ライフサイエンスコーパス: genetic technique

1 abnormalities that were established by other genetic techniques.

2 using tandem mass spectrometry or molecular genetic techniques.

3 hogenesis until the application of molecular genetic techniques.

4 cers using various cytogenetic and molecular genetic techniques.

5 cesses through the power of modern molecular genetic techniques.

6 an be manipulated in vivo with sophisticated genetic techniques.

7 n combination with newly available molecular genetic techniques.

8 are difficult to be probed with traditional genetic techniques.

9 lage (FC) tissues using a range of molecular genetic techniques.

10 nteresting also hampers the use of molecular genetic techniques.

11 ons by combining phylogenetic and population genetic techniques.

12 es by using a combination of biochemical and genetic techniques.

13 ssed this hypothesis using several molecular genetic techniques.

14 o resolve these questions using conventional genetic techniques.

15 real grains has been accomplished with plant genetic techniques.

16 a 20-kDa MI protein was cloned by a reverse genetics technique.

17 HN glycoprotein mutants, employing a reverse genetics technique.

18 nfectious virus by using established reverse genetics techniques.

19 nd inoculum virus was produced using reverse genetics techniques.

20 ra A kinase (as-AurA) engineered by chemical genetics techniques.

21 f A/Hong Kong/213/03 using influenza reverse genetics techniques.

22 Through classical and molecular genetic techniques, 158 transposed Ac elements (tr-Acs)

23 ng genetic screening(4) and opto- and thermo-genetic techniques.(5-7) The feeding neuron is activated

24 gress has been the result of developments in genetic techniques, advances in imaging technology, and

25 by urine cytology and quantitative molecular-genetic techniques allow now for timely intervention bef

26 marriage of classical (forward) and reverse genetic techniques allows the isolation and analysis of

27 ogy is an important addition to the array of genetic techniques already available in this experimenta

28 sor proteins that were obtained by classical genetic techniques alter residues in the central domain

29 Traditional genetic techniques and a variety of animal and tissue-cu

30 vely intractable to electrophysiological and genetic techniques and consequently have been largely pa

31 Characterization using reverse genetic techniques and homology data suggests putative Z

32 ents, it is transparent to many conventional genetic techniques and is thus challenging to probe.

33 Aided by genetic techniques and suitable animal models, studies i

34 motility of C. johnsonae, we developed these genetic techniques and tools.

35 refeeding in critically ill patients; use of genetic techniques and topical steroid therapy in treati

36 dual-based field studies, the application of genetic techniques, and phylogenetic reconstructions hav

37 lude a sequenced genome allied with powerful genetic techniques, and the ability to conduct electroph

38 rminal B' domain was removed using molecular genetic techniques, and the truncated Enzyme II (FruBC)

39 oying cutting-edge proteomics, metabolomics, genetics techniques, and synchrotron radiation-based Fou

40 the four archaeal clades for which advanced genetic techniques are available--the methanogens, halop

41 Molecular genetic techniques are beginning to bring about a detail

42 In this review, mouse molecular genetic techniques are described and illustrative exampl

43 m for studying inner ear development because genetic techniques are highly efficient and inner ear de

44 Recent development of molecular genetic techniques are rapidly advancing understanding o

45 Molecular genetics techniques are an essential diagnostic tool for

46 The use of molecular genetic techniques as a powerful tool for the early iden

47 The genetic techniques available in Drosophila have contribu

48 Application of the plethora of genetic techniques available in Drosophila, including fo

49 However, the powerful genetic techniques available in Saccharomyces cerevisiae

50 The genetic techniques available in the fruitfly Drosophila

51 We have utilized the strong molecular genetic techniques available in the nematode Caenorhabdi

52 -hybrid methods have augmented the classical genetic techniques biologists use to assign function to

53 In this study, a novel genetic technique called Mutant-Assisted Gene Identifica

54 uencing technology combined with traditional genetic techniques can efficiently identify genetic regi

55 Our findings suggest that microbial genetic techniques can provide a new approach for epitop

56 focussed on possible cure or amelioration by genetic techniques, considerable progress has been made

57 A genetic technique designed to inactivate a gene that enc

58 of patients with Gitelman syndrome, current genetic techniques detect only one specific pathogenic v

59 Although both genetic techniques effectively identified similar subtle

60 lopmental biology and regeneration research, genetic techniques enabling conditional analysis of gene

61 and advance the development of biomarker and genetic techniques focused on detecting and characterizi

62 Tetrad analysis has been a gold-standard genetic technique for several decades.

63 Genetic techniques for the Archaea have undergone a rapi

64 urrent sophistication of available molecular genetic techniques for use in these organisms has allowe

