ライフサイエンスコーパス: biochemical property

1 unctionally important, yet generally unknown biochemical properties.

2 y of how an enzyme's sequence relates to its biochemical properties.

3 of photoreceptors with diverse spectral and biochemical properties.

4 tissue distribution, expression levels, and biochemical properties.

5 However, little is known about its biochemical properties.

6 MT bundles as a consequence of two inherent biochemical properties.

7 otein due to its outstanding biophysical and biochemical properties.

8 umber of physicochemical, environmental, and biochemical properties.

9 been postulated to contain distinct primary biochemical properties.

10 pecific sources of extrinsic variability and biochemical properties.

11 ases resulted in remarkable changes of their biochemical properties.

12 he Zea mays gene, At3g26430, and studied its biochemical properties.

13 ds, and examined their sequence features and biochemical properties.

14 is characterized by unique morphological and biochemical properties.

15 tion at position 172 and the analysis of its biochemical properties.

16 y elevated and related to M. liliana and MPB biochemical properties.

17 riants were identified on the basis of their biochemical properties.

18 er in their tissue distribution and in their biochemical properties.

19 tant derivatives of Gln91 and analyzed their biochemical properties.

20 NUCB1) and characterized its biophysical and biochemical properties.

21 ferentially identify proteins based on their biochemical properties.

22 reviously noted changes in its antigenic and biochemical properties.

23 biomaterial with well-defined mechanical and biochemical properties.

24 ntibiotic fredericamycin and investigate its biochemical properties.

25 ferent roles reflecting differences in their biochemical properties.

26 E. coli, purified, and characterized for its biochemical properties.

27 is based on the 16S rRNA gene sequencing and biochemical properties.

28 eveals a molecular basis of its spectral and biochemical properties.

29 .2 angstrom resolution and characterized its biochemical properties.

30 F, Y503F, and Y108F/Y503F, and studied their biochemical properties.

31 idance of certain protein mutations based on biochemical properties.

32 ts other deubiquitinase and peptide cleavage biochemical properties.

33 ce-to-volume ratio and excellent optical and biochemical properties.

34 for biological significance of these unique biochemical properties.

35 al reaction, taking advantage of specialized biochemical properties.

36 mbinant expression system and compared their biochemical properties after reconstitution.

37 ing the growth environment modified both the biochemical properties and [PSI(+)]-inducing capabilitie

38 in yeast mitochondria showed that TbMCP5 has biochemical properties and ADP/ATP exchange kinetics sim

39 The unique biochemical properties and biological activities of comp

40 rupted mutant Ago proteins and studied their biochemical properties and biological functionality in c

41 these species have very similar physical and biochemical properties and can cross-contaminate each ot

42 resents recent advances in understanding the biochemical properties and evolution of the primate orth

43 by transporting cholesterol to neurons, the biochemical properties and function of apoE secreted by

44 Herein, we report the biochemical properties and functional characterization o

45 However, the biochemical properties and functional roles of putative

46 42-210) and FXN(81-210)) that have different biochemical properties and functional roles.

47 oadenosine phosphorylase (MTAP) based on its biochemical properties and mass spectrometry analysis.

48 Based on unprecedented biochemical properties and phylogenetic analysis, we pro

49 llelic expression, leading to changes in the biochemical properties and physiological function only o

50 ll, this work provides new insights into the biochemical properties and possible toxicity of coumarin

51 ouse oocytes, indicating conservation of the biochemical properties and possibly cellular functions o

52 ch has allowed a better understanding of its biochemical properties and potential clinical benefits.

53 li by modulating a wide range of fundamental biochemical properties and processes, including the stab

54 ereby acting as a central regulator of tau's biochemical properties and providing avenues to exploit

55 structural insight for their biophysical and biochemical properties and reactivity.

