Jonathan M. Rothberg

Jonathan M. Rothberg
QS-Chemie-Logo.svg
Dieser Artikel wurde aufgrund von Mängeln auf der Qualitätssicherungsseite der Redaktion Chemie eingetragen. Dies geschieht, um die Qualität der Artikel aus dem Themengebiet Chemie auf ein akzeptables Niveau zu bringen. Dabei können Artikel gelöscht werden, die nicht signifikant verbessert werden können. Hilf mit, die Mängel dieses Artikels zu beseitigen, und beteilige dich an der Diskussion (neuer Eintrag).
Rothberg, 2008

Jonathan M. Rothberg (geboren 1963) ist ein US-amerikanischer Wissenschafter und Unternehmer. Er hat maßgeblich zur Entwicklung der Hochdurchsatz-Sequenzierung beigetragen.

Inhaltsverzeichnis

Ausbildung und wissenschaftliche Karriere

Rothberg studierte an der Carnegie Mellon University Chemical Engineering, schloss mit dem akademischen Grad B.S. ab und wechselte zur Yale University, an der er als M.S., M.Phil. und Ph.D. abschloss. Er war unter anderem an der Sequenzierung des Neandertaler-Genoms durch Richard Green und Svante Pääbo als auch am Projekt The Watson Genome, der Sequenzierung des Genoms von James D. Watson (und damit eines der ersten individuellen humanen Genome nach dem von Craig Venter) beteiligt.[1]

Auszeichnungen und Mitgliedschaften

Jonathan Rothberg ist Mitglied der National Academy of Engineering.[2]

Firmengründungen

CuraGen

Als Student in Yale gründete er 1991 die Firma CuraGen, die Wirkstoffe gegen Krebs entwickelte, wie z.B. Belinostat (einen Histon Deacetylase Inhibitor[3] gegen das Ovarialkarzinom[4]) (Belinostat wurde 2008 um $39 Mio. an TopoTarget verkauft [5]), oder Glembatumumab vedotin gegen das Mammakarzinom[6]. Weiters entwickelte CuraGen Wirkstoffe gegen Nebenwirkungen aus der Chemotherapie[7] und gegen Nierenentzündung. Zusammen mit der Bayer AG identifizierte CuraGen drug-targets gegen Diabetes mellitus Typ 2.[8]

Während seiner Zeit bei CuraGen publizierte er unter anderem Proteom-Karten von eukaryotischen Zellen in Nature und Science. CuraGen wurde 2009 um $94,5 Mio. [9] an CellDex verkauft.[10]

454 Life Sciences

1999 gründete Rothberg die Firma 454 Life Sciences, die eines der ersten Next Generation Sequencing Geräte entwickelte. 454 Life Sciences wurde 2007 um $154,9 Mio. an Roche Diagnostics verkauft.

Ion Torrent

Rothberg gründete die Firma Ion Torrent im Jahr 2007, die die Technik der Halbleiter-Sequenzierung entwickelte. [11]

Rothberg gründete weiters das Rothberg Institute For Childhood Diseases, eine Non-Profit-Organisation, die sich der Erforschung und Bekämpfung der tuberösen Sklerose widmet, und ist Mitbegründer der Firma RainDance Technologies, [12] die mikrofluidische diagnostische Geräte und Methoden entwickelt und vermarktet.

