ライフサイエンスコーパス: genetic cross

1 within the last 10,000 years after a single genetic cross.

2 nously tagged proteins in vivo with a single genetic cross.

3 iple generations derived from time-consuming genetic crosses.

4 oduced this locus into the Col background by genetic crosses.

5 s within tumors generated from numerous fish genetic crosses.

6 s retained in all transformants through both genetic crosses.

7 ferential methylation between the parents of genetic crosses.

8 inkage analysis using two sets of multilocus genetic crosses.

9 d establishing stable mutant strains through genetic crosses.

10 s experimentally, we established a model for genetic crosses.

11 a tumorigenicity and metastatic potential in genetic crosses.

12 ination of an endonuclease in the progeny of genetic crosses.

13 egregate with a defect in phototropism after genetic crosses.

14 segregated with methylammonium resistance in genetic crosses.

15 produce hybrids that develop melanomas after genetic crossing.

16 ppeared spontaneously in 1986 during routine genetic crosses [1,2].

17 In genetic crosses, a heterozygous Shp-2 mutation dominantl

18 In genetic crosses, allelic variation at Mc1r explains 9.8%

19 pplicable to phenotypic data from almost any genetic cross, allowing selection to be detected more ea

20 ATXN1[82Q] Drosophila model through shRNA or genetic cross ameliorates motor symptoms.

21 ents for large and complex multigenerational genetic crosses among sexually reproducing diploid speci

22 Here we use genetic crosses and comparative genomics to identify spe

23 we use a combination of population genomics, genetic crosses and gene editing to demonstrate that a s

24 Using genetic crosses and genome-wide association mapping, we

25 imentally in complementation tests and other genetic crosses and it maps the mutated gene to a define

26 protocols for collecting pollen and outlines genetic crosses and phenotypic assays that are useful fo

27 olymorphic in the zebrafish strains used for genetic crosses and provide a means to compare genetic s

28 Genetic crosses and recombination tests revealed that al

29 Based on combination of genetic crosses and RNA-Seq data, we have designed a hig

30 Genetic crosses and segregation analyses revealed that a

31 A scheme based on genetic crosses and transgene selection was used to bypa

32 s to acquire donor source and time-consuming genetic crossing and has already been used to identify a

33 R loci in a drug-selected line, progeny of a genetic cross, and 334 field isolates demonstrates broad

34 ng the offspring from a P. yoelii YM and N67 genetic cross, and identify a putative HECT E3 ubiquitin

35 Whole-exome sequencing, genetic crosses, and association analysis identified 22

36 e in Australian Helicoverpa armigera through genetic crosses, and integrated genomic and transcriptom

37 We further find that genetic crosses are also feasible between species.

38 , and ethical considerations regarding human genetic crosses are but some of the reasons to study air

39 Even with vegetative propagated crops, genetic crosses are conducted during varietal improvemen

40 on in the fossil record is difficult because genetic crosses are impossible, the acquisition of DNA i

41 ly, plastids and mitochondria, in a standard genetic cross, are transmitted to the seed progeny by th

42 or fertilization, we devised a two-component genetic-crossing assay using a reporter that is activate

43 psis allotetraploid lines were produced by a genetic cross between A. thaliana and A. arenosa autotet

44 Now, a genetic cross between AS-ART and the artemisinin-sensiti

45 Examination of 19 progeny from a genetic cross between HB3 and 3D7A revealed complex inhe

46 When females from an extensive genetic cross between R and susceptible A. gambiae (G3)

47 enes that influence VWF level, we analyzed a genetic cross between RIIIS/J and CASA/Rk, two strains o

48 ele of SHM1, shm1-2, and the F1 progeny of a genetic cross between shm1-1 and shm1-2 displayed the sa

49 high-level resistance in the 16 progeny of a genetic cross between sulfadoxine-sensitive (HB3) and su

50 Furthermore, a genetic cross between Tg-WT and transgenic mice with car

51 In this study, we have used a genetic cross between the strains HB3 and 3D7 to study i

52 s a highly significant lod score of 6.7 in a genetic cross between the susceptible strain, C57BL/6J,

53 erately virulent type II based on successful genetic cross between these lineages.

54 g germline influence on gene expression in a genetic cross between two divergent mouse species and in

55 Using a genetic cross between two sister species of deer mice ex

56 Using genetic crosses between BALB/cJ and C3H/HeN mice, we wer

57 esis mutants show no obvious growth defects, genetic crosses between beta-GGM and XyG mutants produce

58 Genetic crosses between cavefish and surface fish reveal

59 opical population, confirmed by fully viable genetic crosses between continents, extensive intralocus

60 Genetic crosses between DDT resistant and susceptible Ac

61 Forward genetic analysis of genetic crosses between different lineages has been used

62 Genetic crosses between distantly related species are ra

63 xperimental organisms are applicable only to genetic crosses between inbred lines.

