, now 76, who turned up as a half-uncle in a genealogical DNA search done by Bobs son, Geoff, in December 2019. Malcolm, as it turned out, was born in Bournemouth, England in January 1946, months after the end of the Second World War. The seaside town of Bournemouth also happened to be where Bobs father, George Huson, was stationed during the war with the Royal Canadian Air Force.

Winston Churchill famously said the war effort required blood, toil, tears and sweat. George, it seems, did him one better.

I told Dad, even before I knew the specific relationship, that there was a significant DNA hit with a man in the U.K., Geoff said.

Then Geoff said to me, You better take a look at this,' added Bob, 72. That picture Malcolm is the spitting image of my father. It blew my mind and I thought, OK somethings going on here.'

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Last week, the half-brothers met for the first time when Malcolm landed in Ottawa for a visit delayed two years by COVID-19. Bobs hardly taken his eyes off him since. Gathered together in the Husons Westboro backyard with Geoff and Bobs wife, Diane, the two men clown around like the brothers they are.

My father was my best friend, Bob said. And to see someone 10 years after my father died who looks exactly like my father I was just gobsmacked. I keep saying, I cant believe it. Hes got the same build as my Dad, the same arms. Theyre both muscular guys.

George Huson grew up in Ottawa on LeBreton Flats and enlisted with the RCAF during the war. He never talked much about his war experience, but the family thinks he was a mechanic and flew on Lancaster bombers.

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He returned to Ottawa after the war, started a taxi company, worked in computers and eventually had a career with the Department of National Defence. He married Bobs mother, Jean, in 1948 and the couple had two children, Bob and Debra, who now lives in San Francisco.

George died in 2007. Did he know he left a baby behind in England?

Thats the big question, Bob said. Im almost 100 per cent certain he had no idea, no idea he had a child. I talked about it with my sister. I said, Do you think Dad knows? and she said Definitely not.

I dont think hed be able to live with himself if he knew, added Geoff.

For Malcolm, news he had a half-brother in Canada was less of a shock. Described as a healthy, normal little boy with fair hair and blue eyes by the adoption agency, Malcolm was adopted as the only child by an English couple, whom he says were good and loving parents. And yet, he was always curious about his birth mother and father.

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My birthday would come around and Id wonder about my mother. Id think, I wonder if shes thinking about me? But it wasnt like that every day or all year long.

Malcolm submitted his DNA for testing about five years ago, not with the purpose of finding his parents, but to know about what part of the planet I came from.

To his surprise, the results showed he had other siblings, a half-brother born in 1936 and a half-sister born in 1940, both from different fathers. Malcolm met his half-sister in England, but his other half-brother died in hospital before they had a chance to meet face to face. He wasnt shocked when Geoff Huson contacted him about more family members in Canada.

I thought, Hello, here we go again,' he said.

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Malcolms mother, Joan Smith, was 30 when he was born. His adoption record described her as a superior type of woman now working as a hotel waitress. It said she put her baby up for adoption because she had to work to support herself and had no family of her own, something Malcolm now knows from a recent investigation wasnt true.

She did used to come and see me. I was too young. I dont remember. But then she went to London and that was it. She was never heard from again, he said.

She didnt really want any of us. She was troubled. A troubled woman. These things happen. Ive got no regrets. I dont blame her. I dont blame any of them. I got on with my life. Ive had a good life.

Since arriving in Canada, Malcolms spent time at the Husons Quebec cottage, toured the city and on Tuesday paid a visit to George Husons grave at Pinecrest Cemetery. Next week, hes heading to Calgary and Banff and a railway trip through the Rocky Mountains. COVID-19 made it too difficult to visit his half-sister in California, so hell save that for another trip.

The retired chef said meeting his Canadian family has fulfilled a lifelong goal to know where he came from.

Its the icing on the cake for me, Malcolm said. My story is complete.

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Long-lost half-brothers reunited in Ottawa after DNA test - Ottawa Citizen

In the past couple of decades, many people have turned to poker as a career.

Almost limitless potential to make money coupled with the free lifestyle has been one of the main reasons behind this phenomenon.

However, while there are dozens of thousands of people playing poker for a living today, its quite clear that a select few have been a lot more successful than others.

Players who manage to turn the game into aprofitable endeavor spend a lot of time learning the ropes.

Most go through many ups and downs beforefinally finding their comfort zone, but some seem to skip this whole processalmost entirely and go from learning the rules straight to winning.

This naturally brings up the question of why.

What is it that makes these players master the game with such ease? Are they somehow naturally predisposed to excel in poker?

Is the game somehow a part of their being, and, more importantly, is poker in your DNA?

If youre a poker fan of any kind, you musthave pondered at least once or twice what it would be like to play the gameprofessionally. Even for the calmest and most rooted of spirits, the idea hassome appeal to it.

But, there is always the big question thatcomes from these thoughts. Do I have what it takes?

First and foremost, poker is a game of numbers.

Youll hear many different opinions on the topic, but the bottom line is that if you dont understand the math behind the game, you wont do well in the long run.

Have you always had a knack for numbers,graphs, and percentages? If yes, there is a good chance you could do well inpoker.

Many of the players who you see on TV and who built their bankrolls from scratch enjoy numbers more than most people can fathom.

Its one thing to understand how percentages work. Reveling in them is a different matter entirely.

If youve read the last few paragraphs shakingyour head, dont worry: Not all is lost. Being crazy about numbers can be agreat asset for a poker player, but its not essential.

That said, if you hate math and dont want tobe anywhere near it, poker probably isnt in your DNA.

One of the things that makes poker a game of skill and strategy is its mathematical aspect. Without it, it would just be another game with cards in which the luckiest person wins.

Another personality trait that could indicate poker might be in your DNA is good instincts.

