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'''Michael P. Snyder''' is an American genomicist and the Stanford B. Ascherman Professor<ref name=StanfordEdu>{{cite web |url=https://profiles.stanford.edu/michael-snyder |title=Michael Snyder, Ph.D., STANFORD W. ASCHERMAN PROFESSOR OF GENETICS |last= |first= |date=20 August 2015 |website= Stanford profiles|access-date=19 April 2022}}</ref><ref name="auto7">{{Cite web|url=https://genestogenomes.org/snyder-beadle/|title=Congratulations to Michael Snyder for receiving the 2019 George W. Beadle Award!|date=2 April 2019|accessdate=16 May 2022}}</ref>, and since 2009, chair of genetics and director of genomics and personalized medicine at [[Stanford University School of Medicine|Stanford University]]<ref name=StanfordEdu/>. He is the former director of the Yale Center for Genomics and Proteomics.<ref name="auto5"/> He was elected to the [[American Academy of Arts and Sciences]] in 2015.<ref name="auto3"/> During his tenure as chair of the department at Stanford, ''U.S. News & World Report'' has ranked [[Stanford University]] first or tied for first in genetics, genomics and bioinformatics under his leadership.<ref>{{cite web |title=Best Genetics Graduate Programs - US News Rankings |url=https://www.usnews.com/best-graduate-schools/top-science-schools/genetics-rankings |website=[[U.S. News & World Report]] |archive-url=https://web.archive.org/web/20230407171846/https://www.usnews.com/best-graduate-schools/top-science-schools/genetics-rankings |archive-date=2023-04-07 |url-status=live}}</ref>
'''Michael P. Snyder''' is an American genomicist and the Stanford B. Ascherman Professor,<ref name=StanfordEdu>{{cite web |url=https://profiles.stanford.edu/michael-snyder |title=Michael Snyder, Ph.D., STANFORD W. ASCHERMAN PROFESSOR OF GENETICS |last= |first= |date=20 August 2015 |website= Stanford profiles|access-date=19 April 2022}}</ref><ref name="auto7">{{Cite web|url=https://genestogenomes.org/snyder-beadle/|title=Congratulations to Michael Snyder for receiving the 2019 George W. Beadle Award!|date=2 April 2019|accessdate=16 May 2022}}</ref> and since 2009, chair of genetics and director of genomics and personalized medicine at [[Stanford University School of Medicine|Stanford University]].<ref name=StanfordEdu/> He is the former director of the Yale Center for Genomics and Proteomics.<ref name="auto5"/> He was elected to the [[American Academy of Arts and Sciences]] in 2015.<ref name="auto3"/> During his tenure as chair of the department at Stanford, ''U.S. News & World Report'' has ranked [[Stanford University]] first or tied for first in genetics, genomics and bioinformatics under his leadership.<ref>{{cite web |title=Best Genetics Graduate Programs - US News Rankings |url=https://www.usnews.com/best-graduate-schools/top-science-schools/genetics-rankings |website=[[U.S. News & World Report]] |archive-url=https://web.archive.org/web/20230407171846/https://www.usnews.com/best-graduate-schools/top-science-schools/genetics-rankings |archive-date=2023-04-07 |url-status=live}}</ref>


