ライフサイエンスコーパス: genetic resource

1 ent stability for use as a long-term reverse-genetic resource.

2 importance of this sunflower population as a genetic resource.

3 e of climatic regimes and represent a unique genetic resource.

4 interact directly with other web-based mouse genetic resources.

5 ucity of dense physical markers or extensive genetic resources.

6 mes, and the cumulative wealth of associated genetic resources.

7 less land, while conserving soil, water, and genetic resources.

8 s, and facilitates long-term conservation of genetic resources.

9 owards conservation and exploitation of crop genetic resources.

10 in Europe, European breeds dominate current genetic resources.

11 by various environmental factors and limited genetic resources.

12 pproach to conserve, manage and characterize genetic resources.

13 rtant tool for the cryopreservation of avian genetic resources.

14 cus), and may therefore contain novel cattle genetic resources.

15 t level is essential for the conservation of genetic resources.

16 y to unlock the full potential of organellar genetic resources.

17 ibute to the sustainable management of pecan genetic resources.

18 t be part of a risk assessment including pig genetic resources.

19 and social issues associated with acquiring genetic resources.

20 om this study contibites to manage sugarcane genetic resources.

21 ts knowledge can help us better manage their genetic resources.

22 ure conditions for the preservation of avian genetic resources.

23 been hindered by the limited availability of genetic resources.

24 ed its quality by using a suite of molecular genetic resources.

25 obal efforts and decision-making to conserve genetic resources.

26 p breeding and allow efficient management of genetic resources.

27 or those responsible for the conservation of genetic resources.

28 common for species with few or no classical genetic resources.

29 hers, and breeders of under-researched plant genetic resources.

30 reserved within this species and other plant genetic resources.

31 re and a more efficient utilization of plant genetic resources.

32 can zebu cattle are valuable and widely used genetic resources.

33 ionary genetics, ecology and conservation of genetic resources.

34 tion sites-all ideal qualities for a systems genetics resource.

35 ful for wheat breeding to generate resistant genetic resources against H. avenae.

36 oth improve upon the utility of an important genetic resource and attest to a complex, genetic basis

37 eySNP is a web-based resource created by the Genetic Resource and Informatics Program at the Oregon N

38 Hence, we provide an expanded genetic resource and structural perspective for understa

39 Extensive genetic resources and a high-quality genome sequence pos

40 a small genome size, short life cycle, vast genetic resources and amenability to transformation, it

41 rs as they study the phenotypic diversity of genetic resources and apply increasingly complex traits

42 ules for access and benefit sharing (ABS) of genetic resources and associated traditional knowledge h

43 aits in pear through GWAS, which extends the genetic resources and basis for facilitating molecular b

44 Overall, we report critical genetic resources and biological insights impacting our

45 daptation, as well as optimal utilisation of genetic resources and breed improvement.

46 portant implications for conserving valuable genetic resources and breeding improvement of chickens f

47 Overall our work has developed genetic resources and elucidated the likely mechanisms a

48 Recent progress in algal genetic resources and environmental chemistry have promo

49 Supported by cutting-edge genetic resources and methodologies as well as collabora

50 The preservation of our genetic resources and production of high-quality seeds d

51 te molecular evolutionary data with existing genetic resources and provide a straightforward user int

52 A summary of available human genetic resources and recommended best practices is prov

53 The lack of genetic resources and the crop's association with the di

54 This study offers valuable genetic resources and theoretical support for breeding c

55 Marked advances in genetic resources and tools are now making it possible t

56 Our approach to UNICORN uses existing genetic resources and various statistical tools to analy

57 ng track of ownership of germplasm and plant genetic resources, and (6) promoting ongoing IP/TP manag

58 with other mouse phenotyping and functional genetics resources, and are committed to initiatives to

59 Thus, sufficient genetic resources appear to be critical for maintaining

60 These genetic resources are generated through a variety of bre

61 rmation about population diversity and where genetic resources are limited.

62 evolutionary change in wild and domesticated genetic resources, as well as for developing strategies

63 mallholder farmers, and to preserve existing genetic resources at poultry research facilities.

64 ate new perspectives for the conservation of genetic resources at worldwide and taxonomic-wide scales

65 e have been limited, however, by the lack of genetic resources available for hamsters.

66 iomyopathy and the applicability of the vast genetic resources available in Drosophila to systematica

67 innovative system of conservation and use of genetic resources based on a decentralized approach for

68 al represents not only a repository of plant genetic resources but also an asset for nature-based sol

69 x chronic stress-here we leveraged a systems genetics resource: BXD recombinant inbred mice (BXD5, BX

70 licly available through the Kyoto Drosophila Genetics Resource Center.

