ライフサイエンスコーパス: multiallelic

1 that many loci of large effect appear to be multiallelic.

2 re highly polymorphic and some long RLPs are multiallelic.

3 The marker can be either diallelic or multiallelic.

4 llected on eight markers, four of which were multiallelic.

5 egion, we identified four linked HLA-DRbeta1 multiallelic amino acids at positions 11, 13, 28, and 30

6 Multiallelic analyses of carrying risk alleles for multi

7 sive cell divisions, thereby generating both multiallelic and combinatorial genetic diversity.

8 nderlie the equivalence between single-locus multiallelic and composite markers are presented.

9 These potentially multiallelic and highly polymorphic systems present new

10 s as a new approach for trait association in multiallelic and highly variable loci.

11 ulated on a 100-cM chromosome, with up to 10 multiallelic and up to 200 diallelic markers used simult

12 In the mushroom Coprinus cinereus, the multiallelic B mating type genes are predicted to encode

13 s for affection status was positive (P=.009, multiallelic chi (2)), and two polymorphisms were associ

14 the rapid generation of genetically defined multiallelic chimeric mice without further strain interc

15 inds pervasive occurrence of highly complex, multiallelic CNAs, in which cells that carry varying all

16 alleles and haplotypes present at most large multiallelic CNVs (mCNVs).

17 tic distance methods, (ii) illustrate it for multiallelic codominant loci, and (iii) provide nonparam

18 troduce a new approach that is applicable to multiallelic codominant, multilocus arrays.

19 i has long been recognized and maintains the multiallelic combinations required for correct compatibi

20 henotypes from which we have identified five multiallelic complementation groups that modify both los

21 These include seven multiallelic complementation groups, at least five of wh

22 stric cancer cell line, Alleloscope detected multiallelic copy number events and copy-neutral loss-of

23 a convenient, accurate and robust method of multiallelic copy number measurement suitable for use in

24 The multiallelic copy number variant analysis defined two st

25 In this study we show that multiallelic copy number variation (CNV) within DMBT1 is

26 process of generating new mouse strains and multiallelic experimental animals often hinders the use

27 Here, we present a uniquely large multiallelic fitness landscape comprising 640 engineered

28 proaches, we quantify features of the global multiallelic fitness landscape.

29 pistasis within both simulated and empirical multiallelic fitness landscapes, revealing that both pai

30 e are a high number of possible detrimental, multiallelic gene pairs.

31 ific component of mTORC2, in mice by using a multiallelic gene targeting strategy.

32 Human alpha defensin 1-3 (DEFA1A3) is a multiallelic gene with DNA copy numbers generally rangin

33 esented, to detect the association between a multiallelic genetic marker locus and affection status;

34 odels, it has not been proven in general for multiallelic genetic models of mutation, migration, and

35 mall effects reported in Caucasians, and the multiallelic "genetic risk profile" identified in Caucas

36 lihood estimates of gametic frequencies from multiallelic genotypic data is described and applied.

37 ere is evidence that these QTL may reside in multiallelic haplotypes.

38 morphisms, or SNPs, 1 diallelic indel, and 1 multiallelic indel).

39 This sequence survey detected 21 SNPs and 1 multiallelic indel, 14 of which had not been previously

40 character is influenced by arbitrarily many multiallelic loci and has constant genotypic values; dom

41 nalysis of allele-frequency shifts at mapped multiallelic loci over generations of selection.

42 arrays of values at linearly ordered bi- or multiallelic loci.

43 only, and that can accommodate biallelic or multiallelic loci.

44 Each derivation applies to a single multiallelic locus in a monoecious or dioecious populati

45 les, using single nucleotide polymorphism or multiallelic marker data.