Snyder has co-founded companies in genetics, genomics, and personalized medicine, including Personalis,<ref name="auto9">{{Cite news|url=https://www.nytimes.com/2012/06/03/business/geneticists-research-finds-his-own-diabetes.html|title=A Geneticist's Research Turns Personal|first=Anne|last=Eisenberg|newspaper=The New York Times |date=2 June 2012|accessdate=16 May 2022}}</ref> a company that develops software to interpret genomes after sequencing; January AI,<ref name="auto6">{{Cite news|url=https://www.nytimes.com/2022/03/14/well/eat/ai-diet-personalized.html|title=Here Come the Artificial Intelligence Nutritionists|first=Sandeep|last=Ravindran|newspaper=The New York Times |date=14 March 2022|accessdate=16 May 2022}}</ref> a health startup; Protometrix;<ref name="auto2">{{Cite web|url=https://www.genomeweb.com/archive/invitrogen-buys-protein-chip-maker-protometrix|title=Invitrogen Buys Protein Chip Maker Protometrix|date=2 April 2004|website=Genomeweb|accessdate=16 May 2022}}</ref> Affomix;<ref name="auto4">https://online.stanford.edu/instructors/michael-snyder</ref> and Q Bio.<ref name="auto">{{Cite news|url=https://www.thetimes.co.uk/article/whats-your-ageing-type-the-four-ways-we-grow-old-bhd2lrscp|title=What's your ageing type? The four ways we grow old|first=Anna|last=Maxted|accessdate=16 May 2022|via=www.thetimes.co.uk}}</ref>
Snyder has co-founded companies in genetics, genomics, and personalized medicine, including Personalis,<ref name="auto9">{{Cite news|url=https://www.nytimes.com/2012/06/03/business/geneticists-research-finds-his-own-diabetes.html|title=A Geneticist's Research Turns Personal|first=Anne|last=Eisenberg|newspaper=The New York Times |date=2 June 2012|accessdate=16 May 2022}}</ref> a company that develops software to interpret genomes after sequencing; January AI,<ref name="auto6">{{Cite news|url=https://www.nytimes.com/2022/03/14/well/eat/ai-diet-personalized.html|title=Here Come the Artificial Intelligence Nutritionists|first=Sandeep|last=Ravindran|newspaper=The New York Times |date=14 March 2022|accessdate=16 May 2022}}</ref> a health startup; Protometrix;<ref name="auto2">{{Cite web|url=https://www.genomeweb.com/archive/invitrogen-buys-protein-chip-maker-protometrix|title=Invitrogen Buys Protein Chip Maker Protometrix|date=2 April 2004|website=Genomeweb|accessdate=16 May 2022}}</ref> Affomix;<ref name="auto4">https://online.stanford.edu/instructors/michael-snyder</ref> and Q Bio.<ref name="auto">{{Cite news|url=https://www.thetimes.co.uk/article/whats-your-ageing-type-the-four-ways-we-grow-old-bhd2lrscp|title=What's your ageing type? The four ways we grow old|first=Anna|last=Maxted|accessdate=16 May 2022|via=www.thetimes.co.uk}}</ref>

Revision as of 17:39, 4 October 2023

Michael P Snyder
Born1955
NationalityAmerican
Alma materUniversity of Rochester California Institute of Technology
Occupation(s)Geneticist, Stanford B. Ascherman Professor
chair of genetics department, Stanford University
director of the Center for Genomics and Personalized Medicine
Known forRNA sequencing, ChIP-chip and CHIP-seq(11), genomics, pioneering multi-omic longitudinal health tracking, wearable technology, systems biology, systems medicine
Scientific career
FieldsGenetics, genomics, personalized medicine
InstitutionsYale University
Stanford University
Doctoral advisorDr. Norman Davidson
Other academic advisorsDr. Ronald Davis[1]

Michael P. Snyder is an American genomicist and the Stanford B. Ascherman Professor,[2][3] and since 2009, chair of genetics and director of genomics and personalized medicine at Stanford University.[2] He is the former director of the Yale Center for Genomics and Proteomics.[1] He was elected to the American Academy of Arts and Sciences in 2015.[4] During his tenure as chair of the department at Stanford, U.S. News & World Report has ranked Stanford University first or tied for first in genetics, genomics and bioinformatics under his leadership.[5]

Snyder has co-founded companies in genetics, genomics, and personalized medicine, including Personalis,[6] a company that develops software to interpret genomes after sequencing; January AI,[7] a health startup; Protometrix;[8] Affomix;[9] and Q Bio.[10]

Snyder has been a principal investigator of the ENCODE project since its inception in 2003,[11] and co-director of the CIRM Center for Stem Cell Genomics[12] and director of the Center for Genome of Gene Regulation.[13]

Snyder pioneered the use of multi-omic longitudinal profiling to track health.[14][15]

Early life and education

Snyder was born in 1955 and grew up outside of Pottstown, Pennsylvania.[16][17] His father, Kermit Snyder, was an accountant and his mother, Phyllis Snyder, was an elementary school teacher. Snyder attended Owen J Roberts High school in Pottstown. He received a BA in chemistry and biology from the University of Rochester, NY on a scholarship.[18] He went on to receive a PhD in biology from the California Institute of Technology, where he trained in the laboratory of Norman Davidson.[19] Snyder completed his postdoctoral training at Stanford University School of Medicine in the laboratory of Ronald W. Davis.[19] There he was involved in several projects including establishment of successful cloning of genes using antibodies (lambagt11;) (4).

