ライフサイエンスコーパス: biochemistry

1 ious real applications in both chemistry and biochemistry.

2 risk factors for impaired preterm cerebellar biochemistry.

3 make them potential hot spots for prebiotic biochemistry.

4 help to provide a context in terms of tumour biochemistry.

5 y, feeding behavior and plant physiology and biochemistry.

6 ies, molecular transport, and small-molecule biochemistry.

7 nors and a useful tool for investigating H2S biochemistry.

8 ed in fields ranging from crystallography to biochemistry.

9 s into the functions and mechanisms of plant biochemistry.

10 a new form of biochemistry, one-dimensional biochemistry.

11 mechanisms lay at the heart of chemistry and biochemistry.

12 ad-outs and experiment-specific variation in biochemistry.

13 le in networking, computational biology, and biochemistry.

14 analysis to complement established in vitro biochemistry.

15 ns in the field of sensing, nanomedicine and biochemistry.

16 studying how histone PTMs regulate chromatin biochemistry.

17 ntral to the spatial and temporal control of biochemistry.

18 determined genetically through the insect's biochemistry.

19 ochemistry department kindled my interest in biochemistry.

20 tial clinical applications of nitrogen oxide biochemistry.

21 om high-resolution metabolomics over classic biochemistry.

22 lecular biology, and in vitro reconstitution biochemistry.

23 sibility that the modification affects their biochemistry.

24 ojects seeking to re-engineer photosynthetic biochemistry.

25 acteria can reveal new facets of biology and biochemistry.

26 tics for microbiology, immune responses, and biochemistry.

27 sil" of an early phosphate-free nonenzymatic biochemistry.

28 wn about the impact of drug holidays on cell biochemistry.

29 ingle-particle cryo-electron microscopy, and biochemistry.

30 aging, immunocytochemistry, and neuropeptide biochemistry 20-30 years ago.

31 Is personalized cellular biochemistry a reality?

32 not result in improved WM success, or blood biochemistry after WL compared with the effects of norma

33 cose; AST; and ALT levels were analyzed on a biochemistry analysis system using specific kits.

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

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

36 DNAi is based on type-IE CRISPR biochemistry and a synthetic CRISPR array defines the DN

37 favor coordination between leaf physiology, biochemistry and anatomical structure along a functional

38 ival, HBsAg positivity, and changes in liver biochemistry and antibody to HBsAg levels.

39 e of great importance for synthetic biology, biochemistry and bioengineering.

40 ools for addressing questions in biophysics, biochemistry and biology of nucleic acids.

41 ance in using these dyes to create tools for biochemistry and biology.

42 antibodies, is desirable for applications in biochemistry and biotechnology but has eluded supramolec

43 SIF ) were strongly correlated to leaf-level biochemistry and canopy structure, including chlorophyll

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

45 odable biosensor will be useful to probe the biochemistry and cell biology of cAG signaling in divers

46 In contrast to these methods in biochemistry and cell biology that are usually populatio

47 circulation and biogeochemistry in a global biochemistry and circulation model.

48 s and correlations between alcohol use liver biochemistry and depressive symptoms at the only transpl

49 ical model parameterized using data from the biochemistry and ecology of an E. coli cross-feeding lab

50 ivo electrophysiology, immunohistochemistry, biochemistry and electron microscopy.

51 ng a combination of single-molecule imaging, biochemistry and electrophysiology, we show that glycine

52 rom microbiology and chemical separations to biochemistry and environmental engineering is required.

53 sors for specialty chemicals, the underlying biochemistry and genetics of alkene biosynthesis in plan

54 Abeta and NFT pathology were evaluated using biochemistry and histochemistry in 62 subjects with a pr

55 Structural characterization, mutagenesis, biochemistry and in vivo data reveal that Fur recognizes

56 Here, we show by combination of biochemistry and in vivo electrophysiology that transien

57 I was attracted to the chemical side of biochemistry and joined Fritz Lipmann's large, hierarchi

58 Here, we exploit a combination of biochemistry and macromolecular EM to investigate holoen

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

60 that satisfy constraints derived from human biochemistry and maximize congruency with the Metabric t

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

62 tabase adopted by the International Union of Biochemistry and Molecular Biology (IUBMB).

63 d from the adjacent supporting cells, so the biochemistry and molecular biology of hair cells can be

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

65 for the analysis of experimental results in biochemistry and molecular biology, as well as for prote

66 one of the most frequent analytical tasks in biochemistry and molecular biology.

67 rophils were utilized for molecular biology, biochemistry and pathology analysis.