71 both in situ natural populations and ex situ genetic resource collections can greatly enhance plant b

72 lthough maintained with significant efforts, genetic resource collections remain underutilized, due t

73 versity of the world's crops through ex situ genetic resource collections.

74 However, due to limited genetic resources, compounded with genome complexity, fu

75 e Collaborative Cross (CC) is a robust mouse genetics resource comprised of a panel of recombinant in

76 ding/domestication efforts and support plant genetic resource conservation strategies.

77 High Throughput Sequencing Laboratory of the Genetic Resources Core Facility at the Johns Hopkins Uni

78 netic resources with twofold objectives: (i) genetic resources could be reservoirs of host gene varia

79 The novel expression pattern of OAMB and its genetic resource described in this study will help advan

80 e 1994, research projects have characterized genetic resources, developed modern tools for high-throu

81 Advances in genetic resources, DNA markers, DNA sequence information

82 x increases the utility and equity of public genetic resources, empowering novel research opportuniti

83 genome scan of 345 families from the Autism Genetic Resource Exchange (AGRE) (AGRE_1), gave the stro

84 m risk in multiplex families from the Autism Genetic Resource Exchange (AGRE) and find strong evidenc

85 mons Simplex Collection (SSC) and the Autism Genetic Resource Exchange (AGRE) cohorts of children wit

86 volving 167 nuclear families from the Autism Genetic Resource Exchange (AGRE) demonstrated that two i

87 covering the gene more completely, in Autism Genetic Resource Exchange (AGRE) families.

88 Autism Speaks' Autism Genetic Resource Exchange (AGRE) represents the largest

89 We analyzed 1,532 families from the Autism Genetic Resource Exchange (AGRE) to assess the impact of

90 ssociation study of families from the Autism Genetic Resource Exchange (AGRE), we used two novel algo

91 an origin (HUTT), and a subset of the Autism Genetic Resource Exchange (AGRE).

92 their families were studied using the Autism Genetic Resource Exchange cohort genome-wide association

93 Families in the Autism Genetic Resource Exchange collection (933 families, enco

94 tiple heterogeneous data sets, to the Autism Genetic Resource Exchange collection of families by anal

95 account the familial structure of the Autism Genetic Resource Exchange data, we then determined wheth

96 lex autism families obtained from the Autism Genetic Resource Exchange dataset.

97 Targeted analysis of the Autism Genetic Resource Exchange genotype collection reveals a

98 wo or more autistic probands from the Autism Genetic Resource Exchange to identify autism loci.

99 A second cohort from The Autism Genetic Resource Exchange with multiplex families displa

100 language-related autism QTL in AGRE (Autism Genetic Resource Exchange) trios and found significant a

101 re performed in 590 families from the Autism Genetic Resource Exchange, a largely multiplex autism sp

102 ge analyses, in 152 families from the Autism Genetic Resource Exchange, focusing on three traits deri

103 f the largest ASD family cohorts, the Autism Genetics Resource Exchange and Autism Genome Project (AG

104 ) haplotype holds significant potential as a genetic resource for breeding thermotolerant grapevine v

105 These Gscl null mice will be an important genetic resource for crosses with other mouse models of

106 nthesis in Brassica vegetables, and offers a genetic resource for development of new varieties with e

107 h tolerance to stress represents an untapped genetic resource for discovery of disease-resistance gen

108 ied candidate genes could be the fundamental genetic resource for enhancement of goat production and

109 ed transposon insertion sites are a valuable genetic resource for functional genomics studies because

110 esults from this screen provide an important genetic resource for further evaluation of LRRK2 functio

111 ons of the genome, and serve as the ultimate genetic resource for future biomedical research and prec

112 he tph genes reveals homologous operons as a genetic resource for future biotechnological and metabol

113 hed with seawater, they represent a valuable genetic resource for improving salinity tolerance in com

114 E1 in maize ear development, providing a new genetic resource for maize yield improvement.

115 These data provide a rich genetic resource for mapping activity and density of C.

116 This allelic series should provide a useful genetic resource for ongoing studies of flavonoid enzyme

117 As such, it provides a unique genetic resource for plant cell wall degrading microbial

118 ive genetic information provides a versatile genetic resource for rational engineering of secondary m

119 LD1, therefore, could represent an important genetic resource for resistance breeding and/or genome e

120 This new line represents a rigorous genetic resource for studying the role of PrP(C) in phys

121 A suitable genetic resource for such studies, the Medaka Inbred Kiy

122 environmental stress, represents a critical genetic resource for sustaining future supply.