Ausgewählte Publikationen

  1. Rothberg, J.M. et al., An integrated semiconductor device enabling non-optical genome sequencing. Nature 475, July 2011. 348-352. PMID 21776081
  2. Alexander Mellmann., Dag Harmsen., Craig A. Cummings., Emily B. Zentz, Shana R. Leopold, Alain Rico, Karola Prior, Rafael Szczepanowski, Yongmei Ji, Wenlan Zhang, Stephen F. McLaughlin, John K. Henkhaus, Benjamin Leopold, Martina Bielaszewska, Rita Prager, Pius M. Brzoska, Richard L. Moore, Simone Guenther, Jonathan M. Rothberg, Helge Karch. Prospective genomic characterization of the German enterohemorrhagic Escherichia coli O104:H4 outbreak by rapid next generation sequencing technology. PLOS one, Volume 6, Issue 7, July 2011. PMID 21799941
  3. E. Brouzes, M. Medkova, N Savenelli, D. Marran, M. Twardowski, J. B. Hutchinon, J. J. M. Rothberg, D.R. Link, N. Perrimon, M. L. Samuels. Droplet microfluidic technology for single-cell high thoughput screening. PNAS, July 2009, Vol. 106, no. 106 PMID 19617544
  4. Birgitte B. Simen, Jan Fredrik Simons, Katherine Huppler Hullsiek,,Richard M. Novak, Rodger D. MacArthur, John D. Baxter, Chunli Huang,,Christine Lubeski, Gregory S. Turenchalk, Michael S. Braverman, Brian Desany, Jonathan M. Rothberg, Michael Egholm, Michael J. Kozal. Low-Abundance Drug-Resistant Viral Variants in Chronically HIV-Infected, Antiretroviral Treatment-Naïve Patients Significantly Impact Treatment Outcomes. The Journal of Infectious Diseases. 2009; 199:693-701. PMID 19210162
  5. Richard E Green, Anna-Sapfo Malaspinas, Johannes Krause, Adrian W Briggs, Philip L F Johnson, Caroline Uhler, Matthias Meyer, Jeffrey M Good, Tomislav Maricic, Udo Stenzel, Kay Prüfer, Michael Siebauer, Hernán A Burbano, Michael Ronan, Jonathan M Rothberg, Michael Egholm, Pavao Rudan, Dejana Brajković, Zeljko Kućan, Ivan Gusić, Mårten Wikström, Liisa Laakkonen, Janet Kelso, Montgomery Slatkin, Svante Pääbo. A complete neandertal mitochondrial genome sequence determined by high-throughput sequencing. [Cover Paper] Cell. 2008 Aug 8;134 (3):416-26 PMID 18692465
  6. David A Wheeler, Maithreyan Srinivasan, Michael Egholm, Yufeng Shen, Lei Chen, Amy McGuire, Wen He, Yi-Ju Chen, Vinod Makhijani, G Thomas Roth, Xavier Gomes, Karrie Tartaro, Faheem Niazi, Cynthia L Turcotte, Gerard P Irzyk, James R Lupski, Craig Chinault, Xing-Zhi Song, Yue Liu, Ye Yuan, Lynne Nazareth, Xiang Qin, Donna M Muzny, Marcel Margulies, George M Weinstock, Richard A Gibbs, Jonathan M Rothberg. The complete genome of an individual by massively parallel DNA sequencing. Nature 2008 Apr 17;452 (7189):872-6 PMID 18421352
  7. John H. Leamon, Michael S. Braverman and Jonathan M. Rothberg. High-Throughput, Massively Parallel DNA Sequencing Technology for the Era of Personalized Medicine? Gene Therapy and Regulation, 2007, vol. 2, no. 1, 15-31.
