ライフサイエンスコーパス: complementation

1 ects which could be restored through genetic complementation.

2 separated genetically and undergo intragenic complementation.

3 exogenous WT MELK, but not kinase-dead MELK complementation.

4 an chimerism can be generated via blastocyst complementation.

5 the likely structural basis of interallelic complementation.

6 cture indicate that local spread facilitates complementation.

7 C and following ZPN subdomains by beta-sheet complementation.

8 nomes and their products and thereby reduces complementation.

9 A3B catalytic activity and reversible by UNG complementation.

10 genome-wide association studies and allelic complementation.

11 hetic intermediates and function in chemical complementation.

12 ed adhesion could be restored by chromosomal complementation.

13 rmatic pipeline, and confirmed by transgenic complementation.

14 enotype was reversed by genetic and chemical complementation.

15 g single-EPS-cell-derived mice by tetraploid complementation.

16 was detected using bimolecular fluorescence complementation.

17 s in tt4 are reversed by genetic or chemical complementation.

18 ce microscopy using Bimolecular Fluorescence Complementation.

19 sis, and in one case confirmed by transgenic complementation.

20 n Drosophila was completely amenable to PNKP complementation.

21 evel of plaque formation without X174 J gene complementation.

22 confirmations with bimolecular fluorescence complementation.

23 pability of VTL4 and VTL8 was shown by yeast complementation.

24 with bioactive macromolecules via split GFP complementation.

25 control of the TPS1 promoter, and tested for complementation.

26 f incomplete viral genomes showed that their complementation accounts for the moderate reliance on mu

27 that the viral system is functional through complementation across cells.

28 ing in whole-organ generation via blastocyst complementation across wide evolutionary distances.

29 lopment of an aptamer-initiated fluorescence complementation (AiFC) method for RNA imaging by enginee

30 Furthermore, in trans complementation allowed for functional analyses of letha

31 Complementation analyses of heterozygous +/gpt1 plants d

32 mplex structure and bimolecular fluorescence complementation analyses revealed that the C terminus of

33 yeast two-hybrid and bimolecular fluorescent complementation analyses.

34 double-ring mHsp60 variants are active, and complementation analysis in bacteria shows the single-ri

35 Functional complementation analysis revealed that the 4R/A mutant h

36 Biomolecular fluorescence complementation analysis suggests that MED16 is required

37 g yeast-two-hybrid, bimolecular fluorescence complementation and co-immunoprecipitation assays, we id

38 Bimolecular fluorescence complementation and deep mutational scanning reveal that

39 nse variants, through a combination of yeast complementation and enzymatic assays, show impaired enzy

40 ation of electrophysiology, yeast functional complementation and extended molecular dynamics simulati

41 y yeast two-hybrid, bimolecular fluorescence complementation and gene expression analyses.

42 as well as improved efficiency in tetraploid complementation and human-mouse interspecies chimerism a

43 Using bimolecular fluorescence complementation and immunocytochemistry, we found that L

44 Using bimolecular fluorescence complementation and in vitro Fe-S cluster transfer exper

45 Here, using complementation and kinetic analyses of enzymes recombin

46 Complementation and mapping experiments indicated that t

47 SUP) gene based on gene expression analysis, complementation and overexpression assays, and reverse g

48 Biomolecular fluorescence complementation and pull-down/co-immunoprecipitation exp

49 mentary approaches (bimolecular fluorescence complementation and reverse genetics) demonstrated that

50 t development using a combination of genetic complementation and stacked mutants, biochemical activit

51 Complementation and substitution mutations in LapB and L

52 We used transcript analysis, genetic complementation, and biochemical reconstitution of FANCD

53 icans (CaWss1) using bioinformatics, genetic complementation, and biochemical studies.

54 ese residues in the RRS1-R allele by genetic complementation, and found that C15 in the Toll/interleu

55 ugh fine mapping, genome sequencing, genetic complementation, and gene editing, that haploid inductio

56 Using depletion, depletion-complementation, and targeted mutagenesis approaches, vI

57 rom the rDNA was not adequate for functional complementation, and the stalled cells arrested prior to

58 A complementation approach revealed functional conservatio

59 Finally, using a novel cis complementation approach, C. trachomatis lacking tarP de

60 Using a chemical knock-down/genetic complementation approach, we mutated 11 confirmed or pre

61 eptor dimerization using the NanoBiT protein complementation approach.

62 h AR-FL- and AR-V7-dependent transcriptional complementation are needed for Abi/Enza resistance.