123 y number changes, providing an unprecedented genetic resource for this multicellular organism.

124 series of mutations is an extremely valuable genetic resource for understanding gene function.

125 m aestivum, genomes AABBDD) and an important genetic resource for wheat.

126 -barley chromosome addition lines are useful genetic resources for a variety of studies.

127 simple sequence repeat) markers using online genetic resources for analyzing genetic diversity and po

128 eologs) in allopolyploids provide additional genetic resources for changes in molecular, biochemical,

129 ds existing biodiversity and secures poultry genetic resources for climate resilience, biosecurity, a

130 ry changes imply unrealized risks present in genetic resources for crop improvement and human food pr

131 foundation for using the available hazelnut genetic resources for crop improvement, we produced a fu

132 finds more efficient ways to leverage public genetic resources for crop improvement.

133 ultiple-nutrients would be useful as the key genetic resources for developing biofortified and agrono

134 l regulation of starch synthesis and provide genetic resources for enhancing grain yield in wheat and

135 tocol, and the International Treaty on Plant Genetic Resources for Food and Agriculture, which collec

136 loci and candidate genes provide significant genetic resources for improving agronomic performance an

137 This study provides rich genetic resources for improving SOC and valuable insight

138 g genetic constructs, combined with the many genetic resources for its host (Escherichia coli), have

139 Near-isogenic lines (NILs) are valuable genetic resources for many crop species, including soybe

140 Because genetic resources for milkweed have lagged behind those

141 data generated over decades, and impressive genetic resources for plant G proteins have made it poss

142 ort on children with JIA and provides useful genetic resources for research communities particularly

143 The genetic resources for salt tolerance in rice germplasm e

144 analysis supports the ample availability of genetic resources for the development of citrus cultivar

145 ng functional sequences that may provide new genetic resources for the evolution of new genes or the

146 To develop genetic resources for the improvement of insects as food

147 Limited genetic resources for the Syrian hamster (Mesocricetus a

148 n genome evolution, and to provide permanent genetic resources for this neglected group, we construct

149 Here, we strengthen genetic resources for this orphan crop by producing a de

150 The purpose was to consolidate the numerous genetic resources for this species into a manageable pan

151 se genes could be greatly accelerated by new genetic resources for unicellular organisms.

152 eloped cytogenetic stocks represent valuable genetic resources for wheat improvement, highlighting th

153 tion of the Caenorhabditis elegans-molecular genetics resource for general nematological research, fo

154 between functional genomics data and reverse-genetics resources for the genetic dissection of C. neof

155 Our aim is to identify novel resistant genetic resources from wild soybean for the development

156 Utilizing the genetic resources generated here, we show that the promo

157 In an effort to develop legume genetics resources, > 21 700 Tnt1 retrotransposon insert

158 y adapted domesticated animals that conserve genetic resources, guaranty food security and provide ag

159 ddressing Indigenous rights and interests in genetic resources has become increasingly challenging in

160 nd the availability of appropriate molecular-genetic resources have allowed us to directly evaluate t

161 By-in-large these genetic resources have not been quantified.

162 Wild almond genetic resources have still not received considerable a

163 relatives in their natural habitats and crop genetic resources held in conservation repositories.

164 ve elevated genomic complexities and limited genetic resources, hindering the application of marker-a

165 and breeding programs of underutilized plant genetic resources, however, even low-depth references ma

166 ce and analyze two new complementary sets of genetic resources: (i) a set of 172 re-sequenced genomic

167 We demonstrate the utility of this unique genetic resource in providing clinically relevant insigh

168 imal breeds constitute an invaluable pool of genetic resources in a changing environment.

169 rice domestication, and guide utilization of genetic resources in breeding programmes aimed at crop i

170 -modal modulation by taking advantage of the genetic resources in Drosophila.

171 hermore, this work demonstrates the value of genetic resources in Nb, which will facilitate elucidati

172 esent there is no example that considers pig genetic resources in this context.

173 Underutilized genetic resources including landraces and wild relatives

174 ificant progress has been made in developing genetic resources, including the recently completed refe

175 ndings support the integration of indigenous genetic resources into breeding programs designed to opt

176 ends observed in C-peptide decline in the UK Genetic Resource Investigating Diabetes (UK GRID) cohort

177 aurine and recent indicine admixture-derived genetic resources is at the root of the present success

178 We argue that ongoing curation of genetic resources is crucial in accurately annotating pr

179 ith a large collection of publicly available genetic resources, it is of interest to develop a popula

180 er practices contribute to conserve manioc's genetic resources, maintaining variation of potential ad

181 omically important model crop plant, rich in genetic resources, maize has been useful for uncovering

182 distance, in addition to sampling design for genetic resource management and conservation.