  8. John H. Leamon and Jonathan M. Rothberg. Cramming More Sequencing Reactions onto Microreactor Chips. Chemical Reviews, 2007 Aug; 107(8):3367-76.
  9. Green, R.E., Krause, J., Ptak, S.E., Briggs, A.W., Ronan, M., Simons, J.F., Egholm, M., Rothberg, J., Paunovic, M., and Pääbo, S.: Analysis of one million base pairs of Neandertal DNA. [Cover Paper] Nature 444, 330-336.16 November 2006
  10. Robert Pinard, Alex de Winter, Gary J Sarkis, Mark B Gerstein, Karrie R Tartaro, Ramona N Plant, Michael Egholm, Jonathan M Rothberg, and John H Leamon. Assessment of whole genome amplification-induced bias through high-throughput, massively parallel whole genome sequencing. BMC Genomics. 2006; 7: 216. Published online 2006 August 23.
  11. Stiller, M., Green, R.E., Ronan, M., Simons, J.F., Du, L., He, W., Egholm, M., Rothberg, J., Keates, S.G., Ovodov, N.D., Antipina, E.E., Baryshnikov, G.F., Kuzmin, Y.V., Vasilevski, A.A., Wuenschell, G.E., Termini, J., Hofreiter, M., Jaenicke-Després, V., and Pääbo, S.: Patterns of nucleotide misincorporations during enzymatic amplification and direct large-scale sequencing of ancient DNA. PNAS, September 12, 2006, vol. 103, no. 37, 13578-13584.
  12. Thomas RK, Nickerson E, Simons JF, Janne PA, Tengs T, Yuza Y, Garraway LA, Laframboise T, Lee JC, Shah K, O'neill K, Sasaki H, Lindeman N, Wong KK, Borras AM, Gutmann EJ, Dragnev KH, Debiasi R, Chen TH, Glatt KA, Greulich H, Desany B, Lubeski CK, Brockman W, Alvarez P, Hutchison SK, Leamon JH, Ronan MT, Turenchalk GS, Egholm M, Sellers WR, Rothberg JM, Meyerson M. Sensitive mutation detection in heterogeneous cancer specimens by massively parallel picoliter reactor sequencing. Nat Med. 2006 Jul;12(7):852-855.
  13. Leamon JH, Link DR, Egholm M, Rothberg JM. Overview: methods and applications for droplet compartmentalization of biology. Nat Methods. 2006 Jul;3(7):541-3.
  14. Thomas RK, Greulich H, Yuza Y, Lee JC, Tengs T, Feng W, Chen TH, Nickerson E, Simons J, Egholm M, Rothberg JM, Sellers WR, and Meyerson ML. Detection of oncogenic mutations in the EGFR gene in lung adenocarcinoma with differential sensitivity to EGFR tyrosine kinase inhibitors. Cold Spring Harb Symp Quant Biol. 2005; 70: 73-81.
  15. Margulies M, Egholm M, Altman WE, Attiya S, Bader JS, Bemben LA., Berka J, Braverman MS, Chen YJ, Chen Z, Dewell SB, de Winter A, Drake J, Du L, Fierro JM, Forte R, Gomes XV, Godwin BC, He W, Helgesen S, Ho CH, Hutchison SK, Irzyk GP, Jando SC, Alenquer MLI, Jarvie TP, Jirage KB, Kim JB, Knight JR, Lanza JR, Leamon JH, Lee WL, Lefkowitz SM, Lei M, Li J, Lohman KL, Lu H, Makhijani VB, McDade KE, McKenna MP, Myers EW, Nickerson E, Nobile JR, Plant R, Puc BP, Reifler M Ronan MT, Roth GT, Sarkis GJ, Simons JF, Simpson JW, Srinivasan M, Tartaro KR, Tomasz A, Vogt KA, Volkmer GA, Wang SH, Wang Y, Weiner MP, Willoughby DA, Yu P, Begley RF, Rothberg JM. Genome sequencing in microfabricated high-density picolitre reactors. Nature 2005; 441.7089.