63 of-of-principle for interspecific blastocyst complementation as a viable approach for kidney generati

64 Gaussia princeps luciferase protein-fragment complementation assay (GPCA).

65 analyses, a mouse embryonic stem cell (mESC) complementation assay and retrieval of patient-related i

66 We have developed a biosupramolecular complementation assay by assembling a fluorescent Spinac

67 Additionally, complementation assay revealed that SlCBL10 is a true or

68 rmed validation screening with a Split-Rluc8 complementation assay that identified reticulon 1A (RTN1

69 Therefore, we optimized a firefly luciferase complementation assay to screen against this chimeric re

70 bining biochemical approaches with a genetic complementation assay using Arabidopsis thaliana plants,

71 A biochemical complementation assay was developed to show that a uniqu

72 Using a cell-based bimolecular fluorescence complementation assay, here we demonstrate that Nef recr

73 Using a protein complementation assay, we showed that L498W and H499C st

74 14:Nav1.6 complex using the split-luciferase complementation assay.

75 mulation by using a bimolecular fluorescence complementation assay.

76 em for activity in vivo using a quantitative complementation assay.

77 live cells using a bimolecular fluorescence complementation assay.

78 dimer formation in a cell-based fluorescence complementation assay.

79 omplex binding to RanBP5 in a binary protein complementation assay.

80 ng a live-cell quantitative split luciferase complementation assay.

81 , we used the BiFC (bimolecular fluorescence complementation) assay and report for the first time on

82 Bimolecular fluorescence complementation assays demonstrate that MYOD1 colocalize

83 In silico, in vitro, and yeast complementation assays demonstrate that the underlying p

84 Importantly, fluorescence complementation assays demonstrated that dimerization-de

85 Cross-species complementation assays demonstrated that EsCBL10b has an

86 Proximity ligation and functional complementation assays identified several transcription

87 establish, using biochemical approaches and complementation assays in live cells, that Dictyostelium

88 derived neurons and bimolecular fluorescence complementation assays in transfected cells to elucidate

89 Further investigation via complementation assays included the additional variants

90 Yeast-two-hybrid interaction and complementation assays indicate that CIAF1 specifically

91 sis and craniofacial patterning, and in vivo complementation assays indicate that the patient-derived

92 Analysis of YARS p.Pro167Thr in yeast complementation assays revealed a loss-of-function, hypo

93 Complementation assays revealed that the N-terminal 10 a

94 Bimolecular fluorescence complementation assays were employed to evaluate pairwis

95 Transient complementation assays were performed to determine the f

96 We have conducted complementation assays with MPs encoded by five distinct

97 In complementation assays with RAD50 phosphorylation mutant

98 Measurement of protein abundance, yeast complementation assays, and assessments of tRNA charging

99 cAMP measurements, bimolecular fluorescence complementation assays, and CD-based helicity assessment

100 ll-down and in vivo bimolecular fluorescence complementation assays, CIPK23 was not phosphorylated by

101 za A virus polymerase using split luciferase complementation assays, coimmunoprecipitation, and in si

102 Yeast complementation assays, immunolocalization, characteriza

103 In complementation assays, the reporter fragments are direc

104 Bs and 3B fusion products in competition and complementation assays, we investigated the contribution

105 east two-hybrid and bimolecular fluorescence complementation assays, we probed recombinant flax trans

106 n vitro and in vivo, through yeast and plant complementation assays.

107 positive-stranded RNA viruses by using trans-complementation assays.

108 as determined using bimolecular fluorescence complementation assays.

109 causal variants that were validated through complementation assays.

110 ns of viral proteins and by split luciferase complementation assays.

111 erse natural DWV population, suggesting that complementation between genotypes was not required to re

112 we demonstrated by interspecific blastocyst complementation between mouse and rats, generation of pl

113 Moreover, bimolecular fluorescence complementation (BiFC) analysis revealed that Mn(2+) acc

114 Bimolecular fluorescence complementation (BiFC) and co-immunoprecipitation experi

115 through the use of bimolecular fluorescence complementation (BiFC) and super-resolution microscopy.

116 Using a bimolecular fluorescence complementation (BiFC) assay, we detected Env-Env associ

117 noprecipitation and bimolecular fluorescence complementation (BiFC) assays were performed to validate

118 vitro and by doing Bimolecular Fluorescence Complementation (BiFC) in different cell lines.

119 erved in vivo Using bimolecular fluorescence complementation (BiFC) methods, we have now analyzed the

120 Yeast-2-hybrid and bimolecular fluorescence complementation (BIFC) results showed that the transmemb

121 In contrast to CD4 complementation by CD4-mimetic compounds, activation of

122 We propose complementation by codon shuffling as a means to produce

123 ngs in mice through a conditional blastocyst complementation (CBC) approach that vacates a specific n

124 rotein engineering tools, including fragment complementation, circular permutation, and domain swappi

125 Functional complementation correlates with amino acid sequence iden

126 pollen exine development, and by transgenic complementation demonstrate that TaMs5-A restores fertil

127 east two-hybrid and bimolecular fluorescence complementation) demonstrate that StCEN binds components

128 employed, while the reciprocal heterologous complementation demonstrates that U. botrytis MAT genes

129 y, these genes were capable of cross-species complementation, demonstrating that trans-acting factors