68 studies opens the door to exploring the rich biochemistry and pharmacological targeting of membrane-a

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

70 Here, we explore the biochemistry and physiological function of an Arabidopsi

71 resent the current state of knowledge on the biochemistry and physiological functions of FAO and disc

72 ole for organelle interactions for essential biochemistry and physiological processes.

73 It was only after understanding the biochemistry and physiology of cholesterol synthesis, tr

74 tron flow in anaerobic environments, and the biochemistry and physiology of DIET.

75 Recent work has brought new insight into the biochemistry and physiology of these responses, and comp

76 hemical properties of FtsZ, its role in cell biochemistry and physiology, the different mechanisms of

77 h has provided valuable insights into insect biochemistry and physiology.

78 the symmetric APC3 dimer and, together with biochemistry and prior data, explain how APC16 recruits

79 Different modern analytical biochemistry and proteomics methods depend on the isoele

80 corrin structure, which is essential for B12 biochemistry and renders coenzyme B12 (AdoCbl) so intrig

81 l school, but after developing a passion for biochemistry and sensing the need for a deeper foundatio

82 ) had concordant results by both traditional biochemistry and serology (TB&S) and the kmer identifica

83 Fipronil exposure altered blood biochemistry and sexual hormone levels and reduced cellu

84 Using biochemistry and stochastic optical reconstruction micro

85 Gunn, Bakaletz, and Wozniak focus on the biochemistry and structure of bacterial biofilms, how th

86 Using biochemistry and superresolution fluorescent imaging, we

87 mmetry and that only considers the ParA/ParB biochemistry and the known fluctuating and elastic dynam

88 teins regulate phase separation, we combined biochemistry and theoretical modeling.

89 nzi apples, a comparative analysis of pectin biochemistry and tissue fracture pattern during differen

90 at the single-cell level as well as via bulk biochemistry and will be advantageous for the study of n

91 system, we studied brain anatomy, histology, biochemistry, and behavior in mice with engineered mutat

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

93 of the tools of genetics, molecular biology, biochemistry, and biophysics has spanned more than half

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

95 tively) and included body composition, blood biochemistry, and blood pressure.

96 our development and proliferation, and serum biochemistry, and compared to age-matched wild-type (Cdc

97 /barttin channels by patch clamp techniques, biochemistry, and confocal microscopy.

98 tion of genetics, chemical biology, solution biochemistry, and crystallography.

99 SEC genes is a result of combining genetics, biochemistry, and electron microscopy in a very clever w

100 eral fronts, including genetics, proteomics, biochemistry, and electrophysiology, that raise motivati

101 Here, using electrophysiology, biochemistry, and fluorescence approaches, we systematic

102 veraging diverse disciplines (from genetics, biochemistry, and immunology to mathematics, computation

103 Using genetics, biochemistry, and live-cell imaging, we show that the VA

104 e and examined them using molecular biology, biochemistry, and live-cell imaging.

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

106 us fields including chemistry, geochemistry, biochemistry, and materials science.

107 e and expression data with reverse genetics, biochemistry, and metabolite profiling.

108 contemporary research in molecular biology, biochemistry, and other biosciences utilizes computer pr

109 to summarize the most recent basic biology, biochemistry, and pharmacology that serve as a foundatio

110 gar transporter research, covering genetics, biochemistry, and physiology-from their identification a

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

112 rs and cardiac muscle, improvement of muscle biochemistry, and significant enhancement of muscle forc

113 By combining genetic engineering, chromatin biochemistry, and single-molecule fluorescence imaging,

114 ent in addition to genetic expression, gland biochemistry, and spinning processes.

115 d somatodendritic domains, using proteomics, biochemistry, and superresolution microscopy, we show th

116 branes strongly impact cellular behavior and biochemistry, and understanding these processes presents

117 results highlight the potential of synthetic biochemistry approaches for producing bio-based chemical

118 Utilizing mass spectrometry and biochemistry approaches we identified the Zn-finger prot

119 vides a detailed summary of oxidative stress biochemistry as gleaned mainly from studies of humans ex

120 histology, confocal and electron microscopy, biochemistry, as well as transcriptome and methylation p

121 I achieved this by working toward a PhD in biochemistry at Johns Hopkins McCollum-Pratt Institute c

122 d is very likely involved in thiol-disulfide biochemistry at the thylakoid membrane.

123 levels of FGF19 correlated with worse liver biochemistry, BAs, quality of life and Mayo Risk Score.

124 The law has had an impact on chemistry, biochemistry, biomathematics, and systems biology that i

125 exhibits an ever-increasing integration with biochemistry, biophysics and other disciplines.