64 s have dominated the statistical analysis of genetic crosses between inbred strains.

65 Here, we compare findings from two large genetic crosses between mouse strains C3H/HeJ and C57BL/

66 the parasite in the snail host, we performed genetic crosses between parasite-resistant and -suscepti

67 Furthermore, genetic crosses between SlMPK8-KO and SlERF.C1-OE lines

68 oneal fat Ucp1 mRNA expression in progeny of genetic crosses between the A/J and C57BL/6J parental st

69 Using genetic crosses between the carcinoma-resistant Copenhag

70 Genetic crosses between the two species reveal that the

71 ction in natural populations, we carried out genetic crosses between threespine stickleback fish with

72 Here we use genetic crosses between type II and III lines to show th

73 Here, using genetic crosses between type II and type III Toxoplasma

74 notype: retention of Chi hotspot activity in genetic crosses but loss of detectable nucleolytic degra

75 We have used genetic crosses, cell culture assays and Tsk-specific an

76 Genetic cross data suggest that DNA secondary structures

77 two common morphological trait syndromes in genetic crosses demonstrated that the phenotypes are cau

78 Genetic crosses established the gene order to be cobB pe

79 The findings of classical genetic crossing experiments, together with data from se

80 variation, we have searched a P. falciparum genetic cross for quantitative trait loci (QTL).

81 red fluorescent trypanosomes for visualizing genetic crosses has now identified this stage.

82 Quantitative trait locus (QTL) analysis of genetic crosses has proven to be a useful tool for ident

83 Use of these partial t haplotypes in genetic crosses has resulted in the general location of

84 Genome-wide scans of different genetic crosses have been used to map several disease-li

85 Genetic crosses have shown that apolipoprotein E and TGF

86 on fragment length polymorphism markers in a genetic cross (HB3xDd2).

87 genome either by cotransformation or through genetic crossing, hereby signifying an intein-mediated p

88 In interspecies genetic crosses, however, recipients with the mutSDelta8

89 ed using CRISPR/Cas9 were used to complete a genetic cross in vitro, demonstrating Mendelian segregat

90 rove the scalability and throughput of major genetic crosses in ends-out gene targeting.

91 Here we use genetic crosses in sticklebacks to investigate the paral

92 The results of genetic crosses indicate that suppression of TBP mutants

93 Genetic crosses indicated that 12 had lesions in a singl

94 for T. gondii genetic manipulation including genetic crosses, insertional mutagenesis, chemical mutag

95 When introduced by genetic crosses into plants carrying a silencing transge

96 elop statistical methods for QTL mapping for genetic crosses involving noninbred lines.

97 on that interacts epistatically with QTLs in genetic crosses is a unique and potentially powerful met

98 Analysis of two multilocus genetic crosses localized Pak1 and Pak3 to a position on

99 ucing the transposase gene through classical genetic crossing, making this system functional for targ

100 growth inhibition phenotype in the Dd2 x HB3 genetic cross mapped the clag3 genomic locus, consistent

101 resistance (CQR) in a Plasmodium falciparum genetic cross maps to a 36 kb segment of chromosome 7.

102 e of this compound's affinity in a Dd2 x HB3 genetic cross maps to a single parasite locus on chromos

103 ne cosegregates with the MATa mating type in genetic crosses, maps within the mating-type locus on a

104 A genetic cross-modal correlation was seen between the ven

105 Using a genetic cross of clonal lines derived from migratory and

106 To address this challenge, we established genetic cross of dioecious plant Rumex acetosa and gener

107 he present study indicates that performing a genetic cross of these strains and total genome scan sho

108 type plants was observed in the progeny of a genetic cross of these two transformants in which both i

109 This new model enables genetic crosses of an important human pathogen without t

110 claim, based solely upon extrapolation from genetic crosses of D. santomea and D. melanogaster, a mu

111 n be generated rapidly, as can data from the genetic crosses of gene-deficient mice on autoimmune-sus

112 Genetic crosses of laboratory mice have provided extensi

113 Immunohistochemistry and genetic crosses of P2rx4 tdTomato mice with cell-specifi

114 Genetic crosses of phenotypically distinct strains of th

115 Studies of genetic crosses of sensitive DBA/2 with resistant C57BL/

116 SIT (pgSIT) generates sterile males through genetic crosses of two transgenic lines: a Cas9 strain a

117 been developed, alongside the production of genetic crosses of wild relatives with commercial variet

118 Genetic crosses of yeast strains containing different md

119 into the met1 mutant background, either via genetic cross or DNA transfer.