46 For a multiallelic marker, one strategy that may improve the p

47 Our calculations show that multiallelic markers always have more power to detect LD

48 we find that detection rates are 51%-77% for multiallelic markers and 13%-75% for biallelic markers;

49 ork for LDM that incorporates multilocus and multiallelic markers and mutational processes at the mar

50 also be used for extensions of the tests to multiallelic markers and to the simultaneous use of more

51 Multiallelic markers from the duplicated region were ana

52 We compare diallelic markers and multiallelic markers in terms of sample sizes required f

53 of the number of diallelic to the number of multiallelic markers needed for equivalent power increas

54 of both programs in multipoint analysis with multiallelic markers on pedigrees of varied sizes and mi

55 r determining the amount of information that multiallelic markers provide about individual ancestry.

56 Approximately 400 multiallelic markers spaced an average of 10 cM apart we

57 It can be applied to biallelic or multiallelic markers typed in haploid, diploid or multip

58 ches to performing disequilibrium tests with multiallelic markers, and show that some commonly used a

59 of a complex disease for both biallelic and multiallelic markers, as well as for sibships of differe

60 l methods, however, do not extend to data on multiallelic markers, because in such cases exact evalua

61 When such studies are carried out with multiallelic markers, it is often convenient to group th

62 nt linkage analysis with either diallelic or multiallelic markers.

63 ents are not genotyped is limited, even with multiallelic markers.

64 roach to compute the likelihood with data on multiallelic markers.

65 targets 165 highly diverse loci, focusing on multiallelic microhaplotypes, key markers for drug and d

66 In this study, we sequenced a panel of multiallelic microsatellite markers from filtered water

67 y can analyse small datasets with just a few multiallelic microsatellites but can also handle in para

68 ure inference using genotype data from a few multiallelic microsatellites to millions of diallelic SN

69 mass spectrometry of DNA sequence-confirmed multiallelic mutants demonstrated expression of proteins

70 usly described polymorphisms (Ile76Val and a multiallelic polymorphism at codon 403), and the authors

71 on and support the hypothesis of an ancient, multiallelic polymorphism of which some alleles are shar

72 tudies because so many STR elements manifest multiallelic polymorphism.

73 fashion, primarily in cis but also in trans Multiallelic promoter transactivation and ChIP analyses

74 r direct biallelic combination, avoiding the multiallelic requirement of Cre recombinase -mediated DN

75 ed sporophytic and is controlled by a single multiallelic S locus, alleles of which show the dominanc

76 Self-incompatibility (SI) is encoded by a multiallelic S locus, comprising pollen and pistil S-det

77 f pollen rejection is controlled by a single multiallelic S-locus.

78 Power equivalent to that achieved by a multiallelic screen can theoretically be achieved by use

79 t a Moran-model approach to modeling general multiallelic selection in a finite population and show h

80 Our results can be applied to any model of multiallelic selection in which fitness is solely a func

81 ite population for several general models of multiallelic selection.

82 ic sites, given the increasing proportion of multiallelic sites as sample sizes increase.

83 in individuals with African ancestry, but a multiallelic structural polymorphism was present across

84 est for allelic cytonuclear disequilibria in multiallelic systems.

85 d association methods approach, we performed multiallelic tests of association between each marker an

86 A multiallelic transmission disequilibrium test suggested

87 Use of the multiallelic transmission-disequilibrium test (MTDT), fo

88 Using a multiallelic, transmission-disequilibrium test (TDT), we

89 solved biallelic SVs and we genotype 300,000 multiallelic variable number of tandem repeats(7), advan

90 edictor and allowing a genetic variable with multiallelic variants are included.

91 , analytical approaches designed to identify multiallelic variants should be a priority for both geno

92 nd allele frequency, additive, applicable to multiallelic variants, and generalizable to multiple ind

93 replication over persisting UV damage drives multiallelic variation at CC dinucleotides.

94 Combining multiallelic variation at two Y-linked microsatellites (

95 produce strand-phased mutation patterns and multiallelic variation through the process of lesion seg

96 s, resulting in mutational strand asymmetry, multiallelic variation, and somatic mosaicism.

97 eletions, 6531 divergent alleles, and 14,707 multiallelic variations with precise breakpoints were di