56 ow a strong correlation between its in vitro biochemical properties and the aberrant intracellular fu

57 The biochemical properties and the HER2 binding affinity app

58 monovalent counterparts, but these emergent biochemical properties and their mechanistic underpinnin

59 utations in the same gene may have different biochemical properties and thus different evolutionary c

60 Combining the expression data, biochemical properties, and cellular features, we conclu

61 o evaluate protein expression, localization, biochemical properties, and function.

62 mber of the FKBP superfamily in terms of its biochemical properties, and it plays an important biolog

63 Yet little is known about the SNORC protein biochemical properties, and mechanistically how the gene

64 re the expression, subcellular localization, biochemical properties, and potential functions of LEA p

65 umented in many cases, but the identity, the biochemical properties, and the structure of the actual

66 tails, showing that these too exhibit unique biochemical properties--and are also likely to play a fu

67 structure and show that its biophysical and biochemical properties are inconsistent with the structu

68 al cardiac performance, information on cMLCK biochemical properties are limited.

69 the complete, four-subunit CPC and its basic biochemical properties are only beginning.

70 ly conserved in all domains of life, and its biochemical properties are shared with its E. coli ortho

71 signaling mechanisms that exploit its unique biochemical properties as a free radical.

72 hese samples are commercialised due to their biochemical properties as ingredients of food supplement

73 its N-terminal region and displays peculiar biochemical properties as well as different domain organ

74 c variation affects development, physiology, biochemical properties as well as mitochondrial transcri

75 Mutation-specific biochemical properties, as well as the tissue of origin,

76 to simultaneously map their biophysical and biochemical properties at sub-nanometer resolution.

77 plectin keratinocytes is not due to altered biochemical properties because, like full-length plectin

78 Here, we investigated CLCA1's biochemical properties both in vitro and in mucus from m

79 ndent of their absolute quantities and basic biochemical properties but is dictated by the compositio

80 rs200673353, MAF = 0.001), and studied their biochemical properties by magnetic tweezers-based superc

81 latory proteins permitted by their intrinsic biochemical properties can be effectively restricted in

82 gest that DNA polymerases with complementary biochemical properties can function cooperatively at rep

83 Currently, its biochemical property, cellular distribution and physiolo

84 amyloid fibrils that exhibit structural and biochemical properties closely similar to those of natur

85 These simple biochemical properties, combined with feedback control o

86 c connectivity have distinct topological and biochemical properties compared with static M-modules an

87 cule displayed improved production rates and biochemical properties compared with wild-type IgA.

88 d Methanosarcina acetivorans (MaTLP) display biochemical properties consistent with a prominent role

89 aldehyde substrates, respectively, and have biochemical properties consistent with those previously

90 rties, in conjunction with the corresponding biochemical properties could help to distinguish stem ce

91 on membrane for proper folding, making their biochemical properties difficult to study.

92 er of LDCVs and affects their morphology and biochemical properties, due to impaired cargo sorting an

93 which multiple Galpha proteins with variable biochemical properties exist, plants have fewer, highly

94 o HIV with regard to different molecular and biochemical properties, FIV represents an attractive mod

95 ce of related scaffolds that display diverse biochemical properties for biotechnological applications

96 The possible importance of these biochemical properties for the regulation of Arabidopsis

97 namics of residues participating in the same biochemical property, for example, RNA binding, nucleoti

98 these animals showed mixed spectroscopic and biochemical properties from both parental and progeny se

99 at devices engineered by combining favorable biochemical properties from multiple known polymerases c

100 roteins, but their existence, structure, and biochemical properties have not been characterized exper

101 These isoforms exhibit different biochemical properties; however, their function in sperm

102 This biochemical property implies that network edges can part

103 d a series of Sry mutants, and studied their biochemical properties in cell lines and transgenic mous

104 and reveal evolutionary conservation of NatA biochemical properties in higher eukaryotes and uncover

105 sized relationship between functionality and biochemical properties in ligases, we have conducted stu

106 e HMR, which begins from Lys-58, retains its biochemical properties in phytochrome signaling.

