ライフサイエンスコーパス: biochemistry

1 three putative feedback loops based on known biochemistry.

2 NatE and NatE/HYPK complexes and associated biochemistry.

3 that ATP hydrolysis is exploited throughout biochemistry.

4 evolved to influence plastid morphology and biochemistry.

5 -invasive and continuous monitoring of human biochemistry.

6 nction is one of the greatest puzzles within biochemistry.

7 en the door for chemical programming without biochemistry.

8 oach to comprehensively interrogate cellular biochemistry.

9 other's conformations and hence each other's biochemistry.

10 unction, oxygen carrying capacity, and blood biochemistry.

11 owing us to investigate the underlying lipid biochemistry.

12 wise evolutionary integration of anatomy and biochemistry.

13 to the field of analytical microbiology and biochemistry.

14 inattentional blindness grounded in cellular biochemistry.

15 , regulation, and many other aspects of P450 biochemistry.

16 diversity through halogenation and azidation biochemistry.

17 ommonly they unveil a new and diverse animal biochemistry.

18 fields of chemistry, materials science, and biochemistry.

19 tmentalization of reactions is ubiquitous in biochemistry.

20 ase and reuptake or in genes related to 5-HT biochemistry.

21 of specific microbial contributions to host biochemistry.

22 ld provide distinct paradigms in sialic acid biochemistry.

23 DA layer deposition leading improved surface biochemistry.

24 pid metabolism, and core aspects of cellular biochemistry.

25 ined by optical mapping, histochemistry, and biochemistry.

26 hange complete blood counts and common blood biochemistry.

27 ants on cellular localisation and associated biochemistry.

28 ojects seeking to re-engineer photosynthetic biochemistry.

29 risk factors for impaired preterm cerebellar biochemistry.

30 make them potential hot spots for prebiotic biochemistry.

31 rface binding and deeply influenced physical biochemistry.

32 fields of chemistry, materials science, and biochemistry.

33 ons with arbitrary interactions and internal biochemistry.

34 medicinal chemistry, planetary sciences, and biochemistry.

35 hat may therefore be useful as tools for RNA biochemistry.

36 area (SLA) and leaf N but not photosynthetic biochemistry.

37 tistep synthetic routes that do not resemble biochemistry.

38 Urtecho, et al, Biochemistry, 68, 1539-1551 (2019)] who measured the gen

39 were shown in rickets severity, growth, and biochemistries among children with X-linked hypophosphat

40 No changes in serum biochemistry analysis were observed following IH dosing

41 sting that could not be obtained by in vitro biochemistry analysis.

42 verse experimental applications ranging from biochemistry, anatomical and functional mapping, gene ex

43 and led to significant improvements in liver biochemistries and markers of cholestasis in patients wi

44 p...pai) interactions is gaining momentum in biochemistry and (supramolecular) chemistry.

45 late expresses a unique serology with unique biochemistry and a stable genetic basis, we named its no

46 dels for addressing fundamental questions in biochemistry and are now experiencing a comeback, enable

47 oth in terms of comprehension of the vegetal biochemistry and as basis for sterolomic studies.

48 etergents are widely used in modern in vitro biochemistry and biophysics, in particular to aid the ch

49 , blood coagulation dysfunction, and various biochemistry and blood cell count abnormalities.

50 The order of blood draws for biochemistry and blood cultures was randomized.

51 Quantitative biochemistry and cell biology assays revealed that PD-L1

52 akes for a rich research field spanning from biochemistry and cell biology into nutritional sciences,

53 smoking status can be predicted using blood biochemistry and cell count results andthe recent advanc

54 Here, using a combination of in vitro biochemistry and cell-based assays, including chemically

55 cardiology, cellular and molecular biology, biochemistry and chemistry, and mechanical and materials

56 The biochemistry and clinical manifestations indicate that t

57 Both biochemistry and computational analysis demonstrate that

58 ring the genes and genomes of fungi with the biochemistry and development of their plant and algal ho

59 differences in metabolite compartmentation, biochemistry and diffusive pathways.

60 reagents remains a central challenge in RNA biochemistry and drug discovery.