  16. Gunther EC, Stone DJ, Rothberg JM, and Gerwien RW. A quantitative genomic expression analysis platform for multiplexed in vitro prediction of drug action. The Pharmacogenomics Journal 5, 2005, 126-134.
  17. Gould Rothberg BE, Pena CEA, Rothberg JM. A systems biology approach to target identification and validation for human chronic disease drug discovery. Division of Chronic Disease Epidemiology, Yale University School of Public Health. Modern Biopharmaceuticals 2005; 1 99-125.
  18. Bader JS, Chaudhuri A. Rothberg JM, and Chant J. Gaining confidence in high-throughput protein interaction networks. Nature Biotechnology 2003; 10.1038.
  19. Leamon JH, Lee WL, Tartaro KR Lanza JR, Sarkis GJ, deWinter AD, Berka J, Weiner M, Rothberg JM, Lohman KL. A massively parallel PicoTitlerPlate based platform for discrete picoliter-scale polymerase chain reations. Electrophoresis 24(21). November 2003:3769-77, Erratum in Eletrophoresis.25 1176 April 204: 7-8.
  20. Giot L, Bader JS, Brouwer C, Chaudhuri A, Kuang B, Li Y, Hoa YL, Oi CE, Godwin G, Vitols E, Vijayadamodar G, Pochart P, Machineni H, Welsh, M, Kong Y, Zerhusen B, Malcolm R, Varrone Z, Collis A, Minto M, Burgess S, McDaniel L, Stimpson E, Springs F, Williams J, Neurath K, Ioime N, Agee M, Voss E, Furkat K, Renzulli R, Aanensen N, Carrolla S, Bickelhaupt E, Lazovatsky Y, DaSilva A, Zhong J, Stanyon CA, Finley Jr RL, White KP, Braverman M, Jarvie T, Gold S, Leach M, Knight J, Shimkets RA, McKenna MP, Chant J, and Rothberg JM. Protein Interaction Map of Drosophila melanogaster. [Cover paper] Science November 2, 2003; 10.1126. PMID 14605208
  21. Bader JS, Deem MW, Hammond RW, Henck SA, Simpson JW, Rothberg JM. A Brownian-ratchet DNA pump with applications to single-nucleotide polymorphism genotyping. Applied Physics A: Materials Science & Processing. 2000; Vol. 75, 275-278.
  22. Tchernev VT, Mansfield TA, Giot L, Kumar AM, Nandabalan K; Li Y, Mishra VS, Detter JC, Rothberg JM, Wallace MR, Southwick FS, Kingsmore SF. The Chediak-Higashi protein interacts with SNARE complex and signal transduction proteins. Molecular Medicine 2002; Vol. 8, 56-64.
  23. LaRochelle WJ, Jeffers M, McDonald WF, Chillakuru RA, N Lokker NA, Sullivan C, Boldog FL, Yang, M, Vernet C, Burgess CE, Fernandes E, Deegler LL, Rittman B, Shimkets J, Shimkets RA, Rothberg JM, and Lichenstein HS. PDGF-D, a new protease-activated growth factor. Nature Cell Biology May 1, 2001; Vol. 3. 517-521.