107 terium tuberculosis (KATmt) show distinctive biochemical properties in terms of cAMP binding affinity

108 se enzymes have been shown to possess common biochemical properties in vitro, including the ability t

109 How the biochemical properties including binding of dinucleotide

110 tein expressed in HEK cells exhibited intact biochemical properties, inclusive trafficking into the p

111 a enterica lacking apbC have nutritional and biochemical properties indicative of defects in iron-sul

112 he C2 domains (most likely C2B, based on its biochemical properties) interacts with the membrane and

113 The knowledge of their biochemical properties is, however, limited, and the tra

114 Consistently, GLD-2 has distinct biochemical properties: It displays unusual specificity

115 The two biochemical properties known for ORF1p are high-affinity

116 canopy structural (leaf area index, LAI) and biochemical properties (leaf chlorophyll and nitrogen co

117 h the subcellular location of HSFA1D and its biochemical properties, making it a key early component

118 Such biochemical properties might be exploited to reliably pr

119 with reference to their physicochemical and biochemical properties, moreover, the total free amino a

120 We focus on its biochemical properties, mRNA targets, and possible role

121 rational vaccine design, we interrogated the biochemical properties of 9,888 MHC class I peptides.

122 In this study, we explored the biochemical properties of a chloroplastic ClpB disaggreg

123 Ced-6 exhibits all the known biochemical properties of a clathrin-associated sorting

124 copy number) or by modulating the intrinsic biochemical properties of a component (e.g., binding str

125 ytoplasmic domain of Nla28S has the in vitro biochemical properties of a histidine kinase protein: it

126 is toxin family, we studied the features and biochemical properties of a prototype M. tuberculosis Va

127 However, the biochemical properties of A. aeolicus (Aa)-RNase III and

128 RNA-binding amino acids in the antiviral and biochemical properties of A3H.

129 arried out to investigate the structural and biochemical properties of actomyosin under the influence

130 ide insight into the enzymatic mechanism and biochemical properties of AdPLA and LRAT-related protein

131 Here we investigated the biochemical properties of AID from a sea lamprey, nurse

132 rate, distribution of alpha-syn inclusions, biochemical properties of alpha-syn protein, demise and

133 f influenza when the scoring method based on biochemical properties of amino acids is employed in com

134 Here we describe the structure and biochemical properties of an IgE-Fc mutant that is trapp

135 and determined if these were correlated with biochemical properties of ANG variants.

136 Although the cellular functions and biochemical properties of APE1 are well characterized, t

137 The structures and biochemical properties of avidin, biotin and their respe

138 vations highlight an important difference in biochemical properties of B. subtilis and E. coli RNA po

139 of information on the genetic regulation and biochemical properties of bacterial C4-dicarboxylate tra

140 However, the structures and biochemical properties of bacterial N-demethylases remai

141 me degradation, and to modulate physico- and biochemical properties of bioactive peptides as well as

142 ng NMR to study structural, biophysical, and biochemical properties of biological macromolecules.

143 ad bi-functional AbiE Abi-TA systems and the biochemical properties of both toxin and antitoxin prote

144 erein we review the genetic, structural, and biochemical properties of CAPN14 and its gene product CA

145 indings indicate that physical, chemical and biochemical properties of casein hydrolysates can be imp

146 the evidence that biomechanical and surface biochemical properties of cells change in parallel, indi

147 This work illuminates how biochemical properties of cells differ in macro- and mic

148 ning across the animal kingdom; however, the biochemical properties of certain pathway components can

149 t a straightforward relationship between the biochemical properties of chromatin modifiers and the sp

150 d, significant differences exist between the biochemical properties of complex I prepared from ovine

151 protein tropomyosin (Tpm) results in altered biochemical properties of contraction; however, little i

152 However, the biochemical properties of CTRP12 and its naturally occur

153 ery that may help to better characterize the biochemical properties of different nucleoside analogues

154 with NDEL1 and how they change the inherent biochemical properties of DISC1.