61 obiome metabolism requires linking microbial biochemistry and ecology with patient outcomes.

62 Here, we used biochemistry and electron microscopic imaging to demonst

63 combination of bacterial genetics, genomics, biochemistry and fitness analysis in vitro, in macrophag

64 AHA2 protein biochemistry and functional expression analysis in Xenop

65 Decades of biochemistry and genetics combined with recent structura

66 Here we combined biochemistry and genetics with correlative light and ele

67 e results expand the ancient role of iron in biochemistry and highlight a possible new mechanism of i

68 Serum biochemistry and histology results indicated that CAGE w

69 t cell types and tissues, recent single-cell biochemistry and imaging approaches have demonstrated st

70 re collected; blood samples were analyzed by biochemistry and liver tissues were analyzed by histolog

71 e analogs that feature as building blocks in biochemistry and many disease-treating drugs.

72 He received his PhD in biochemistry and MD at the University of Chicago.

73 ields such as mining, solid state chemistry, biochemistry and medical research.

74 as a model to help us gain insight into the biochemistry and metabolism of nectar secretion in flowe

75 chemical pharmacology (ebselen), nutritional biochemistry and micronutrients (selenium, carotenoids,

76 ions to the JBC and the American Society for Biochemistry and Molecular Biology (ASBMB), I endeavor t

77 In essence, modern biochemistry and molecular biology education must be inf

78 As biochemistry and molecular biology educators, we have an

79 contributions have shaped major advances in biochemistry and molecular biology in the last century.

80 Here we show that academic biochemistry and molecular biology laboratories equipped

81 d science skills, dictating that programs in biochemistry and molecular biology must be transformativ

82 field was initially focused primarily on the biochemistry and molecular biology of PARP-1 in DNA dama

83 The next generation of biochemistry and molecular biology students must be taug

84 We used a combination of taxonomy, biochemistry and molecular biology to characterize the t

85 the JBC, and within the American Society for Biochemistry and Molecular Biology, brought together man

86 Using microscopy, biochemistry and molecular biology, the cellular localiz

87 ffiliation 2 incorrectly read 'Department of Biochemistry and Molecular Genetics and Breast Surgery,

88 While the biochemistry and molecular physiology of Chl f-containin

89 Blood biochemistry and morphometric studies of internal organs

90 interdisciplinary field between nucleic acid biochemistry and nanotechnology that focuses on the stud

91 interdisciplinary field between nucleic acid biochemistry and nanotechnology that focuses on the stud

92 we review strategies for the use of advanced biochemistry and NMR techniques with GPCRs, survey proje

93 We studied serotonin (5-HT) biochemistry and observed no significant differences in

94 broadly viewed as a foundational problem of biochemistry and one of the most difficult challenges in

95 targeted gene deletion, expression analysis, biochemistry and pathogenicity assays to demonstrate tha

96 To study in more detail the biochemistry and pathophysiology of recessive RYR1 myopa

97 mportant features of human heart morphology, biochemistry and pharmacology in vitro, offering a promi

98 We review the biochemistry and physiology of 2-AG signaling and precli

99 different from that of conventional E1-E2-E3 biochemistry and play important roles in L. pneumophila

100 f the native PAGE assay for membrane protein biochemistry and provide a biochemical foundation for un

101 or confirmation of identification, including biochemistry and serotyping as well as whole-genome sequ

102 3-one] and bile acids), and changes in liver biochemistry and serum fibrosis markers were evaluated.

103 Using a combination of genetics, biochemistry and single-molecule biophysics, we characte

104 We demonstrated using phylogenetics, biochemistry and structural biology that this cysteine-t

105 opy is a useful and straightforward tool for biochemistry and structural biology, as it does not recu

106 iating orphan and novel reactions with known biochemistry and suggesting enzymes to catalyze them is

107 review, we provide an update on visual cycle biochemistry and then discuss visual-cycle-related disea

108 reported small-molecule modifiers of alphaS biochemistry and then identify compounds via a medium-th

109 We report the biochemistry and tissue expression of the GCTM-5 antigen

110 sed to be critical organizers of subcellular biochemistry and to control the flow of information from

111 Here, we use a combination of protein biochemistry and whole-cell patch clamping to determine

112 ho underwent liver biopsy for abnormal liver biochemistry and/or clinical suspicion of liver fibrosis

113 , low-density lipoprotein cholesterol, liver biochemistries, and length of follow-up on vitamin E.

