ライフサイエンスコーパス: amino acid biosynthesis

1 yceride synthesis, lipid beta-oxidation, and amino acid biosynthesis.

2 and peroxisomal enzymes required for de novo amino acid biosynthesis.

3 cutive reactions in the aspartate pathway of amino acid biosynthesis.

4 cofactors in cells for use in nucleotide and amino acid biosynthesis.

5 (metB), proline (proC), or tryptophan (trpD) amino acid biosynthesis.

6 ng conditionally essential genes involved in amino acid biosynthesis.

7 known functions, nearly all were involved in amino acid biosynthesis.

8 phosphorylation activates genes involved in amino acid biosynthesis.

9 ic flow of intermediates from fatty acid and amino acid biosynthesis.

10 ases, both of which are involved in aromatic amino acid biosynthesis.

11 hosate and subsequent inhibition of aromatic amino acid biosynthesis.

12 core metabolite in the citric acid cycle and amino acid biosynthesis.

13 regulation of translation, fermentation, and amino acid biosynthesis.

14 production and antioxidant, nucleotide, and amino acid biosynthesis.

15 ne and to a lesser extent asparagine support amino acid biosynthesis.

16 ose and lactate and varying requirements for amino acid biosynthesis.

17 l dependence of growth responses to limiting amino acid biosynthesis.

18 a key role in providing carbon skeletons for amino acid biosynthesis.

19 ranslation of a transcriptional activator of amino acid biosynthesis.

20 amine synthetase/glutamate synthase-mediated amino acid biosynthesis.

21 the initiation and branch point of aromatic amino acid biosynthesis.

22 n the gut microbiome, particularly affecting amino acid biosynthesis.

23 e metabolism including energy generation and amino acid biosynthesis.

24 rtant but not previously appreciated role in amino acid biosynthesis.

25 quiring reactions such as photosynthesis and amino acid biosynthesis.

26 mediates (anaplerosis) is primarily used for amino acid biosynthesis.

27 ed-chain amino acid degradation and aromatic amino acid biosynthesis.

28 erts chorismate into prephenate for aromatic amino acid biosynthesis.

29 nsitions and sustaining growth by activating amino acid biosynthesis.

30 encoding enzymes involved in translation and amino acid biosynthesis.

31 o Salmonella exerts considerable pressure on amino acid biosynthesis.

32 activating amino acid promoters and de novo amino acid biosynthesis.

33 redients targeting two different branches of amino acid biosynthesis.

34 es and likely reflects different demands for amino acid biosynthesis.

35 se two enzymes have overlapping functions in amino acid biosynthesis.

36 volutionarily related to ligases involved in amino acid biosynthesis.

37 arginine and Gcn4p, the master regulator of amino acid biosynthesis.

38 uclear CIT2 gene in order to ensure adequate amino acid biosynthesis.

39 arvation, the kinase GCN2 in yeast activates amino acid biosynthesis.

40 mans cannot be associated only with costs of amino acid biosynthesis.

41 YjgF homolog have a defect in branched-chain amino acid biosynthesis.

42 The first enzyme of the aromatic amino acid biosynthesis, 3-deoxy-D-arabino-heptulosonate

43 or two stress-inducible enzymes unrelated to amino acid biosynthesis and accumulation of the indolic

44 tory P: rotein,' regulates genes involved in amino acid biosynthesis and catabolism and other cellula

45 e acts at the first branch-point of aromatic amino acid biosynthesis and catalyzes the conversion of

46 uchnera oppositely regulate genes underlying amino acid biosynthesis and cell growth.

47 ffector protein that links OPDA signaling to amino acid biosynthesis and cellular redox homeostasis i

48 AAK mutations on metabolism, particularly in amino acid biosynthesis and energy metabolism pathways.

49 chondrial enzyme required for branched chain amino acid biosynthesis and for the stability of mitocho

50 myces cerevisiae required for branched-chain amino acid biosynthesis and for the stability of wild-ty

51 the iCCA group were associated with enriched amino acid biosynthesis and glycolysis pathways, while e

52 s by promoting adaptive stress responses and amino acid biosynthesis and import.

53 pression of genes involved in branched chain amino acid biosynthesis and in ammonia assimilation.

54 s that may complement host nutrition through amino acid biosynthesis and influence host reproduction.

