Barcodes are used in a new way in the MAGESTIC platform, adding a new level of precision to CRISPR gene editing.
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Forensic Database Biology Table
Posted in biological, chemistry, privacy
Biology Biometrics Chemistry/Toxicology Environmental Fire & Explosives Firearms & Toolmarks Questioned Documents
Technology/Digital Evidence Trace Evidence Other
Forensic databases — biology name sub
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Top NIST Images of 2018
Posted in futurism
There’s nothing quite like a captivating image to make you want to learn more. And nowhere is that more apparent than when it comes to sometimes hard-to-understand science. Before we all get too settled into 2019, we thought we’d take a look back at some of our best pictures from 2018. If you missed these images the first time we shared them — on our website or in social media — we hope you’ll take the time this go-round to learn a little bit more about what we do.
AUTHOR’s NOTE: These images were all shared by NIST for the first time in 2018. Some may have been taken prior to that year. Images are listed below in no particular order.
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Although NIST has now published the data needed to generate match statistics for NGS-based profiles, other hurdles must still be cleared before the new technology sees widespread use in forensics. For instance, labs will have to develop ways to manage the greater amounts of data produced by NGS. They will also have to implement operating procedures and quality controls for the new technology. Still, while much work remains, said Peter Vallone, the research chemist who leads NIST’s forensic genetics research, “We’re laying the foundation for the future.”
DNA is often considered the most reliable form of forensic evidence, and this reputation is based on the way DNA experts use statistics. When they compare the DNA left at a crime scene with the DNA of a suspect, experts generate statistics that describe how closely those DNA samples match. A jury can then take those match statistics into account when deciding guilt or innocence.
These match statistics are reliable because they’re based on rigorous scientific research. However, that research only applies to DNA fingerprints, also called DNA profiles, that have been generated using current technology. Now, scientists at the National Institute of Standards and Technology (NIST) have laid the statistical foundation for calculating match statistics when using Next Generation Sequencing, or NGS, which produces DNA profiles that can be more useful in solving some crimes. This research, which was jointly funded by NIST and the FBI, was published in Forensic Science International: Genetics.
“If you’re working criminal cases, you need to be able to generate match statistics,” said Katherine Gettings, the NIST biologist who led the study. “The data we’ve published will make it possible for labs that use NGS to generate those statistics.”
The microwave auditory effect, also known as the microwave hearing effect or the Frey effect, consists of audible clicks (or, with speech modulation, spoken words) induced by pulsed/modulated microwave frequencies… The cause is thought to be thermoelastic expansion of portions of the auditory apparatus.
Abstract:
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For more information about this assembly, please note the NCBI resources:
Human Cell Atlas
Posted in biotech/medical
The Human Cell Atlas (HCA) is a global collaboration to map and characterize all cells in a healthy human body: cell types, numbers, locations, relationships, and molecular components. It will require advances in single-cell RNA sequencing, image-based transcriptomics and proteomics, tissue handling protocols, data analysis, and more. Once complete, it will be a fundamental resource for scientists, allowing them to better understand how healthy cells work, and what goes wrong when disease strikes.
The idea for the HCA grew from an enthusiastic scientific community, and represents a collaborative effort to increase the impact of single-cell biology by federating results from different organs, cell types, experimental approaches, and countries, without suppressing the dynamism of individual communities and projects. The HCA project welcomes participation by scientists, physicians, and engineers around the world. CZI joins groups such as the Wellcome Trust, the European Bioinformatics Institute (EMBL-EBI), the Broad Institute, the Sanger Institute, and UC Santa Cruz to support this work. We are supporting the HCA through a variety of mechanisms, including:
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