ライフサイエンスコーパス: similarity

1 g to poor performance for the recognition of similarity.

2 eeply with degree of RF overlap and response similarity.

3 WT and hIAPP(19-29) S20G, with 64% sequence similarity.

4 ty, and the information of the fingerprintal similarity.

5 nds to a particular luminance, contrast, and similarity.

6 es are grouped by measuring their structural similarities.

7 lements is challenging due to their chemical similarities.

8 ting protein (HHIP) and family with sequence similarity 13 member A (FAM13A) were shown to have an ad

9 disease and in FAM155A (family with sequence similarity 155A; rs67153654-A: P=3.0 x 10(-11), OR=0.82)

10 nucleotide periodicity patterns and coverage similarities across coding sequences, and showed that th

11 hical regression models, which accounted for similarities across defects, were constructed, and relat

12 ural motifs and show relatively low sequence similarity across different species, which makes accurat

13 While there is a high degree of similarity across individuals with regard to which featu

14 er, there was a remarkable degree of genetic similarity across the soils despite the differences in l

15 Despite low sequence homology (48.2%-77.3% similarity), all orthologs (Paf, AfeA, and MntC) interac

16 We conclude that increased temporal self-similarity (alpha) of more variable lung function (CVpef

17 ere used to quantify and stratify phenotypic similarities among genetic perturbations.

18 on the basis of clinical and methodological similarities among studies to be included, rather than t

19 The significant similarity among different members of the YscU, YscP, an

20 Overall, opposing trends in taxonomic similarity among different subsets of species nullified

21 EW glycosylation similarity among the different orders of birds did not s

22 ions, our analysis suggests that the genetic similarity among the founding cells of metastases was hi

23 time-resolved topographical representational similarity analysis (tRSA) comparing the AV and VA ERP m

24 spatiotemporal searchlight representational similarity analysis in source space, we were able to tes

25 We applied pattern similarity analysis on the temporal pattern of hippocamp

26 Representational similarity analysis revealed a dissociation between dors

27 Representational similarity analysis revealed that a computational model

28 ations of key input parameters revealed many similarities and a few key distinctions between the perf

29 k of binding sites based on their structural similarities and detecting communities of structurally s

30 In conclusion, both genetic similarities and differences across ethnicities have bee

31 clinical and experimental studies to explore similarities and differences among KRAS alleles.

32 The structure reveals both similarities and differences between IRAK1 and IRAK4 and

33 The GTB enables users to visualize the similarities and differences between several prediction

34 We show the similarities and differences between the conventional bu

35 In this review, we will first discuss similarities and differences between the development and

36 We discuss conceptual similarities and differences between TMLE and 2 common e

37 etabolomics was used to evaluate broadly the similarities and differences in carotenoids and other ph

38 4], and contextual factors [15] may underpin similarities and differences in neural activity across p

39 ugh this presentation we show the remarkable similarities and differences in the structural transitio

40 This review outlines the similarities and differences of the AbcR sRNAs between e

41 genic ESC and EGC lines to define epigenetic similarities and differences.

42 ms and entire microbiomes to establish their similarities and differences.

43 echniques for scaffold assembly, identifying similarities and dissimilarities across assemblies produ

44 rved DART-HRMS spectra revealed intraspecies similarities and interspecies differences that were the

45 PtNTT5 exhibits low amino acid similarities and is only distantly related to all previo

46 ic to LMS and has begun to shed light on the similarities and possible unique aspects of soft tissue

47 Despite structural similarities and shared binding partners, including the

48 ology with other techniques is revealing the similarities and the differences in virion structure and

49 on Zn(2+) bimetallo core but little sequence similarity and different auxiliary domains.

50 We utilized sequence similarity and gene expression to categorize the A. fumi

51 9,652 (1) and SB277011A (2) whose structural similarity and pharmacological disparity provided the pe

52 occurrence than measures of functional trait similarity and phylogenetic relatedness and that transcr

53 systems, which raises questions about their similarity and the potential interchangeability of the t

54 hemoenzymatic synthesis through substructure similarity and virtual chemical transformation technique

55 ity in biological fluids, their phylogenetic similarities, and their tissue specificity.