114 ive control of microenvironments in biology, biochemistry, and analytical chemistry.

115 Intensive research on the genetics, biochemistry, and biomechanics of this material has faci

116 By combining molecular biology, biochemistry, and biophysics techniques, we discover tha

117 fast scan cyclic voltammetry, pharmacology, biochemistry, and cocaine self-administration with econo

118 We utilized molecular genetics, biochemistry, and cryo-electron microscopy (cryo-EM) to

119 Painstaking molecular genetics, biochemistry, and electron microscopy revealed a tiny el

120 bacteria, investigating phage physiology and biochemistry, and engineering designer phages for divers

121 imaginable questions, such as how structure, biochemistry, and forces are related in situ.

122 sted perturbations in tropomyosin structure, biochemistry, and function caused by the DCM-linked muta

123 ic electrophysiological recordings, cysteine biochemistry, and in silico analysis, we identify a roll

124 xperimental approach combining cell biology, biochemistry, and mass spectrometry, we show that sphing

125 g functional analysis of a mutagenesis scan, biochemistry, and modeling, we find that the subunits fo

126 icant reductions in hepatic steatosis, liver biochemistry, and serum bile acids in patients with NASH

127 our understanding of the genetics, genomics, biochemistry, and signal diversity of QS.

128 ansforming the vast knowledge from genetics, biochemistry, and structural biology into detailed molec

129 system of Listeria seeligeri Using genetics, biochemistry, and structural biology, we found that AcrV

130 trometry (CXMS), molecular genetics, protein biochemistry, and structural modeling to understand the

131 pithelium (OE) was assessed using histology, biochemistry, and transcriptomics.

132 rocess, here we combined molecular dynamics, biochemistry, and virology approaches.

133 peptide release assay from tissues, protein biochemistry approaches, and behavioral physiology on pa

134 he core G-protein components and their basic biochemistries are broadly conserved throughout evolutio

135 ter and CO(2) , stomatal regulation, and CAM biochemistry are highlighted and discussed.

136 familiar resonance phenomena of organic and biochemistry as well as the still broader range of reson

137 at the NPSCs themselves can influence tissue biochemistry as well.

138 FD sensors facilitate studies of mechanistic biochemistry, as well as discovery of chemicals that inh

139 tions, cardiometabolic parameters, and serum biochemistry, as well as the changes over the course of

140 unostaining and histology qualitatively, and biochemistry assays and gene expression, quantitatively.

141 ts before stabilization, and serum and stool biochemistry at day 3 did not differ between groups.

142 Here, we used an unbiased biochemistry-based screening assay coupled to MS, which

143 s barrier represents a novelty in ATP-fueled biochemistry, because normally, ATP hydrolysis initiates

144 our center, with no difference in peak liver biochemistries between users and nonusers.

145 nts, we also compared haemoglobin and plasma biochemistry between bolus and non-bolus patients, asses

146 provide new opportunities to interrogate LA biochemistry, biology, and physiology.

147 ements of hemodynamics, electrocardiography, biochemistry, blood gases, cytokines, and blood cells we

148 not only an essential metabolite of cellular biochemistry but also acts as a signal in the extracellu

149 cellular NADH/NAD(+) ratio is fundamental to biochemistry, but the extent to which it reflects versus

150 tion covers findings in salivary physiology, biochemistry, calcium phosphate chemistry related to sal

151 In the human gut, microbial biochemistry can be beneficial, for example vitamin prod

152 The work highlights how biochemistry can inform therapies to resolve complex imm

153 l cues with in silico models, based on known biochemistry, can contribute with disjoint information t

154 nd may inform new research directions across biochemistry, cellular biology, bioengineering, and opti

155 neurological evaluation, histopathology, and biochemistry continue to have a crucial role in diagnost

156 idence that the disciplines of chemistry and biochemistry cover, today, intellectually quite distinct

157 Here, we combine in vitro biochemistry, cross-linking coupled to mass spectrometry

158 mprove resolution, including improvements to biochemistry, cryo-EM grid preparation, data collection

159 ral blood samples and organs were harvested; biochemistry, cytokine, and growth factor analysis and h

160 of trends in both the environment and krill biochemistry data.

