ライフサイエンスコーパス: carbohydrate metabolism

1 Nigeria), using the gene ontology (GO) term "carbohydrate metabolism".

2 A-Ile-induced changes in limb fresh mass and carbohydrate metabolism.

3 system plays a key role in the regulation of carbohydrate metabolism.

4 ses support a role for the GxGYxYP domain in carbohydrate metabolism.

5 asive disease, upregulated genes involved in carbohydrate metabolism.

6 w of the quantitative programming of storage carbohydrate metabolism.

7 androgenic effects and may disrupt lipid and carbohydrate metabolism.

8 ed receptors (GPCRs) play important roles in carbohydrate metabolism.

9 is (Arabidopsis thaliana) mutant impaired in carbohydrate metabolism.

10 AV1-/- mice is strictly dependent on hepatic carbohydrate metabolism.

11 ignaling, hexosamine biosynthesis, and lipid/carbohydrate metabolism.

12 nt, indicating that Atf4 regulates mammalian carbohydrate metabolism.

13 tive enzymes, suggesting a potential role in carbohydrate metabolism.

14 lating protein synthesis and degradation and carbohydrate metabolism.

15 ways, ranging from cell-cycle progression to carbohydrate metabolism.

16 hondrial proteins involved in fatty acid and carbohydrate metabolism.

17 osynthesis through iron sulfur metabolism to carbohydrate metabolism.

18 ies, involves disturbances in both lipid and carbohydrate metabolism.

19 esses, including bile acid, cholesterol, and carbohydrate metabolism.

20 dase and alpha-amylase, both involved in the carbohydrate metabolism.

21 in cholesterol, bile acid, triglyceride, and carbohydrate metabolism.

22 cent to telomeres or function in vitamin and carbohydrate metabolism.

23 Escherichia coli, is important in regulating carbohydrate metabolism.

24 established roles in cholesterol, lipid, and carbohydrate metabolism.

25 and antibiotic tolerance, are responsive to carbohydrate metabolism.

26 es in redox responsive genes and in genes of carbohydrate metabolism.

27 on, serum proteins, amino acids, lipids, and carbohydrate metabolism.

28 ract with insulin to modulate its control of carbohydrate metabolism.

29 s are potent regulators of protein, fat, and carbohydrate metabolism.

30 and biogenesis, the cytoskeleton and energy/carbohydrate metabolism.

31 gy intake, energy expenditure, and lipid and carbohydrate metabolism.

32 diabetes mellitus is a metabolic disease of carbohydrate metabolism.

33 itive memory, the immune system, and fat and carbohydrate metabolism.

34 of these were involved in central lipid and carbohydrate metabolism.

35 ggested role in modulating sugar sensing and carbohydrate metabolism.

36 e ascorbate function with minimal effects on carbohydrate metabolism.

37 enotype that may be associated with impaired carbohydrate metabolism.

38 enes encoding proteins involved in lipid and carbohydrate metabolism.

39 y lipid sensors that regulate fatty acid and carbohydrate metabolism.

40 ide (NO) has an important role in regulating carbohydrate metabolism.

41 racted feeding temporally linked to enhanced carbohydrate metabolism.

42 in the control of host glucose disposal and carbohydrate metabolism.

43 ma-induced delirium also shows altered brain carbohydrate metabolism.

44 Phosphorylases are key enzymes of carbohydrate metabolism.

45 for the S. solfataricus alpha-glucosidase in carbohydrate metabolism.

46 iquitous highly conserved enzyme involved in carbohydrate metabolism.

47 tly linking E. coli HPr to the regulation of carbohydrate metabolism.

48 s enhanced by moderate obesity, and abnormal carbohydrate metabolism.

49 e downregulation of key proteins involved in carbohydrate metabolism.

50 t, having lost genes for lipid synthesis and carbohydrate metabolism.

51 sporters and several other genes involved in carbohydrate metabolism.