65 Here, we optimize a reverse genetics technique for sylvatic dengue viruses, and we r

66 The development of modern molecular genetic techniques has allowed breast cancer researchers

67 e last decade the application of conditional genetic techniques has facilitated the neuroanatomical d

68 The development of modern molecular genetic techniques has opened up the study of how indivi

69 ecades, the advent of new archaeological and genetic techniques has revolutionized our understanding

70 adiation hybrid (RH) mapping, a somatic cell genetic technique, has been developed in animal systems

71 establishment and maintenance; and advanced genetic techniques have allowed for high-throughput disc

72 Recent advances in molecular genetic techniques have allowed increasing specificity i

73 Recent advances in PCR-based reverse genetic techniques have allowed the search for plants ca

74 nes and pathways in microalgae, and powerful genetic techniques have been developed to engineer some

75 is article assesses how successful molecular genetic techniques have been in revealing new population

76 Both forward and reverse genetic techniques have begun to identify critical molec

77 In this regard, molecular genetic techniques have demonstrated that if a child is

78 Molecular genetic techniques have made contributions to studies on

79 Over the past 20 years molecular genetic techniques have provided a new approach to disse

80 cent studies combining these biophysical and genetic techniques have provided novel insights into the

81 Classical genetic techniques have provided only limited informatio

82 Genetic techniques have recently implicated two differen

83 Over the last decade, advances in genetic techniques have resulted in the identification o

84 Genetic techniques have shed new light on the organizati

85 Advances in cytological and genetic techniques have thrown light on these processes

86 Reverse genetics techniques have advanced to encompass transgeni

87 To date, several reverse genetics techniques have been reported that harness the

88 have been made with the use of molecular and genetic techniques; however, standard in vivo studies ha

89 eing confirmed by the first new quantitative genetic technique in a century-Genome-wide Complex Trait

90 Furthermore, by adopting cutting-edge genetic techniques in combination with sophisticated phe

91 Through the use of genetic techniques in Drosophila, Caenorhabditis elegans

92 nent of the dynactin complex with the use of genetic techniques in Drosophila.

93 mbination of physiological, biochemical, and genetic techniques in model algal systems has demonstrat

94 A combination of molecular, behavioral, and genetic techniques in neuropharmacology has begun to sho

95 g establishment and application of molecular genetic techniques in V. fischeri.

96 uctural studies and for the use of molecular genetics techniques in addressing the mechanism by which

97 New genetic techniques, in combination with pharmacological

98 SPR/Cas9 technology enables the extension of genetic techniques into insect pests previously refracto

99 The establishment of molecular genetic techniques is essential for development of new t

100 However, using newer genetic techniques like CRISPR and dimerizable Cre, we w

101 Using molecular genetic techniques, mutant strains of V. fischeri have b

102 study combined genome-wide mapping and a new genetic technique named reciprocal-hemizygosity analysis

103 Molecular genetic techniques of DNA hybridization, along with PCR

104 We used the molecular genetic techniques of linkage analysis to study 4 kindre

105 A genetic technique permitted the isolation of human thior

106 Here, using genetic techniques possible in Drosophila melanogaster,

107 Reverse genetics techniques produced a RV-A16 inoculum that can

108 transcriptomic, biochemical, structural and genetic techniques reveal the pathway employed by Bacter

109 eriments that are high-throughput or involve genetic techniques, strains, or species that do not comb

110 d for analysis; these 40 discussed molecular genetic techniques, studied 10 or more patients, and had

111 With the rapid development of molecular and genetic techniques, substantial interests have developed

112 with studies of genetic variation, classical genetic techniques such as linkage analysis, and examina

113 The use of genetic techniques, such as cell ablation and lineage-tr

114 The use of standard genetic techniques, such as gene targeting and transgene

115 The emergence of high resolution population genetic techniques, such as genotyping-by-sequencing (GB

116 how both forward genetic screens and reverse genetic techniques, such as morpholinos and TILLING, and

117 With the plethora of molecular and genetic techniques that can be applied to larval-stage e

118 ll as circadian phase-shifting, we developed genetic techniques that link behavior to single cell-typ

119 in infants and young children, using reverse genetic techniques that previously were used to rapidly

120 As for all genetic techniques, the choice of the proper transgenic

121 Using a combination of proteomic and genetic techniques, they found that excess proteins unde

122 We used a genetic technique to activate astrocytes in the basal fo

123 ey are required for tumorigenesis, we used a genetic technique to disrupt each gene and simultaneousl