  24. Herrmann J, Rastelli L, Brugess CE, Fernandes EE, Rothberg BEG, Rothberg JM, and Shimkets RA. Implications of Oncogenomics for Cancer Research and Clinical Oncology. The Cancer Journal. January/February 2001; Volume 7 Number 1.
  25. Rothberg BEG, Sundseth SS, DiPippo VA, Brown PJ, Winegar DA, Gottshalk WK, Shenoy SG, and Rothberg JM. The characterization of PPARα ligand drug action in an in vivo model by comprehensive differential gene expression profiling. [Cover paper] Functional and Integrative Genomics. October 2000.
  26. Uetz P, Giot L, Cagney G, Mansfield TA, Judson RS, Knight JR, Lockshon D, Narayan V, Sriivasan M, Pochart P, Qureshi-Emili A, Li Y, Godwin B, Conver D, Kalbfleisch T, Vijayadamodar G, Yang M, Johnston M, Fields S, and Rothberg JM. A comprehensive analysis of protein-protein interactions in Saccharomyces cerevisiae. [Cover paper] Nature Feb 10, 2000; Vol. 403, 623-627. PMID 10688190
  27. Simpson JW, Ruiz-Martinez MC, Mulhern GT, Berka J, Latimer DR, Ball JA, Rothberg JM, Went GT. A transmission imaging spectrograph and microfabricated channel system for DNA analysis. Electrophoresis 2000; Vol. 21, 135-149.
  28. Hammond RW, Bader JS, Henck SA, Deem MW, McDermott GA, Bustillo JM, Rothberg, JM. Differential transport of DNA by a rectified Brownian motion device. Electrophoresis 2000; Vol. 21, 74-80.
  29. Bader J, Hammond R W, Henck SA, Deem MW, McDermott GA, Bustillo JM, Simpson JW, Mulhern GT, and Rothberg JM. DNA transport by a micromachined Brownian ratchet device. PNAS USA November 9, 1999; Vol. 96 No. 23. 13165-9.
  30. Shimkets R A, Lowe DG, Tsu-Ning Tai J, Sehl P, Jin H, Yang R, Predki P, Rothberg BEG, Murtha MT, Roth ME, Shenoy SG, McKenna MP, Hillan K, Went GT, and Rothberg JM. Gene expression analysis by transcript profiling coupled to a gene database query [GeneCalling]. Nature Biotechnology August 1999; Vol. 17, 798-803.
  31. Rothberg JM, and Artavanis-Tsakonas S. Modularity of the Slit Protein. J. Mol. Biol. 1992; 227, 367-370.
  32. Rothberg JM. Gene Patents. Nature 1992; 356, 738.
  33. Rothberg JM Ph.D. slit: an Extracellular Protein Necessary for the Development of Midline Glia and Axon Pathways of the Central Nervous System contains both EGF and Flank-LRR-Flank Domains. Thesis, Yale University, 1991.
  34. Rothberg JM, Jacobs J R, Goodman CS and Artavanis-Tsakonas S. slit: An Extracellular Protein Necessary for Development of Midline Glia and Commissural Axon Pathways Contains both EGF and LRR Domains. Genes & Development 1990; 4, 2169-2187.
  35. Rothberg JM, Hartley DA, Walther Z, and Artavanis-Tsakonas S. slit: An EGF-Homologous Locus of D. melanogaster Involved in the Development of the Embryonic Central Nervous System. [Cover paper] Cell 1988; 55, 1047-1059.

