William W. Metcalf
William W. Metcalf
Department of Microbiology, University of Illinois
確認したメール アドレス: illinois.edu - ホームページ
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引用先
The genome of M. acetivorans reveals extensive metabolic and physiological diversity
JE Galagan, C Nusbaum, A Roy, MG Endrizzi, P Macdonald, W FitzHugh, ...
Genome research 12 (4), 532-542, 2002
6632002
Conditionally replicative and conjugative plasmids carryinglacZα for cloning, mutagenesis, and allele replacement in bacteria
WW Metcalf, W Jiang, LL Daniels, SK Kim, A Haldimann, BL Wanner
Plasmid 35 (1), 1-13, 1996
5001996
A roadmap for natural product discovery based on large-scale genomics and metabolomics
JR Doroghazi, JC Albright, AW Goering, KS Ju, RR Haines, KA Tchalukov, ...
Nature chemical biology 10 (11), 963, 2014
3552014
Genetic analysis of pigment biosynthesis in Xanthobacter autotrophicus Py2 using a new, highly efficient transposon mutagenesis system that is functional in a wide variety of …
RA Larsen, MM Wilson, AM Guss, WW Metcalf
Archives of microbiology 178 (3), 193-201, 2002
3132002
Biosynthesis of phosphonic and phosphinic acid natural products
WW Metcalf, WA van der Donk
Annual review of biochemistry 78, 65-94, 2009
2762009
Microbial metabolism of reduced phosphorus compounds
AK White, WW Metcalf
Annu. Rev. Microbiol. 61, 379-400, 2007
2422007
A genetic system for Archaea of the genus Methanosarcina: liposome-mediated transformation and construction of shuttle vectors
WW Metcalf, JK Zhang, E Apolinario, KR Sowers, RS Wolfe
Proceedings of the National Academy of Sciences 94 (6), 2626-2631, 1997
2221997
Synthesis of methylphosphonic acid by marine microbes: a source for methane in the aerobic ocean
WW Metcalf, BM Griffin, RM Cicchillo, J Gao, SC Janga, HA Cooke, ...
Science 337 (6098), 1104-1107, 2012
2172012
Use of the rep technique for allele replacement to construct new Escherichia coli hosts for maintenance of R6Kλ origin plasmids at different copy numbers
WW Metcalf, W Jiang, BL Wanner
Gene 138 (1-2), 1-7, 1994
2161994
Anaerobic growth of Methanosarcina acetivorans C2A on carbon monoxide: an unusual way of life for a methanogenic archaeon
M Rother, WW Metcalf
Proceedings of the National Academy of Sciences 101 (48), 16929-16934, 2004
2132004
The Methanosarcina barkeri genome: comparative analysis with Methanosarcina acetivorans and Methanosarcina mazei reveals extensive rearrangement within methanosarcinal genomes
DL Maeder, I Anderson, TS Brettin, DC Bruce, P Gilna, CS Han, A Lapidus, ...
Journal of bacteriology 188 (22), 7922-7931, 2006
1912006
Genetic analysis of the archaeon Methanosarcina barkeri Fusaro reveals a central role for Ech hydrogenase and ferredoxin in methanogenesis and carbon fixation
J Meuer, HC Kuettner, JK Zhang, R Hedderich, WW Metcalf
Proceedings of the National Academy of Sciences 99 (8), 5632-5637, 2002
1902002
Involvement of the Escherichia coli phn (psiD) gene cluster in assimilation of phosphorus in the form of phosphonates, phosphite, Pi esters, and Pi.
WW Metcalf, BL Wanner
Journal of Bacteriology 173 (2), 587-600, 1991
1581991
Molecular genetic analysis of phosphite and hypophosphite oxidation by Pseudomonas stutzeriWM88
WW Metcalf, RS Wolfe
Journal of bacteriology 180 (21), 5547-5558, 1998
1571998
Comparative genomics of actinomycetes with a focus on natural product biosynthetic genes
JR Doroghazi, WW Metcalf
BMC genomics 14 (1), 1-13, 2013
1552013
Purification and characterization of a novel phosphorus-oxidizing enzyme from Pseudomonas stutzeri WM88
AMG Costas, AK White, WW Metcalf
Journal of Biological Chemistry 276 (20), 17429-17436, 2001
1512001
Mutational analysis of an Escherichia coli fourteen-gene operon for phosphonate degradation, using TnphoA'elements.
WW Metcalf, BL Wanner
Journal of bacteriology 175 (11), 3430-3442, 1993
1491993
Development of a markerless genetic exchange method for Methanosarcina acetivorans C2A and its use in construction of new genetic tools for methanogenic archaea
MA Pritchett, JK Zhang, WW Metcalf
Applied and Environmental Microbiology 70 (3), 1425-1433, 2004
1452004
A new activity for an old enzyme: Escherichia coli bacterial alkaline phosphatase is a phosphite-dependent hydrogenase
K Yang, WW Metcalf
Proceedings of the National Academy of Sciences 101 (21), 7919-7924, 2004
1362004
Phosphite dehydrogenase: a versatile cofactor‐regeneration enzyme
JM Vrtis, AK White, WW Metcalf, WA Van Der Donk
Angewandte Chemie 114 (17), 3391-3393, 2002
1362002
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