52 drogenase complex (PDH) critically regulates carbohydrate metabolism.

53 s S. gordonii responses are more focussed on carbohydrate metabolism.

54 brevis) regulates locomotor behavior through carbohydrate metabolism.

55 mes involved in defense responses as well as carbohydrate metabolism.

56 involved in translation, protein folding and carbohydrate metabolism.

57 ABC transporters, two-component systems, and carbohydrate metabolism.

58 acid utilization to the more oxygen-sparing carbohydrate metabolism.

59 es, anaerobic respiration, and cell wall and carbohydrate metabolism.

60 ns involved in transcriptional regulation or carbohydrate metabolism.

61 thase kinase 3 (GSK3), a prominent enzyme in carbohydrate metabolism, also has a major role in brain

62 vides insights into thermal "fine-tuning" of carbohydrate metabolism and a warning that the physiolog

63 dative stress pathways, as well as decreased carbohydrate metabolism and amino acid biosynthesis in f

64 ntial roles in regulating insulin secretion, carbohydrate metabolism and appetite.

65 study provides a first genetic link between carbohydrate metabolism and BMI and demonstrates the pow

66 study, relationships among genes involved in carbohydrate metabolism and bud dormancy were examined a

67 l hundred DEGs associated with biosynthesis, carbohydrate metabolism and catabolism, cellular protein

68 indicated that many genes for amino acid and carbohydrate metabolism and cell cycle progression were

69 controls the expression of genes involved in carbohydrate metabolism and cell motility.

70 e samples were enriched in genes involved in carbohydrate metabolism and cellulose degradation.

71 etic impairment: a switch from fatty acid to carbohydrate metabolism and changes in steady-state meta

72 included metabolic intermediates in central carbohydrate metabolism and cofactors of peripheral meta

73 of the lesion was characterized by elevated carbohydrate metabolism and DNA-repair activity.

74 s of SREBP-1 leads to significant changes in carbohydrate metabolism and does not improve insulin res

75 Sleep debt has a harmful impact on carbohydrate metabolism and endocrine function.

76 ow oxygen include those encoding enzymes for carbohydrate metabolism and fermentation, pathways that

77 d to lipid metabolism, chloroplast function, carbohydrate metabolism and free radical detoxification,

78 a critical role in regulating both lipid and carbohydrate metabolism and FXR-controlled lipid homeost

79 transcriptional regulatory network involving carbohydrate metabolism and glucose homeostasis mediated

80 Genes and pathways associated with carbohydrate metabolism and gustatory receptors are subs

81 results reveal a complex interaction between carbohydrate metabolism and H(2)S production in bacteria

82 ptors (NRs) play a pivotal role in lipid and carbohydrate metabolism and have been highlighted as pot

83 ransketolase (TktA), are enzymes involved in carbohydrate metabolism and have not previously been sho

84 overexpression induced the reprogramming of carbohydrate metabolism and increased NADPH levels in a

85 MTORC2-AKT is a key regulator of carbohydrate metabolism and insulin signaling due to its

86 nvestigated the effects of leptin on growth, carbohydrate metabolism and insulin signalling in fetal

87 in the food industry due to its presence in carbohydrate metabolism and its sweet taste.

88 to these biosynthetic demands by increasing carbohydrate metabolism and lactate dehydrogenase (LDH)

89 tes pathways of cholesterol, fatty acid, and carbohydrate metabolism and may have therapeutic benefit

90 However, for some pathways (such as carbohydrate metabolism and membrane transport), the two

91 m, for example, may relate to alterations in carbohydrate metabolism and niche disruptions in mucosal

92 used to determine the rates of intermediary carbohydrate metabolism and oxygen use in five severely

93 quantitate the derangements in intermediary carbohydrate metabolism and oxygen use in severely septi

94 pression profiles of genes involved in major carbohydrate metabolism and photosynthesis in the flag l