Patente

  1. Rothberg J, Wolfgang H, Johnson K, Bustillo J, Methods and apparatus for measuring analytes using large scale FET arrays. USP# 7,948.015
  2. Berka J, Chen YJ, Leamon JH, Lefkowitz S, Lohman KL, Makhijani VB, Rothberg JM, Sarkis GJ, Srinivasan M, Weiner MP. Bead Emulsion Nucleic Acid Amplification. USP# 7,842,457
  3. Rothberg, JM, Bader JS, Dewell SB, McDade K, Simpson JW, Berka , Colangelo CM, Weiner, MP. Apparatus and Method for Sequencing a Nucleic Acid. USP# 7,335,762
  4. Leamon; JH., Lohman; KL., Rothberg; JM. & Weiner MP. Methods of amplifying and sequencing nucleic acids; United States Patent 7,323,305 & European Patent EP1590477
  5. Chen Y, Leamon JH, Lohman KL, Ronan MT, Rothberg JM, Srinivasan M, Weiner MP. Double Ended Sequencing. USP# 7,244,567
  6. Rothberg JM, Bader JS, Dewell SB, McDade K, Simpson JW, Berka J, Colangelo CM. Method of sequencing a nucleic acid. USP# 7,244,559
  7. Rothberg JM, Bader JS, Dewell SB, McDade K, Simpson JW, Berka J, Colangelo CM. Method of sequencing a nucleic acid. USP# 7,211,390.
  8. Rothberg JM, Deem MW, Simpson JW. Detection and confirmation of nucleic acid sequences by use of poisoning oligonucleotides. USP# 6,673,577.
  9. Simpson JW, Rothberg JM, Went, GT, Ruiz-Martinez MC, Mulhern GT. Apparatus and method for the generation, separation, detection, and recognition of biopolymer fragments. USP# 6,485,625.
  10. Rothberg JM, Deem MW, Simpson JW. Method and Apparatus for Identifying, Classifying, or Quantifying DNA Sequences in a Sample without Sequencing. USP # 6,453,245
  11. Rothberg JM, Deem MW, Simpson JW. Method and Apparatus for Identifying, Classifying, or Quantifying DNA Sequences in a Sample without Sequencing. USP # 6,432,361
  12. Rothberg JM, Deem MW, Simpson JW. Method and Apparatus for Identifying, Classifying, or Quantifying DNA Sequences in a Sample without Sequencing. USP # 6,418,382
  13. Nandabalan K, Rothberg JM, Yang M, Knight JR, Kalbfleisch TS. Identification and comparison of protein--protein interactions that occur in populations and identification of inhibitors of these interactors. USP# 6,410,239.
  14. Nandabalan K, Rothberg JM. Identification and comparison of protein-protein interactions that occur in populations and identification of inhibitors of these interactors. USP# 6,395,478.
  15. Rothberg JM, Nallur GN, Hu X. Methods and devices for measuring differential gene expression. USP# 6,355,423.
  16. Deem MW, Rothberg JM, Went GT. Consensus configurational bias Monte Carlo method and system for pharmacophore structure determination. USP# 6,341,256.
  17. Rothberg JM, Bader JS. Method of sequencing a nucleic acid. USP # 6,274,320.
  18. Simpson JW, Rothberg JM, Went GT. Apparatus and method for the generation, separation, detection, and recognition of biopolymer fragments. USP # 6,236,945.
  19. Rothberg JM, Deem MW, Simpson JW. Method and apparatus for identifying, classifying, or quantSimpson JW, Rothberg JM, Went GT. Apparatus and method for the generation, separation, detection, and recognition of biopolymer fragments. USP # 6,218,121.
  20. Bader JS, Rothberg JM, Deem MW, Mulhern GT, Went GT, Simpson JW, Henck S. Separation of charged particles by a spatially and temporally varying electric field. USP # 6,193,866.
  21. Rothberg JM, Deem MW, Simpson JW. Method for identifying a nucleic acid sequence. USP # 6,190,868.
  22. Rothberg JM, Deem MW, Simpson JW. Method and Apparatus for Identifying, Classifying, or Quantifying DNA Sequences in a Sample without Sequencing. USP # 6,141,657.
  23. Nandabalan K, Rothberg JM. Identification and comparison of protein-protein interactions that occur in populations. USP # 6,083,693.
  24. Nandabalan K, Rothberg JM, Yang M, Knight JR, Kalbfleisch TS. Identification and comparison of protein-protein interactions that occur in populations and identification of inhibitors of these interactors. USP # 6,057,101.
  25. Simpson JW, Rothberg JM, Went GT. Apparatus and method for the generation, separation, detection, and recognition of biopolymer fragments. USP # 6,017,434.
  26. Simpson JW, Went GT and Rothberg JM. Apparatus and Method for the Generation, Separation, Detection and Recognition of Biopolymer Fragments. USP # 5,993,634.
  27. Simpson JW, Went GT, and Rothberg JM. Apparatus and Method for the Generation, Separation, Detection and Recognition of Biopolymer Fragments. USP #5,972,693.
  28. Bader J, Rothberg JM, Deem MW, Mulhern GT and Went GT. Nano Niagara Separation of Charged Particles by a Spatially and Temporally varying Electric Field. USP #5,938,904.
  29. Rothberg JM, Went GT, and Simpson JW. Method and Apparatus for Identifying, Classifying, or Quantifying DNA Sequences in a Sample without Sequencing. USP #5,871,697.