55 ses promoting colonization include essential amino acid biosynthesis and iron acquisition pathways, i

56 ation of genes encoding proteins involved in amino acid biosynthesis and iron metabolism, as well as

57 nes potentially involved in mycosporine-like amino acid biosynthesis and mapped the taxonomic and evo

58 SWI/SNF for activation of genes involved in amino acid biosynthesis and metabolizing ethanol.

59 example, Ilv5 is required for branched chain amino acid biosynthesis and mtDNA stability.

60 termined and revealed physiological roles in amino acid biosynthesis and nutrient import.

61 a gene cohort responsible for stress-induced amino acid biosynthesis and observed markedly increased

62 servation of a common protein domain linking amino acid biosynthesis and protein synthesis implies an

63 ght the complex regulation of plant aromatic amino acid biosynthesis and provide novel genetic tools

64 pathways utilized for glucose catabolism and amino acid biosynthesis and revealed that the organism's

65 est a role for the Tsc1 and Tsc2 proteins in amino acid biosynthesis and sensing.

66 d rates of glycolysis and STAT5 activity for amino acid biosynthesis and TCA cycle anaplerosis.

67 e dark to best allocate carbon resources for amino acid biosynthesis and to prepare for photosynthesi

68 expected up-regulation of genes involved in amino acid biosynthesis and transport but also uncovered

69 xpression of many aminoacyl-tRNA synthetase, amino acid biosynthesis and transport genes in Bacillus

70 Additionally, we observed that amino acid biosynthesis and transport regulons, controll

71 mal medium (n = 230) included those encoding amino acid biosynthesis and transport systems, outer mem

72 cells were enriched for proteins related to amino acid biosynthesis and transport, while Deltappk mu

73 oup of genes that are essential for aromatic amino acid biosynthesis and transport.

74 eat part by the DksA-dependent regulation of amino acid biosynthesis and transport.

75 predominantly metabolic enzymes involved in amino acid biosynthesis and transport.

76 ters and activation of certain promoters for amino acid biosynthesis and transport.

77 of expression of aminoacyl-tRNA synthetase, amino acid biosynthesis and transporter gene expression

78 ng genes involved in cell cycle progression, amino acid biosynthesis, and carbohydrate transport and

79 eins required for oxidative stress response, amino acid biosynthesis, and fermentation together with

80 tabolites such as flavonoids and terpenoids, amino acid biosynthesis, and immunity between immature a

81 ysaccharide biosynthesis (wbkA), in aromatic amino acid biosynthesis, and in type IV secretion (virB1

82 Only then did water-soluble enzymes, amino acid biosynthesis, and intermediary metabolism evo

83 ciency led to changes in glucose metabolism, amino acid biosynthesis, and lipid biosynthesis that wer

84 rotein that also functions in branched chain amino acid biosynthesis, and one or more factors require

85 erential gene expression for myocyte growth, amino acid biosynthesis, and oxidative stress were relat

86 lish a role for CRP(Mt) in the regulation of amino acid biosynthesis, and show that reduced serine pr

87 s involved in translation, solute transport, amino acid biosynthesis, and tungsten and intermediary c

88 esponses, two to proteins involved in sulfur amino acid biosynthesis, and two having significant homo

89 olved in the Msn2/4 stress response pathway, amino-acid biosynthesis, and mitochondrial maintenance.

90 ster is that four genes involved in branched amino acid biosynthesis are located near its 5' end.

91 ctions to be usage-dependent: nucleotide and amino acids biosynthesis are the most complete, whereas

92 the established shikimic pathway of aromatic amino acid biosynthesis, are absent in most euryarchaeot

93 2O2 resistance included DNA repair, aromatic amino acid biosynthesis (aroBK), Fe-S cluster biosynthes

94 mprehension of the tRNA(Sec) role in the Sec amino acid biosynthesis, as well as extending the knowle

95 monstrated the involvement of branched-chain amino acid biosynthesis, ascorbate and aldarate metaboli

96 e the first committed step of branched-chain amino acid biosynthesis, but ilvG is unique for doing so

97 nts with the conserved metabolic pathways of amino acid biosynthesis can inform us about this history

98 n, platelet activation, leukocyte migration, amino acid biosynthesis, carbon metabolism, and phagosom

99 he fourth enzyme in the aspartate pathway of amino acid biosynthesis, catalyzes the phosphorylation o

100 s cellular processes, including respiration, amino acid biosynthesis, cofactor biosynthesis, tRNA mod

101 a, genes involved in costly processes (e.g., amino acid biosynthesis, development, feeding, mating) w

102 ory mechanism underlying DNA methylation and amino acid biosynthesis during flower senescence.

