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tag single nucleotide polymorphism disease medicine genetics genomics culture

Single Nucleotide Polymorphisms: Big Pharma Hedges its Bets
Eugene Russo | Jul 18, 1999 | 7 min read
SNP CENTRAL: A genetics researcher takes to the bench at the Wellcome Trust's Sanger Centre in Cambridge, England. The sequencing center and its London sponsor provided key leadership in the SNP Consortium, a public-private venture to find and map 300,000 single nucleotide polymorphisms. The Wellcome Trust helped entice 10 pharmaceutical firms to join the consortium by putting up $14 million of the project's estimated $45 million price tag. The Sanger Centre will provide much of the radiation h
DNA molecule.
Finding DNA Tags in AAV Stacks
Mariella Bodemeier Loayza Careaga, PhD | Mar 7, 2024 | 8 min read
Ten years ago, scientists put DNA barcodes in AAV vectors, creating an approach that simplified, expedited, and streamlined AAV screening. 
GWAS, psychotic disorder, mood disorder, Q&A, bipolar disorder, schizophrenia, depression, sex differences
Genetic Variants Tied to Sex Differences in Psychiatric Disorders
Amanda Heidt | Mar 31, 2021 | 5 min read
The largest study of its kind identifies single nucleotide polymorphisms with disparate effects on men’s and women’s susceptibility to conditions such as bipolar disorder and schizophrenia.
bacteria and DNA molecules on a purple background.
Engineering the Microbiome: CRISPR Leads the Way
Mariella Bodemeier Loayza Careaga, PhD | Mar 15, 2024 | 10+ min read
Scientists have genetically modified isolated microbes for decades. Now, using CRISPR, they intend to target entire microbiomes.
2022 Top 10 Innovations 
2022 Top 10 Innovations
The Scientist | Dec 12, 2022 | 10+ min read
This year’s crop of winning products features many with a clinical focus and others that represent significant advances in sequencing, single-cell analysis, and more.
ABI Poised to Break the SNP Genotyping Speed Barrier?
Deborah Stull | Mar 23, 2003 | 2 min read
Courtesy of Applied Biosystems Single nucleotide polymorphisms--variations at specific nucleotide positions in the genome sequences of two individuals--are perhaps the most common form of genetic diversity; it is estimated that 3-10 million SNPs are present in the human genome. Researchers use these markers to map disease genes, and in the burgeoning field of pharmacogenomics (personalized medicine). Such research necessarily requires the ability to genotype on a grand scale, but until recent
Whole-Genome SNP Genotyping
Marilee Ogren | Jun 1, 2003 | 8 min read
Clockwise from top left: images courtesy of Affymetrix, Illumina, Sequenom and Illumina Take any two individuals, sequence and compare their genomic DNA, and you'll find that the vast majority (about 99.9%) of the sequences are identical. In the remaining 0.1% lie differences in disease susceptibility, environmental response, and drug metabolism. Researchers are understandably keen to dissect these variations, most of which take the form of single-nucleotide polymorphisms (SNPs). A SNP (pron
Illustration showing a puzzle piece of DNA being removed
Large Scientific Collaborations Aim to Complete Human Genome
Brianna Chrisman and Jordan Eizenga | Sep 1, 2022 | 10+ min read
Thirty years out from the start of the Human Genome Project, researchers have finally finished sequencing the full 3 billion bases of a person’s genetic code. But even a complete reference genome has its shortcomings.
A normal human liver organoid (left) stained with blue and red next to a fatty liver organoid (right) with lipid droplets stained yellow.
Working Together to Battle Fatty Liver Disorders
Niki Spahich, PhD | Mar 24, 2023 | 6 min read
Benedetta Artegiani and Delilah Hendriks formed a joint laboratory group to understand disease mechanisms and treatments through organoid models.
Looking at Variation in Numbers
Josh Roberts(jroberts@the-scientist.com) | Mar 13, 2005 | 7 min read
The massive efforts to systematically find and catalog single nucleotide polymorphisms (SNPs) bear witness to the conviction that small genomic changes may provide clues to the origins of such things as heart problems, obesity, and pharmacologic responses.

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