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1 metabolism, the citric acid (TCA) cycle, and amino acid metabolism.
2 ysiological significance of BHMT-2 in sulfur amino acid metabolism.
3 or cell wall function, hormone response, and amino acid metabolism.
4 are functionally linked to carbohydrate and amino acid metabolism.
5 on of sequences assigned to carbohydrate and amino acid metabolism.
6 ctions and investigate whether FXR regulates amino acid metabolism.
7 fer to isoleucine and reduced branched-chain amino acid metabolism.
8 cluding carbohydrate, nucleotide, lipid, and amino acid metabolism.
9 termediates in carbohydrate, fatty acid, and amino acid metabolism.
10 , suggesting a novel role for this operon in amino acid metabolism.
11 oader role for GcvB as a global regulator of amino acid metabolism.
12 ponse, whereas in CF nasal epithelium it was amino acid metabolism.
13 e in galN-treated rats, reflecting disturbed amino acid metabolism.
14 biosynthesis, fatty acids, nucleotides, and amino acid metabolism.
15 transcription, especially in the context of amino acid metabolism.
16 ceted intercompartmental effects on aromatic amino acid metabolism.
17 l-tRNA formation is intimately tied to amide amino acid metabolism.
18 athways, which can be explained by secondary amino acid metabolism.
19 to all life, such as purine, pyrimidine and amino acid metabolism.
20 s, cytosolic stress response, and purine and amino acid metabolism.
21 only recently shown to play a role in plant amino acid metabolism.
22 e with respect to glucose metabolism but not amino acid metabolism.
23 n-bound amino acids and a dominant locus for amino acid metabolism.
24 arboxylase, are involved in carbohydrate and amino acid metabolism.
25 iosynthetic pathways or in the regulation of amino acid metabolism.
26 es and key enzyme activities associated with amino acid metabolism.
27 ivo role in the regulation of branched chain amino acid metabolism.
28 tosomal recessive disorder of branched-chain amino acid metabolism.
29 that were homologous to proteins involved in amino acid metabolism.
30 ts indicate a novel link between glucose and amino acid metabolism.
31 mechanism for a fungal enzyme essential for amino acid metabolism.
32 ed for studies of cell wall biosynthesis and amino acid metabolism.
33 de variety of chemical reactions involved in amino acid metabolism.
34 y composition, including pathways related to amino acid metabolism.
35 es involving redox imbalance and deficits in amino acid metabolism.
36 al changes in peripheral glucose, lipid, and amino acid metabolism.
37 ylketonuria, the most common inborn error of amino acid metabolism.
38 iciency, is the most common defect of sulfur amino acid metabolism.
39 e mostly related to carbohydrate, lipid, and amino acid metabolism.
40 face among glycolysis, lipid metabolism, and amino acid metabolism.
41 inuria, the most frequent disorder of sulfur amino acid metabolism.
42 erences in KEGG pathways including lipid and amino acid metabolism.
43 tional regulators for the control of sulphur amino acid metabolism.
44 degradation, mitochondrial trafficking, and amino acid metabolism.
45 laborate on the genomics and enzymology of d-amino acid metabolism.
46 s in fatty acid oxidation and branched-chain amino acid metabolism.
47 hat were heavily focused on carbohydrate and amino acid metabolism.
48 escine biosynthesis and pathways involved in amino acid metabolism.
49 blocks derived from lipid beta-oxidation and amino-acid metabolism.
50 in renal acidic amino-acid re-absorption and amino-acid metabolism.
51 L2, particularly those involved in lipid and amino-acid metabolism.
52 The largest group of such reactions involves amino-acid metabolism.
53 , a key metabolic compound closely linked to amino-acid metabolism.
54 largely involved in nitrogen, nucleoside and amino acid metabolisms.
55 ted with glycerophospholipid, fatty acid and amino acid metabolisms.