56 fied compounds were classified by structural similarity, and 15 were selected for secondary analyses

57 an Tim9 despite high sequence and structural similarity, and loss of Tim10 is accelerated by the disr

58 on DD connectivity, we illustrate the close similarity, and possible homology, between hippocampal a

59 ries of rodent/primate prefrontal functional similarity, and provide insight into the role of these b

60 teraction, the information of the structural similarity, and the information of the fingerprintal sim

61 bacteriophage transcription systems but that similarities are found on the topological and conceptual

62 The factors explaining such similarities are still debated, and the role played by m

63 n complex with exendin(9-39), revealing both similarities as well as distinct differences in the mode

64 ams and evaluated their chemical composition similarity based on high-dimensional substance-specific

65 The structural basis for the similarities between avian and mammalian arcopallial and

66 ven several key challenges stemming from the similarities between cancerous and healthy tissue.

67 le in neurodegeneration; however, structural similarities between caspase-6 and other caspase active

68 The remarkable functional similarities between CFIm and SR proteins suggest that i

69 wed in the research field, partly because of similarities between dementia with Lewy bodies, Parkinso

70 The physical and behavioral similarities between electrolocation and other active se

71 Our recent biosystems analysis revealed similarities between embryonic implantation and cancer c

72 To further determine similarities between exercise and intravascular ATP, we

73 tween control and TBT groups and significant similarities between F3 and F4 TBT groups that overlap w

74 Qualitative similarities between hip fracture trends in different co

75 odels to collective choice shows fundamental similarities between how brains and colonies balance spe

76 Similarities between humans and other species that benef

77 We then identify similarities between Jussim's specific narrative regardi

78 locus, mmpT5 Preliminary analysis suggested similarities between mmpT5 and the mmpR5 locus, which is

79 development, and we identify organizational similarities between networks of genes that build the br

80 uage model (Word2Vec), which learns semantic similarities between terms and phrases, allowing identif

81 Striking similarities between the cross-reactive V3 NAbs elicited

82 Comparative genomic analyses revealed high similarities between the genes used by the symbiotic Cyc

83 derived fluid origin cannot be excluded, the similarities between the molecular signatures identified

84 y, we show that there are transcriptome-wide similarities between the opossum attachment reaction and

85 ults to supplement neurological evidence for similarities between the two behaviors.

86 Despite the structural similarities between the two classes of compounds, the s

87 tolerance of the genome to mutation, or the similarities between these methods.

88 AD and T2D might originate from a structural similarity between aggregates of Abeta and hIAPP.

89 ain network (connectome), we investigate the similarity between an input signal and a signal that has

90 n ecology on niche partitioning and limiting similarity between coexisting species in an ecosystem, w

91 lyploid species because of the high sequence similarity between coexisting subgenomes.

92 t from the corresponding acid, with a strong similarity between compounds of different chain length b

93 determine the perceptible sensory difference/similarity between control, unencapsulated, microencapsu

94 Furthermore, similarity between different actions corresponded to the

95 MAGNA++ conserves dynamic edges (events) and similarity between evolving node neighborhoods.

96 Testing for environmental similarity between native and invaded areas is critical

97 ds remain essential for the determination of similarity between proteins.

98 Our method calculates true sequence similarity between query sequences and database hits usi

99 re measured, which revealed a high degree of similarity between RI-optical property relationships acr

100 etween different actions corresponded to the similarity between SPN ensemble patterns, irrespective o

101 networks, MAGNA++ conserves static edges and similarity between static node neighborhoods, while Dyna

102 ion between the different subsets, including similarity between Th1-Th2-Tfh cell populations and Th17

103 This apparent representational similarity between the posterior-dorsal and lateral-vent

104 Methods that reliably estimate the likely similarity between the predicted and native structures o

105 nd 4) whether there is sufficient structural similarity between the two model samples in each cluster

106 Despite the high structural similarity between the two SH2 domains, we observe that

107 lthough relative simple methods based on the similarity between the word frequency vectors of viruses

108 The similarity between transcription profiles of plants expo

109 Inferring the similarity between two given RNAs is a fundamental step

110 of gut microbial composition (diversity and similarity) between individuals and across time.