Career

Snyder was hired by Yale University in 1986 as an assistant professor in the department of biology,[18] and was granted tenure in 1994. In 1998, the department of biology split into two departments, one focused on ecology and one on molecular biology. Snyder served as chair of the new molecular, cellular and developmental biology (MCDB) department from 1998 to 2004.[19] His laboratory worked on chromosome segregation and cell polarity, for which he discovered a number of important genes involved in these processes.[20][21]

His laboratory proposed the first models by which eucaryotes select sites of cell growth.[22][21]

Snyder was also the director for the Center for Genomics and Proteomics at Yale University (2002–2009), elected to the Genetics Society of America board of directors (2006–2009), elected president of US HUPO (2006–2008), PI, Center of Excellence in the Genome Sciences (CEGS) (2001–2011), president, Human Proteome Organization (HUPO) (2017–2018),[16][23] PI, NIH Training Grant in Genomics and Proteomics (2004–2022).

In 2009, Snyder moved to Stanford University to chair the genetics department and to direct the Center for Genomics and Personalized Medicine.[3][19] Snyder has been principal investigator of Center of Excellence in the Genome Sciences (CEGS) (2001–2011), NIH Training Grants in genomics and proteomics (first at Yale, now at Stanford) (2004–present), and is co-director of the CIRM Center for Stem Cell Genomics[24] and director for the Center for Genome of Gene Regulation.[25] Snyder was elected and has served as president of US Human Proteome Organization (2006–2008) and the international Human Proteome Organization (2017–2018). He currently leads the National Institutes of Health's Encyclopedia of DNA Elements (Encode)'s Production Center for Mapping Regulatory Regions of the Human Genome.[26]

Snyder has co-founded biotechnology companies, including Personalis,[6] SensOmics,[27] Qbio,[10][28][29] January AI,[7] Filtricine, Mirvie, Protos, Protometrix[8] (now part of Thermo Fisher Scientific), and Affomix[9] (now part of Illumina).[30]

Research

Snyder has made contributions to medicine, genomics and biotechnology. To support their research, Snyder’s laboratory has invented a number of novel systems-wide and genomics technologies. Snyder's laboratory at Yale initially focused on studying the genome of the yeast Saccharomyces cerevisiae, a eukaryote model organism commonly used in genetics and molecular biology.[31] Later, the lab began to use the same techniques to look at the human genome.[31]

In 2003, the Encyclopedia of DNA Elements (ENCODE) project was launched by the US National Human Genome Research Institute (NHGRI), with the goal of identifying all functional elements in the human genome. He has been a principal investigator in the ENCODE project since its inception in 2003 and his lab has contributed a large number of data sets.[19] These data contributed to the discovery that there are many more transcription factor binding sites than originally thought(13), and that twice as much of the human genome is transcribed into mature RNA.[citation needed]

The Snyder laboratory then showed that transcription factor binding sites vary greatly among people and closely related species, showing that much of the diversity between individuals and closely related species happens at the level of gene regulation, rather than changes in the genes themselves.[citation needed]

Snyder broadened his lab's genomics research to include the fields of proteomics, transcriptomics, and metabolomics. After his 2009 move to Stanford, Snyder also began to focus on using these omics technologies to monitor human health. In 2012, the lab published the first deep longitudinal profiling of a single person using multi-omics technologies, producing a data set colloquially known as the Snyderome. This research approach later expanded to over 100 people and included data generated by wearable biosensors.

Libraries and arrays

Snyder's lab established the first large-scale systems project to investigate all yeast genes and proteins at the same time, employing a transposon tagging approach to investigate gene expression, protein localization, and gene disruption.[citation needed] The researchers conducted the first large-scale systems analysis of genes and proteins in any creature. The libraries and methodologies were made available and are now in use by laboratories all around the world.

