ライフサイエンスコーパス: genome mapping

1 ale-specific region of Y chromosome (MSY) by genome mapping.

2 iating the need for labor-intensive physical genome mapping.

3 s facilitate high-throughput automated whole-genome mapping.

4 bination, precluding the use of conventional genome mapping.

5 letely missed by methods based on protein-to-genome mapping.

6 most human genes that serve as landmarks in genome mapping.

7 Comparative genome mapping also provided an inventory of potential c

8 for various biological applications such as genome mapping and epigenome editing that make use of di

9 With a combination of whole-genome mapping and exome sequencing, we identified three

10 genomes, will be useful molecular tools for genome mapping and genetic analyses of mutations.

11 Recent progress in whole-genome mapping and imaging technologies has enabled the

12 , and emerging technologies, such as optical genome mapping and long-read DNA sequencing, are not ava

13 ~3000 genomes and ~1500 exomes with optical genome mapping and long-read sequencing for confirmation

14 atest state-of-the-art technologies (optical genome mapping and long-read sequencing)-to effectively

15 By using deep sequencing, genome mapping and manual curations, we have characteris

16 such as long-read genome sequencing, optical genome mapping and multiomic profiling, has improved dia

17 Genome mapping and phylogenetic analyses indicate that t

18 We investigated the use of whole-genome mapping and pulsed-field gel electrophoresis (PFG

19 ry to our expectations, based on comparative genome mapping and sequence characteristics, the chicken

20 For genome mapping and sequencing, we prepared BAC libraries

21 l mapping in nanochannels is useful in whole-genome mapping and SV detection, but it is not possible

22 tein sequence databases along with taxonomy, genome, mapping and protein structure information, plus

23 Biophysical, genome mapping, and mutagenesis studies of FoxA1 reveals

24 Using mass spectrometry, genome mapping, and single-molecule tracking methods, we

25 Herein, we use a whole genome mapping approach to evaluate a four-generation pe

26 Here, we review recent advances in 3D genome mapping approaches, our understanding of the soph

27 several complementary sequence assembly and genome mapping approaches.

28 Genetic variation data, sequences and genome mappings available for 10 species, including Arab

29 Large genome-mapping consortia and thousands of genome-wide as

30 Whole-genome mapping could ultimately define the causative gen

31 rovide comprehensive public repositories for genome mapping data from farmed species and other animal

32 hat offered by GDB or MGD for human or mouse genome mapping data, respectively.

33 dependence and supports export of integrated genome-mapping data in the extensible markup language (X

34 mentation of a CORBA prototype for an animal genome mapping database are described.

35 Gramene is a comparative genome mapping database for grasses and a community reso

36 Gramene is a comparative genome mapping database for grasses and a community reso

37 Genome mapping efforts and the initial sequencing of lar

38 Recent genome-mapping experiments have identified a non-canonic

39 creasing the efficiency and effectiveness of genome mapping for recalcitrant outcrossing species.

40 model can be used to assess the accuracy of genome mappings for annotated P-element insertions.

41 g the dominant source of genetic markers for genome mapping, forensic testing, and population studies

42 Whole-genome mapping (formerly optical mapping), which is a hi

43 Metabolome-to-genome mapping identified 56 candidate genes expressed i

44 g, population studies, linkage analysis, and genome mapping in Chlamydomonas.

45 96 in order to harness the extensive work in genome mapping in crop plants in the UK.

46 tion hybrid panels are already available for genome mapping in human and mouse.

47 ysis and linkage disequilibrium analysis for genome mapping in outcrossing populations.

48 Genome mapping in the dog is in its early stages.

49 Linkage analysis using microsatellite-based genome mapping in these RI strains revealed four candida

50 issues in developing CORBA applications for genome mapping information systems in the Internet envir

51 Whole-genome mapping is a viable alternative tool for the epid

52 esource development and expression analysis, genome mapping, library and DNA bank screening, mutagene

53 Advanced 3D genome-mapping methods that combine proximity ligation a

54 We applied TAPS to the whole-genome mapping of 5mC and 5hmC in mouse embryonic stem c

55 quencing (ChIP-seq) has revolutionized whole-genome mapping of DNA-binding protein sites.

56 ethod can be used for (i) rapid and reliable genome mapping of highly homologous influenza B viruses

57 A whole-genome mapping of human BP-specific CD4+ T cell response

58 Genome mapping of LOT1 in comparison with the other spli

59 3D genome mapping of NODxC57BL/6 F1 thymocytes revealed tha

60 pipelines/tools for conducting simultaneous genome mapping of pathogen-derived and host reads from s

61 Current methods for whole-genome mapping of protein-DNA interactions, performed by

62 -seq) has become the gold standard for whole-genome mapping of protein-DNA interactions.