183 Almond (Prunus dulcis (Miller) D.A. Webb) genetic resources (Marcona, Guara, Non Pareil, IXL, AI,

184 eding endeavor to be effective, a variety of genetic resources must be available and accessible.

185 es in bioinformatics and the availability of genetic resources now make it possible to narrow the gen

186 a unique opportunity to investigate the true genetic resource of once endangered Korean native black

187 in the Collaborative Cross (CC), a powerful genetic resource of recombinant inbred mouse strains der

188 able elements (TEs) are an abundant and rich genetic resource of regulatory sequences(1-3).

189 In order to conserve genetic resources of pollinator species for their option

190 However, the current genetic resources of Scots pine are under high pressure

191 nd management and to the exploitation of the genetic resources of soil.

192 f these findings for the conservation of elm genetic resources of these findings.

193 They further suggest that the considerable genetic resources of this species can be harnessed to in

194 However, the genetic resources of this species offer substantial pote

195 manner, tandem repeats serve as a renewable genetic resource offering a bountiful source of alternat

196 Plant genetic resources (PGR), including collections held in n

197 sponse of the Collaborative Cross (CC) mouse genetic resource population to high-fat diet (HFD) induc

198 ew spontaneous mutations in strains from the Genetic Resource Science (GRS) production colony.

199 ansplantation can help preserve the species' genetic resources semipermanently, its germ cell behavio

200 eavily on public research; thus, many of the genetic resources serve a dual purpose for both academic

201 the many mouse and chicken embryological and genetic resources should increasingly provide new insigh

202 To address this, we establish a vertebrate genetic resource specifically to allow for robust genoty

203 at are discussed include Arabidopsis reverse genetic resources, stock centers, databases and online t

204 s the challenges in utilizing the wheat wild genetic resources, such as the linkage drag and cross-co

205 ity and access to these food sources and the genetic resources supporting their production, and give

206 Native chickens are endangered genetic resources that are kept by farmers for different

207 In combination with the extensive genetic resources that are now available, this platform

208 to preserve and effectively utilize the rich genetic resources that crop wild relatives offer while a

209 elative to resequencing and provide valuable genetic resources that enable effective use of pigs in b

210 iously sequenced strains, constitute a novel genetic resource, the "100-genomes" strains.

211 o collaboratively integrate widely available genetic resources, thereby boosting the statistical powe

212 ective genome-wide characterization of plant genetic resources through paired-end genotyping-by-seque

213 defense responses and identified a new host genetic resource to combat these important plant viral p

214 e DNA for at least 1000 years and serve as a genetic resource to study the domestication of this cere

215 MIKK panel, which provides a rich and unique genetic resource to the community by enabling large-scal

216 logists to engage with human geneticists and genetic resources to advance the study of congenital dis

217 These genotypes could serve as valuable genetic resources to dissect the molecular networks unde

218 Bridging populations created by crossing genetic resources to elite lines prior to introduction i

219 These approaches use efficiently genetic resources to sustain genetic gain and maintain n

220 maintenance and exploitation of food-legume genetic resources, to date largely unexploited, form the

221 n of PHO1 expression via its uORF might be a genetic resource useful-both in natural populations and

222 The Vavilov Institute of Plant Genetic Resources (VIR), in St. Petersburg, Russia, hous

223 To capitalize on this genetic resource, we have applied optimized sequencing a

224 vered in plant metagenomes can be a valuable genetic resource when novel viruses are rescued and char

225 ic Syndrome In Men (METSIM) cohort, a unique genetic resource which contains metabolic measurements,

226 Comprehensive reverse genetic resources, which have been key to understanding

227 Crop wild relatives harbor exotic and novel genetic resources, which hold great potential for crop i

228 protecting the environment and managing all genetic resources will also be needed.

229 Creation of additional genomic and genetic resources will make the mouse an even more usefu

230 ealthy volunteers from the Hebrew University Genetic Resource with the Illumina HumanOmni1-Quad platf

231 of conserving germplasm is the securement of genetic resources with numerous important traits, which

232 should consider conservation programs of pig genetic resources with twofold objectives: (i) genetic r

233 verse range of environments and are a unique genetic resource within the genus Citrus.

234 The Caribbean harbors diverse genetic resources, yet microbiome research in the region