ライフサイエンスコーパス: intermediary metabolism

1 ransmission and the short-term regulation of intermediary metabolism.

2 vitamin D handling in the skin or gut or its intermediary metabolism.

3 Pyruvate plays a central role in intermediary metabolism.

4 dehydrogenase complexes that are central to intermediary metabolism.

5 , was postulated to extend life by affecting intermediary metabolism.

6 nous compound with well-established roles in intermediary metabolism.

7 e intrinsic nutritional value of a meal with intermediary metabolism.

8 line INS 832/13 and rat islets by inhibiting intermediary metabolism.

9 NOS may have important implications for the intermediary metabolism.

10 ganisms, carnitine has specific functions in intermediary metabolism.

11 endogenous activator that is a component of intermediary metabolism.

12 s for several cytosolic kinases important in intermediary metabolism.

13 so indicate a role for molecules linked with intermediary metabolism.

14 chanisms of cyanide toxicity with a focus on intermediary metabolism.

15 hanges are mediated through broad effects on intermediary metabolism.

16 decarboxylation reactions that occur during intermediary metabolism.

17 mbrane complex that plays a critical role in intermediary metabolism.

18 he thyroid hormones-the master regulators of intermediary metabolism.

19 products of isomerase-mediated reactions in intermediary metabolism.

20 t-pathogen interaction, antigenic variation, intermediary metabolism.

21 sium are co-factors for key enzymes in human intermediary metabolism.

22 uired for many critical processes, including intermediary metabolism.

23 key link between inflammatory processes and intermediary metabolism.

24 ed from metabolites that are at key nodes of intermediary metabolism.

25 triggered by sulfhydration of key enzymes in intermediary metabolism.

26 lified by adaptive changes in the enzymes of intermediary metabolism.

27 or encephalopathies associated with impaired intermediary metabolism.

28 cancers with mutations of genes involved in intermediary metabolism.

29 otype provides productive insight into human intermediary metabolism.

30 cial steering function for the regulation of intermediary metabolism.

31 f ATP, and are involved in many reactions of intermediary metabolism.

32 essential cofactors for enzymes required in intermediary metabolism.

33 refore assessed the role of LRH-1 in hepatic intermediary metabolism.

34 circadian clock in the regulation of hepatic intermediary metabolism.

35 ylation regulates mitochondrial function and intermediary metabolism.

36 e cell's regulatory systems and its state of intermediary metabolism.

37 in iron metabolism, cell communication, and intermediary metabolism.

38 autophagy, is at least partially fulfilling intermediary metabolism.

39 obutyric acid (GABA) served as indicators of intermediary metabolism.

40 n-sensing and oxygen-dependent modulation of intermediary metabolism.

41 eses in liver, as well as for modeling liver intermediary metabolism.

42 f virtually all macromolecular synthesis and intermediary metabolism.

43 ute in parallel to an increasingly conserved intermediary metabolism.

44 odel indicates that CL is also essential for intermediary metabolism.

45 grates environmental redox signals with core intermediary metabolism.

46 phogluconolactonase, are also part of normal intermediary metabolism.

47 thioesters involved in different branches of intermediary metabolism.

48 tance to oxidative stress, iron storage, and intermediary metabolism.

49 compartment that are involved in central and intermediary metabolism, a subset of which are required

50 regulates gene transcription associated with intermediary metabolism, adipocyte differentiation, and

51 rs have seen a resurgent interest in cardiac intermediary metabolism and a dramatic increase in our u

52 utaminase suggests a unique reprogramming of intermediary metabolism and a potential therapeutic stra

53 y and inflammation), 2 biomarkers related to intermediary metabolism and adipocyte biology (fatty aci

54 ydrogenase (Lpd), an enzyme central to Mtb's intermediary metabolism and antioxidant defense.

55 zing Cofactor for HNF1) acts as an enzyme in intermediary metabolism and as a binding partner of the

56 cacy, as did combinations with inhibitors of intermediary metabolism and autophagy.

57 constituents, chemotaxis/motility machinery, intermediary metabolism and cellular physiology.

58 Numerous connections between products of intermediary metabolism and chromatin proteins have rece

59 In this review, the basics of intermediary metabolism and core metabolic pathways will

60 r the hepatocytes express markers of hepatic intermediary metabolism and detoxification, we investiga

61 clones (61/115) encoded proteins involved in intermediary metabolism and electron transport, suggesti

62 geo/+) mice, suggesting preserved control of intermediary metabolism and energy balance.

63 Their crucial role in intermediary metabolism and energy conversion makes them

64 ansferases, thus representing a link between intermediary metabolism and epigenetic mechanisms of tra

65 monstrate that SIRT3 modulates mitochondrial intermediary metabolism and fatty-acid use during fastin

66 members of the family have defined roles in intermediary metabolism and generally perform these func

67 of the glycolytic pathway and other parts of intermediary metabolism and hence are called glycosomes.