111 In line with this structural similarity, biochemical characterization of this effecto

112 There were many similarities but, crucially, some differences in biomark

113 phrocytes and human podocytes share striking similarities, but to what degree these known NS genes pl

114 gerprint analysis and 3D chemical structural similarity clustering identified unexpected FDA-approved

115 ce Navier-Stokes solver and the derived self-similarity conditions, we demonstrated self-similarity w

116 These similarities contrast with the unique gene expression pa

117 test their disease associations and genetic similarities/differences in Asians and Europeans, we gen

118 ar formulas, solar irradiation increased the similarity due to the removal of photolabile DOS formula

119 Surprisingly, although little sequence similarity exists to known insecticidal proteins, effica

120 This close similarity extended to the associated secondary kinetic

121 academic interests to explore human mobility similarity from the perspective of social network proxim

122 otypes, characterized by an intersubgenotype similarity >90% (>84% for HDV-1) over the whole genome s

123 tes diverged (eliminating spatial and visual similarity), hippocampal representations paradoxically b

124 somal proteins (RPs) that show high sequence similarity/identity.

125 Substantial similarities in binding specificity, neutralization brea

126 to determine whether superficial behavioral similarities in humans and the highly social honey bee r

127 cted in multiple sponge orders, according to similarities in key genes such as 16S rRNA and polyketid

128 Perhaps the initial similarities in males and females underlie early therape

129 inoculum) (10,15) , and regions with genetic similarities in related pathogen populations (16,17) .

130 heat shock protein beta-6 complexes revealed similarities in the 3D structures of bound partner prote

131 This study reveals similarities in the anastasis genes, pathways, and cell

132 alysing behavioural data, we find remarkable similarities in the babbling statistics of 5-6-month-old

133 There are some important similarities in the contribution of the cytoskeleton to

134 of network science have discovered stunning similarities in the topological characteristics of real

135 guages and hearing nonsigners exhibit marked similarities in the use of space, and (3) location as a

136 uman societies from around the world exhibit similarities in the way that they are structured, and sh

137 concern between apple and pear juices due to similarities in their major carbohydrate/polyol profiles

138 ug library for agents that share significant similarity in 3D shape and surface electrostatics with f

139 t choice as a carbon isostere because of the similarity in chemical properties.

140 s-phenotypes association analysis due to the similarity in data structure of these two types of resea

141 ges between Inga species was correlated with similarity in defenses.

142 We found that similarity in herbivore assemblages between Inga species

143 This similarity in structure leads to a similarly high select

144 y, plant and animal TPCs share high sequence similarity in the filter region, yet exhibit drastically

145 erobic and anaerobic conditions revealed 82% similarity in the transcriptome and no differences in th

146 We demonstrate that similarity in the transcriptomic response of species to

147 lusters in the PPA could be predicted by the similarity in their image properties.

148 avioral homology is often assumed to involve similarity in underlying neuronal mechanisms.

149 e perceptual space as assessed by perceptual similarity judgment tests.

150 t failure, but the pattern of change in self-similarity leading up to treatment failure is variable a

151 ployed Principal Component Analysis to build similarity maps in the molecular descriptor and spectral

152 ish masker types, suggesting that perceptual similarity may be more critical in a two-talker than a o

153 t choice of parameters, use of the SeqKernel similarity measure improves fold recognition compared to

154 ith a weight assigned according to the curve-similarity measured by the distance between one of the n

155 The similarity measurement, called alignment, formulated as

156 capable of capturing interactions that motif similarity methods might miss.

