ライフサイエンスコーパス: genomic database

1 n of polypeptides from mixtures (e.g., using genomic databases).

2 nd Helitron insertion was found in the maize genomic database.

3 nd used to identify the gene products in the genomic database.

4 -length 16S rRNA was employed to construct a genomic database.

5 ative on Sharing All Influenza Data (GISAID) genomic database.

6 search for similar profiles in a very large genomic database.

7 a microbial gene expression and comparative genomic database.

8 constructed MutEx, a pan-cancer integrative genomic database.

9 genomic homologs from the publicly available genomic databases.

10 chromosomal loci have been reported in human genomic databases.

11 identified in the expressed sequence tag and genomic databases.

12 e lengths--determined from data available in genomic databases.

13 ily databases and to search for new genes in genomic databases.

14 le procedure to identify protein homologs in genomic databases.

15 thical and legal implications for privacy in genomic databases.

16 ompiled a shared dataset from several cancer genomic databases.

17 comes to devising a governance framework for genomic databases.

18 achieving liability guarantees when sharing genomic databases.

19 ity in natural enzyme families directly from genomic databases.

20 y of BRAF alterations with real-world cancer genomic databases.

21 xtract biological relevance from large human genomic databases.

22 nilla fingerprinting scheme specifically for genomic databases.

23 ibitors with systematic mining of functional genomic databases.

24 and currently) to generate the knowledge in genomic databases.

25 red in a diverse collection of large, public genomic databases.

26 data were extracted from publicly available genomic databases.

27 -represented in both isolate collections and genomic databases.

28 ed representation of West Africans in public genomic databases.

29 ing speed for the main classes of queries on genomic databases.

30 ics analysis to identify an authentic PCM in genomic databases.

31 ical articles and automatically maps them to genomic databases.

32 eveloped to predict TMBB-encoding genes from genomic databases.

33 ditions to the EuPathDB family of functional genomic databases.

34 cy' of the information contained in existing genomic databases.

35 Bex5 and mouse Bex6) were discovered through genomic databases.

36 targets through efficient mining of nematode genomic databases.

37 s the mappings between microarray probes and genomic databases.

38 ear proteins in three different apicomplexan genomic databases.

39 and gene annotations are linked to relevant genomic databases.

40 MaizeGDB is the Maize Genetics and Genomics Database.

41 (or systems) analysis of the combined cancer genomics database.

42 ades to CnidBase, the Cnidarian Evolutionary Genomics Database.

43 rch for novel four-helix-bundle cytokines in genomics databases.

44 specific genes and pathways using functional genomics databases.

45 tion of extremal sequences and profiles from genomic databases; (4) distribution and asymptotic behav

46 op a system that lets a user of a particular genomic database access another related database as if t

47 chniques to achieve robust fingerprinting of genomic databases against correlation attacks.

48 w the incorporation of sequences from public genomic databases aided genomic surveillance early in th

49 these genes has a counterpart in the poplar genomic database along with additional members of the A,

50 Genomic database analysis of human transcripts led us to

51 (TRAIL) and its receptors has increased via genomic database analysis to include four distinct recep

52 . an allele) on a server that stores a large genomic database and aims to receive allele-associated i

53 E-Hunter was evaluated by searching the rice genomic database and comparing the output with known ric

54 We analyzed recent L1 inversions from the genomic database and discovered several findings that su

55 ragments of three fog genes in the zebrafish genomic database and isolated full-length coding sequenc

56 me Portal provides unified access to all JGI genomic databases and analytical tools.

57 l provides a unified access point to all JGI genomic databases and analytical tools.

58 t cancer, we used expressed sequence tag and genomic databases and discovered POTE, a new primate-spe

59 In this study we searched genomic databases and found Tg orthologs in all vertebra

60 to mine for their presence in public (meta-) genomic databases and link findings to associated metada

61 results demonstrate the value of large-scale genomic databases and phenotyping of human loss-of-funct

62 ), the program will allow rapid screening of genomic databases and sequence annotation when fold simi

63 unprecedented way, owing to the expansion of genomic databases and the development of high-throughput

64 ity, including bench scientists, curators in genomic databases, and bioinformaticians.

65 was discovered in a computational screen of genomic databases, and its homology to mouse thymic stro

66 ng and enables multiparty tests, analyses of genomic databases, and operations involving multiple dat

67 ionships, and detecting annotation errors in genomic database archives.

68 n attacks against fingerprinting schemes for genomic databases are very powerful.

69 Using the consensus to screen the guinea pig genomic database (Assembly CavPor2) with Ensembl BlastVi

70 Genomics Data is an international functional genomics database at the European Bioinformatics Institu

71 of a prepilin peptidase from the V. cholerae genomic database by virtue of its homology with the PilD

72 ce are described, and a perspective on how a genomic database can expedite research and crop improvem

73 ivergent evolution of protein sequences from genomic databases can be analyzed by the use of differen

74 genetic causes and constructed the Clinical Genomic Database (CGD), a searchable, freely Web-accessi

75 ed using the deidentified nationwide Clinico-Genomic Database (CGDB) from January 1, 2011, through De

76 n of non-European ancestry groups in current genomic databases complicates interpretation of their ge

77 Our new genomic databases contain annotations for thousands of n

78 new resource will be particularly useful to genomic database curators.

