TY  - 
  - Other
  - Klaenhammer, T,Altermann, E,Arigoni, F,Bolotin, A,Breidt, F,Broadbent, J,Cano, R,Chaillou, S,Deutscher, J,Gasson, M,van de Guchte, M,Guzzo, J,Hartke, A,Hawkins, T,Hols, P,Hutkins, R,Kleerebezem, M,Kok, J,Kuipers, O,Lubbers, M,Maguin, E,McKay, L,Mills, D,Nauta, A,Overbeek, R,Pel, H,Pridmore, D,Saier, M,van Sinderen, D,Sorokin, A,Steele, J,O'Sullivan, D,de Vos, W,Weimer, B,Zagorec, M,Siezen, R
  - 2002
  - February
  - Discovering lactic acid bacteria by genomics
  - Validated
  - 1
  - ()
  - lactic acid bacteria genomics Gram-positive bacteria food health Lactococcus Lactobacillus Streptococcus Pediococcus Leuconostoc Oenococcus Propionibacterium Bifidobacterium Brevibacterium FIELD GEL-ELECTROPHORESIS LACTOBACILLUS-ACIDOPHILUS GROUP 16S RIBOSOMAL-RNA OENI TEMPERATE BACTERIOPHAGE-PHI-10MC EFFICIENT INSERTIONAL MUTAGENESIS STREPTOCOCCUS-THERMOPHILUS LEUCONOSTOC-OENOS LACTOCOCCUS-LACTIS BREVIBACTERIUM-LINENS OENOCOCCUS-OENI
  - This review summarizes a collection of lactic acid bacteria that are now undergoing genomic sequencing and analysis. Summaries are presented on twenty different species, with each overview discussing the organisms fundamental and practical significance, environmental habitat, and its role in fermentation, bioprocessing, or probiotics. For those projects where genome sequence data were available by March 2002, summaries include a listing of key statistics and interesting genomic features. These efforts will revolutionize our molecular view of Gram-positive bacteria, as up to 15 genomes from the low GC content lactic acid bacteria are expected to be available in the public domain by the end of 2003. Our collective view of the lactic acid bacteria will be fundamentally changed as we rediscover the relationships and capabilities of these organisms through genomics.
  - 29
  - 58
DA  - 2002/02
ER  - 

@misc{V160960669,
   = {Other},
   = {Klaenhammer,  T and Altermann,  E and Arigoni,  F and Bolotin,  A and Breidt,  F and Broadbent,  J and Cano,  R and Chaillou,  S and Deutscher,  J and Gasson,  M and van de Guchte,  M and Guzzo,  J and Hartke,  A and Hawkins,  T and Hols,  P and Hutkins,  R and Kleerebezem,  M and Kok,  J and Kuipers,  O and Lubbers,  M and Maguin,  E and McKay,  L and Mills,  D and Nauta,  A and Overbeek,  R and Pel,  H and Pridmore,  D and Saier,  M and van Sinderen,  D and Sorokin,  A and Steele,  J and O'Sullivan,  D and de Vos,  W and Weimer,  B and Zagorec,  M and Siezen,  R },
   = {2002},
   = {February},
   = {Discovering lactic acid bacteria by genomics},
   = {Validated},
   = {1},
   = {()},
   = {lactic acid bacteria genomics Gram-positive bacteria food health Lactococcus Lactobacillus Streptococcus Pediococcus Leuconostoc Oenococcus Propionibacterium Bifidobacterium Brevibacterium FIELD GEL-ELECTROPHORESIS LACTOBACILLUS-ACIDOPHILUS GROUP 16S RIBOSOMAL-RNA OENI TEMPERATE BACTERIOPHAGE-PHI-10MC EFFICIENT INSERTIONAL MUTAGENESIS STREPTOCOCCUS-THERMOPHILUS LEUCONOSTOC-OENOS LACTOCOCCUS-LACTIS BREVIBACTERIUM-LINENS OENOCOCCUS-OENI},
   = {{This review summarizes a collection of lactic acid bacteria that are now undergoing genomic sequencing and analysis. Summaries are presented on twenty different species, with each overview discussing the organisms fundamental and practical significance, environmental habitat, and its role in fermentation, bioprocessing, or probiotics. For those projects where genome sequence data were available by March 2002, summaries include a listing of key statistics and interesting genomic features. These efforts will revolutionize our molecular view of Gram-positive bacteria, as up to 15 genomes from the low GC content lactic acid bacteria are expected to be available in the public domain by the end of 2003. Our collective view of the lactic acid bacteria will be fundamentally changed as we rediscover the relationships and capabilities of these organisms through genomics.}},
  pages = {29--58},
  source = {IRIS}
}