Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363

Wegmann U, O'Connell-Motherwy M, Zomer A, Buist G, Shearman C, Canchaya C, Ventura M, Goesmann A, Gasson MJ, Kuipers OP, van Sinderen D, et al. (2007)
JOURNAL OF BACTERIOLOGY 189(8): 3256-3270.

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Wegmann U, O'Connell-Motherwy M, Zomer A, et al. Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363. JOURNAL OF BACTERIOLOGY. 2007;189(8):3256-3270.
Wegmann, U., O'Connell-Motherwy, M., Zomer, A., Buist, G., Shearman, C., Canchaya, C., Ventura, M., et al. (2007). Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363. JOURNAL OF BACTERIOLOGY, 189(8), 3256-3270. doi:10.1128/JB.01768-06
Wegmann, U., O'Connell-Motherwy, M., Zomer, A., Buist, G., Shearman, C., Canchaya, C., Ventura, M., Goesmann, A., Gasson, M. J., Kuipers, O. P., et al. (2007). Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363. JOURNAL OF BACTERIOLOGY 189, 3256-3270.
Wegmann, U., et al., 2007. Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363. JOURNAL OF BACTERIOLOGY, 189(8), p 3256-3270.
U. Wegmann, et al., “Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363”, JOURNAL OF BACTERIOLOGY, vol. 189, 2007, pp. 3256-3270.
Wegmann, U., O'Connell-Motherwy, M., Zomer, A., Buist, G., Shearman, C., Canchaya, C., Ventura, M., Goesmann, A., Gasson, M.J., Kuipers, O.P., van Sinderen, D., Kok, J.: Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363. JOURNAL OF BACTERIOLOGY. 189, 3256-3270 (2007).
Wegmann, Udo, O'Connell-Motherwy, Mary, Zomer, Aldert, Buist, Girbe, Shearman, Claire, Canchaya, Carlos, Ventura, Marco, Goesmann, Alexander, Gasson, Michael J., Kuipers, Oscar P., van Sinderen, Douwe, and Kok, Jan. “Complete genome sequence of the prototype lactic acid bacterium Lactococcus lactis subsp cremoris MG1363”. JOURNAL OF BACTERIOLOGY 189.8 (2007): 3256-3270.

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Comparative genomics of enzymes in flavor-forming pathways from amino acids in lactic acid bacteria.
Liu M, Nauta A, Francke C, Siezen RJ., Appl Environ Microbiol 74(15), 2008
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Identification and characterization of lactococcal-prophage-carried superinfection exclusion genes.
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Random mutagenesis identifies novel genes involved in the secretion of antimicrobial, cell wall-lytic enzymes by Lactococcus lactis.
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Galperin MY., Environ Microbiol 9(6), 2007
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Lactococcus lactis gene yjgB encodes a gamma-D-glutaminyl-L-lysyl-endopeptidase which hydrolyzes peptidoglycan.
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Diversity analysis of dairy and nondairy Lactococcus lactis isolates, using a novel multilocus sequence analysis scheme and (GTG)5-PCR fingerprinting.
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10 years of the nisin-controlled gene expression system (NICE) in Lactococcus lactis.
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The InterPro Database, 2003 brings increased coverage and new features.
Mulder NJ, Apweiler R, Attwood TK, Bairoch A, Barrell D, Bateman A, Binns D, Biswas M, Bradley P, Bork P, Bucher P, Copley RR, Courcelle E, Das U, Durbin R, Falquet L, Fleischmann W, Griffiths-Jones S, Haft D, Harte N, Hulo N, Kahn D, Kanapin A, Krestyaninova M, Lopez R, Letunic I, Lonsdale D, Silventoinen V, Orchard SE, Pagni M, Peyruc D, Ponting CP, Selengut JD, Servant F, Sigrist CJ, Vaughan R, Zdobnov EM., Nucleic Acids Res. 31(1), 2003
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AUTHOR UNKNOWN, 1944

AUTHOR UNKNOWN, 1962
Respiration metabolism reduces oxidative and acid stress to improve long-term survival of Lactococcus lactis.
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Two homologous oligopeptide binding protein genes (oppA) in Lactococcus lactis opp2 [corrected].
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AUTHOR UNKNOWN, 1987

AUTHOR UNKNOWN, 1985
Functional ingredient production: application of global metabolic models.
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Biological containment of genetically modified Lactococcus lactis for intestinal delivery of human interleukin 10.
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A probabilistic method for identifying start codons in bacterial genomes.
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Effects of cultivation conditions on folate production by lactic acid bacteria.
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The COG database: an updated version includes eukaryotes.
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AUTHOR UNKNOWN, 1995
Genetic and biochemical characterization of the oligopeptide transport system of Lactococcus lactis.
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Projector: automatic contig mapping for gap closure purposes.
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Natural diversity and adaptive responses of Lactococcus lactis.
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Flavour formation from amino acids by lactic acid bacteria: predictions from genome sequence analysis.
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AUTHOR UNKNOWN, 1999
The complete genome sequence of Bacillus licheniformis DSM13, an organism with great industrial potential.
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Proteome analyses of heme-dependent respiration in Lactococcus lactis: involvement of the proteolytic system.
Vido K, Le Bars D, Mistou MY, Anglade P, Gruss A, Gaudu P., J. Bacteriol. 186(6), 2004
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