68 ted by the insulin receptor, which regulates intermediary metabolism and its organization in cells.

69 ria play a central role in the regulation of intermediary metabolism and maintenance of normoglycemia

70 s the plasma membranes of organs involved in intermediary metabolism and storage.

71 a surprising number of proteins involved in intermediary metabolism and stress response were observe

72 Surprisingly, representative enzymes of intermediary metabolism and structural proteins do not a

73 o genetic networks, that of the E. coli core intermediary metabolism and that of the yeast protein-in

74 yl-CoA affects histone acetylation and links intermediary metabolism and transcriptional regulation.

75 K), I postulate that the association between intermediary metabolism and tumours varies over time.

76 We present evidence to indicate that intermediary metabolism and various posttranslation modi

77 er formalism describes key pathways of tumor intermediary metabolism and yields dynamic curves for po

78 al tRNA and rRNA genes, 3) genes involved in intermediary metabolism, and 4) an eclectic group of oth

79 rohormonal regulators of mineral metabolism, intermediary metabolism, and biomarkers of myocardial in

80 Methylmalonyl-CoA mutase is a key enzyme in intermediary metabolism, and children deficient in enzym

81 hepatic functions, including bile formation, intermediary metabolism, and endobiotic/xenobiotic detox

82 ganization, excitation-contraction coupling, intermediary metabolism, and immune response.

83 gene regulation, DNA damage, ion transport, intermediary metabolism, and mitochondrial function.

84 xpression, transport of sugars and peptides, intermediary metabolism, and pH homeostasis.

85 ternate substrates for energy generation and intermediary metabolism, and remodeling of the cell enve

86 thways in the regulation of eating behavior, intermediary metabolism, and the onset of puberty.

87 available, the flexibility of the organism's intermediary metabolism, and the substrate specificity o

88 bon metabolism, cell wall synthesis, central intermediary metabolism, and transport.

89 recent studies and the relationships between intermediary metabolism, antibody production, and lifesp

90 lthough the metabolism and role of biotin in intermediary metabolism are well established, biotin rem

91 regulation of enzyme substrates involved in intermediary metabolism are well known.

92 major impact on the hepatic redox state and intermediary metabolism as a consequence of ethanol meta

93 thways of amino acid consumption and central intermediary metabolism as part of its transcriptome res

94 m allows one to define essential pathways of intermediary metabolism as well metabolic vulnerabilitie

95 uraemic metabolites originate not only from intermediary metabolism but also from gut microbial meta

96 in response, has long been known to regulate intermediary metabolism, but the details are poorly work

97 thodology was used to follow the kinetics of intermediary metabolism by monitoring flux of 13C-labele

98 Additionally, they participate in intermediary metabolism, calcium signaling, and apoptosi

99 n basic cellular physiology, underlining how intermediary metabolism can affect the regulation of vir

100 formation about a whole range of pathways of intermediary metabolism can help to identify biomarkers

101 enzymes that participate in key pathways in intermediary metabolism: carbamoylphosphate synthetase 1

102 HCO(3) (-) to the enzymes that take part in intermediary metabolism: carbamoylphosphate synthetase,

103 relating to body weight and energy balance, intermediary metabolism, cardiovascular and respiratory

104 of secretory pathway components, enzymes of intermediary metabolism, cell-signaling components, and

105 g number of physiologic processes, including intermediary metabolism, cellular proliferation, and neu

106 Perturbations in intermediary metabolism contribute to the pathogenesis o

107 contend that this Janus-faced relation with intermediary metabolism contributes to carcinogenesis; i

108 olved in specialized metabolism not found in intermediary metabolism databases, and thus can assist i

109 owering of inflammation, and improvements in intermediary metabolism, DNA repair, and hepatocyte prol

110 ides); genes that encode enzymes involved in intermediary metabolism, energy metabolism (tricarboxyli

111 oluble enzymes, amino acid biosynthesis, and intermediary metabolism evolve in a concentrated autocat

112 ctors, the cell envelope, energy metabolism, intermediary metabolism, fatty acid and phospholipid bio

113 )H/(13)C metabolic flux analysis to quantify intermediary metabolism fluxes in both sedentary and tre

114 Histone acetylation depends on intermediary metabolism for supplying acetyl-CoA in the

115 review new information on the regulation of intermediary metabolism gathered from the analysis of MI

116 Intermediary metabolism generates substrates for chromat

117 the obvious read out of hypoxia, effects on intermediary metabolism, has not been investigated.

118 o mitochondria represents a critical step in intermediary metabolism impacting numerous diseases.

119 portunity to deepen our understanding of how intermediary metabolism impacts tumorigenesis.