95 coordination of cellulose biosynthesis with carbohydrate metabolism and photosynthesis is not well u

96 entified included components of acyl-CoA and carbohydrate metabolism and pyrimidine and CoA biosynthe

97 protein structure-function relationships in carbohydrate metabolism and recognition, carbon turnover

98 eleterious effects of PPARgamma mutations on carbohydrate metabolism and replicating the characterist

99 Up-regulation of carbohydrate metabolism and resistance responses may cor

100 of the up-regulated proteins are involved in carbohydrate metabolism and some were photosynthesis or

101 increased number of metabolites involved in carbohydrate metabolism and synthesis.

102 a role in modulating insulin sensitivity and carbohydrate metabolism and that the eNOS isoform may pl

103 eas 4-nonylphenol deregulated genes from the carbohydrate metabolism and the ecdysone regulatory path

104 the category of defense response but also in carbohydrate metabolism and the phenylpropanoid pathway.

105 beta hexoses, which is essential for normal carbohydrate metabolism and the production of complex ol

106 ount of specific metabolites associated with carbohydrate metabolism and the shikimate pathway were a

107 involved in polysaccharide production and in carbohydrate metabolism and those in a region containing

108 rulence factor production in B. anthracis to carbohydrate metabolism and, for the first time, provide

109 involved in sporulation, flagella synthesis, carbohydrate metabolism, and antimicrobial production in

110 transcripts involved in nutrient transport, carbohydrate metabolism, and cell cycle regulation, sugg

111 ion of the genes involved in photosynthesis, carbohydrate metabolism, and defense responses.

112 ng stomatal opening, rate of photosynthesis, carbohydrate metabolism, and developmental processes suc

113 ) that encode proteins likely to function in carbohydrate metabolism, and four genes (orf1-4) that en

114 ian clock associated genes, DREBs, COP1-HY5, carbohydrate metabolism, and involvement of hormones (AB

115 ogen discrimination pathway, nonfermentative carbohydrate metabolism, and mitochondrial function.

116 cluding hypertension, dyslipidemia, impaired carbohydrate metabolism, and nonalcoholic fatty liver di

117 ism, defense and detoxification, hydrolases, carbohydrate metabolism, and other/unknown.

118 novel relationship between GPI, involved in carbohydrate metabolism, and PAP1, a lipogenic enzyme.

119 Variants were enriched in genes involved in carbohydrate metabolism, and phenotypic analysis identif

120 idative phosphorylation, electron transport, carbohydrate metabolism, and post-synaptic cytokinesis i

121 , cell death, response to external stimulus, carbohydrate metabolism, and response to wounding.

122 transport chain, tetrapyrrole biosynthesis, carbohydrate metabolism, and signaling lipid synthesis.

123 lar function, including cytokine production, carbohydrate metabolism, and steroid hormones.

124 , cell wall maintenance (approximately 1/8), carbohydrate metabolism (approximately 1/10), and lipid

125 signal transduction, gland development, and carbohydrate metabolism are among the most prominent rap

126 ses and gene sequences for the regulation of carbohydrate metabolism are discussed, and a 4-fold role

127 rtebrates, the sex differences in intestinal carbohydrate metabolism are extrinsically controlled by

128 n revealed the presence of genes involved in carbohydrate metabolism, aromatic carbon metabolism, and

129 They identified disrupted brain carbohydrate metabolism as a key mechanistic driver of t

130 any gene queried against our database.Taking carbohydrate metabolism as a test case, we observed that

131 splayed multiple defects in insulin-mediated carbohydrate metabolism as reflected by (i) decreased pe

132 on analysis, we identify enzymes involved in carbohydrate metabolism as transcriptional targets of CR

133 ther previously unknown targets in lipid and carbohydrate metabolism as well as many putative target

134 automated the partitioning of gut microbial carbohydrate metabolism at substrate levels.

