Thiamin biosynthesis

Beyond pharmaceutical screening activity developed on aminothiazoles derivatives, some studies at the molecular level were performed. Thus 2-aminothiazole was shown to inhibit thiamine biosynthesis (941). Nrridazole (419) affects iron metabohsm (850). The dehydrase for 5-aminolevulinic acid of mouse liver is inhibited by 2-amino-4-(iS-hydroxy-ethyl)thiazole (420) (942) (Scheme 239). l-Phenyl-3-(2-thiazolyl)thiourea (421) is a dopamine fS-hydroxylase inhibitor (943). Compound 422 inhibits the enzyme activity of 3, 5 -nucleotide phosphodiesterase (944). The oxalate salt of 423, an analog of levamisole 424 (945) (Scheme 240),... 

The pathways for thiamine biosynthesis have been elucidated only partiy. Thiamine pyrophosphate is made universally from the precursors 4-amino-5-hydroxymethyl-2-methylpytimidinepyrophosphate [841-01-0] (47) and 4-methyl-5-(2-hydroxyethyl)thiazolephosphate [3269-79-2] (48), but there appear to be different pathways ia the eadier steps. In bacteria, the early steps of the pyrimidine biosynthesis are same as those of purine nucleotide biosynthesis, 5-Aminoimidazole ribotide [41535-66-4] (AIR) (49) appears to be the sole and last common iatermediate ultimately the elements are suppHed by glycine, formate, and ribose. AIR is rearranged in a complex manner to the pyrimidine by an as-yet undetermined mechanism. In yeasts, the pathway to the pyrimidine is less well understood and maybe different (74—83) (Fig. 9). 

A number of the genes involved in the biosynthesis of thiamine in E. coli (89—92), i hium meliloti (93), B. suhtilis (94), and Schi saccharomycespomhe (95,96) have been mapped, cloned, sequenced, and associated with biosynthetic functions. Thiamine biosynthesis is tightly controlled by feedback and repression mechanisms limiting overproduction (97,98). A cost-effective bioprocess for production of thiamine will require significant additional progress. 

Pyrimidin-5-amine, 2,4-dioxy-6-ribitylamino-in riboflavin biosynthesis, 1, 93 Pyrimidin-5-amine, 2-methyI-in thiamin biosynthesis, 1, 99 Pyrimidin-5-amine, 4-methyl-synthesis, 3, 130... 

Pyrimidine, 2-ethyl-1,4,5,6-tetrahydro-synthesis, 3, 108 Pyrimidine, 5-formyl-2-methyl-in thiamin biosynthesis, 1, 99 Pyrimidine, fluoro-syhthesis, 3, 140 Pyrimidine, 2-fluoro-NMR, 3, 63 synthesis, 3, 140 Pyriihidine, 4-fluoro-synthesis, 3, 140 Pyrimidine, 6-fluoro-synthesis, 3, 140 Pyrimidine, fluoroalkyl-synthesis, 3, 77... 

Thiazole, 4-methyl-5-(2-hydroxyethyl)-in thiamine biosynthesis, 1, 97 Thiazole, 4-methyl-2-methylami nosynthesis, 6, 300 Thiazole, 4-methyl-2-phenyl-alkylation, 6, 256 mercuration, 6, 256 Thiazole, 2-(methylthio)-methylation, 6, 290 thermodynamic values, 6, 291 Thiazole, 2-methylthio-5-phenyl-synthesis, 5, 153 Thiazole, 4-methyl-5-vinyl-occurrence, 6, 327 Thiazole, 2-phenyl-acetylation, 6, 270-271 Conformation, 6, 237 synthesis, 5, 113, 6, 306 Thiazole, 4-phenyl-conformation, 6, 237 2,5-disubstituted synthesis, 6, 304 Thiazole, 5-phenyl-conformation, 6, 237 Thiazole, 2-phenyl-5-triphenylmethyl-synthesis, 6, 265 Thiazole, 2-(2-pyridyl)-metal complexes, 5, 51 6, 253 Thiazole, 4-(2-pyridyl)-metal complexes, S, 51 6, 253 Thiazole, tetrahydro-ring cleavage, 5, 80 Thiazole, 2,4,5-trimethyl-occurrence, 6, 327... 

A more-detailed account of derepression phenomena, regulation of thiamine biosynthesis, and mutant investigations can be found elsewhere.1... 

The crystal structure of MPT synthase and the simultaneously determined NMR structure of the MoaD-related ThiS protein involved in thiamine biosynthesis [37] unambiguously demonstrated the evolutionary relationship between a subset of enzymes involved in the biosynthesis of S-containing cofactors (e.g. Moco, thiamine and certain EeS-clusters) and the process of ubiquitin activation. MoaD displays significant structural homology to human ubiquitin (Figure 3.3B and C), resulting in a superposition with a root mean square (rms) deviation of 3.6 A for 68 equivalent Ca atoms out of 76 residues in ubiquitin. The key secondary structure... 

Acid dye method for the analysis of thiamin, 18A, 73 electrophoretic separation and fluorometric determination of thiamin and its phosphate esters, 18A, 91 catalytic polarography in the study of the reactions of thiamin and thiamin derivatives, 18A, 93 preparation of thiamin derivatives and analogs, 18A, 141 preparation of the mono- and pyrophosphate esters of 2-methyl-4-amino-5-hydroxymethylpyrimidine for thiamin biosynthesis, 18A, 162 formation of the pyrophosphate ester of 2-methyl-4-amino-5-hydroxymethylpyrimidine by enzymes from brewers yeast in thiamin biosynthesis, 18A, 203 resolution, reconstitution, and other methods for the study of binding of thiamin pyrophos-... 

S ATP -I- 2-methyl-4-amino-5-hydroxymethylpyrimidine <2> (<2> involved in thiamine biosynthesis [2]) [2]... 

S ATP + 2-methyl-4-amino-5-pho.sphomethylpyrimidine <1, 2, 3> (<1> specific for ATP [1] <3> enzyme has both 2-methyl-4-amino-5-hydroxy-methylpyrimidine phosphate kinase and thiamin-phosphate diphosphatase activities, involved in thiamine biosynthesis [3]) (Reversibility <1, 2, 3> [1,2, 3]) [1,2,3]... 

Phosphorylation of dCDP to dCTP (step k, Fig. 25-14) completes the biosynthesis of the first of the pyrimidine precursors of DNA. The uridine nucleotides arise in two ways. Reduction of UDP yields dUDP (step), Fig. 25-14). However, the deoxycytidine nucleotides are more often hydrolytically deaminated (reactions / and / ) 274 Methylation of dUMP to form thymidylate, dTMP (step n, Fig. 25-14), is catalyzed by thymidylate synthase. The reaction involves transfer of a 1-carbon unit from methylene tetrahydrofolic acid with subsequent reduction using THF as the electron donor. A probable mechanism is shown in Fig. 15-21. See also Box 15-E. Some bacterial transfer RNAs contain 4-thiouridine (Fig. 5-33). The sulfur atom is introduced by a sulfurtransferase (the Thil gene product in E. coli). The same protein is essential for thiamin biosynthesis (Fig. 25-21)274a... 

Click on the Gene Object ID number for details on individual genes. Click 648749380 to find a membrane-associated lipoprotein involved in thiamine biosynthesis. 

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