63 Genome mapping of these Cys-stalled ribosomes unexpected

64 Significant progress in genome mapping of this crop has also been made.

65 This study detailed the genome mapping of three cotton phytochrome genes with ne

66 Whole-genome mapping of two consanguineous families identified

67 This study evaluated optical genome mapping (OGM) as an efficient, accurate approach

68 Optical genome mapping (OGM) is an innovative technique capable

69 Optical genome mapping (OGM) technology offers an efficient appr

70 Therefore, optical genome mapping (OGM) was applied to investigate 104 NTD

71 reads, followed by validation using optical genome mapping (OGM).

72 reconstruct BFB amplifications using optical genome mapping (OGM).

73 atic instability was investigated by optical genome mapping on cerebellar and frontal cortex and unaf

74 We describe genome mapping on nanochannel arrays.

75 ralong genomic DNA molecules and for optical genome mapping, opening a window to directly observe and

76 ementing conserved anchor primers for use in genome mapping or phylogenetic applications, with partic

77 rative genomic approach across 14 Ascomycete genomes, mapping phenotypes and genotypes onto the funga

78 R306) developed by the North American Barley Genome Mapping Project (NABGMP) for QTL mapping consiste

79 ver 150 novel HERVs, obtained from the Human Genome Mapping Project database, and a variety of recent

80 Using data from the North American Barley Genome Mapping Project in double-haploid barley, we foun

81 teness of fungal genomes called FGMP (Fungal Genome Mapping Project).

82 or heading time in the North American Barley Genome Mapping Project.

83 eading values from the North American Barley Genome Mapping Project.

84 of the resource and has been used in several genome-mapping projects.

85 tein sequence databases along with taxonomy, genome mapping, protein structure and domain information

86 tein sequence databases along with taxonomy, genome, mapping, protein structure and domain informatio

87 tein sequence databases along with taxonomy, genome, mapping, protein structure and domain informatio

88 tein sequence databases along with taxonomy, genome, mapping, protein structure and domain informatio

89 tein sequence databases along with taxonomy, genome, mapping, protein structure and domain informatio

90 tein sequence databases along with taxonomy, genome, mapping, protein structure and domain informatio

91 rophy in dogs, a species with well-developed genome mapping resources, provides a unique opportunity

92 Comparative genome mapping revealed that microsynteny was higher bet

93 tic profiling, better cross-references, fast genome mapping, semantic data sharing via RDF, as well a

94 a analysis and applications, high-throughput genome mapping, sequence analysis, gene regulation, prot

95 Nanochannel genome mapping should facilitate de novo assembly of seq

96 Genome mapping strategies depend heavily on confirmatory

97 This genome mapping technique has allowed the integration of

98 coccal nuclease-based three-dimensional (3D) genome mapping technique with an improved spatial resolu

99 targeted base updates and used data from new genome mapping technologies and single haplotype resourc

100 Whole-genome mapping technologies have been developed as a com

101 Recent advances in whole-genome mapping technologies have revealed the multiscale

102 nteraction data are generated by emerging 3D genome mapping technologies such as GAM, SPRITE, and ChI

103 ious cell types and species using several 3D genome mapping technologies.

104 Here, we use a highly automated whole genome mapping technology in nano-channel arrays to anal

105 In combination with Bionano Genomics genome mapping technology, these profiles provide a hybr

106 Here we show, using high-resolution genome mapping, that copper tolerance and hybrid lethali

107 an expanding set of applications, including genome mapping, the identification of mutations and meas

108 luorescence in situ hybridization, and whole-genome mapping to assemble a high-quality genome sequenc

109 esults highlight the power of single-cell 3D genome mapping to identify diagnostic, prognostic and th

110 We used whole-genome sequencing and de novo genome mapping to identify single-nucleotide variants, i

111 is by 10x linked-read sequencing and optical genome mapping to interrogate the genome integrity after

112 linked-read sequencing, and BioNano Genomics genome mapping to yield a high-quality, phased, de novo

113 nome shotgun sequencing, and BioNano optical genome mapping, to generate a reference-quality genome s

114 et al. perform the first high-resolution 3D genome mapping via ChIA-PET to capture RNAPII-associated

115 Genome mapping was carried out with high-performance com

116 of LongSAGE tag for transcript detection and genome mapping, we analyzed the 632 813 unique human Lon

117 vely harness this effect for high-throughput genome mapping, we developed: (i) machine vision and aut

118 e sequence analysis, droplet digital PCR and genome mapping, we identified eight common structural ha

119 PFGE and whole-genome mapping were concordant with 22 of 23 isolates.

120 Whole-genome mapping (WGM) has been recently applied to subtyp