79 comparative analyses of the rapidly growing genomic databases, dedicated computational approaches ar

80 Given a set of bait loci and a genomic database defined by the user, this protocol comp

81 tension modules that can be adopted in other genomics databases developed using the Tripal system.

82 The Phytophthora Functional Genomics Database, developed by the National Center for

83 The existing genomic databases displayed via the Genboree browser als

84 ta dynamically retrieved from a dozen common genomics databases (e.g. NCBI, Ensembl, UniProt, WormBas

85 ques also preserve the utility of the shared genomic databases, e.g. the mitigation techniques only l

86 PlantGDB is a genomics database encompassing sequence data for green p

87 As genomic databases expand and artificial intelligence too

88 ity and simplicity make it extensible to any genomic database exposing its data for programmatic acce

89 ses how physiological genomic tools, such as genomic databases, expressed sequence tag databases and

90 data and then apply it to complex integrated genomics databases, finding that high-level EGFR amplifi

91 PlasmoDB is a functional genomic database for Plasmodium spp. that provides a res

92 By searching the S. cerevisiae genomic database for the consensus sequence that acts as

93 ToxoDB is a genome and functional genomic database for the protozoan parasite Toxoplasma g

94 t is applicable for use with a wide range of genomic databases for any species of interest.

95 sion patterns and (iv) directly access other genomic databases for clones of interest.

96 t anatomy and morphology in publications and genomic databases for different species.

97 In order to "mine" genomic databases for HRGPs and to facilitate and guide

98 The availability of genomic databases for many species is uncovering network

99 In human studies, we searched human genomic databases for mutations in phospholemman in the

100 ve been identified by iterative searching of genomic databases for ORFs homologous to known Psi synth

101 ore, this computational method for searching genomic databases for potential transcription factor bin

102 t uses protease-generated peptides to search genomic databases for protein identification.

103 Observations from the genomic databases for several eukaryotic species suggest

104 ferfish Spheroides nephelus and interrogated genomic databases for the Japanese pufferfish Takifugu r

105 Two alternative promoter regions exist in genomic databases for the SLCO1A2 gene.

106 have developed a computer algorithm to scan genomic databases for transcription factor binding sites

107 were not distinguished in the literature and genomic databases from mitochondrial homologs involved i

108 data in the form of a specialized functional genomics database, genome-wide maps of protein-DNA inter

109 Just as comparison of entries in genomic databases has been a vital algorithmic problem t

110 The unprecedented scale of genomic databases has revolutionized our ability to iden

111 015 update, MaizeGDB, the Maize Genetics and Genomics database, has expanded to support the sequenced

112 ological advances and the rapid expansion of genomic databases have facilitated the discovery of gene

113 Current cancer genomics databases have accumulated millions of somatic

114 SoyBase, a USDA genetic and genomics database, holds professionally curated soybean

115 Several genomic databases host data and metadata for an ever-gro

116 rder Amish populations were determined using genomic databases hosted by the Clinic for Special Child

117 ify and retrieve gene family homologs from a genomic database, (ii) characterize gene structure and (

118 ndeavored to: (i) identify -1 PRF signals in genomic databases, (ii) apply the protocol to the yeast

119 cientists with (i) a comprehensive bacterial genomics database, (ii) a plethora of associated data re

120 All of these problems make interpretation of genomic databases increasingly difficult.

121 Recent clinical studies and genomic databases indicate that GABA(A) receptor holds s

122 We highlight that cross-referencing between genomic databases is required to comprehensively assess

123 CnidBase, the Cnidarian Evolutionary Genomics Database, is a tool for investigating the evolu

124 StellaBase, the Nematostella vectensis Genomics Database, is a web-based resource that will fac

125 pair are readily identified by searching the genomic database, it has not been established that these

126 urge microbiologists, bacterial collections, genomic databases, journals, and public health boards to

127 Through queries of nucleotide and genomic databases, known US genes were identified (capri

128 The Maize Genetics and Genomics Database (MaizeGDB) is a central repository for

129 The Maize Genetics and Genomics Database (MaizeGDB) serves the maize (Zea mays)

130 eller is available at the Maize Genetics and Genomics database (MaizeGDB), where we have mapped over

131 Newly-available genomic databases make it feasible to identify conserved

132 ure and that a CNT homolog in the C. elegans genomic database may function as a broadly selective nuc

133 Genomic database mining has been a very useful aid in th

134 Here, we present a comparative genomics database named PIECE for Plant Intron and Exon

135 Through pattern searches of genomic databases, new members of the growing family of

136 the widespread genus Acropora by building a genomic database of 595 coral samples from different oce

137 update of the Hymenoptera Genome Database, a genomic database of hymenopteran insect species.