135 was associated with alterations in bacterial carbohydrate metabolism, bacterial-host interactions, as

136 sphingolipids related to lipid, protein, and carbohydrate metabolism between male meat eaters, fish e

137 Here, we show a unique difference in carbohydrate metabolism between these two biotypes.

138 s not required for the maintenance of normal carbohydrate metabolism but is essential for the attainm

139 both Irs-1 and Irs-2 function in peripheral carbohydrate metabolism, but Irs-2 has the major role in

140 C/EBP beta influences the regulation of carbohydrate metabolism by altering the level of hepatic

141 We show that daf-16/FoxO restructures carbohydrate metabolism by driving carbon flux through t

142 er, contain an unusual organelle involved in carbohydrate metabolism called the hydrogenosome.

143 at the effects of CBI on gene expression and carbohydrate metabolism can be neutralized by osmotic su

144 are part of pathways of kidney development, carbohydrate metabolism, cardiac septum development and

145 e developed a kinetic model of cardiomyocyte carbohydrate metabolism, CardioGlyco, to study the metab

146 multiple signal regulators and transducers, carbohydrate metabolism, cell wall modifications and the

147 Among Gene Ontology categories related to carbohydrate metabolism, changes in starch and Suc metab

148 er, there were no significant differences in carbohydrate metabolism characteristics or lipid profile

149 DREBs) of molecular networks associated with carbohydrate metabolism, circadian clock, flowering, and

150 es (DEGs) involved in morphogenesis, primary carbohydrate metabolism, cold stimulation and blue-light

151 le genes found in this study are involved in carbohydrate metabolism, consistent with its role as a s

152 arate pyrazine pathway, regulated by general carbohydrate metabolism, derived from a broadly conserve

153 er these acute changes might predict altered carbohydrate metabolism during delirium, we assessed gly

154 findings support the importance of microbial carbohydrate metabolism during early infancy in protecti

155 Recent advances in carbohydrate metabolism during pregnancy suggest that pr

156 idence that SREBP-1 is necessary to regulate carbohydrate metabolism during the fed state.

157 ty of genes involved in bile acid, lipid and carbohydrate metabolism, energy expenditure, and inflamm

158 ed in profound biochemical changes including carbohydrate metabolism, energy metabolism and glutathio

159 in the db/db nerve include lipid metabolism, carbohydrate metabolism, energy metabolism, peroxisome p

160 Aside from its classic role in carbohydrate metabolism, enolase was recently found to l

161 ing include those for putative enzymes and a carbohydrate metabolism enzyme, alkB2; this latter gene

162 cells, and the effect of digested guarana on carbohydrate metabolism enzymes.

163 arana extracts, after digestion in vitro, on carbohydrates-metabolism enzymes and to assess the bioac

164 significantly during fruit development, and carbohydrate metabolism (especially sugar synthesis) is

165 cid availability and a failure to upregulate carbohydrate metabolism, essentially starving the heart

166 review, I focus primarily on alterations in carbohydrate metabolism, examining both the metabolic re

167 cription to our knowledge of a route feeding carbohydrate metabolism exclusively via D-erythrose 4-ph

168 ose implicated for caffeine (ARID3B/CYP1A1), carbohydrate metabolism (FGF21), schizophrenia (ZNF804A)

169 or nuclear receptors in regulating lipid and carbohydrate metabolism, fibrosis, and inflammation.

170 ch may underlie persistent loss of oxidative carbohydrate metabolism following transient ischemia.

171 mes of plant-associated bacteria encode more carbohydrate metabolism functions and fewer mobile eleme

172 he same subspecies exhibits expansion of its carbohydrate metabolism gene repertoire including the ac

173 on of all solvent formation genes, sigF, and carbohydrate metabolism genes (similar to genes expresse

174 hus Msn2/4 exhibit a dual role in activating carbohydrate metabolism genes and stress response genes.

