Sequence of NDPGT_BACSU
EC Number:2.4.1
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
Other sequences found for EC No. 2.4.1
EC Number:2.4.1.384
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
an NDP-glycose + an acceptor = a glycosylated acceptor + NDP
Other sequences found for EC No. 2.4.1.384
General information:
Sequence
0 MKKYHISMIN IPAYGHVNPT LALVEKLCEK GHRVTYATTE EFAPAVQQAG GEALIYHTSL
60 NIDPKQIREM MEKNDAPLSL LKESLSILPQ LEELYKDDQP DLIIYDFVAL AGKLFAEKLN
120 VPVIKLCSSY AQNESFQLGN EDMLKKIREA EAEFKAYLEQ EKLPAVSFEQ LAVPEALNIV
180 FMPKSFQIQH ETFDDRFCFV GPSLGERKEK ESLLIDKDDR PLMLISLGTA FNAWPEFYKM
240 CIKAFRDSSW QVIMSVGKTI DPESLEDIPA NFTIRQSVPQ LEVLEKADLF ISHGGMNSTM
300 EAMNAGVPLV VIPQMYEQEL TANRVDELGL GVYLPKEEVT VSSLQEAVQA VSSDQELLSR
360 VKNMQKDVKE AGGAERAAAE IEAFMKKSAV PQ
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Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
65037
Rivolta C.,Soldo B.,Lazarevic V.,Joris B.,Mauel C.,Karamata D.
A 35.7 kb DNA fragment from the Bacillus subtilis chromosome containing a putative 12.3 kb operon involved in hexuronate catabolism and a perfectly symmetrical hypothetical catabolite-responsive element.
Microbiology
144
877-884
1998
65038
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
390
249-256
1997
65039
Dai L.,Li J.,Yao P.,Zhu Y.,Men Y.,Zeng Y.,Yang J.,Sun Y.
Exploiting the aglycon promiscuity of glycosyltransferase Bs-YjiC from Bacillus subtilis and its application in synthesis of glycosides.
J. Biotechnol.
248
69-76
2017
65040
Dai L.,Qin L.,Hu Y.,Huang J.W.,Hu Z.,Min J.,Sun Y.,Guo R.T.
Structural dissection of unnatural ginsenoside-biosynthetic UDP-glycosyltransferase Bs-YjiC from Bacillus subtilis for substrate promiscuity.
Biochem. Biophys. Res. Commun.
534
73-78
2021
65041
Liu B.,Zhao C.,Xiang Q.,Zhao N.,Luo Y.,Bao R.
Structural and biochemical studies of the glycosyltransferase Bs-YjiC from Bacillus subtilis.
Int. J. Biol. Macromol.
166
806-817
2021