157 sms, considering depth-dependent behavior of similarity metrics for identical and unrelated samples.

158 ts by comparing drug interaction fingerprint similarity metrics such as correlation and Euclidean dis

159 Similarity network analysis demonstrated that NBs fall i

160 This similarity network-based framework provides a convenient

161 ue), we find that the resulting morphometric similarity networks (MSNs) have a complex topological or

162 c sequences were central within TCR sequence-similarity networks.

163 Crustaceans and insects share many similarities of brain organization suggesting that their

164 The similarities of CSF-c cells in chicken, Xenopus, and zeb

165 sms in nature is more likely when phenotypic similarities of individuals are reduced.

166 INTERPRETATION: Given the historical similarities of meningococcal serogroup W with meningoco

167 These studies are based on similarities of morphological characters and molecular s

168 Gene expression profiling reveals molecular similarities of mutant clones with native PanINs, and id

169 Insects and mammals share similarities of neural organization underlying the perce

170 Given structural and functional similarities of the GP1 receptor binding site (RBS) of t

171 Herein, starting from the structural similarity of a potent G4 ligand previously discovered b

172 t time intervals jointly encode the acoustic similarity of both phonetic and speaker categories.

173 ases for 152 countries were used to quantify similarity of countries to estimate contact patterns in

174 ross-modal feature, suggesting that featural similarity of cross-modal signals may not modulate cross

175 Data support the similarity of efficacy and immunologic changes between c

176 e to heat stress in Arabidopsis thaliana The similarity of ferroptosis in animal cells and ferroptosi

177 Developmental similarity of gene expression between pectoral and pelvi

178 ons, existence of substantial diversity, and similarity of hospital isolates to local populations.

179 Moreover, due to the structural similarity of KuQuinones with camptothecin (CPT), a larg

180 ical network mapping based on inter-regional similarity of multiple morphometric parameters measured

181 e addressed these questions by examining the similarity of multivoxel fMRI patterns in visuomotor cor

182 enotype differences were identified by using similarity of percentages, network analysis, and taxon f

183 mporal event explicitly encodes the acoustic similarity of phonemes, and linguistic and nonlinguistic

184 elop a pore recognition approach to quantify similarity of pore structures and classify them using to

185 relationship between EPSP amplitudes and the similarity of RFs or responses, suggesting different con

186 Due to the sequence similarity of several genes on the megaplasmid, BTA121 c

187 The similarity of Strawn and stray gas crustal noble gas sig

188 cell populations and Th17 cells, as well as similarity of Th2 cells with Treg cells.

189 Moreover, the similarity of the neural response to different clusters

190 ve to one another, and the overall structure similarity of the query protein to proteins in our datas

191 The overall similarity of the skull shape of some dog breeds with th

192 ocesses in different tissues, the structural similarity of the three isoforms makes this divergence p

193 esults of competitive binding assays and the similarity of the x-ray structure of AfIP-1A to Cry34Ab1

194 function of APE2, and also reveal topologic similarity of the Zf-GRF to the zinc ribbon domains of T

195 Given the similarity of their activation phenotypes, we hypothesiz

196 ons to novel or existing drugs, based on the similarity of their associated network with those built

197 eins are assigned to organelles based on the similarity of their gradient distribution to those of we

198 ased on their phylogenetic closeness and the similarity of their MTL (mating-type like) loci, some Me

199 The similarity of these networks from different samples clos

200 COSINE computes the context similarity of two stretches of nucleobases given the sim

201 Because of the similarity of Zika and dengue viruses, an analogous unwa

202 Similarities on the cellular and neurochemical compositi

203 ir behavioral, morphological, and ecological similarities, one species competitively excludes the oth

204 d-based electrostatic potentials in terms of similarity or generating ensembles of electrostatic pote

205 rred orthology based either on pure sequence similarity or using gene-tree approaches.