161 Selective ribosome profiling and biochemistry demonstrate that although ZAK generally ass

162 I spent most of my career in biochemistry determining how PG biosynthesis is regulate

163 ing human embryonic kidney 293 cells) cells, biochemistry, dual Ca(2+)/voltage optical mapping in int

164 rison to KO given placebo, as shown by serum biochemistry, ductular reaction, inflammation, and fibro

165 Using a combination of biochemistry, electrophysiology, and imaging techniques,

166 Using biochemistry, electrophysiology, and imaging, we show th

167 lants need to acclimate their physiology and biochemistry, especially in their chloroplasts, which ha

168 oteins cannot be accessed by protein folding biochemistry experiments conducted in the bulk, because

169 , we show how PIKES can reveal systems level biochemistry for cellular protein networks important to

170 as to assess the diagnostic accuracy of bile biochemistry for the assessment of bile duct injury (BDI

171 nguages and literature from UCLA, a Ph.D. in biochemistry from Uppsala University, and an M.S. in tox

172 l with published data (electrophysiology and biochemistry), further confirming validity of the assay.

173 ever, the lack of data on NK1R structure and biochemistry has limited further drug development target

174 ositions associated with diseases, while the biochemistry has not been broadly investigated due to th

175 allenges associated with lentiviral intasome biochemistry have hindered high-resolution structural st

176 ections" article by one of the true icons of biochemistry, Herb Tabor.

177 Structural studies and biochemistry highlight the contrast between the global s

178 Here, using biochemistry, immunohistochemistry, structural modeling,

179 ing neighbor-dependent modulation of tubulin biochemistry improved predictions of catastrophe.

180 ease 2019 (COVID-19) leads to elevated liver biochemistries in approximately half of patients on pres

181 etiology, and outcomes associated with liver biochemistries in COVID-19.

182 hese results demonstrate the significance of biochemistry in both our understanding of host-pathogen

183 eine is an emergent factor in cellular redox biochemistry in humans and pathogenic bacteria.

184 tunities for studying molecular and cellular biochemistry in plants.

185 C-g(m) and Delta(18) O-g(m) along with leaf biochemistry in the C(3) grass Panicum bisulcatum, which

186 An early exposure to lipid biochemistry in the laboratory of Konrad Bloch resulted

187 n and oxygen diffusion and C4 photosynthetic biochemistry inside a typical C3-plant mesophyll cell ge

188 wth, feeding efficiencies, plasma and muscle biochemistry, intestinal short chain fatty acids (SCFA),

189 sion of viruses, and they are widely used in biochemistry investigation and antimicrobial drug resear

190 Herein, a systematic analysis of siRNA biochemistry involving SNAs shows that Dicer cleaves the

191 Investigating the evolution of plant biochemistry is challenging because few metabolites are

192 and highly reactive human metabolite but its biochemistry is poorly defined.

193 An important component of cellular biochemistry is the concentration of proteins and nuclei

194 A central goal in biochemistry is to explain the causes of protein sequenc

195 alyzed, an interesting aspect of comparative biochemistry is to see how different enzymes and even en

196 Kranz anatomy and biochemistry likely influence the efflux of xylem-transp

197 r injury and fibrosis were assessed by serum biochemistry, liver histology, gene expression, and west

198 f 7 weeks treatment, serum was collected for biochemistry marker measurements.