120 The core of intermediary metabolism in autotrophs is the citric acid

121 The study of intermediary metabolism in biomolecules has been given n

122 Intermediary metabolism in cancer cells is regulated by

123 ystem, plays an important role in regulating intermediary metabolism in Escherichia coli ("catabolite

124 These findings warrant future studies of intermediary metabolism in patients treated with beta-la

125 analysis provides quantitative insights into intermediary metabolism in PDK-knockout mice.

126 pus) to further understand the regulation of intermediary metabolism in protein-rich versus oil-rich

127 idgut, and oenocytes: the principal sites of intermediary metabolism in the fly.

128 nd NADP(+) play a pivotal role in regulating intermediary metabolism in the heart.

129 NAD(+)/NADH and NADP(+)/NADPH in regulating intermediary metabolism in the heart.

130 molog 1 (LRH-1) is an important regulator of intermediary metabolism in the liver, but its role in re

131 convenient "chemical biopsy" for evaluating intermediary metabolism in the liver.

132 ctate shuttling is an important component of intermediary metabolism in vivo.

133 Analysis of genes encoding enzymes of intermediary metabolism indicated that low glucose broug

134 eutic options for NAFLD focused on targeting intermediary metabolism, insulin resistance and T2DM to

135 synthesis and of gluconeogenesis, such that intermediary metabolism is primarily catabolic; a crucia

136 erations of in vivo flux through pathways of intermediary metabolism leading to the differential prod

137 secondary inhibition of multiple pathways of intermediary metabolism, leading to organ dysfunction an

138 s identified are all enzymes, mostly serving intermediary metabolism, lipid metabolism, and/or antiox

139 We propose a model whereby defects in intermediary metabolism may be a causative factor of the

140 Targeting intermediary metabolism may provide a novel approach to

141 w metabolic imaging technique that can probe intermediary metabolism nondestructively.

142 ombines information about the genome and the intermediary metabolism of E.coli.

143 ombines information about the genome and the intermediary metabolism of Escherichia coli.

144 glutamate, and thereby has a key role in the intermediary metabolism of glucose and amino acids.

145 raphy-mass spectrometry methodology to study intermediary metabolism of SUR1 knock-out (SUR1(-/-)) an

146 However, little is known about Mtb's intermediary metabolism or antioxidant defences.

147 egradation of the targeted RNA, altering RNA intermediary metabolism, or disrupting function of the R

148 tabolism (OCM), an integral part of cellular intermediary metabolism, produces a number of one-carbon

149 st dynamic proteins appear to be enriched in intermediary metabolism proteins, cytoskeletal proteins,

150 , implicating dysregulation of CoA-dependent intermediary metabolism rather than respiratory chain de

151 the human system, including the pathways of intermediary metabolism, regulatory pathways, and signal

152 The data suggest that differences in intermediary metabolism render tumor cells susceptible t

153 and post-translational network that affects intermediary metabolism, ribosomal biogenesis, and prote

154 These results demonstrate how intermediary metabolism serves to connect biochemistry w

155 MV) infection causes dramatic alterations of intermediary metabolism, similar to those found in tumor

156 in complexes, as well as enzymes involved in intermediary metabolism, such as pyruvate dehydrogenase

157 coding capacity for biosynthesis and central intermediary metabolism than do free-living bacteria.

158 ts (e.g. p38MAPK and Rel A), and products of intermediary metabolism that are regulated by oxidative

159 f acute-phase proteins as well as changes in intermediary metabolism that provide substrate and energ

160 rturbations in amino acid, carbohydrate, and intermediary metabolism that were only transiently ameli

161 sduces the activity of eNOS in reprogramming intermediary metabolism, thereby protecting kidneys agai

162 ATP-sensitive K+ channels (KATP) couple intermediary metabolism to cellular activity, and may pl

163 y intracellular ATP, allowing them to couple intermediary metabolism to cellular excitability, wherea

164 We present the theory of redirecting intermediary metabolism to counteract cyanide poisoning:

165 ination with a mass-balance model of hepatic intermediary metabolism to generate a comprehensive map

166 triking pattern of global underexpression of intermediary metabolism transcripts in BPH.

167 purines and pyrimidine biosynthesis, central intermediary metabolism, transport and binding.

168 nes normally associated with DNA metabolism, intermediary metabolism, transport, cellular redox, prot

169 in cofactor and small molecule biosyntheses, intermediary metabolism, transport, nitrogen fixation, r

170 light the longitudinal changes that occur in intermediary metabolism upon mitochondrial impairment an

171 A survey of selected pathways of central intermediary metabolism was also carried out, and genes

172 wall structure/function, cell division, and intermediary metabolism were also evident.

173 The fluxes through intermediary metabolism were then quantified by computer

174 ations in morphology, tissue properties, and intermediary metabolism, which aggravate with disease pr

175 adaptations are likely to involve Mtb's core intermediary metabolism, whose enzymes have been little