206 ty of two stretches of nucleobases given the similarity over distributions of their short k-mers (k =

207 sing several statistical metrics to quantify similarity/overlap of high dimensional vector spaces.

208 Interface similarity permits pathogen proteins to compete with tho

209 spection of detected recombination events by similarity plots and (v) annotation of genomic regions.

210 Tutor similarity predicted firing rates most strongly during e

211 erial operational taxonomic units (OTUs, 97% similarity), primarily from Firmicutes (92.6%) and Prote

212 re of a random network's internal structural similarity, ranking networks on a continuous scale from

213 of an unknown sequence is predicted based on similarity reactions with known rate constants.

214 out genetic information; (ii) tests of niche similarity revealed that three ecotypes, identified on t

215 efore, despite the high degree of structural similarity, RUNX1B and RUNX1C isoforms have distinct and

216 m, the Hybrid Similarity Search, generates a similarity score based on matching both fragment ions an

217 classification algorithm to integrate these similarity scores into a single prediction of the CRM's

218 Phenotypic similarity scores were significantly lower among patient

219 This algorithm, the Hybrid Similarity Search, generates a similarity score based on

220 the intrinsic limitations of common sequence similarity searches and available databases.

221 BLAST provides sequence similarity searches of GenBank and other sequence databa

222 to improve the performance of computational similarity searches.

223 ht account for systematic errors in sequence similarity searches.

224 Determination of phylogenetic dis(similarities) showed that the bacterial community struct

225 evolved independently, but their structural similarity suggests a common ancestor.

226 One-way analysis of similarity tests indicated the archaeal community struct

227 an explain only one aspect of the Earth-Moon similarity (that is, (17)O).

228 icial neural network algorithm and elemental similarity, the miscibility of the unknown systems is fu

229 Despite points of similarity, there is no mention of Rushton's controversi

230 n clusters based on their metabolite profile similarities, thereby highlighting the common metabolite

231 proteins on its surface that have structural similarities to a protein crucial for invasion of red bl

232 The weed has morphological similarities to a wild relative of maize and has general

233 L-ORD shows striking phenotypic similarities to age-related macular degeneration (AMD),

234 biquitin ligase RNF146 that shows phenotypic similarities to CCD.

235 -HLA-F bound to the inhibitory LIR1 revealed similarities to high-affinity recognition of the viral M

236 Many, but not all, of these changes share similarities to normal older animals.

237 teraction and its structural and fingerprint similarities to other compounds belonging to the differe

238 Cpc-PH bears similarities to pulmonary arterial hypertension.

239 ggering a signaling cascade that shares some similarities to responses to well-known elicitors such a

240 a Plasmodium berghei protein with structural similarities to subtilisin-like proteins.

241 ared 98.6%, and 98.5% 16S rRNA gene sequence similarities to Sulfurospirillum multivorans.

242 he stepwise mechanism of the reduction shows similarities to the Birch reduction known from organic c

243 Arabidopsis (Arabidopsis thaliana) that has similarities to the cysteine-rich zinc-binding domain of

244 atio of 31 +/- 9 and demonstrated structural similarities to the gray matter distribution on conventi

245 ion on cellular stress and reveal functional similarities to the mammalian system.

246 P surface and spike-tip protein, p40, reveal similarities to the needle-tip invasin proteins SipD and

247 The NS5 structure has striking similarities to the NS5 protein of the related Japanese

248 We find striking similarities to the unrelated Chlamydiales, suggesting c

249 rphological mosaic with differences from and similarities to their western contemporaries.

250 me of ccr1 ProSNBE:CCR1 still exhibited many similarities to those of ccr1 mutants, regardless of the

251 omes with substantial structural and genetic similarity to bacteria.

252 ers as templates but these have low sequence similarity to CFTR and are not ion channels.

253 o exist filter sequences based on nucleotide similarity to contaminants and risk eliminating sequence

254 erma genus and Xyl2 contained a protein with similarity to endo-1,4-beta-xylanase.

