ライフサイエンスコーパス: genetic resource

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

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

3 ucity of dense physical markers or extensive genetic resources.

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

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

6 reserved within this species and other plant genetic resources.

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

8 ionary genetics, ecology and conservation of genetic resources.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

25 These genetic resources are generated through a variety of bre

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

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

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

29 .osseeds.org), aims to ensure access to crop genetic resources by embracing an open source mechanism

30 licly available through the Kyoto Drosophila Genetics Resource Center.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

71 The genetic resources for salt tolerance in rice germplasm e

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

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

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

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

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

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

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

79 Wild almond genetic resources have still not received considerable a

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

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

82 Underutilized genetic resources including landraces and wild relatives

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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