199 lopments in the fields of organic chemistry, biochemistry, medical research, radical reactions, and o

200 RNA capping, how my training in medicine and biochemistry merged as I evolved into a virologist, the

201 We used systems biochemistry modeling and Bayesian inference to evaluate

202 f key findings in nitrate research, spanning biochemistry, molecular genetics, genomics, and systems

203 k that supports our current knowledge of the biochemistry, molecular mechanisms, and biological funct

204 e methodologies are compatible with standard biochemistry, molecular, cell and quantitative biology a

205 tide synthases (PKSs), many aspects of their biochemistry must be elucidated.

206 designed a multi-faceted study by combining biochemistry, neuroimaging, and neuropsychology to test

207 Biochemistry, NMR, and cryo-electron microscopy (cryo-EM

208 d provides critical insight into the complex biochemistry of alkynyl lipid production.

209 ulations, have improved understanding of the biochemistry of beta-lactam breakdown.

210 has been very successful at representing the biochemistry of blood clotting.

211 escribed at many levels of details: from the biochemistry of cell-cell interactions to the ecological

212 n our understanding of the basic biology and biochemistry of chromatin structure and function at geno

213 The ensuing cyclic biochemistry of cytosine modifications gives rise to a c

214 y slow the aging process based on the unique biochemistry of each individual.

215 Although the biochemistry of ectoine and 5-hydroxyectoine biosynthesi

216 es in our understanding of the structure and biochemistry of ERBB3, and a growing focus on the develo

217 To study the biochemistry of eRF3 and PAIP1/2 competition for PABP bi

218 Prebiotic chemistry aims to explain how the biochemistry of life as we know it came to be.

219 ches to integrate fluorometabolites into the biochemistry of living cells are scarce.

220 The asymmetric character and unique biochemistry of LPS molecules contribute to the OM's abi

221 While the biochemistry of origin licensing is understood, the mech

222 and provide insights into understanding the biochemistry of PS ASO protein interactions.

223 ith PTLDS and help understand the underlying biochemistry of PTLDS.

224 ion of metabolic pathways that represent the biochemistry of the aroma of this fruit.

225 Changes in the profile and biochemistry of the ECM may be critically implicated in

226 forts continue to focus on understanding the biochemistry of their molecular interactions and their b

227 D73 ectoenzymes and encompass aspects of the biochemistry of these molecules as well as detailing the

228 derstanding of the molecular environment and biochemistry of these tumor models.

229 The biochemistry of this light production is unknown, but ha

230 Although the biochemistry of this pathway is understood, a lack of de

231 t promise, we note that the well-established biochemistry of Tn7 suggests that the particular system

232 Understanding the biochemistry of triacylglycerol (TAG) assembly is critic

233 Chemical realizations, without using biochemistry, of the main classes of computing automata,

234 ts, 41 (69%) had at least one abnormal liver biochemistry on admission.

235 and electron microscopy, electrophysiology, biochemistry, optogenetics, and molecular biology, have

236 nd break (DSB) repair have been studied with biochemistry or as indirect readouts for the physical st

237 rchers in areas related to electrochemistry, biochemistry or microfluidics to assess the commercial s

238 o understanding the interplay between tissue biochemistry, organization and function.

239 ata are limited regarding the trend of liver biochemistries over the course of illness.

240 This article reviews research on the biochemistry, physiology and ecology of AO and discusses

241 Redox biochemistry plays a key role in the transduction of che

242 While biochemistry predicts two distinct insulin binding sites

243 m Kitasatospora setae Combining experimental biochemistry, protein crystallography, and advanced comp

244 In modern biochemistry, protein stability and ligand interactions

245 Ribosome profiling and biochemistry provide strong evidence that Cue2 cleaves m

246 Our sequencing approach, combined with biochemistry, provides insights into understanding the c

247 molecular and synthetic biology approaches, biochemistry, radiolabeling techniques, and NMR and MS a

248 ing a key biophysical parameter that impacts biochemistry, ranging from metabolism to the nucleation

249 l applications and has become widely used in biochemistry research to induce cell rupture, extract ce

250 Confocal imaging and biochemistry revealed disproportional CaMKIIdeltaC activ

251 Here, we use a combination of in vitro biochemistry, ribosome profiling, and cryo-EM to define

252 After exclusions, 970 blood culture/biochemistry sets were analysed.

253 After exclusions, 970 blood culture/biochemistry sets were analyzed.

254 Retinas of P21-22 mice were examined using biochemistry, single cell electrophysiology of retinal g

255 Combined data from crystallography, biochemistry, small angle X-ray scattering, and electron

256 Recent advances in genetics, microscopy, biochemistry, structural biology, and physical character

257 these issues will require the convergence of biochemistry, structure, spectroscopy, computation, and

258 ields including genomics, molecular biology, biochemistry, systems biology and bioinformatics.

