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Thiamin (vitamin B1) biosynthesis and regulation: a rich source of antimicrobial drug targets?Isolation and characterization of new thiamine-deregulated mutants of Bacillus subtilis.Demonstration that fbiC is required by Mycobacterium bovis BCG for coenzyme F(420) and FO biosynthesisMetabolite-binding RNA domains are present in the genes of eukaryotesA conserved RNA structure (thi box) is involved in regulation of thiamin biosynthetic gene expression in bacteriaBiosynthesis of the thiazole moiety of thiamin in Escherichia coli: identification of an acyldisulfide-linked protein--protein conjugate that is functionally analogous to the ubiquitin/E1 complexOn the origin of biochemistry at an alkaline hydrothermal ventReconstitution of ThiC in thiamine pyrimidine biosynthesis expands the radical SAM superfamilyPurification, crystallization and preliminary crystallographic analysis of the putative thiamine-biosynthesis protein PH1313 fromPyrococcus horikoshiiOT3Structural similarities between thiamin-binding protein and thiaminase-I suggest a common ancestorStructural studies of thiamin monophosphate kinase in complex with substrates and productsCrystal Structure of a Sulfur Carrier Protein Complex Found in the Cysteine Biosynthetic Pathway of Mycobacterium tuberculosis † ‡Functional analysis of yeast gene families involved in metabolism of vitamins B1 and B6.The human malaria parasite Plasmodium falciparum expresses an atypical N-terminally extended pyrophosphokinase with specificity for thiamineComparative genomics of thiamin biosynthesis in procaryotes. New genes and regulatory mechanismsIdentification of inhibitors against Mycobacterium tuberculosis thiamin phosphate synthase, an important target for the development of anti-TB drugsComparative genomics analysis of Mycobacterium ulcerans for the identification of putative essential genes and therapeutic candidatesExploring metabolic pathway reconstruction and genome-wide expression profiling in Lactobacillus reuteri to define functional probiotic featuresPhosphoribosyl Diphosphate (PRPP): Biosynthesis, Enzymology, Utilization, and Metabolic Significance.Anthranilate synthase can generate sufficient phosphoribosyl amine for thiamine synthesis in Salmonella entericaThiocarboxylation of molybdopterin synthase provides evidence for the mechanism of dithiolene formation in metal-binding pterins.Mobile genetic element proliferation and gene inactivation impact over the genome structure and metabolic capabilities of Sodalis glossinidius, the secondary endosymbiont of tsetse flies.A comparative genomics perspective on the genetic content of the alkaliphilic haloarchaeon Natrialba magadii ATCC 43099T.Proteomic and microscopic analysis of biofilms formed by Listeria monocytogenes 568.The vitamin B1 metabolism of Staphylococcus aureus is controlled at enzymatic and transcriptional levels.A periplasmic location is essential for the role of the ApbE lipoprotein in thiamine synthesis in Salmonella typhimurium.Beneficial effects on host energy metabolism of short-chain fatty acids and vitamins produced by commensal and probiotic bacteria.Action of the thiamine antagonist bacimethrin on thiamine biosynthesis.Complete nucleotide sequence of ubiquitous plasmid pEA29 from Erwinia amylovora strain Ea88: gene organization and intraspecies variation.Reduced flux through the purine biosynthetic pathway results in an increased requirement for coenzyme A in thiamine synthesis in Salmonella enterica serovar typhimuriumLesions in gshA (Encoding gamma-L-glutamyl-L-cysteine synthetase) prevent aerobic synthesis of thiamine in Salmonella enterica serovar typhimurium LT2Probabilistic clustering of sequences: inferring new bacterial regulons by comparative genomics.Characterization of Escherichia coli MoeB and its involvement in the activation of molybdopterin synthase for the biosynthesis of the molybdenum cofactor.Thiamine biosynthesis in Escherichia coli: isolation and initial characterisation of the ThiGH complex.Genetic diversity within the genus Francisella as revealed by comparative analyses of the genomes of two North American isolates from environmental sources.Plasticity in the purine-thiamine metabolic network of Salmonella.Thiamine-auxotrophic mutants of Pseudomonas fluorescens CHA0 are defective in cell-cell signaling and biocontrol factor expressionThiazole synthase from Escherichia coli: an investigation of the substrates and purified proteins required for activity in vitro.Biosynthesis of the thiamin thiazole in Bacillus subtilis: identification of the product of the thiazole synthase-catalyzed reaction.Common ancestry and novel genetic traits of Francisella novicida-like isolates from North America and Australia as revealed by comparative genomic analyses.
