Results 1 - 10 of 37,594

The complete genome sequence of Escherichia coli K-12

by Frederick R. Blattner, Guy Plunkett Iii, Craig A. Bloch, Nicole T. Perna, Valerie Burl, Monica Riley, Julio Collado-vides, Jeremy D. Glasner, Christopher K. Rode, George F. Mayhew, Jason Gregor, Nelson Wayne Davis, Heather A. Kirkpatrick, Michael A. Goeden, Debra J. Rose, Bob Mau, Ying Shao - Science , 1997
"... The 4,639,221–base pair sequence of Escherichia coli K-12 is presented. Of 4288 protein-coding genes annotated, 38 percent have no attributed function. Comparison with five other sequenced microbes reveals ubiquitous as well as narrowly distributed gene families; many families of similar genes withi ..."
Abstract - Cited by 1129 (39 self) - Add to MetaCart
oriented. The genome also contains insertion sequence (IS) elements, phage remnants, and many other patches of unusual composition indicating genome plasticity through horizontal transfer. Because of its extraordinary position as a preferred model in biochemical genetics, molecular biology

The diploid genome sequence of an individual human

by Samuel Levy, Granger Sutton, Pauline C. Ng, Lars Feuk, Aaron L. Halpern, Brian P. Walenz, Nelson Axelrod, Jiaqi Huang, Ewen F. Kirkness, Gennady Denisov, Yuan Lin, Jeffrey R. Macdonald, Andy Wing, Chun Pang, Mary Shago, Timothy B. Stockwell, Alexia Tsiamouri, Vineet Bafna, Vikas Bansal, Saul A. Kravitz, Dana A. Busam, Karen Y. Beeson, Tina C. Mcintosh, Karin A. Remington, Josep F. Abril, John Gill, Jon Borman, Yu-hui Rogers, Marvin E. Frazier, Stephen W. Scherer, Robert L. Strausberg, J. Craig Venter - PLoS Biol
"... Presented here is a genome sequence of an individual human. It was produced from;32 million random DNA fragments, sequenced by Sanger dideoxy technology and assembled into 4,528 scaffolds, comprising 2,810 million bases (Mb) of contiguous sequence with approximately 7.5-fold coverage for any given r ..."
Abstract - Cited by 293 (6 self) - Add to MetaCart
Presented here is a genome sequence of an individual human. It was produced from;32 million random DNA fragments, sequenced by Sanger dideoxy technology and assembled into 4,528 scaffolds, comprising 2,810 million bases (Mb) of contiguous sequence with approximately 7.5-fold coverage for any given

Accurate whole human genome sequencing using reversible terminator chemistry. Nature 456: 53–59

by David R. Bentley, Shankar Balasubramanian, Harold P. Swerdlow, Geoffrey P. Smith, John Milton, Clive G. Brown, Kevin P. Hall, Dirk J. Evers, Colin L. Barnes, Helen R, Jonathan M. Boutell, Jason Bryant, Richard J. Carter, R. Keira Cheetham, Anthony J. Cox, Darren J. Ellis, Michael R. Flatbush, Niall A. Gormley, Sean J, Leslie J. Irving, Mirian S. Karbelashvili, Scott M. Kirk, Heng Li, Klaus S. Maisinger, Lisa J. Murray, Bojan Obradovic, Tobias Ost, Michael L, Mark R. Pratt, Isabelle M. J. Rasolonjatovo, Mark T. Reed, Roberto Rigatti, Chiara Rodighiero, Mark T. Ross, Andrea Sabot, Subramanian V. Sankar, Svilen S. Tzonev, Eric H. Vermaas, Klaudia Walter, Xiaolin Wu, Lu Zhang, Mohammed D. Alam, Carole Anastasi, Ify C. Aniebo, David M. D. Bailey, Iain R, Kevin F. Benson, Claire Bevis, Phillip J. Black, Asha Boodhun, Joe S. Brennan, A. Bridgham, Rob C. Brown, Andrew A. Brown, Dale H. Buermann, Abass A. Bundu, James C. Burrows, Nigel P. Carter, Nestor Castillo, Maria Chiara, E. Catenazzi, R. Neil Cooley, Natasha R. Crake, Olubunmi O. Dada, Konstantinos D, Belen Dominguez-fern, David J. Earnshaw, Ugonna C. Egbujor, David W. Elmore, Sergey S. Etchin, Mark R. Ewan, Milan Fedurco, Louise J. Fraser, Karin V. Fuentes Fajardo, W. Scott Furey, David George, Kimberley J. Gietzen, Colin P, George S. Golda, Philip A. Granieri, David E. Green, David L. Gustafson, Nancy F. Hansen, Kevin Harnish, Christian D. Haudenschild, Narinder I. Heyer, Matthew M. Hims, Johnny T. Ho, Adrian M. Horgan, Katya Hoschler, Steve Hurwitz, Denis V. Ivanov, Maria Q. Johnson, Terena James, T. A. Huw Jones, Tzvetana H. Kerelska, Alan D. Kersey, Irina Khrebtukova, Alex P. Kindwall, Paula I. Kokko-gonzales, Anil Kumar, Marc A. Laurent, Cynthia T. Lawley, Sarah E. Lee, Xavier Lee, Arnold K. Liao, Jennifer A. Loch, Mitch Lok, Shujun Luo, Radhika M. Mammen, John W. Martin, Patrick G. Mccauley, Paul Mcnitt, Parul Mehta, Keith W. Moon, Joe W. Mullens, Taksina Newington, Zemin Ning , 2008
"... ..."
Abstract - Cited by 636 (1 self) - Add to MetaCart
Abstract not found