175 s used to determine the expression levels of carbohydrate metabolism genes at different phases of bud

176 irst evidence for the horizontal transfer of carbohydrate metabolism genes into ectomycorrhizal fungi

177 election were uncovered in genes controlling carbohydrate metabolism, glycoalkaloid biosynthesis, the

178 ways based on the proteomic analysis include carbohydrate metabolism (glycolysis/gluconeogenesis, pen

179 Compartmentation of carbohydrate metabolism has been shown in a wide range o

180 d enzymes of brush border membrane (BBM) and carbohydrate metabolism has been studied in rat kidney.

181 tain Gene Ontology groupings of genes (e.g., Carbohydrate Metabolism) have large amounts of high cons

182 Analysis of 33 enzymes from human carbohydrate metabolism identified 830 protein-metabolit

183 nscriptional programs that control lipid and carbohydrate metabolism, immunity and inflammation, and

184 s including urea degradation, amino acid and carbohydrate metabolism in 2,4-D-treated mice.

185 play between cardiac function and myocardial carbohydrate metabolism in a large animal heart failure

186 ly to represent an effective mean to improve carbohydrate metabolism in aging.

187 a GAS ortholog of a key global regulator of carbohydrate metabolism in Bacillus subtilis.

188 olysis, resulting in further perturbation of carbohydrate metabolism in cancer cells.

189 We investigated the role of PEMT in hepatic carbohydrate metabolism in chow-fed mice.

190 Further studies of bacterial carbohydrate metabolism in general, and E. faecalis PTS-

191 vement, heat tolerance, circadian clock, and carbohydrate metabolism in K. fedtschenkoi and other CAM

192 Carbohydrate metabolism in plants is tightly linked to p

193 erve and decreases hypertrophy by augmenting carbohydrate metabolism in porcine heart failure.

194 th of the fetus and for long-term control of carbohydrate metabolism in postnatal life.

195 contrast, RSC binds to promoters involved in carbohydrate metabolism in response to transcriptional a

196 sion and activity of key enzymes involved in carbohydrate metabolism in squash nectaries throughout f

197 es, especially related to the elaboration of carbohydrate metabolism in the bacteria.

198 and suggest a potential link between FMN and carbohydrate metabolism in the human gut microbiota.

199 response by acting as a master regulator of carbohydrate metabolism in the infected animal, via JAK/

200 eins are likely to play an important role in carbohydrate metabolism in these abundant symbiotic spec

201 se data show that Ca(2+) signaling regulates carbohydrate metabolism in Toxoplasma and that the post-

202 e of Fru-2,6-P2 in the regulation of hepatic carbohydrate metabolism in vivo, Fru-2,6-P2 levels were

203 pathway in regulation of beta cell mass and carbohydrate metabolism in vivo.

204 tivity to modulation by key intermediates of carbohydrates metabolism in the cell.

205 (body size and type, sex hormone status, and carbohydrate metabolism) in a cross-sectional population

206 onally essential under hypoxia, preferential carbohydrate metabolism including gluconeogenesis, glyox

207 ed by GLD4, several of which are involved in carbohydrate metabolism including GLUT1, a major glucose

208 in this class of mRNA are those involved in carbohydrate metabolism, including several mRNAs from th

209 we demonstrate that these strains differ in carbohydrate metabolism, including the ability to metabo

210 ined the regulation of processes involved in carbohydrate metabolism, including trehalose metabolism,

211 nt with a metabolic shift from fatty acid to carbohydrate metabolism, increased expression of extrace

212 (PDH) flux studies to demonstrate changes in carbohydrate metabolism induced by the nicotinic acid re

213 e families within microbial ecosystems where carbohydrate metabolism is a major evolutionary driver.