255 lity of cancer cell lines is affected by the similarity to endogenous tumour cells.

256 Leptospira licerasiae-which shares sequence similarity to eukaryotic CNG and HCN channels-in the pre

257 Because of its structural similarity to glucose, genetic studies of 1,5-AG can del

258 lls with NOTCH overexpression, and molecular similarity to human tumors was observed, demonstrating t

259 rson's correlation analysis, and peak height similarity to identify ion adducts, duplicate peak repor

260 potential colibactin binding site and shares similarity to known hydrolases.

261 tistical method to quantify a CRM's sequence similarity to many different training sets of CRMs, and

262 vated abundance of a cyanomyophage with high similarity to previously sequenced isolates known to inf

263 vironments containing organisms with limited similarity to sequenced genomes, are needed.

264 Based on their geomorphic similarity to the features observed in our laboratory ex

265 portion of the active site shows structural similarity to the GTP-binding site of MoaA, suggesting t

266 Additionally, we observed similarity to the human phenotype of short stature and s

267 was an unfolded, compact monomer with little similarity to the native structure.

268 ore accurate incidence maps showing a closer similarity to the observed incidence distribution, and p

269 rtical topography, individual stability, and similarity to the primate AR organization link ARC1 to t

270 ions during singing correlated with acoustic similarity to tutor syllables, suggesting a process of o

271 B1 exhibits a remarkable degree of similarity to vaccinia virus-related kinases (VRKs), a f

272 Xyl1 contained three proteins with similarity to xylanase family 10, 62 and anarabinofurano

273 y domains with high amino acid compositional similarity to yeast prion domains.

274 rmance is associated with weaker FC temporal similarity together with altered switching between FC st

275 group of receptors that share core sequence similarities, together with a dispersed set of diverse '

276 Based on similarity values, the acceptable concentration in the j

277 ons, and greater inter-regional morphometric similarity was associated with stronger inter-regional c

278 Based on the signed similarity, we carry out the percolation analysis on thi

279 Based on this similarity, we hypothesized that resveratrol may antagon

280 At the same time, distinct similarities with chiral supramolecular and biological s

281 share morphological, biochemical, or genetic similarities with classic necrosis, necroptosis, parthan

282 es in the gymnosperm Pinus taeda shared some similarities with gbM genes in Amborella trichopoda.

283 to widespread human exposure, and structural similarities with known endocrine disruptors, concerns h

284 The modulation by serotonin has qualitative similarities with that for a decrease in stimulus contra

285 obic oxidation of aldehydes shares important similarities with that one of the recently revisited ben

286 Together, WarA and WarB have structural similarities with the bifunctional Escherichia coli lipo

287 tive analyses reveal sequence and structural similarities with the distant Acidobacteria LexA protein

288 d epidermal cells of hornworts show striking similarities with the earliest plant fossils.

289 ceptor that shares structural and functional similarities with the family of atypical chemokine recep

290 ls a double-wing structure indicating strong similarities with ZrZn2 and UGe2.

291 ly secreted proteins shared highest sequence similarity with archaeal and fungal enzymes, which peak

292 ositional role for Hofstenia muscle and this similarity with planarians suggests mesodermal muscle or

293 epidemic (Makona) shares significant genetic similarity with previously identified variants (Kikwit a

294 mphipathic helix and exhibits 42% amino acid similarity with SM N100.

295 otein of HAdV-C5 contains a region of strong similarity with the clip region of the known portal prot

296 been proposed that reconcile the Earth-Moon similarity with the inferred heterogeneous nature of Ear

297 lity, resident species with a high catabolic similarity with the invader efficiently reduced the inva

298 alogs, but the toxin does not share sequence similarity with these nucleases and lacks the characteri

299 d, is adopted in this study to calculate the similarities within Linked Tripartite Network (LTN), a h

300 -similarity conditions, we demonstrated self-similarity within the time variation of flow dynamics fo