126 Consistent with its complicated biochemistry, BRD4 is shown to alter both the maximal ac

127 thways, has been proposed to link NO and H2S biochemistries, but its existence and stability in vivo

128 is of fundamental interest in chemistry and biochemistry, but also has potential technological appli

129 drates are involved in nearly all aspects of biochemistry, but their complex chemical structures pres

130 organelles have conserved their prokaryotic biochemistry, but their genomes are reduced, and most or

131 on undergraduate education and the field of biochemistry by coordinating efforts to integrate resear

132 rates that combining in-silico modeling with biochemistry can significantly advance the understanding

133 ely well-characterized with regards to their biochemistry, cell biology and physiology.

134 We then used biochemistry, cell biology and the model organism Drosop

135 work by some of the brightest scientists in biochemistry, cell biology, and physiology, many central

136 udy is of utmost importance to many areas of biochemistry, cellular biology, and virology.

137 This volume of the Annual Review of Biochemistry contains a set of three articles addressing

138 This volume of the Annual Review of Biochemistry contains a set of two reviews addressing ou

139 nome sequence would enable insights into the biochemistry, control, and evolution of genes responsibl

140 research in the context of an undergraduate biochemistry course.

141 r in the laboratory of George Schwert in the biochemistry department kindled my interest in biochemis

142 bola treatment unit allows for correction of biochemistry derangements and on-site clinical chemistry

143 Metal biochemistry drives a diverse range of cellular processe

144 ethod for the in situ monitoring of cellular biochemistry during fermentation.

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

146 hat a combination of synthetic chemistry and biochemistry enables bright and fast voltage imaging fro

147 numerous applications in clinical analysis, biochemistry, environmental analysis, geology and physic

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

149 he mouse body and organ mass, hematology and biochemistry evaluation, and histopathological examinati

150 be exploited in all fields of chemistry and biochemistry, from design of new materials with novel pr

151 Routine biochemistry (full blood count and renal function) resul

152 Serum biochemistries, gallbladder bile acids, and liver sectio

153 ty of these independently tunable mechanical/biochemistry gels, and that mechanical confinement in st

154 applies a combination of mass spectrometry, biochemistry, genetics, and cellular biology tools to re

155 ng the past few years, thanks to advances in biochemistry, genetics, and structural biology.

156 des has revealed important insights into the biochemistry, genomics and ecology that make a gut bacte

157 The database is available at hive.biochemistry.gwu.edu/review/codon .

158 ribe how recent advances in cell biology and biochemistry have begun to elucidate the role of individ

159 Advances in physiology and biochemistry have provided fundamental insights into the

160 lergen cross-reactivity, whereas advances in biochemistry have revealed structural and functional asp

161 In addition, clinical biochemistry, histological evaluation and pro-fibrotic p

162 through the study of what I coined "in vivo biochemistry." I have had the remarkable good fortune to

163 shaky mice through a combination of protein biochemistry, immunocytochemistry, and both in vivo and

164 in organ function, morphology, cell biology, biochemistry, immunology, and circulation), management,

165 cifically, using behavioral pharmacology and biochemistry in adult rats, we determined that betaAR ac

166 lular microenvironment can be as critical as biochemistry in directing cell behavior.

167 hes, two-photon calcium imaging, and protein biochemistry in hippocampal tissue from presymptomatic 3

168 ed researchers to both visualize and perturb biochemistry in living cells.

169 Serum biochemistries, including alkaline phosphatase, aspartat

170 ltaape1 resulted in marked differences in PG biochemistry, including O-acetylation, anhydromuropeptid

171 phaned enzymes, suggesting that parts of the biochemistry integral to biomass precursor formation are

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

173 he impact of PfKelch13 mutations on cellular biochemistry is not defined.

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

175 plinary and cross-departmental undergraduate biochemistry laboratory course.

176 n using this approach requires only standard biochemistry laboratory equipment for cell lysis, gel el

177 clinical users in a hospital setting at the biochemistry laboratory of a Montreal hospital (Hopital

178 reaks between semesters, I worked in various biochemistry labs to acquire a feeling for the different

179 s had statistically significant higher liver biochemistry markers.

180 Here we use biochemistry, mass spectrometry, nuclear magnetic resona

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

182 The application of modern chemistry, biochemistry, molecular genetics, and optical physics to

183 tremendous potential for the advancement of biochemistry, nanophotonics, and medicine.

184 Modern biochemistry now faces new and exciting challenges.

185 iency, or surplus, of a given protein on the biochemistry of a plant.