214 s mature stalk and a considerable portion of carbohydrate metabolism is also devoted to cell wall syn

215 Because carbohydrate metabolism is altered in hypertension, we u

216 Although targeting carbohydrate metabolism is an established therapeutic st

217 g other metabolic signatures, amino acid and carbohydrate metabolism is most prominent in undifferent

218 d skin substitutes may be increased if their carbohydrate metabolism is optimized by understanding wh

219 However, its role in regulating carbohydrate metabolism is poorly understood.

220 nal transduction, and the action of IGF-1 on carbohydrate metabolism is preserved in certain insulin-

221 These results show that carbohydrate metabolism is responsive to changes in cell

222 The carbohydrate metabolism is rewired to reduce the use of

223 PTS-mediated carbohydrate transport, but not carbohydrate metabolism, is required for production of a

224 ciated with nutrient storage (phaseolin) and carbohydrate metabolism (lectins) were significantly dow

225 The effects on carbohydrate metabolism led us to examine the role of th

226 egulation of genetic information processing, carbohydrate metabolism, lipid metabolism and digestive

227 of which participates in metabolism, such as Carbohydrate metabolism, Lipid metabolism, Drug metaboli

228 Besides carbohydrate metabolism, lysine biosynthesis was repress

229 secondary outcomes including body weight and carbohydrate metabolism markers [glycated hemoglobin (Hb

230 here supports the notion that cellulose and carbohydrate metabolism may be coordinated via an osmose

231 e results show that bet-hedging behaviors in carbohydrate metabolism may substantially influence the

232 ndance of sequences related to proton pumps, carbohydrate metabolism, modifications of the phospholip

233 te how changes in the flux of electrons from carbohydrate metabolism modulate the redox poise of the

234 s demonstrates significant activation of the carbohydrate metabolism network in experimental gingivit

235 analysis indicated that the major and minor carbohydrate metabolism, nitrogen metabolism, and ethyle

236 methods and opens new opportunities to study carbohydrate metabolism of algae under autotrophic, mixo

237 ransketolase reaction, being involved in the carbohydrate metabolism of many organisms, requires an i

238 In support of a role in carbohydrate metabolism of RD21A after its effector-medi

239 The speculative function of this CDP in the carbohydrate metabolism of T. africanus TCF52B was also

240 s in ATL, indicating redundancy in L. lactis carbohydrate metabolism on plant tissues.

241 e resting phase, indicating a preference for carbohydrate metabolism over fat oxidation in these mice

242 ted marked IL-9-dependent effects on central carbohydrate metabolism, particularly in relation to the

243 The carbohydrate metabolism pathway, amino acid metabolism,

244 blocks from three major metabolic pathways: carbohydrate metabolism, peroxisomal beta-oxidation of f

245 enson cycle and other central pathways, leaf carbohydrate metabolism, photosynthetic gas exchange, an

246 Carbohydrate metabolism plays a crucial role in the ecop

247 expressed higher levels of genes involved in carbohydrate metabolism, priming them for anaerobic ener

248 number of genes including those involved in carbohydrate metabolism, quorum sensing, iron regulation

249 wed that Sko1 is conserved as a regulator of carbohydrate metabolism, redox metabolism, and glycerol

250 rboxylic acid cycle replenishment, disturbed carbohydrate metabolism, reduced phytosterol biosynthesi

251 t the Hadza GM is adapted for broad-spectrum carbohydrate metabolism, reflecting the complex polysacc

252 Carbohydrate metabolism-related enzymes were increased f

253 physiological range regulate uteroplacental carbohydrate metabolism remains unknown.