In addition to the genome, the Snyder group was the first to establish protein and proteome microarrays for large-scale analysis of protein function and antibody reactivity.[citation needed] They found that protein kinases and other yeast proteins have several novel biological activities and can be used for autoantibody profiling.[citation needed]

Their laboratory constructed the first human chromosome array (15) and later the first whole genome array to map transcription factor binding sites and novel transcribed regions of the genome.[citation needed]

In collaboration with Dr. Patrick Brown’s laboratory, the Snyder laboratory developed ChIP-chip to carry out the first genome wide mapping of transcription factor binding sites. Initially established for yeast, they later applied the methods to humans.[citation needed]

Next-generation sequencing

The ChIP-chip technique for mapping of transcription factor binding sites was ultimately morphed into ChIP-seq, in order to take advantage of DNA sequencing rather than using DNA microarrays.(12) The ChIP-seq method was foundational for multiple multicenter consortia projects including the Encyclopedia of DNA Elements project (ENCODE; (14)). They later invented RNA-seq to better map transcriptomes, both protein coding and noncoding (17,18).

With the advent of high throughput DNA sequencing technologies, Snyder's laboratory was the first to sequence an organism using such technology. Snyder's Laboratory sequenced the human pathogen Acinetobacter baumannii and invented paired end sequencing using new high throughput sequencing technologies (20), using this to demonstrate that there were ten times as much structural variation (SV) in the human genome than previously realized and that most SV deletions and insertions were due to nonhomologous recombination, an unexpected discovery at the time, since most SVs were proposed to be due to homologous recombination events.[32][33]

Beyond the genome, the Snyder laboratory was also the first to set up protein and proteome microarrays for the large-scale characterization of protein function and antibody reactivity.[34][35]) They demonstrated many novel biological activities of protein kinases and other yeast proteins and showed they can be useful for autoantibody profiling.[36]

Omics profiling and data driven medicine

Using the same in-depth omics approaches he applied to yeast, upon his move to Stanford in 2009, Snyder began to apply systems-wide analysis to human health (29). The Snyder laboratory carried out the first deep longitudinal profiling of one person using multi-'omics technologies genomics, transcriptomics, proteomics, metabolomics, etc.). This deep profiling used genomics for the first time to predict disease risk and follow disease onset at a level not previously achieved.[37] Highlighted in Cell journal's 40th anniversary issue,[38] Snyder presents "how personalized medicine may be applied to individuals over long time frames, analyzing transcription, metabolite, and cytokine fluctuations through periods of health and disease alongside fully sequenced genomes".[39] This approach of collecting longitudinal deep data on humans is now being applied by many groups worldwide. The Snyder lab has demonstrated that self-tracking using wearable biosensors can be used for monitoring health and illness. Together these studies demonstrate the power of using longitudinal tracking and big data to manage human health.[40][41][42][43]