155 or microscopic changes and assessment of the biochemical properties of disease-associated prion prote

156 ulation of this interplay could modulate the biochemical properties of Dna2 and thus license it to ca

157 excellent model system for understanding the biochemical properties of DNA2-like helicase-nucleases a

158 The biochemical properties of DraRnl are compatible with its

159 length dystrophin cDNA and characterized the biochemical properties of each mutant protein.

160 ailed characterization of the expression and biochemical properties of EMILIN-3 in mouse.

161 entation and its usefulness in revealing new biochemical properties of encoded proteins.

162 nt of pain and as tools to probe deeper into biochemical properties of FAAH.

163 iew FET proteins with an emphasis on how the biochemical properties of FET proteins may relate to the

164 Here, we study the biochemical properties of FtsZ from Pseudomonas aerugino

165 is Perspective, we review the structural and biochemical properties of FtsZ, its role in cell biochem

166 To characterize the biochemical properties of GIMAP6, we purified the recomb

167 ly in RTs that may contribute to distinctive biochemical properties of group II intron RTs, and it pr

168 microtubule dynamics purely in terms of the biochemical properties of GTP- and GDP-bound alphabeta-t

169 Here, we analyzed biochemical properties of human AGPAT2 and its close hom

170 We previously described the biochemical properties of human AID and found that it is

171 The physiological and biochemical properties of individual muscle fibers corre

172 DC, and describe the morphological and some biochemical properties of its neurons.

173 ed from clinal patterns of CHC variation and biochemical properties of lipids.

174 t-translational modification that alters the biochemical properties of many proteins.

175 significantly affect in vivo biophysical and biochemical properties of microproteins.

176 vo, by studying the electrophysiological and biochemical properties of mouse rods in a new genetic mo

177 unexpected insights into the biophysical and biochemical properties of mutated contractile proteins a

178 We characterize the biochemical properties of NagZ and demonstrate its abili

179 Combining the unique structural and biochemical properties of native acellular scaffolds wit

180 This "occluded" structure may explain the biochemical properties of NbtG, specifically with regard

181 terface should mimic the biophysical and the biochemical properties of neural tissue.

182 In this report we compared the biochemical properties of P-gp in native membranes, dete

183 The model accounts for five biochemical properties of peptides: (i) hydrophobicity,

184 Whereas the biochemical properties of PFA0210c have been characteriz

185 Here we characterize the photochemical and biochemical properties of phot from the marine picoalga

186 ger than self-interactions, and based on the biochemical properties of PiSLF, we previously proposed

187 Here we describe the X-ray structures and biochemical properties of PMT orthologs from Plasmodium

188 Physical and biochemical properties of pressurised and pasteurised lo

189 Moreover, the deposition patterns and biochemical properties of protease-resistant form of PrP

190 It is unclear how the biochemical properties of PrP(Sc) influence its uptake,

191 Several studies have investigated the biochemical properties of purified FCP complexes, but li

192 Biochemical properties of recombinant SUN proteins were

193 The intrinsic biochemical properties of RetGC and GCAP determined in v

194 chain kinase in fast skeletal muscle, where biochemical properties of RLC kinase and phosphatase con

195 have been genetically characterized and the biochemical properties of some of their encoded enzymes

196 ion patterns, subcellular localizations, and biochemical properties of some representative poplar (Po

197 However, the specific biochemical properties of SpAin1 and whether they are ta

198 The biochemical properties of Stu2 reported here account for

199 ently available methods and insight into the biochemical properties of such interactions in living ti

200 results demonstrate that distinct intrinsic biochemical properties of SynGAP isoforms determine thei

201 anslational modification that can change the biochemical properties of target proteins and mediate re

202 By tailoring the structural and biochemical properties of the 3D porous nanoscaffold, en

203 Biochemical properties of the associated transporter wer

204 asked whether the filament architecture and biochemical properties of the best-understood prokaryoti

205 ndividual lymphocytes, the morphological and biochemical properties of the cells are quantitatively r

206 In this study, we investigated the biochemical properties of the cerato-platanin protein EP

207 a 6-wk culture period, the biomechanical and biochemical properties of the constructs were measured.