138 A gene designated pldA was identified in the genomic database of P. aeruginosa PAO1 encoding a protei

139 cid sequence analysis and examination of the genomic database of PAO1 revealed that the N terminus of

140 Taking advantage of the uniquely large genomic database of SARS-CoV-2, we examine the impact of

141 PCR primers designed from sequences in the genomic database of strain AT were used to identify and

142 Genomic databases of allele frequency are extremely help

143 Coupled with structural data, comprehensive genomic databases of mutations such as the 1000 Genomes

144 6 identified genera lacked representation in genomic databases of phage isolates.

145 . yoelii genes can then be identified in the genomic databases of Plasmodium falciparum and Plasmodiu

146 identified in the expressed sequence tag and genomic databases of rice.

147 in this study, is integral for expanding our genomic databases of space-relevant microbes.

148 o the supplied data to produce a comparative genomic database or multi-layered annotation database.

149 an exhaustive analysis of the P. falciparum genomic database (PlasmoDB) aimed at identifying and cla

150 A query of the GenBank genomic database predicts the existence of a similar gen

151 Genomic databases provide rapidly growing data for varia

152 The 3D-GENOMICS database provides structural annotations for pr

153 CASTs are exceedingly rare in genomic databases; recent surveys have reported Tn7-like

154 Moreover, since malicious genomic database recipients may compromise the embedded

155 de quality control metrics for the FDA-ARGOS genomic database resource and outline the need for genom

156 The Eukaryotic Pathogen Genomics Database Resource is a collection of databases

157 A search of C. neoformans genomic databases revealed that MP88 shares this feature

158 ce homology searches of the public S. aureus genomic databases revealed the presence of another putat

159 Analysis of cancer genomic databases reveals that PHLDB3 is amplified and/o

160 A human genomic database search has revealed a number of sequenc

161 A genomic database search revealed that c-type cytochromes

162 Our initial genomic database searches uncovered a novel THD signatur

163 of human zn-16 by Southern hybridization and genomic database sequence analysis also indicated a sing

164 ebaDB and MicrosporidiaDB are new functional genomic databases serving the amoebozoa and microsporidi

165 Data mining of a genomic database showed that RSV replication induced coo

166 Our analysis of cancer genomic databases showed that patients with wild-type RB

167 lated by soxRS were identified in an E. coli genomic database; some of these genes have functions tha

168 e human, microbial, Drosophila or C. elegans genomic databases, suggesting a function specific to pla

169 Tomato Functional Genomics Database (TFGD) provides a comprehensive resour

170 The availability of high-throughput genomic databases that establish protein dispensability,

171 flects pronounced limitations in the African genomic database, the artificiality of the colonial maps

172 The recent use of human genomic databases, the existence of freely available alt

173 GDB 6.0 is the first major genomic database to provide read/write access directly t

174 mputational tools exploiting rapidly growing genomic databases to characterize protein-protein intera

175 features of genomes and information in other genomic databases to further improve the compression att

176 ers remaining in the SRO were used to screen genomic databases to identify large-insert clones.

177 Here we have screened near-complete mouse genomic databases to obtain a first global draft of the

178 rest against carefully curated, ready-to-use genomic databases to produce an MSA.

179 outbreak investigation depends on accessible genomic databases to provide vital genetic context.

180 PFGD is integrated with the Solanaceae Genomics Database to help provide insight into the mecha

181 ene encoding FOR (for) was identified in the genomic database, together with those encoding AOR and G

182 ope (2 sites) and from biomedical population genomic databases (UK Biobank [United Kingdom], Geisinge

183 Since existing functional genomic databases uniformly record the annotations at th

184 rms are generally unavailable and functional genomic databases universally store the functional annot

185 A BLAST search of the GenBank(TM) genomic database using the NmU-R1 cDNA sequence revealed

186 and other multi-transmembrane proteins from genomic databases using structural features.

187 In the present study, a lamprey genomic database was used to identify homologs of CSPGs,

188 ion codon commonly assigned to lipB genes in genomic databases was shown to produce a nonfunctional E

189 StellaBase, the Nematostella Genomics Database, was developed in 2005 as a resource t

190 Via experiments using a real-world genomic database, we first show that correlation attacks

191 pled receptors through homology searching of genomic databases, we identified a partial clone (GPCR10

192 mor tissue and cancer cell line encyclopedia genomic databases, we identified the first somatic mutat

193 on Dalbergia, as well as contributing to the genomic database where plants, particularly threatened o

194 Public genomic databases, which are often used to guide genetic

195 mparison of an individual's geno-type with a genomic database will allow the prescription of drugs to

196 d it can be confidently forecasted that vast genomic databases will be generated in the next few year

197 By extensively searching the genomic database with the IgV region of PD-1, we identif

198 dentifying multi-transmembrane proteins from genomic databases with a specific application to identif

199 re are thousands of beta-barrels reported in genomic databases with approximately 2-3% of the genes i

200 BLASTP query of available genomic databases with critical zinc finger residues fro

201 Searching genomic databases with the G. lamblia sequence, we also

202 uct and efficiently search spectra against a genomic database, with no prior knowledge of encoded pro

203 By searching the H. influenzae genomic database, with sequences of known LPS biosynthet

204 potential functional missense variants from genomic databases within ACE2/SLC6A19/transmembrane seri

205 en successfully identified from, the largest genomic database yet available (C. elegans), which is eq