103 ed downregulation of several photosynthesis, amino acid biosynthesis, energy metabolism genes; and an

104 variety of functional categories, including amino acid biosynthesis, energy metabolism, protein synt

105 roteins were predicted to be involved in the amino acid biosynthesis, energy metabolism, purines and

106 growth via inhibition of the branched-chain amino acid biosynthesis enzyme dihydroxyacid dehydratase

107 genes coding for shikimic acid and aromatic amino acid biosynthesis enzymes, leading to the producti

108 While Gcn2 promotes expression of amino acid biosynthesis enzymes, the mechanism and funct

109 Through transgenic expression of exogenous amino acid biosynthesis enzymes, vertebrate cells overco

110 pathways, e.g., glycolysis, nucleotides and amino acids biosynthesis, fatty acid oxidation and biosy

111 on of genes involved in cysteine metabolism, amino acid biosynthesis, fermentation, energy metabolism

112 rough incorporating a network-based model of amino acid biosynthesis (from r = 0.07 to 0.80 for mRNA-

113 respiration, nitrate metabolism and aromatic amino acid biosynthesis genes among down-regulated genes

114 the fitness cost of synonymous mutations in amino acid biosynthesis genes and in the transcriptional

115 tabolism and a decrease in the expression of amino acid biosynthesis genes and transfer RNAs.

116 Approximately one-half of the amino acid biosynthesis genes downregulate during growth

117 ome production and increase transcription of amino acid biosynthesis genes during the stringent respo

118 abolic gene expression, but not induction of amino acid biosynthesis genes en masse.

119 Expression of amino acid biosynthesis genes in bacteria is often repre

120 uired for the derepression of branched chain amino acid biosynthesis genes that seem to have a second

121 during flower senescence, we identified two amino acid biosynthesis genes, DcCARA and DcDHAD, with i

122 box family of aminoacyl-tRNA synthetase and amino acid biosynthesis genes, which are regulated by a

123 t only small increases in mRNA were seen for amino acid biosynthesis genes.

124 onments, we present evidence suggesting that amino acid biosynthesis has been broadly optimized to re

125 The mathematical model of branched chain amino acid biosynthesis in E. coli K12 presented here in

126 inase, an enzyme in the aspartate pathway of amino acid biosynthesis in Escherichia coli, catalyzes t

127 ne and valine binding control branched chain amino acid biosynthesis in Escherichia coli.

128 ell as decreased carbohydrate metabolism and amino acid biosynthesis in favor of nutrient transport a

129 phate (DKFP), a precursor sugar for aromatic amino acid biosynthesis in Methanocaldococcus jannaschii

130 ynthase (DAH7PS), at the gateway to aromatic amino acid biosynthesis in Mycobacterium tuberculosis, w

131 f amino acids while diverting resources into amino acid biosynthesis in nutrient-poor environments.

132 s the first committed step of branched-chain amino acid biosynthesis in plants and bacteria.

133 synthesis; 3) the essentiality of purine and amino acid biosynthesis in synthetic physiological media

134 amine into bacteriocytes, thereby regulating amino acid biosynthesis in the bacteriocyte.

135 first and branch point reactions of aromatic amino acid biosynthesis in the bacterium Prevotella nigr

136 compares favorably with 10 missing genes for amino acid biosynthesis in the complete Escherichia coli

137 should be physically separated from aromatic amino acid biosynthesis in the cytoplasm so as to avoid

138 complex control of the pathway for aromatic amino acid biosynthesis in the pathogen Mycobacterium tu

139 operation of the common pathway of aromatic amino acid biosynthesis in the reverse of its normal bio

140 onferring similar capabilities for essential amino acid biosynthesis, in both cases precisely complem

141 on factors or that mediate tRNA charging and amino acid biosynthesis increased or decreased, respecti

142 thailandensis, when exposed to the aromatic amino acid biosynthesis inhibitor glyphosate, induces (o