Weblinks

Einzelnachweise

  1. "Genome of DNA Discoverer Is Deciphered NYT, June 1, 2007"
  2. "National Academy of Engineering"
  3. http://wiki.medpedia.com/Belinostat
  4. http://www.drugs.com/clinical_trials/curagen-topotarget-announce-presentation-belinostat-clinical-trial-results-aacr-nci-eortc-2452.html
  5. http://www.fiercebiotech.com/press-releases/curagen-corporation-crgn-sells-ownership-belinostat-topotarget-s-approximately-39-mil
  6. http://www.drugs.com/clinical_trials/curagen-present-cr011-vcmmae-data-asco-7313.html
  7. http://clinicaltrials.gov/ct2/show/NCT00323518
  8. http://www.nytimes.com/2001/01/17/business/technology-bayer-and-curagen-in-1.5-billion-pact-to-develop-drugs.html
  9. http://www.fiercebiotech.com/story/celldex-acquires-curagen-94-5m/2009-05-29?utm_medium=rss&utm_source=rss&cmp-id=OTC-RSS-FB0
  10. "Jonathan M. Rothberg in: Businessweek"
  11. "Ion Torrent Official Webpage"
  12. "RainDance Technologies Official Webpage"

Wikimedia Foundation.

Игры ⚽ Нужно решить контрольную?

Schlagen Sie auch in anderen Wörterbüchern nach:

  • Jonathan M. Rothberg — Dr. Jonathan M. Rothberg was born in 1963 in New Haven, Connecticut. He earned a B.S. in chemical engineering with an option in Biomedical engineering from Carnegie Mellon University and an M.S., M.Phil, and Ph.D. in biology from Yale… …   Wikipedia

  • Rothberg — ist der Familienname folgender Personen: Jonathan M. Rothberg (* 1963), US amerikanischer Wissenschafter und Unternehmer Künter Rothberg (* 1984), estnischer Judoka Rothberg steht weiter für Orte und Institutionen: mehrere Ortschaften mit dem… …   Deutsch Wikipedia

  • Rothberg — may refer to: *Bob Rothberg *Jonathan M. Rothberg *Künter Rothberg *Patti Rothberg *Roşia de Jos, a village in Romania …   Wikipedia

  • GeneCalling — is a mRNA profiling technology finding increased use in the field of genomics and invented by Dr. Jonathan M. Rothberg and developed by CuraGen Corporation [www.curagen.com] . This genomics technique rapidly identifies candidate genes for use in… …   Wikipedia

  • 454 Life Sciences — Tipo Subsidiaria Fundación 2000 Fundador(es) Jonathan M. Rothberg Sede Branford, Connecticut …   Wikipedia Español

  • 454 Life Sciences — 454 Life Sciences, a Roche company, is a biotechnology company based in Branford, Connecticut specializing in high throughput DNA sequencing using a novel massively parallel sequencing by synthesis approach. 454 has experienced rapid growth since …   Wikipedia

  • BIBLE — THE CANON, TEXT, AND EDITIONS canon general titles the canon the significance of the canon the process of canonization contents and titles of the books the tripartite canon …   Encyclopedia of Judaism

  • List of Jewish American entertainers — This is a list of famous Jewish American entertainers. For other famous Jewish Americans, see List of Jewish Americans. ListActors*See also List of Jewish American actors in televisionOrganized by decade of birth1990s*Robin Arcuri (1991 )… …   Wikipedia

  • List of Jewish actors and actresses — The list is currently organized chronologically, listing people by decade of birth. NOTOC 1990s 1980s 1970s 1960s 1950s 1940s 1930s 1920s 1910s 1900s 1890s 1880s 1870s 1860s 1850s 1840s 1830s 1820s 1810s 1750s infinity1990s*Jonah Bobo (1997–)… …   Wikipedia

  • A Simple Wish — Infobox Film name = A Simple Wish caption = Original film poster director = Michael Ritchie producer = Michael S. Glick Jeff Rothberg Bill Sheinberg Jonathan Sheinberg Sid Sheinberg writer = Jeff Rothberg narrator = starring = Mara Wilson Martin… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”