GtRNAdb: a database of transfer RNA genes detected in genomic sequence

by Patricia P. Chan, Todd M. Lowe - Nucleic Acids Res , 2009
"... genomic sequence ..."
Abstract - Cited by 132 (2 self) - Add to MetaCart
genomic sequence

The sequence of the human genome

by J. Craig Venter, Et Al, J. Craig Venter, Mark D. Adams, Eugene W. Myers, Peter W. Li, Richard J. Mural, Granger G. Sutton, Hamilton O. Smith, Mark Y, Cheryl A. Evans, Robert A. Holt, Jeannine D. Gocayne, Peter Amanatides, Richard M. Ballew, Daniel H. Huson, Jennifer Russo Wortman, Qing Zhang, Xiangqun H. Zheng, Lin Chen, Marian Skupski, Gangadharan Subramanian, Paul D. Thomas, Jinghui Zhang, George L. Gabor Miklos, Catherine Nelson, Samuel Broder, Andrew G. C , 2001
"... The following resources related to this article are available online at ..."
Abstract - Cited by 740 (9 self) - Add to MetaCart
The following resources related to this article are available online at

Detecting protein function and protein-protein interactions from genome sequences. Science 285:751–753

by Edward M. Marcotte, Matteo Pellegrini, Ho-leung Ng, Danny W. Rice, Todd O. Yeates, David Eisenberg , 1999
"... A computational method is proposed for inferring protein interactions from genome sequences on the basis of the observation that some pairs of interacting proteins have homologs in another organism fused into a single protein chain. Searching sequences from many genomes revealed 6809 such putative p ..."
Abstract - Cited by 359 (13 self) - Add to MetaCart
A computational method is proposed for inferring protein interactions from genome sequences on the basis of the observation that some pairs of interacting proteins have homologs in another organism fused into a single protein chain. Searching sequences from many genomes revealed 6809 such putative

genome sequences

by Martin G Reese, Barry Moore, Colin Batchelor, Fidel Salas, Fiona Cunningham, Gabor T Marth, Lincoln Stein, Paul Flicek, Mark Y, Karen Eilbeck
"... Here we describe the Genome Variation Format (GVF) and the 10Gen dataset. GVF, an extension of Generic Feature Format version 3 (GFF3), is a simple tab-delimited format for DNA variant files, which uses Sequence Ontology to describe genome variation data. The 10Gen dataset, ten human genomes in GVF ..."
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Here we describe the Genome Variation Format (GVF) and the 10Gen dataset. GVF, an extension of Generic Feature Format version 3 (GFF3), is a simple tab-delimited format for DNA variant files, which uses Sequence Ontology to describe genome variation data. The 10Gen dataset, ten human genomes in GVF

genome sequence

by Haitham Elbir, Catherine Robert, Ti Thien Nguyen, Grégory Gimenez, Sulieman M. El, Jan-ingmar Flock, Didier Raoult, Michel Drancourt
"... Staphylococcus aureus subsp. anaerobius is responsible for Morel's disease in animals and a cause of abscess in humans. It is characterized by a microaerophilic growth, contrary to the other strains of S. aureus. The 2,604,446-bp genome (32.7 % GC content) of S. anaerobius ST1464 comprises one ..."
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oxygen detoxification genes encode superoxide dismutase and cyto-chrome quinol oxidase whereas the catalase gene is impaired by a stop codon. Based on the genome, in-silico multilocus sequence typing indicates that S. aureus subsp. anaerobius emerged as a clone separated from all other S. aureus strains

genome sequence

by Donna Montgomery, Donna L. Montgomery
"... Tuberculosis vaccine design ..."
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Tuberculosis vaccine design

genome sequence

by Kurt Drickamer, Roger B. Dodd
"... lectin-like domains in Caenorhabditis elegans: predictions from the complete ..."
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lectin-like domains in Caenorhabditis elegans: predictions from the complete
Results 1 - 10 of 37,594