56 f the 6 named metabolites, 4 are involved in amino acid metabolism, 1 (prolylhydroxyproline) is a dip
57 g pathway; 2) affect broiler liver lipid and amino acid metabolism; 3) induce liver cell immune respo
58 ls lacking sla1(+) have increased mRNAs from amino acid metabolism (AAM) genes and, furthermore, exhi
59 ncluded those associated with hyphal growth, amino acid metabolism, adherence, drug resistance, ergos
60 is, serine biosynthesis, and one-carbon- and amino acid metabolism, all of which have been identified
61 , Krebs cycle, fatty acid beta oxidation and amino acid metabolism, alluding to reduced energy biogen
62 Other clones contained genes required for amino acid metabolism, anaerobic respiration, DNA repair
63 toxic serum nephritis model was inhibited by amino acid metabolism and a protective autophagic respon
64 ic activities, including enzymes involved in amino acid metabolism and biosynthesis of neurotransmitt
65 ed with two distinct gene sets, representing amino acid metabolism and cell proliferation, respective
66 dation, reduced protein synthesis, decreased amino acid metabolism and depressed cell growth were rel
67 protein provides a useful method to examine amino acid metabolism and determine conditional amino ac
71 riod as an animal nutritionist interested in amino acid metabolism and genetic variation in nutrient
73 forming and breaking reactions in sugar and amino acid metabolism and in biosynthetic pathways via a
75 significant variations in energy production, amino acid metabolism and oxidative phosphorylation-rela
76 t) lies at an intersection of nucleotide and amino acid metabolism and performs a multitude of metabo
78 that the PDV are key organs with respect to amino acid metabolism and that the intestines use a disp
79 rial network composed of enzymes involved in amino acid metabolism and the TCA cycle affects the diet
80 nes to those coding for proteins involved in amino acid metabolism and transport suggest that FIST do
84 tem, fatty acid biosynthesis, branched chain amino acids metabolism), and molecular chaperones (GroEL
85 tabolic pathways including sugar metabolism, amino acid metabolism, and an increase in production of
87 ress contributes to changes in TCA cycle and amino acid metabolism, and cell death, which is suppress
88 ycolysis/gluconeogenesis, citric acid cycle, amino acid metabolism, and fatty acid metabolism were fo
91 egulation in translation initiation factors, amino acid metabolism, and methanogenesis from methanol,
92 f nitrogen metabolism via ureide catabolism, amino acid metabolism, and ornithine cycle intermediates
93 racellular degradative enzyme production and amino acid metabolism, and processes not previously know
97 ain-length FAs originate from branched chain amino acid metabolism, and serve as primers for elongati
98 cell functions, including energy production, amino acid metabolism, and signal transduction, where th
99 genes involved in nitrogen assimilation and amino acid metabolism are induced by iron deprivation, w
100 ribosome biogenesis, nuclear transport, and amino acid metabolism are more likely to be targeted for
102 the liver is a major handler of protein and amino acid metabolism as it is responsible for the major
103 crobiota being related to central carbon and amino acid metabolism as well as the biosynthesis of sec
104 cells are unable to engage in glycolysis or amino acid metabolism but have an increased rate of fatt
105 es not only cell-autonomous proteostasis and amino acid metabolism, but also affects non-cell-autonom
106 a and NH(4)Cl differs in terms of endogenous amino acid metabolism, but is similar in relation to mic
107 n, lyso-PC stimulated intracellular cationic amino acid metabolism by inducing ornithine decarboxylas
108 olic energy generation, DNA replication, and amino-acid metabolism by linking biochemical pathways in
109 e sucrose metabolism, fatty acid metabolism, amino acid metabolism, carbon fixation, and the biosynth
110 ystinuria (HCU) is an inborn error of sulfur amino acid metabolism caused by deficient activity of cy
111 onectin corrected the altered branched-chain amino acid metabolism caused by HFD and corrected increa
112 synthesis and partitioning, N-allocation and amino acid metabolism, cell wall biosynthesis, and hormo
113 Other processes that were up-regulated were amino acid metabolism, cell wall metabolism, and genetic
114 ates the expression of genes responsible for amino acid metabolism, cellular redox state, and anti-st
116 t but is not involved in photorespiration or amino acid metabolism, demonstrated that the greater ABA
117 cative of a variety of pathologies including amino acid metabolism disorders and kidney malfunction.
118 ective analysis was to investigate the brain amino acid metabolism during epileptic seizures by (18)F
119 indings underscore the potential key role of amino acid metabolism early in the pathogenesis of diabe
120 metry flux, or metabolites of fatty acid and amino acid metabolism.Ex vivomuscle function in extensor
123 NGR, while twenty two metabolites related to amino acid metabolism, glycerophospholipid metabolism an
124 issociation of insulin effect on glucose and amino acid metabolism has been reported in type 2 diabet
125 c energy mobilization, fatty acid oxidation, amino acid metabolism, heme biosynthesis and apoptosis.