208 Aminoacylation of membrane lipids alters the biochemical properties of the cytoplasmic membrane and e

209 However, little is known about the biochemical properties of the different complexes, and k

210 Here, we provide information on the biochemical properties of the direct TSP/alpha(2)delta-1

211 We investigate here the biochemical properties of the E. coli RadA protein and s

212 However, little is known about the biochemical properties of the exon alpha-containing Pol

213 Chi activates recombination by changing the biochemical properties of the helicase-nuclease, transfo

214 Here, we report the biochemical properties of the homodimeric PFO of C. rein

215 to chromatin in human cells and describe the biochemical properties of the human CMG complex purified

216 ent study we have comparatively assessed the biochemical properties of the J-protein paralogs in rela

217 omputer simulations based on the amounts and biochemical properties of the key proteins showed that t

218 nism's environment and the thermodynamic and biochemical properties of the metabolic pathways it empl

219 The physical and biochemical properties of the microenvironment regulate

220 ese specific interactions, which represented biochemical properties of the MOR-Gal1R heteromer, could

221 in a variety of human malignancies, but the biochemical properties of the mutant kinases and their r

222 ies among patients were not explained by the biochemical properties of the mutants.

223 long-running avenues of research, namely the biochemical properties of the PcG/TrxG system and the ap

224 and yeast, prompting us to reinvestigate the biochemical properties of the Plasmodium enzyme.

225 We investigated the biochemical properties of the products of two paralogs,

226 with different sectors controlling different biochemical properties of the protein.

227 ity of HpHypB but had no effect on the other biochemical properties of the protein.

228 he transmissibility of prions as well as the biochemical properties of the PrPres generated.

229 ignificant effects on cell phenotype and the biochemical properties of the purified actins.

230 FabI(M99T) exhibited normal growth, and the biochemical properties of the purified protein were indi

231 the required intramolecular interactions and biochemical properties of the R-spine and the newly iden

232 ter receptors, with a depth modulated by the biochemical properties of the receptor-gephyrin interact

233 The J-domain also alters several biochemical properties of the RIIbeta holoenzyme: It is

234 thaliana) and validated the biophysical and biochemical properties of the sensor that are critical f

235 In light of the cellular location and the biochemical properties of the two characterized beta-man

236 ined, despite the wealth of knowledge on the biochemical properties of the various oxygenases.

237 cal rescue assays were employed to study the biochemical properties of the wild-type enzyme and the m

238 ate liprin scaffolds, but the structural and biochemical properties of these domains remain largely u

239 The biochemical properties of these factors, coupled with th

240 We further explore the biochemical properties of these isoforms, demonstrating

241 We investigated the biochemical properties of these mutants using an express

242 GluN1 revealed the mechanism underlying the biochemical properties of these mutants.

243 The biochemical properties of these proteins and their cross

244 0N, and D200H alleles parallel precisely the biochemical properties of these TREX1 dimers during dsDN

245 n the present study, the microbiological and biochemical properties of this food were examined follow

246 ith muscle cells; however, the structure and biochemical properties of this membrane protein have not

247 To explore the biochemical properties of this protein, we engineered tw

248 The biochemical properties of this RPA-interaction-deficient

249 Although the biochemical properties of this transport have been chara

250 basis of this architecture, we examined the biochemical properties of three Arabidopsis thaliana PMT

251 modifications fine-tune the biophysical and biochemical properties of transfer RNA (tRNA) so that it

252 Here, we review new studies on the biochemical properties of transgelin-2 and discuss their

253 f BphAE(LB400) and BphAE(p4) and examine the biochemical properties of two BphAE(LB400) variants with

254 In the current report, the biochemical properties of two endo-beta-1,4-mannanases (

255 Our result proposes a new biochemical property of a PR-10 protein.

256 This unique biochemical property of anionic trypsinogen explains the

257 Contiguous mutations are consistent with the biochemical property of pol zeta to extend a mismatch wi

258 f ORF1p to anneal RNA in vitro, an important biochemical property of the protein.