143 root and shoot levels of the branched-chain amino acid biosynthesis intermediate 2-oxobutanoate; Ser

144 Here we show that cognate bias in amino acid biosynthesis is present in the other domains

145 nresolved whether the supply of nitrogen for amino acid biosynthesis is supplemented by recycling of

146 Genes involved in amino acid biosynthesis, lipid biosynthesis and oxygen t

147 analysis is applied to electron-transfer and amino acid biosynthesis networks yielding a more compreh

148 ulosis provide exquisite control of aromatic amino acid biosynthesis, not only controlling flux into

149 In addition to the toxin genes, genes for amino acid biosynthesis, nutrient transport, fermentatio

150 StlA], isocitrate lyase [Icl1], polyaromatic amino acid biosynthesis [PAA], NADH-dependent glutamate

151 overexpressed genes function in pathways of amino acid biosynthesis (particularly methionine) and su

152 ion, the aerobic/anaerobic diauxic shift and amino acid biosynthesis pathway repression.

153 ch is the first enzyme in the branched-chain amino acid biosynthesis pathway.

154 HAS), the first enzyme in the branched-chain amino acid biosynthesis pathway.

155 analyses while utilizing lifestyle specific amino acid biosynthesis pathways (where possible) to det

156 Through analysis of auxotrophs for amino acid biosynthesis pathways in microbiome data deri

157 dentium, we find that the bacterium requires amino acid biosynthesis pathways to colonize conventiona

158 er baseline abundance of Lachnospiraceae and amino acid biosynthesis pathways were associated with AA

159 Amino acid biosynthesis pathways were retained in a simi

160 s revealed that strain 195 contains complete amino acid biosynthesis pathways, even though current ge

161 rophic mutations of one or more genes on the amino acid biosynthesis pathways.

162 tream of the Akt/mTOR pathway to promote the amino acid biosynthesis program, to reduce protein catab

163 st/endosymbiont metabolic complementarity in amino acid biosynthesis, raising questions about how ami

164 reater abundance of genes for nucleotide and amino acid biosynthesis, repair of alkylated DNA and the

165 Unexpectedly, genes involved in amino acid biosynthesis represent only a quarter of the

166 tive stress tolerance and general control of amino acid biosynthesis, respectively.

167 rerouted to other metabolic pathways such as amino acid biosynthesis, results in the alleviation of a

168 In addition, amino acid biosynthesis, retinol metabolism and polyol b

169 th metabolites of the shikimate and aromatic amino acid biosynthesis (SA) pathways (upstream of BNA2)

170 ra's genome encodes most genes for essential amino acid biosynthesis, several genes in essential amin

171 crobes predominantly contribute to essential amino acid biosynthesis, short-chain fatty acid metaboli

172 AAU, including an increase of branched-chain amino acid biosynthesis, that reflects disease activity

173 d EPSPS enzymes available, allowing aromatic amino acid biosynthesis to continue.

174 c acid production by 150-fold, knocking down amino acid biosynthesis to create a multi-auxotrophic st

175 ization, and in turn, the pathogen activates amino acid biosynthesis to expand in the presence of the

176 However, how grasses regulate aromatic amino acid biosynthesis to feed this dual lignin pathway

177 sed our module to control flux into aromatic amino acid biosynthesis to increase titers of shikimate

178 numerous transcription units associated with amino acid biosynthesis, transport of macromolecules, an

179 lower rRNA promoter activity and much higher amino acid biosynthesis/transport promoter activity than

180 and from the inversely growth-rate-dependent amino acid biosynthesis/transport promoters PargI, PhisG

181 yribonucleotide biosynthesis, branched-chain amino acid biosynthesis, tricarboxylic acid cycle, and f

182 including regulation of gene expression and amino acid biosynthesis via transamidation pathways.

183 Amino acid biosynthesis was chosen to demonstrate the an

184 sule, lipopolysaccharide (LPS), and aromatic amino acid biosynthesis were essential for virulence, al

185 Enzymes of amino acid biosynthesis were higher in coculture than in

186 We found that 26 genes underlying amino acid biosynthesis were up-regulated in bacteriocyt

187 rexpressed pathways included sporulation and amino acid biosynthesis, whereas up-regulated pathways i