Selected publications

  1. Alavi, Arash, et al. Alavi, Arash; Bogu, Gireesh K.; Wang, Meng; Rangan, Ekanath Srihari; Brooks, Andrew W.; Wang, Qiwen; Higgs, Emily; Celli, Alessandra; Mishra, Tejaswini; Metwally, Ahmed A.; Cha, Kexin; Knowles, Peter; Alavi, Amir A.; Bhasin, Rajat; Panchamukhi, Shrinivas; Celis, Diego; Aditya, Tagore; Honkala, Alexander; Rolnik, Benjamin; Hunting, Erika; Dagan-Rosenfeld, Orit; Chauhan, Arshdeep; Li, Jessi W.; Bejikian, Caroline; Krishnan, Vandhana; McGuire, Lettie; Li, Xiao; Bahmani, Amir; Snyder, Michael P. (January 2022). "Real-time alerting system for COVID-19 and other stress events using wearable data | Nature Medicine". Nature Medicine. 28 (1): 175–184. doi:10.1038/s41591-021-01593-2. PMC 8799466. PMID 34845389.. Nature medicine 2021 Nov 29:1-0.
  2. Bahmani, Amir, et al. Bahmani, Amir; Alavi, Arash; Buergel, Thore; Upadhyayula, Sushil; Wang, Qiwen; Ananthakrishnan, Srinath Krishna; Alavi, Amir; Celis, Diego; Gillespie, Dan; Young, Gregory; Xing, Ziye; Nguyen, Minh Hoang Huynh; Haque, Audrey; Mathur, Ankit; Payne, Josh; Mazaheri, Ghazal; Li, Jason Kenichi; Kotipalli, Pramod; Liao, Lisa; Bhasin, Rajat; Cha, Kexin; Rolnik, Benjamin; Celli, Alessandra; Dagan-Rosenfeld, Orit; Higgs, Emily; Zhou, Wenyu; Berry, Camille Lauren; Van Winkle, Katherine Grace; Contrepois, Kévin; Ray, Utsab; Bettinger, Keith; Datta, Somalee; Li, Xiao; Snyder, Michael P. (2021-10-01). "A scalable, secure, and interoperable platform for deep data-driven health management". Nature Communications. 12 (1). Springer Science and Business Media LLC: 5757. Bibcode:2021NatCo..12.5757B. doi:10.1038/s41467-021-26040-1. ISSN 2041-1723. PMC 8486823. PMID 34599181.
  3. Mishra, Tejaswini, et al. Mishra, Tejaswini; Wang, Meng; Metwally, Ahmed A.; Bogu, Gireesh K.; Brooks, Andrew W.; Bahmani, Amir; Alavi, Arash; Celli, Alessandra; Higgs, Emily; Dagan-Rosenfeld, Orit; Fay, Bethany; Kirkpatrick, Susan; Kellogg, Ryan; Gibson, Michelle; Wang, Tao; Hunting, Erika M.; Mamic, Petra; Ganz, Ariel B.; Rolnik, Benjamin; Li, Xiao; Snyder, Michael P. (2020-11-18). "Pre-symptomatic detection of COVID-19 from smartwatch data". Nature Biomedical Engineering. 4 (12). Springer Science and Business Media LLC: 1208–1220. doi:10.1038/s41551-020-00640-6. ISSN 2157-846X. PMC 9020268. PMID 33208926.
  4. Robertson G, Hirst M, Bainbridge M, Bilenky M, Zhao Y, Zeng T, Euskirchen G, Bernier B, Varhol R, Delaney A, Thiessen N, …, Snyder M and Jones S. Robertson, G.; Hirst, M.; Bainbridge, M.; Bilenky, M.; Zhao, Y.; Zeng, T.; Euskirchen, G.; Bernier, B.; Varhol, R.; Delaney, A.; Thiessen, N.; Griffith, O. L.; He, A.; Marra, M.; Snyder, M.; Jones, S. (2007). "Genome-wide profiles of STAT1 DNA association using chromatin immunoprecipitation and massively parallel sequencing - PubMed". Nature Methods. 4 (8): 651–657. doi:10.1038/nmeth1068. PMID 17558387. S2CID 28531263.. Nat Methods. 2007;4:651-7.
  5. Horak, Christine E., et al. Horak, C. E.; Mahajan, M. C.; Luscombe, N. M.; Gerstein, M.; Weissman, S. M.; Snyder, M. (2002). "GATA-1 binding sites mapped in the beta-globin locus by using mammalian chIp-chip analysis - PubMed". Proceedings of the National Academy of Sciences of the United States of America. 99 (5): 2924–2929. doi:10.1073/pnas.052706999. PMC 122449. PMID 11867748.. Proceedings of the National Academy of Sciences 99.5 (2002): 2924-2929.