120 Subsequent genetic crosses or phage transduction allow two neighbor

121 In two P. falciparum genetic crosses, particular pfcrt and pfmdr1 alleles fro

122 een hindered due to the lack of a compatible genetic crossing partner for the M. truncatula genotype

123 Using a combination of genetic crosses, phenotyping of a trait underlying ecolo

124 Here, we use surgical manipulations and genetic crosses, plus genome sequencing, to examine sex

125 Genetic crosses position RAPTOR1B upstream of CO and GI.

126 Genetic crosses produced NOD/LtSz mice doubly homozygous

127 e suffers high-frequency mutation in certain genetic crosses, resulting in buff-colored progeny.

128 CYP6P4, and genotyping of the progeny of the genetic crosses revealed a maximum penetrance value f(2)

129 ions for eGFR-decline with age-dependency of genetic cross-section associations.

130 Furthermore, genetic crosses segregating Cas9/sgRNA transgenes away f

131 Genetic crosses show that Crg1-1 and Crg1-2 segregate as

132 Genetic crosses show that development of these tumorigen

133 Genetic crosses show this factor to be under control of

134 Genetic crosses showed that SC2 was identical to S17 ide

135 Genetic crosses showed this recessive resistance to be g

136 Reciprocal genetic crossing suggested that CEK4 knockout causes emb

137 These traits were correlated within a genetic cross, suggesting a mechanistic link.

138 In 21 independent recombinant progeny of a genetic cross, susceptibility to this agent mapped in pe

139 functional module (protein complex), but the genetic cross talk between modules can differ substantia

140 This revealed a genetic cross-talk governing Golgi homeostasis, an addit

141 rearrangements, that unfolded in the wake of genetic crosses that brought together two broken chromos

142 Using a series of genetic crosses that separate parental and zygotic contr

143 Here we demonstrate via genetic crosses that the source of IgG2a is the mother,

144 In genetic crosses, the three lst mutant alleles fail to co

145 Parasite genetic crosses then identified a chromosome 6 quantitat

146 a perturbation of the biological system, and genetic crosses, through the processes of recombination

147 dlr knockout mouse model in an interspecific genetic cross to map atherosclerosis susceptibility loci

148 By combining ligand titrations with genetic crosses to generate animals with different allel

149 We originally used Ter in genetic crosses to identify loci that control tumorigene

150 Genetic crosses to mutants that are deficient in SA bios

151 Genetic crosses to reporter mice revealed a marked reduc

152 Genetic crosses to study CD47 function in Ptpn6(spin) mi

153 African ancestries, to perform a large-scale genetic cross trait analysis, followed by functional ann

154 By implementing a P. falciparum genetic cross using humanized mice, we report the identi

155 ly, transgenic seeds were obtained only from genetic crosses using infiltrated plants as the pollen r

156 To detect variants at this and other loci, a genetic cross was carried out between two laboratory mou

157 idate the basis of this extreme virulence, a genetic cross was performed between a highly virulent ty

158 A genetic cross was used to construct such a map from 901

159 A series of genetic crosses was performed to produce one, two, and t

160 expression and glucose utilization, standard genetic crossing was performed to introduce a fast-twitc

161 Through genetic crosses we learned that white is dominant over r

162 Using standard genetic crosses, we confirmed that the mutation segregat

163 Combining these results with data from genetic crosses, we find that crossing-over is restricte

164 wide linkage mapping in marine-freshwater F2 genetic crosses, we find that the genetic basis of evolv

165 Through genetic crosses, we show that the rate of water loss in

166 Using a series of genetic crosses, we show that this spatial restriction o

167 By genetic crosses, we showed that IgE-mediated tumor prote

168 ensive transcriptomic data of seven DGKs and genetic crossing, we found that dgk2-1/- dgk4-1/- plants

169 By genetic crossing, we showed that both the male and femal

170 ation that all progeny clones in a Dd2 x HB3 genetic cross were the result of fertilization events be

171 hanisms that are responsible for resistance, genetic crosses were established between the Ndja strain

172 stern blot, bone marrow transplantation, and genetic crosses were performed for phenotypic characteri

173 In this study, 12 different genetic crosses were used, hundreds of neurons were elec

174 sequencing data on parents and progeny from genetic crosses, which has enabled us to perform the fir

175 Similar results were obtained in a genetic cross with LDL receptor-deficient mice.

176 -capture microdissection (LCM) in reciprocal genetic crosses with an nrpd1 mutant.

177 s caused by misregulation of CAPN3 activity, genetic crosses with CAPN3 overexpressing transgenic (C3

178 's full potential likely will be realised by genetic crosses with other models to interrogate the rol

179 7, HM018 and HM022) and performed reciprocal genetic crosses with R108.

180 Genetic crosses with the mdx mouse showed that neither t

181 /wox3 loss-of-function mutant and performing genetic crosses with the stf mutant.

182 phenotype of Scn2a(Q54) mice, we carried out genetic crosses with two mutant alleles of Kcnq2.