186 ional complexity from entire canopies to the biochemistry of a single reaction and across orders of m

187 characterization of the complex biology and biochemistry of algae and strain improvement has been ha

188 le progress in understanding the fundamental biochemistry of Alzheimer's disease have been followed b

189 Initial studies focused on the genetics and biochemistry of avian and murine virus DNA integration,

190 We first outline the chemistry and biochemistry of B vitamins and explore the concept of vi

191 e, we discuss the expression, structure, and biochemistry of CD28 and its ligands.

192 esting hypotheses about the coordination and biochemistry of cell wall synthesis enzymes or architect

193 a burgeoning toolkit to pursue quantitative biochemistry of dynamic signalling complexes in living c

194 ite abundant knowledge of the regulation and biochemistry of glycolytic enzymes, we have limited unde

195 review recent progress in understanding the biochemistry of H-NS and how xenogeneic silencing affect

196 Although it is possible to describe the biochemistry of how they remodel chromatin, their chroma

197 that led to our current understanding of the biochemistry of integration.

198 d reaction, expands our understanding of the biochemistry of isomerization.

199 rly relevant by the homochiral nature of the biochemistry of life on Earth, and many chiral chemical

200 haustive study given its central role in the biochemistry of life.

201 As the cell biology and biochemistry of lipid droplets become increasingly well

202 We have previously investigated the biochemistry of lipins 1 and 2 and shown that di-anionic

203 progress has been made in understanding the biochemistry of LPMOs.

204 To understand the biochemistry of methylmercury (MeHg) that leads to the f

205 a basic understanding of the physiology and biochemistry of oleaginous microalgae is lacking, especi

206 hat cell shape is largely decoupled from the biochemistry of peptidoglycan synthesis.

207 sing UbFluor for quantitative studies of the biochemistry of RBR E3s and for high-throughput screenin

208 homogenisation (UHPH) on the composition and biochemistry of starter-free fresh cheeses and to monito

209 kly realized that little was known about the biochemistry of strict anaerobes such as clostridia, met

210 Our understanding of the biochemistry of TFIIH has greatly benefited from studies

211 This lesson introduces the core biochemistry of the carbon-fixing reactions of photosynt

212 t treatment for CIN significantly alters the biochemistry of the cervix, compared with women who have

213 We present a current view of the biochemistry of the origin of life, focusing on issues s

214 tion of his epic textbook The Physiology and Biochemistry of the Skin.

215 Therefore 30 years of genetics and biochemistry of the spliceosome can now be interpreted a

216 evious studies have examined the ecology and biochemistry of these communities, none has examined vir

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

218 Dissecting the biochemistry of these organisms offers a means of discov

219 omprehensive profiling served to clarify the biochemistry of this disease underlying its broad, compl

220 ns that alter the position, dynamics, and/or biochemistry of this helix can result in a wide range of

221 structure of ribosomes, participating in the biochemistry of translation initiation and functioning a

222 y-dependent import, and our results link the biochemistry of zinc sensing by Zur to the molecular log

223 r scientists from diverse disciplines (e.g., biochemistry, omics, and computational biology; microbio

224 us of cells interact and imply a new form of biochemistry, one-dimensional biochemistry.

225 erential extraction assay), collagen assays (biochemistry or histology), or titin isoform and phospho

226 Coupled with ensemble and single-molecule biochemistry, our hybrid X-ray and cryo-electron microsc

227 al immunodeficiency, as a range of hemolymph biochemistry parameters were altered and the density of

228 ogy, and allow for greater insights into the biochemistry performed by ncRNAs.

229 s of synthetic chemistry, medicinal science, biochemistry, pharmacology, material science, and cataly

230 cluding biology, cell and molecular biology, biochemistry, physiology, pharmacology, neuroscience, ca

231 ociated with white matter microstructure and biochemistry, potentially contributing to white matter a

232 The EPS biochemistry promotes recalcitrance and informs the desi

233 products were characterized through physical-biochemistry properties and biological activities to con

234 n of this paradox, highlighting the roles of biochemistry, protein aggregation, and disruption of cel

235 Cellular localization, biochemistry, protein interaction assays in yeast, and c

236 Using biochemistry, proteomics, and imaging in mice, we find t

237 conservative N investment in photosynthetic biochemistry rather than from low g.

238 However, many events in biochemistry require identification of colocated factors

239 3 lineages may be co-opted for C3 -C4 and C4 biochemistry requirements.