259 t of adjusting for 15 common haematology and biochemistry test results or proxies for hospital worklo

260 Biochemistry textbooks and cell culture experiments seem

261 Ontology based on standard cell biology and biochemistry textbooks and review articles.

262 hologies, cellular connectivity, and dynamic biochemistries that control the executive functions of a

263 Recent work has examined the physics and biochemistry that coordinates the motions of these group

264 This paper characterises the underlying biochemistry that determines the aroma profile of celery

265 asured the effects of wheel running on serum biochemistry, tissue weight, voluntary grip strength, ma

266 measurements of the leaf microstructure and biochemistry to demonstrate that the closure mechanism i

267 ral biology combined with yeast genetics and biochemistry to highlight the specific functions that Ct

268 r mechanisms is crucial in many fields, from biochemistry to industrial catalysis.

269 whereby leaves alter their morphology and/or biochemistry to optimize photosynthetic efficiency and p

270 ing from medicinal chemistry over structural biochemistry to organocatalysis.

271 s from genetics to cloning and sequencing to biochemistry to structural biology to an understanding o

272 les combining a "genetics-like"approach with biochemistry to study mammalian rDNA transcription.

273 Transglutaminase diseases: from biochemistry to the bedside.

274 Using biochemistry, total internal reflection fluorescence mic

275 My research has spanned toxinology, biochemistry, toxicology, and pharmacology.

276 r understanding of the complex chemistry and biochemistry underlying resin accumulation across commer

277 ne publication date for the Annual Review of Biochemistry, Volume 89 is June 22, 2020.

278 Using C. elegans biochemistry, we confirmed that the OGT-1/EEL-1 complex

279 cells, paired with in vitro cell biology and biochemistry, we determined that Wnt9a signals specifica

280 atics, structural biology, cell biology, and biochemistry, we have investigated the origin and functi

281 ined methods of genetics, proteomics and RNA biochemistry, we identified a core set of mRNA m(6) A wr

282 genomics, transcriptomics, metabolomics, and biochemistry, we identify a CHS-L gene contributing to t

283 Using morphology and biochemistry, we investigated differences in toxin local

284 mbination of ribosome profiling and in vitro biochemistry, we report a much broader role for eIF5A in

285 Here, using structural biology and biochemistry, we report that the metazoan second messeng

286 ation of electrophysiology, pharmacology and biochemistry, we show that changes in DSE are a result o

287 Using ensemble and single-molecule biochemistry, we show that CtIP also dramatically stimul

288 Using cryoelectron microscopy and biochemistry, we show that RIG-I-like receptors (RLRs),

289 fness, blood pressure, heart rate, and serum biochemistry were assessed.

290 on d60, placental and fetal morphometry and biochemistry were measured.

291 Dose-dependent reductions in liver biochemistry were observed.

292 Viral serology, viral load, and liver biochemistry were performed at regular intervals during

293 cult to sample that cross-species studies of biochemistry were rare and comparative analysis at the l

294 Here, by combining mouse genetics and biochemistry with clinical tissue analysis, we reveal th

295 Wheel running improved serum biochemistry with decreased creatinine, phosphorous, and

296 ectrodes combines strengths of intracellular biochemistry with electrochemistry for energy conversion

297 n aggregation is a major unsolved problem in biochemistry with implications for several human disease

298 Integrating amino acid and protein biochemistry with metagenomics revealed that systematic

299 Using biochemistry with Saccharomyces cerevisiae proteins, we

300 omolecules remains an important challenge in biochemistry, with important implications for drug devel