127 identified mTORC2 as a critical regulator of amino acid metabolism in cancer via phosphorylation of t
128 entify an unanticipated mechanism regulating amino acid metabolism in cancer, enabling tumor cells to
130 The objective of this study was to assess amino acid metabolism in cob and spikelet tissues during
134 the brain demonstrates the conservation of D-amino acid metabolism in mammals with implications for t
136 The subcellular sites of branched-chain amino acid metabolism in plants have been controversial,
138 cation and glucocorticoids on branched-chain amino acid metabolism in specific organs are unknown, th
139 many other metabolic processes, the role of amino acid metabolism in T cell activation has not been
140 was to construct a dynamic model of hepatic amino acid metabolism in the lactating dairy cow that co
141 d revealed unexpected concomitant changes in amino acid metabolism in the liver and at extrahepatic s
144 amples of metabolomics evaluations of sulfur amino-acid metabolism in psychiatry, neurology, and neur
145 a role for various alcohols, by-products of amino acid metabolism, in altering cellular morphology.
147 at multiple pathways are impacted, including amino acid metabolism, increasing the confidence in each
148 rform a wide variety of functions, including amino acid metabolism, ion transport, and gene regulatio
149 functional groups including carbohydrate and amino acid metabolism, ion transporters, stress and defe
150 the results of this investigation show that amino acid metabolism is a component of the acid-adaptiv
152 1-1 toward amino acid feeding indicates that amino acid metabolism is generally deregulated in pig1-1
155 tanding and targeting such pathways, such as amino acid metabolism, is potentially useful for develop
156 ation of two intermediates in branched-chain amino acid metabolism, isovaleryl-Coenzyme A (CoA) and i
157 15) is an important regulator of glucose and amino acid metabolism, its endogenous role in lipid home
160 corresponding genes cause inborn diseases of amino acid metabolism, most of which are treated by diet
161 nstrated that it comprises genes involved in amino acid metabolism, nitrogen assimilation as well as
162 methods has allowed the study of protein and amino acid metabolism not only in the healthy newborn bu
163 ey source of nitrogen fueling the integrated amino acid metabolism of the aphid-Buchnera partnership.
165 ion or result from abnormalities in branched amino acid metabolism (organic acidemias), have been sho
166 The gut plays a major role in whole body amino acid metabolism, particularly arginine homeostasis
167 e targeting of miR-21 and miR-30d and/or the amino acid metabolism pathways may offer translational o
168 ) is an inherited disorder of branched-chain amino acid metabolism presenting with life-threatening c
169 ) is an inherited disorder of branched chain amino acid metabolism presenting with neonatal encephalo
171 egulates the expression of genes involved in amino acid metabolism, redox homeostasis and ER stress r
172 34) defined a new disorder of branched-chain amino acid metabolism resembling human maple syrup urine
173 e (MtaR) that regulate methionine transport, amino acid metabolism, resistance to neutrophil-mediated
174 arm of the UPR, including genes involved in amino acid metabolism, resistance to oxidative stress, a
175 (GA-I) is an autosomal recessive disorder of amino acid metabolism resulting from a deficiency of glu
176 mTORC1/c-Myc pathway of stromal glucose and amino acid metabolism, resulting in increased stromal IL
178 ified genes are associated with respiration, amino acids metabolism, stress response and small RNAs,
181 ts at least 14 metabolic pathways, including amino acid metabolism, TCA cycle, gluconeogenesis, gluta
182 iched in enzymes for lipid, carbohydrate and amino acid metabolism, tetrapyrrole biosynthesis and pro
183 family and advances our knowledge of plant d-amino acid metabolism that is currently largely unexplor
184 nt for KLF15, a transcriptional regulator of amino acid metabolism that is induced by glucocorticoids
185 tides can therefore provide an assessment of amino acid metabolism that is specific to subcellular, c
186 e expression of genes involved in energy and amino acid metabolism, the data suggest that indole is a
187 ck loop that degrades glucagon and regulates amino acid metabolism to coordinately control glucose ho
189 c waste product but is recycled into central amino acid metabolism to maximize nitrogen utilization.
191 l expression of genes functionally linked to amino acid metabolism, transcriptional regulation and si
193 ate uptake and metabolism, cation transport, amino acid metabolism, ubiquinone and menaquinone biosyn
194 XRalpha-mediated gene expression involved in amino acid metabolism was examined using the NIA Mouse 1
198 2-D gel analysis, NlpD and genes involved in amino acid metabolism were identified by subtractive hyb
199 osolic and mitochondrial) involved in energy/amino acid metabolism were not significantly affected by
201 that encode homologs of proteins involved in amino acid metabolism were similarly upregulated in S(pr
202 e transport, gluconeogenesis/glycolysis, and amino acid metabolism were up-regulated after wounding.
203 er published viromes, while carbohydrate and amino acids metabolisms were 3.7- and 4.2-fold less abun
204 etabolism, pigment biosynthesis and aromatic amino acid metabolism, were significantly modified by th
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