Sequence of TAGA_BACSU

N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase

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490220

Maueel C.,Young M.,Karamata D.

Genes concerned with synthesis of poly(glycerol phosphate), the essential teichoic acid in Bacillus subtilis strain 168, are organized in two divergent transcription units.

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929-941

1991

490221

Kunst F.,Ogasawara N.,Moszer I.,Albertini A.M.,Alloni G.,Azevedo V.,Bertero M.G.,Bessieres P.,Bolotin A.,Borchert S.,Borriss R.,Boursier L.,Brans A.,Braun M.,Brignell S.C.,Bron S.,Brouillet S.,Bruschi C.V.,Caldwell B.,Capuano V.,Carter N.M.,Choi S.-K.,Codani J.-J.,Connerton I.F.,Cummings N.J.,Daniel R.A.,Denizot F.,Devine K.M.,Duesterhoeft A.,Ehrlich S.D.,Emmerson P.T.,Entian K.-D.,Errington J.,Fabret C.,Ferrari E.,Foulger D.,Fritz C.,Fujita M.,Fujita Y.,Fuma S.,Galizzi A.,Galleron N.,Ghim S.-Y.,Glaser P.,Goffeau A.,Golightly E.J.,Grandi G.,Guiseppi G.,Guy B.J.,Haga K.,Haiech J.,Harwood C.R.,Henaut A.,Hilbert H.,Holsappel S.,Hosono S.,Hullo M.-F.,Itaya M.,Jones L.-M.,Joris B.,Karamata D.,Kasahara Y.,Klaerr-Blanchard M.,Klein C.,Kobayashi Y.,Koetter P.,Koningstein G.,Krogh S.,Kumano M.,Kurita K.,Lapidus A.,Lardinois S.,Lauber J.,Lazarevic V.,Lee S.-M.,Levine A.,Liu H.,Masuda S.,Mauel C.,Medigue C.,Medina N.,Mellado R.P.,Mizuno M.,Moestl D.,Nakai S.,Noback M.,Noone D.,O'Reilly M.,Ogawa K.,Ogiwara A.,Oudega B.,Park S.-H.,Parro V.,Pohl T.M.,Portetelle D.,Porwollik S.,Prescott A.M.,Presecan E.,Pujic P.,Purnelle B.,Rapoport G.,Rey M.,Reynolds S.,Rieger M.,Rivolta C.,Rocha E.,Roche B.,Rose M.,Sadaie Y.,Sato T.,Scanlan E.,Schleich S.,Schroeter R.,Scoffone F.,Sekiguchi J.,Sekowska A.,Seror S.J.,Serror P.,Shin B.-S.,Soldo B.,Sorokin A.,Tacconi E.,Takagi T.,Takahashi H.,Takemaru K.,Takeuchi M.,Tamakoshi A.,Tanaka T.,Terpstra P.,Tognoni A.,Tosato V.,Uchiyama S.,Vandenbol M.,Vannier F.,Vassarotti A.,Viari A.,Wambutt R.,Wedler E.,Wedler H.,Weitzenegger T.,Winters P.,Wipat A.,Yamamoto H.,Yamane K.,Yasumoto K.,Yata K.,Yoshida K.,Yoshikawa H.-F.,Zumstein E.,Yoshikawa H.,Danchin A.

The complete genome sequence of the Gram-positive bacterium Bacillus subtilis.

Nature

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249-256

1997

490222

Murazumi N.,Kumita K.,Araki Y.,Ito E.

Partial purification and properties of UDP-N-acetylmannosamine:N-acetylglucosaminyl pyrophosphorylundecaprenol N-acetylmannosaminyltransferase from Bacillus subtilis.

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980-984

1988

490223

Lazarevic V.,Abellan F.-X.,Beggah Moeller S.,Karamata D.,Maueel C.

Comparison of ribitol and glycerol teichoic acid genes in Bacillus subtilis W23 and 168: identical function, similar divergent organization, but different regulation.

Microbiology

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815-824

2002

490224

Howell A.,Dubrac S.,Andersen K.K.,Noone D.,Fert J.,Msadek T.,Devine K.

Genes controlled by the essential YycG/YycF two-component system of Bacillus subtilis revealed through a novel hybrid regulator approach.

Mol. Microbiol.

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1639-1655

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490225

Ginsberg C.,Zhang Y.H.,Yuan Y.,Walker S.

In vitro reconstitution of two essential steps in wall teichoic acid biosynthesis.

ACS Chem. Biol.

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25-28

2006

490226

Zhang Y.H.,Ginsberg C.,Yuan Y.,Walker S.

Acceptor substrate selectivity and kinetic mechanism of Bacillus subtilis TagA.

Biochemistry

45

10895-10904

2006

490227

D'Elia M.A.,Henderson J.A.,Beveridge T.J.,Heinrichs D.E.,Brown E.D.

The N-acetylmannosamine transferase catalyzes the first committed step of teichoic acid assembly in Bacillus subtilis and Staphylococcus aureus.

J. Bacteriol.

191

4030-4034

2009