  6. The ENCODE Project Consortium. ENCODE Project Consortium (2012). "An integrated encyclopedia of DNA elements in the human genome - PubMed". Nature. 489 (7414): 57–74. Bibcode:2012Natur.489...57T. doi:10.1038/nature11247. PMC 3439153. PMID 22955616.. Nature. 2012. 489(7414): 57-74.
  7. Wang Z, Gerstein M, Snyder M. Wang, Z.; Gerstein, M.; Snyder, M. (2009). "RNA-Seq: a revolutionary tool for transcriptomics - PubMed". Nature Reviews. Genetics. 10 (1): 57–63. doi:10.1038/nrg2484. PMC 2949280. PMID 19015660.. Nat Rev Genet. 2009 Jan;10(1):57-63. PMID 19015660.
  8. Hudson ME, Pozdnyakova I, Haines K, Mor G, Snyder M. Hudson, M. E.; Pozdnyakova, I.; Haines, K.; Mor, G.; Snyder, M. (2007). "Identification of differentially expressed proteins in ovarian cancer using high-density protein microarrays - PubMed". Proceedings of the National Academy of Sciences of the United States of America. 104 (44): 17494–17499. Bibcode:2007PNAS..10417494H. doi:10.1073/pnas.0708572104. PMC 2077284. PMID 17954908.. Proc Natl Acad Sci USA. 2007;104: 17494-9.
  9. Kasowski M, Grubert F, Heffelfinger C, Hariharan M, Asabere A, Waszak SM, Habegger L, Rozowsky J, Shi M, Urban AE, … Weissman SM, Gerstein MB, Korbel JO, Snyder M. Kasowski, M.; Grubert, F.; Heffelfinger, C.; Hariharan, M.; Asabere, A.; Waszak, S. M.; Habegger, L.; Rozowsky, J.; Shi, M.; Urban, A. E.; Hong, M. Y.; Karczewski, K. J.; Huber, W.; Weissman, S. M.; Gerstein, M. B.; Korbel, J. O.; Snyder, M. (2010). "Variation in transcription factor binding among humans - PubMed". Science. 328 (5975): 232–235. doi:10.1126/science.1183621. PMC 2938768. PMID 20299548.. Science. 2010. 328(5975): 232-5. Epub 2010. PMID 20299548.
  10. Borneman AR, Gianoulis TA, Zhang ZD, Yu H, Rozowsky J, Seringhaus MR, Wang LY, Gerstein M, Snyder M. Borneman, A. R.; Gianoulis, T. A.; Zhang, Z. D.; Yu, H.; Rozowsky, J.; Seringhaus, M. R.; Wang, L. Y.; Gerstein, M.; Snyder, M. (2007). "Divergence of transcription factor binding sites across related yeast species - PubMed". Science. 317 (5839): 815–819. doi:10.1126/science.1140748. PMID 17690298. S2CID 21535866.. Science. 2007;317: 815-19.
  11. Chen R, Mias GI, Li-Pook-Than J, Jiang L, … Snyder M. Chen, R.; et al. (2012). "Personal omics profiling reveals dynamic molecular and medical phenotypes - PubMed". Cell. 148 (6): 1293–1507. doi:10.1016/j.cell.2012.02.009. PMC 3341616. PMID 22424236.. Cell. 2012;148:1293-307.
  12. Li X, Dunn J, Salins D, Zhou G, Zhou W, Schüssler-Fiorenza Rose SM, Perelman D, Colbert E, Runge R, Rego S, Sonecha R, Datta S, McLaughlin T, Snyder M. Li, X.; Dunn, J.; Salins, D.; Zhou, G.; Zhou, W.; Schüssler-Fiorenza Rose, S. M.; Perelman, D.; Colbert, E.; Runge, R.; Rego, S.; Sonecha, R.; Datta, S.; McLaughlin, T.; Snyder, M. P. (2017). "Digital Health: Tracking Physiomes and Activity Using Wearable Biosensors Reveals Useful Health-Related Information - PubMed". PLOS Biology. 15 (1): e2001402. doi:10.1371/journal.pbio.2001402. PMC 5230763. PMID 28081144.{{cite journal}}: CS1 maint: unflagged free DOI (link). 2017 Jan 12;15(1):e2001402. doi: 10.1371/journal.pbio.2001402. PMID 28081144