Now, all of us have instincts, but not everyoneis as confident about them.

If youre someone who has very good instincts and intuition, you probably know it by this point in life. Youll have been in situations where you relied upon them, and they helped you out of some difficult spots.

At the poker table, good instincts can be trulyinvaluable.

As much as the game is about odds and stats, yourarely have the full scope of information to work with. A part of it isguesswork.

Of course, math wizards rely on complex GTO calculations to figure it out, but good instincts can also be very helpful.

So, if youre good at reading people,i.e., figuring out when someone isnt honest with you, youll find that thisskill will be of great use, especially in live games, where people often canthide their emotions or do a very poor job of it.

At the end of the day, poker has a gamblingelement to it in the short run.

Even the best of the best have often been inthe position where they came close to busting their entire bankroll (oractually did), either due to really bad luck, poor bankroll management, or,usually, a combination of both.

But when you listen to them talk about it, youcan almost hear the excitement in their voice. You dont get the feelingtheyre talking about something unpleasant.

This is because people who have poker in theirDNA have a much higher tolerance for risk and dont see this aspect of the gameas tragic.

If youre truly naturally predisposed for thegame, youre going to enjoy every aspect of it in some way even thenot-so-pleasant parts.

Youve probably heard poker players refer to themselves as degens (abbreviation of degenerate gambler, meaning always broke because of gambling).

Now, you might think, in what world can this word have any positive connotation?

The answer is in the poker world.

You dont want to be a degen or reckless,but, at the same time, you kind of do.

Playing poker isnt just about making money.Its about having fun and experiencing everything it has to offer. The good,the bad, and all that comes in between.

You might be reading this and thinking thatsnot right, there are so many great players who dont behave like that.

Youre absolutely right!

This isnt a mandatory personality trait toexcel at the game. There are many great players who observe it purely as abusiness and have had consistent results for decades.

These players have usually built theirbankrolls over long periods of time, and theyre very unlikely to go bust.Their calm, calculated, and systematic approach to the game has served themwell over the years.

Those who made their seven-figure bankrolls in a matter of months are also much likelier to take big risks in the future and bust. Just think about someone like Isildur1.

He could go through seven figures in a matterof hours without blinking.

And when hed bust, hed go back to grindinglower stakes and rebuilding his roll, just to do it all over again.

This isnt what youd call normal behavior, but up until recently, poker hasnt been considered a normal profession, either.

Given the fact that poker is still not thatwidely accepted, to fall in love with the game, you probably have to thinkoutside of the box.

In a society established this way, how do youcome up with the idea of playing cards and shuffling chips for a living?

What happened to good, old-fashioned hard workand ambition?

What most people outside of the poker worlddont understand is that playing poker seriously is hard work. Its not justabout learning to play well.

Its hard to put your best effort every timeyou sit down at the table and to repeat it session after session.

It seems easy to someone looking from theoutside, but its anything but easy, even if poker is in your DNA.

Considering all these things, you have to bethe kind of person who feels comfortable stepping outside traditional socialboundaries.

Unless youre very fortunate, your loved oneswill be at least mildly shocked by the idea you find poker a viable careerchoice.

It takes a special kind of a person to resist all the negativity and stand their ground.

But, if poker is something you truly love and enjoy and if you feel naturally good at it, it wont matter as much.

Its weird, really, but its one of thosethings youll probably know after playing in your first cash game or atournament.

Even with very limited knowledge about exactstrategies, the game will just make sense to you.

You will feel like you belong at a poker tabledespite being surrounded by players much more experienced than you having afeeding frenzy on your stack.

Youll know that there is a way to get betterand return the favor, and youll be eager to learn about the game.

If you find poker boring or not too exciting, you might still become a very good player, but youll never enjoy it as much as someone who cherishes every moment of it in some way, including mandatory bad beats and coolers.

Ive said repeatedly throughout this articlethat you dont have to be naturally talented at poker to succeed in the game.

Like with most things in life, a naturalinclination is a good starting advantage, but it doesnt guarantee you anything.

Having poker in your DNA alone wont make youone of the top players, especially in this day and age.

In fact, it can even be a bad thing sometimes.

Naturally talented players often experience adegree of success at the start of their careers. Combined with some good runs,their talent is enough to make them winners at lower stakes, where thecompetition isnt as fierce.

As they move up the stakes, though, they come across much tougher opponents, and find that talent alone is no longer enough.

Its at this junction where poker players are made or broken.

Players who realize that they need to put theirtalent to good use and apply themselves to studying the game to keep growingwill thrive and go on to achieve success more often than not.

Those arent prepared to put the hours in willeither abandon the game or become the reg fish type that games are formedaround.

Hard work beats talent 99 percent of the time in the long run, and we all know that poker is all about the long run.

The fact that youre reading this articlesuggests that you have some degree of love for the game.

Otherwise, I dont see how youd stumble uponit, let alone get all the way down to these final passages.

If youve recognized yourself in some of the points Ive made here, the odds are that you have at least a bit of poker in your soul.

Whether its just traces or a serious part of your entire genome cant be determined without further testing.

On a more serious note, you shouldnt focus toomuch on this idea.

You dont have to be a genius to be a greatpoker player. If you enjoy the game and dont mind learning about it, yourealready halfway there.

The biggest pitfall you can fall into isthinking youre too good and too talented to take advice from anyone.

If you arent beating the games consistently,it doesnt matter if you have poker in your DNA or not. Its a clear sign youneed to improve and you wont achieve that without putting in serious work.

Take every opportunity you can to study and getbetter, and it wont be long before youre watching all of the talented kidsin the rearview mirror as you move up the stakes!

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Can You Be Naturally Good At Poker? Top Traits Of Successful Players - Casino.Org News