240 also compared how leaf litter and fine root biochemistry responded to long-term simulated N depositi

241 Examination, neuroimaging, biochemistry results, and biopsy results are presented.

242 on of genetics, fluorescence microscopy, and biochemistry reveals three critical features that compri

243 etic resonance spectroscopy (MRS) and tissue biochemistry, sampling individuals with schizophrenia in

244 Here, cryo-EM and biochemistry show that the human E3 anaphase-promoting c

245 The work we present here-a combination of biochemistry, single-molecule assays, and cryoelectron m

246 Using biochemistry, single-molecule, and deep sequencing techn

247 e respiration, but little is known about the biochemistry, specificity, structure, and mechanism of P

248 ter and aqueous solutions, with expertise in biochemistry, spectroscopy and computer modelling.

249 Advances in RNA biochemistry, structural and molecular biology, and bioi

250 is review, we discuss recent advances in the biochemistry, structural biology and physiology of CDI.

251 Over 100 years of detailed biochemistry studies, combined with the large volumes of

252 opy, flow chamber assays, and chemotaxis and biochemistry studies.

253 Transcriptome changes and biochemistry support mTOR hyperactivity in Itpkb(-/-) HS

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

255 15 routine haematology and biochemistry test results were highly prognostic for mor

256 was no identifiable underlying pathology on biochemistry tests or muscle biopsy.

257 lts expressed in "cycle threshold" [Ct]) and biochemistry tests were performed at day 0, day 2, day 4

258 Biochemistry textbooks and cell culture experiments seem

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

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

261 ed, based on structural studies and in vitro biochemistry, that sumoylation is required for efficient

262 f Drosophila genetics, surrogate systems and biochemistry, the field has begun to define the toolkit

263 bial groups involved in this process and the biochemistry they encode is poorly understood.

264 -week experiment, glucose homeostasis, blood biochemistry, tissue triglycerides, and inflammation wer

265 point mutants mapped the alterations of TCL biochemistry to amino acids 17-20.

266 we combined ChIP- and dRNA-seq with in vitro biochemistry to characterize a putative NsrR homologue i

267 BCE1 in vivo, we used ribosome profiling and biochemistry to characterize its contribution to ribosom

268 , we have used a combination of genetics and biochemistry to elucidate the mechanism of DNA recogniti

269 information in numerous fields ranging from biochemistry to environmental sciences.

270 e-cell imaging in parallel with genetics and biochemistry to explore comprehensively the dynamic inte

271 s span a diverse range of applications, from biochemistry to industrially important processes.

272 MR spectroscopy, computational modelling and biochemistry to map changes in Galpha caused by binding

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

274 ith molecular genetics, optical imaging, and biochemistry to show that Nck-dependent actin remodeling

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

276 The 'plant economics spectrum' (PES) links biochemistry traits to the litter decomposability of dif

277 reported more than two decades ago, but the biochemistry underlying this novel metabolism has never

278 ng on decades of research using genetics and biochemistry, unprecedented quantitative insight into DN

279 l combination of genetics, pharmacology, and biochemistry used to study energy balance and the regula

280 eding was 'Lipid metabolism, small molecular biochemistry, vitamin and mineral metabolism' (Ingenuity

281 e Mitochondria theme of the Annual Review of Biochemistry, Volume 85.

282 Fine root biochemistry was also less responsive than leaf litter t

283 recovery and was discharged on day 8; liver biochemistry was normal by day 19 and has remained norma

284 Using a combination of genetics and biochemistry we show that CsrA binds directly to the 5'

285 y enrichment-mass spectrometry, and in vitro biochemistry, we define Ptc6p as the primary PDC phospha

286 gh Edman sequencing and in vitro and in vivo biochemistry, we demonstrated that Oct1p directly proces

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

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

289 ar magnetic resonance (NMR) spectroscopy and biochemistry, we show that RNF169 bridges ubiquitin and

290 structural analysis, molecular dynamics, and biochemistry, we show that TA increases intramolecular c

291 Mild abnormalities in liver biochemistries were reported with vemurafenib use in 30%

292 at 15 and 24 months, and brain pathology and biochemistry were assessed at 24 months.

293 n, inflammation, regeneration, histology and biochemistry were characterized.

294 Changes in blood pressure and blood biochemistry were not different between groups.

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

296 Hematology and blood biochemistry were unremarkable.

297 althy and diseased cells, connecting protein biochemistry with cell physiology.

298 as unfolding, I pursued a PhD in nutritional biochemistry with Hamilton Eaton at the University of Co

299 Using biochemistry with Saccharomyces cerevisiae proteins, we

300 argely global optimum, such that any aqueous biochemistry would use a very similar set.