124 Gene targeting is a genetic technique to modify an endogenous DNA sequence i

125 By using a new genetic technique to screen libraries expressing artific

126 Using a novel genetic technique to visualize axons and dendrites in a

127 motility have been previously isolated, and genetic techniques to analyze these mutants have recentl

128 ohnsonae) have been previously isolated, and genetic techniques to analyze these mutants have recentl

129 The application of advances in molecular and genetic techniques to characterize individual sarcomas h

130 es have been in the application of molecular genetic techniques to define the affected genes and to d

131 We used genetic techniques to deplete mice of specific subsets o

132 We tested the role(s) of ICAN using reverse genetic techniques to diminish its putative ion channels

133 This review highlights the contribution of genetic techniques to dissect the specific function of d

134 Imaging genetics integrates imaging and genetic techniques to examine how genetic variations inf

135 We employ quantitative genetic techniques to examine the HSP90-dependent polymo

136 rdiomyocytes was detectable when using these genetic techniques to follow cell fate, and stem-cell-en

137 s the barriers preventing the application of genetic techniques to gut microbes and report on genetic

138 ive genomic approach combined with molecular genetic techniques to identify a highly conserved sequen

139 illustrates the potential use of population genetic techniques to identify genomic regions for domes

140 g long-term field observations and molecular genetic techniques to identify kin relations between ind

141 groups have taken up the challenge of using genetic techniques to identify the aberrant molecular an

142 We used molecular and genetic techniques to introduce an insertional inactivat

143 d knockout, knockdown, and dominant-negative genetic techniques to investigate the requirements and c

144 We used genetic techniques to investigate the role of Cdc42 in i

145 We used genetic techniques to measure dispersal distance and cha

146 Genetic techniques to recycle antibiotic markers were ap

147 Using our previously established genetic techniques to stabilize the structural capsid pr

148 cell line to facilitate the use of molecular genetic techniques to study the LPS signaling pathway.

149 To address this, we have developed genetic techniques to study the well-characterized fusel

150 phisticated function, we have used molecular genetic techniques to swap these domains among the three

151 In this study we use reverse genetic techniques to target putative iron-acquisition g

152 gression, we have applied multiple molecular genetic techniques to the analysis of 21 early-stage (st

153 The application of molecular genetic techniques to the study of glaucoma has accelera

154 ins and confirm the usefulness of Drosophila genetic techniques to understand HSP and other neurodege

155 elerated our capacity to apply molecular and genetic techniques to understand obesity.

156 itylation in virus assembly, we used reverse genetics technique to introduce substitutions and deleti

157 The establishment of reverse-genetics techniques to manipulate the genome of negative

158 d bioinformatics with established population genetics techniques to provide a portable, reproducible,

159 We used reverse genetics techniques to replace EBOV GP with its counterp

160 with a repressible cell marker (MARCM) is a genetic technique used in Drosophila to label single cel

161 of expression in the CRF(1)-Cre rat, modern genetic techniques used to investigate the anatomy, phys

162 Employing a genetic technique we have identified several Genes assoc

163 a HDACs in behaving animals using a chemical-genetic technique, we further demonstrate that rapid ind

164 Using both pharmacologic and genetic techniques, we also show that the ability of mat

165 By using genetic techniques, we confirmed that AgaS but not AgaI

166 Using genetic techniques, we demonstrate that either RNA inter

167 Using genetic techniques, we demonstrate that the vector of ce

168 a combination of biochemical, molecular, and genetic techniques, we have demonstrated that the VTC1 l

169 Using molecular genetic techniques, we have generated and characterized

170 Using different molecular genetic techniques, we identified 20 patients with a pat

171 With the use of reverse genetics technique, we investigated the effect of glycan

172 Using reverse genetics techniques, we demonstrated that a transgene en

173 Using reverse genetics techniques, we generated recombinant influenza

174 Using reverse genetics techniques, we have developed a live-attenuated

175 Using plasmid-based reverse genetics techniques, we have developed a single-cycle in

176 Structural, biochemical, and genetic techniques were applied to investigate the funct

177 Genetic techniques were used in patients with tubular pr

178 Genetic techniques were used to group the mutations in t

179 Here, pharmacological, optical, and genetic techniques were used to show that upon activatio

180 n of these two populations made by molecular genetic techniques, while the two differences detected a

181 This new genetic technique will augment current tools used to elu

182 Reverse genetic techniques will be necessary to take full advant

183 By integrating genetic techniques with classification models, this comp

184 ng cell layers to the powerful developmental genetic techniques with which the Drosophila system is b