254 s to produce and tolerate organic acids from carbohydrate metabolism represents a major virulence fac

255 Dysregulated lipid and carbohydrate metabolism resulting from insulin resistanc

256 ticipated role for sweet taste in regulating carbohydrate metabolism, revealing a novel mechanism by

257 Genes related to Carbohydrate Metabolism, RNA Metabolism and Signal Trans

258 ways were specifically enriched in field CA; carbohydrate metabolism, secondary metabolism and circad

259 ge of genes, including genes associated with carbohydrate metabolism, signal transduction, and metabo

260 ns include arsenic and phosphate metabolism, carbohydrate metabolism, solute transport systems and ir

261 nthesis, Calvin cycle, photorespiration) and carbohydrate metabolism (starch synthesis/degradation),

262 Steroid hormones are essential for carbohydrate metabolism, stress management, and reproduc

263 effect of food (TEF), lipid concentrations, carbohydrate metabolism, subjective appetite, and gut ho

264 They include enzymes involved in carbohydrate metabolism such as glucoside hydrolases of

265 layed functional enrichment for nitrogen and carbohydrate metabolism suggesting that populations may

266 y in the complex with notable differences in carbohydrate metabolism, suggesting that multi-generatio

267 y, and fewer in cell membrane biogenesis and carbohydrate metabolism than Bacteria.

268 owever, these two taxa were less involved in carbohydrate metabolism than others and had few genes th

269 se superfamily comprises enzymes involved in carbohydrate metabolism that are found in all kingdoms o

270 are highly pleiotropic and affect aspects of carbohydrate metabolism that are not directly related to

271 mber of membrane transporters and enzymes of carbohydrate metabolism that are unique to Galdieria.

272 dings provide novel insights into the insect carbohydrate metabolism that governs glycogen and lipid

273 cycle and to identify changes in endogenous carbohydrate metabolism that occur when proliferative st

274 pression of genes involved in amino acid and carbohydrate metabolism, the stress response, and meiosi

275 t levels and activity of enzymes involved in carbohydrate metabolism throughout fruit development rev

276 We assessed carbohydrate metabolism, thyrotropic function, activity

277 pendent transcriptional repressor that links carbohydrate metabolism to epigenetic regulation by recr

278 es necessary to link the signal generated by carbohydrate metabolism to specific nuclear transcriptio

279 hat cause plant galls and continuing through carbohydrate metabolism to vitamins.

280 synthesis pathways via (i) carbon reuse from carbohydrate metabolism under nitrogen sufficiency and (

281 provides experimental evidence of the basic carbohydrate metabolism underlying the development of st

282 dance of phosphoproteins involved in primary carbohydrate metabolism upon Fe deficiency, complementin

283 conditions, the contribution of glycogen to carbohydrate metabolism varied from 20-60%.

284 Carbohydrate metabolism via glycolysis and the tricarbox

285 Among all the pathways, carbohydrate metabolism was most profoundly altered, and

286 (PACAP38), a critical mediator of lipid and carbohydrate metabolism, was also determined to be effic

287 dition to a battery of housekeeping genes of carbohydrate metabolism, we observed changes in hexose t

288 proximately 50% deficit in beta-cell mass on carbohydrate metabolism, we performed a approximately 50

289 The specific activities of enzymes of carbohydrate metabolism were also altered and suggest a

290 nes associated with metabolic regulation and carbohydrate metabolism were differentially regulated be

291 biosynthetic enzymes, and several enzymes of carbohydrate metabolism were found.

292 Genes involved in carbohydrate metabolism were generally induced, while ge

293 albicans genes and proteins associated with carbohydrate metabolism were significantly enhanced, inc

294 ges, and genes related to photosynthesis and carbohydrates metabolism were highly expressed in mature

295 two of the mRNAs encode proteins involved in carbohydrate metabolism, whereas others encode proteins

296 ciated with ethylene, auxin, flavonoids, and carbohydrate metabolism; whereas, sub-network enrichment

297 icularly interesting are features related to carbohydrate metabolism, which include a minimalistic ge

298 involved in cell wall biogenesis and energy/carbohydrate metabolism, which is consistent with the st

299 Thus, Sol3p and Sol4p likely function in carbohydrate metabolism, while Sol1p and Sol2p appear to

300 ity, thus allowing co-ordinate regulation of carbohydrate metabolism with cell division processes.