259 Because of their structural and biochemical properties, oncogenic Ras proteins are excee

260 ealed robust SMURF2 E3 ligase activity, with biochemical properties previously restricted to the SMUR

261 Fungal decay, biochemical properties, quality and sensory attributes w

262 ishes DnaK's in vivo function, yet intrinsic biochemical properties remain largely intact.

263 s to ocean acidification, but the underlying biochemical properties remain unknown.

264 Analysis of their biochemical properties revealed that most of the sHsp su

265 Due to their unique and versatile biochemical properties, ruthenium-based compounds have e

266 These mutants were analyzed for their biochemical properties (self-interaction and DNA binding

267 Mutations that confer the loss of a single biochemical property (separation-of-function mutations)

268 ne encodes Shadoo (Sho), a glycoprotein with biochemical properties similar to the unstructured regio

269 cinerea is a serine protease inhibitor with biochemical properties similar to those of the previousl

270 e have compared the association equilibrium, biochemical properties, stability, and chaperone activit

271 ing synthetic genes, characterized regarding biochemical properties, structural fold, and IgE reactiv

272 ury of research has not only illuminated the biochemical properties, structure, and conformational dy

273 These biochemical properties suggest that CARMILs play a varie

274 These biochemical properties suggest that Pol epsilon is a lik

275 versity of nuclease domains with distinctive biochemical properties suitable for genome-editing appli

276 lass of Dnmt-targeted molecular probes, with biochemical properties that allow it to distinguish betw

277 We have examined in vitro the basic biochemical properties that allow Pol delta-exo(-) to ca

278 ectively, these studies demonstrate emerging biochemical properties that appear to be shared by these

279 It displays unique physiological as well as biochemical properties that are relevant in food-related

280 ture alpha-syn conformers with very distinct biochemical properties that can be transmitted to alpha-

281 We found that Dia and Ena have distinct biochemical properties that contribute to the different

282 best understood ALP, ParM, has a core set of biochemical properties that contributes to its function,

283 upplementary, and tail regions-have distinct biochemical properties that explain the differences betw

284 ablish a cell wall architecture with altered biochemical properties that hinder P. palmivora infectio

285 atural polymer harboring unique physical and biochemical properties that make it an ideal biomaterial

286 oduced by the kidney tubule and has specific biochemical properties that mediate important functions

287 play a central role in human health and have biochemical properties that promote their use in many bi

288 s reveal patterns of domain organization and biochemical properties that provide insight into mechani

289 Although the oligomers shared similar basic biochemical properties, those obtained from inclusion-be

290 nosoma brucei, its SufCB protein has similar biochemical properties to its prokaryotic homologues, fu

291 Lys monooxygenase (NbtG), which has similar biochemical properties to mycobacterial homologs.

292 iated protein with the means to modulate its biochemical properties to promote different molecular pr

293 Analysis of the NPC1 and NPC2 structures and biochemical properties, together with new structures of

294 ural features, subcellular localization, and biochemical properties upon the PKA holoenzymes they for

295 of this group of proteins and their unusual biochemical properties warrant further studies into thei

296 (encoding Thg1-like proteins, TLPs), but the biochemical properties we associate here with these prot

297 To investigate these biochemical properties, we altered the evolutionarily co

298 Based on these distinct biochemical properties, we propose that rather than func

299 RecF point mutations with altered biochemical properties were constructed in the chromosom

300 Because IQDs share biochemical properties with scaffold proteins, we propos