Book

Awards and honors

  • Pew Scholars (1987)[44]
  • Lewis B Cullman named chair, Yale (1996)[45]
  • Burroughs Wellcome Scholar Award (2000)[1]
  • Connecticut Medal of Science (2007)[45]
  • Stanford B. Ascherman named chair, Stanford (2011)[19]
  • Member of the American Academy of Sciences (elected 2015)[4]
  • George W. Beadle Award, Genetics Society of America (2019)[19]

References

  1. ^ a b c "Michael P. Snyder".
  2. ^ a b "Michael Snyder, Ph.D., STANFORD W. ASCHERMAN PROFESSOR OF GENETICS". Stanford profiles. 20 August 2015. Retrieved 19 April 2022.
  3. ^ a b "Congratulations to Michael Snyder for receiving the 2019 George W. Beadle Award!". 2 April 2019. Retrieved 16 May 2022.
  4. ^ a b "Michael Snyder". American Academy of Arts and Sciences.
  5. ^ "Best Genetics Graduate Programs - US News Rankings". U.S. News & World Report. Archived from the original on 2023-04-07.
  6. ^ a b Eisenberg, Anne (2 June 2012). "A Geneticist's Research Turns Personal". The New York Times. Retrieved 16 May 2022.
  7. ^ a b Ravindran, Sandeep (14 March 2022). "Here Come the Artificial Intelligence Nutritionists". The New York Times. Retrieved 16 May 2022.
  8. ^ a b "Invitrogen Buys Protein Chip Maker Protometrix". Genomeweb. 2 April 2004. Retrieved 16 May 2022.
  9. ^ a b https://online.stanford.edu/instructors/michael-snyder
  10. ^ a b Maxted, Anna. "What's your ageing type? The four ways we grow old". Retrieved 16 May 2022 – via www.thetimes.co.uk.
  11. ^ Abascal, Federico; Acosta, Reyes; Addleman, Nicholas J.; Adrian, Jessika; Afzal, Veena; Aken, Bronwen; et al. (2020). "Perspectives on ENCODE". Nature. 583 (7818): 693–98. Bibcode:2020Natur.583..693E. doi:10.1038/s41586-020-2449-8. PMC 7410827. PMID 32728248.
  12. ^ "The CIRM Center of Excellence in Stem Cell Genomics (CESCG)". 26 February 2015.
  13. ^ "Home". genomacrg.cl.
  14. ^ Zhou W, Sailani MR, Contrepois K, Zhou Y, Ahadi S, Leopold SR, et al. (May 2019). "Longitudinal multi-omics of host-microbe dynamics in prediabetes". Nature. 569 (7758): 663–71. Bibcode:2019Natur.569..663Z. doi:10.1038/s41586-019-1236-x. PMC 6666404. PMID 31142858.
  15. ^ "How Multi-Omics Profiling Can Redefine Precision Health and Medicine - US". ThermoFisher Scientific.
  16. ^ a b "Michael P. Snyder". Retrieved 16 May 2022.
  17. ^ Marcus, Amy Dockser (14 May 2012). "What Happens When One Man's Genome Is Revealed". Wall Street Journal. Retrieved 16 May 2022 – via www.wsj.com.
  18. ^ a b Sukel, Kayt. "Making It Personal: Geneticist Michael Snyder Puts a Face on Personalized Medicine". Pacific Standard. Retrieved 16 May 2022.
  19. ^ a b c d e f g Schmidt, Silke (9 April 2019). "Congratulations to Michael Snyder for receiving the 2019 George W. Beadle Award!". Genetics Society of America. Retrieved 8 February 2021.
  20. ^ Page BD, Snyder M (August 1992). "CIK1: a developmentally regulated spindle pole body-associated protein important for microtubule functions in Saccharomyces cerevisiae". Genes Dev. 6 (8): 1414–29. doi:10.1101/gad.6.8.1414. PMID 1644287. S2CID 24949358.
  21. ^ a b Roemer T, Madden K, Chang J, Snyder M (April 1996). "Selection of axial growth sites in yeast requires Axl2p, a novel plasma membrane glycoprotein". Genes Dev. 10 (7): 777–93. doi:10.1101/gad.10.7.777. PMID 8846915.
  22. ^ Snyder M, Gehrung S, Page BD (August 1991). "Studies concerning the temporal and genetic control of cell polarity in Saccharomyces cerevisiae". J Cell Biol. 114 (3): 515–32. doi:10.1083/jcb.114.3.515. PMC 2289092. PMID 1860883.
  23. ^ "Yale's Snyder Awarded 2007 Connecticut Medal of Science". YaleNews. 12 June 2008. Retrieved 16 May 2022.
  24. ^ "The CIRM Center of Excellence in Stem Cell Genomics (CESCG)". California's Stem Cell Agency. 26 February 2015. Retrieved 16 May 2022.
  25. ^ "Snyder awarded $7.1 million from genome institute". News Center. Retrieved 16 May 2022.
  26. ^ "RePORT ⟩ RePORTER".
  27. ^ "SensOmics, See the Unseen". SensOmics, See the Unseen.
  28. ^ "Our Mission and Values". Q Bio. Retrieved 16 May 2022. {{cite web}}: Check |url= value (help)
  29. ^ magazine, STANFORD (17 November 2021). "Body Count". stanfordmag.org. Retrieved 16 May 2022.
  30. ^ "Snyder Lab". Stanford.edu. Retrieved 2 December 2021.
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