P2860
Q21032531-772A2CA8-1B52-4317-9CFD-F270B1A4F7C6Q24535038-17180853-B22A-4BD6-B6C2-F8C23E06EFD1Q24538944-879FD655-8BA8-48A9-85D1-9E37BE742890Q24540199-906FD48E-3E87-4A9F-8F02-2DD966F59F6FQ24555765-58F92F48-E580-4C38-8181-689CD274589DQ24630699-3B796918-0F06-4D3B-8F0F-3A30541DBA5DQ24648668-20A1E320-AD4C-4326-82D9-AEE426F2C863Q24654264-EC50350E-1658-416A-947E-B5ED111FB9ADQ27640886-B5A43333-A2E4-49E7-B220-93A3BEA36A54Q27649481-DC074438-52B1-4BB7-AD9C-33406646B138Q27649967-76CCBB95-0CE3-4888-A05F-15C165FEB4F2Q27651982-B0D22FFF-2384-4C80-B458-B1C52074CA9DQ27936590-44BA3AD0-1097-456A-8915-0264B059D2B7Q27972566-8D7F950D-C7BD-405C-BDC1-6F750030A472Q28207076-24888DEC-9C60-46E8-8CEE-AEF4C14D6B10Q28479342-65224019-11EB-4ABB-8C55-4FEFC1D38411Q28482216-491BDC52-2204-40EA-A1D1-AAA488791E76Q28740609-D2DD174C-600E-4BF5-AFCF-7D9D3881439DQ30396867-783294AD-CB9D-4EAB-AA40-12F3F6BA854EQ30452762-1E252246-8F8F-4DE8-9359-A33CF213D478Q30689971-A3DFC5F7-0408-4DE9-9AC0-2560A1CC2B98Q30986329-EE39B420-1366-4CFA-9615-6EE7C999B5F0Q31060885-0C3865D2-9603-4239-BEE1-FD3077699DBBQ33215935-307EF780-D4F7-4642-B5D9-1B5E9B091164Q33514860-C369CA89-785B-41A1-A37E-F82650FC3969Q33636643-54C9C1E4-3775-4F03-B3C5-6EAF096F5F5DQ33651899-293C46EE-8372-4A4B-B247-BEC01F685E48Q33787534-1EA5E469-F037-4292-8C45-CD1E20CECA38Q33988070-F55AF6EF-AE2D-472F-ADC5-8328EB7138DDQ33993478-D2C5334C-5FC6-4D56-B5E3-D0D4EE7DB1FCQ33994623-9996935F-4601-4A5B-A157-662C4EDC4863Q34063477-48666E54-1555-47B2-AC12-F4603FC13246Q34084537-9128119C-F1EC-4EC6-9EB4-8342E4F625D5Q34185341-7BC894E2-AAE3-407A-BB78-1529561D2695Q34393102-4F45E694-5A4B-4EB4-8F4E-F8E76D742282Q34537641-5A76DE62-F02E-4FF7-A4F4-C2F9752B2C9CQ34570639-A53BAE23-328D-4A85-925F-39885F2C2A55Q34614911-BA61C5FF-0FFE-47E8-AAA4-671FC18436C3Q34944621-D630844F-01A4-4EDF-AB78-284CFE3951F9Q35139081-5DA1EF5A-21D7-4A7C-8D66-E18921B23888
P2860
description
1999 nî lūn-bûn
@nan
1999 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Thiamin biosynthesis in prokaryotes.
@ast
Thiamin biosynthesis in prokaryotes.
@en
type
label
Thiamin biosynthesis in prokaryotes.
@ast
Thiamin biosynthesis in prokaryotes.
@en
prefLabel
Thiamin biosynthesis in prokaryotes.
@ast
Thiamin biosynthesis in prokaryotes.
@en
P2093
P356
P1476
Thiamin biosynthesis in prokaryotes.
@en
P2093
Campobasso N
Kinsland C
McLafferty FW
Reddick JJ
Van Loon AP
P2888
P304
P356
10.1007/S002030050713
P577
1999-04-01T00:00:00Z
P6179
1044785222