130 Interspecies blastocyst complementation enables organ-specific enrichment of xen

131 Complementation, endonuclease, strand separation, and pa

132 structural studies, we present a functional complementation experiment in E. coli AR3110, indicating

133 These results alongside a range of genetic complementation experiments are discussed in the context

134 Genetic complementation experiments demonstrated that both FANCJ

135 Next Generation Sequencing and complementation experiments established the causative mu

136 with inner-envelope proteins, and functional complementation experiments in a Columbia-0 ftsZ2-2 null

137 Complementation experiments in S. cerevisiae provide evi

138 Complementation experiments indicated that Sha has a red

139 Bimolecular fluorescence complementation experiments indicated that the TMD of JP

140 Bimolecular fluorescence complementation experiments reveal that the betaAR agoni

141 Functional complementation experiments suggest that nucleolin and 1

142 s were identified and confirmed using mutant complementation experiments.

143 Yeast two-hybrid and bimolecular complementation fluorescence experiments revealed that A

144 Bimolecular fluorescence complementation, Forster resonance energy transfer, and

145 Genome resequencing, gene deletion and complementation, gene expression analysis, sequence dive

146 his pathway by mutation of genes encoding FA complementation group (FANC) proteins impairs developmen

147 Xeroderma pigmentosum (XP) complementation group A (XPA) is an essential scaffoldin

148 DNA-bound, monoubiquitinated Fanconi anemia complementation group D2 (FANCD2) protein in the Fanconi

149 Here, we report that FA complementation group D2 protein (FANCD2) functionally i

150 m this interaction in cells deficient for FA complementation group I and D2 (FANCI and FANCD2) that f

151 notype-phenotype correlation within the FA-B complementation group of FA, where severity is associate

152 We isolated two complementation groups of late-flowering mutants in pea

153 Finally, using E. coli mutants and complementation growth assays, we demonstrated that 2,7-

154 Interspecies organ generation via blastocyst complementation has succeeded in rodents, but not yet in

155 clone the SMO1 gene by map-based cloning or complementation have failed over many years.

156 Molecular and chemical complementation have restored the response of the hss mu

157 f PSC-derived islets generated by blastocyst complementation in a xenogeneic host.

158 All screens as well as genetic complementation in Escherichia coli identified the so fa

159 erts to wild-type levels upon exogenous m153 complementation in fibroblasts.

160 providing extensive opportunities for hybrid complementation in heterosis.

161 SPE genes and their roles in gene expression complementation in maize hybrids.

162 hrough targeted gene deletion and functional complementation in Malassezia sympodialis, we demonstrat

163 city was assessed based on gene knockout and complementation in N. benthamiana.

164 Transient complementation in Nb was used for accelerated mutationa

165 have characterized the role of GmVTL1a using complementation in plant mutants, hairy root transformat

166 and revealed the phenomenon of interallelic complementation in several RTY transheterozygotes.

167 Clean deletion and complementation in trans confirmed that loss of ytoI cou

168 es is an extreme instance of gene expression complementation, in which genes are active in only one o

169 rod through a mechanism termed donor strand complementation, in which the incomplete immunoglobulin-

170 ilus rod via a mechanism termed donor-strand complementation, in which the N-terminal extension of ea

171 Complementation-independent XG4J variants were isolated.

172 mologs in diverse bacterial phyla, and cross-complementation indicates that MrfAB function is conserv

173 ysed mutants deficient for both proteins and complementation lines (with the AXR1 promoter and either

174 se-Tre6P relationship were disrupted in some complementation lines.

175 yte defects were bypassed by specific pollen complementation, loss of MED30 led to early embryo devel

176 aling identical, intramolecular donor-strand complementation mechanisms.

177 onic stem cells (ESCs) via neural blastocyst complementation (NBC).

178 on of a second purinergic receptor, P2K2, by complementation of an Arabidopsis p2k1 mutant.

179 We used functional complementation of an Escherichia coli DeltathiG strain

180 otein extraction in vitro and for functional complementation of an msp1 deletion in yeast.

181 Functional complementation of both the mu-subunit carrying the p.Ar

182 The complementation of cepr1 mutants with transgenic CEPR1 r

183 Complementation of CjNC110 restored all phenotypic chang

184 Complementation of cytokines produced by myeloid cells t

185 logical functions of mitochondria, including complementation of damaged mitochondrial DNAs and the ma

186 In addition, metabolite analysis and genetic complementation of glycolate transport in yeast showed t

187 In trans complementation of heterokaryons using a full-length wil

188 Moreover, in trans complementation of heterokaryons using chimeric structur

189 ng viable mutant plants generated by partial complementation of homozygous lethal OXA2a transfer-DNA

190 Complementation of IL-12 and IL-23 was able to restore T

191 in of murine astrovirus in the gut, and this complementation of immunodeficiency required IFN-lambda

192 Chemical complementation of infected WT and CSE(-/-) macrophages

193 presence of EHB1 prevented the IRT1-mediated complementation of iron-deficient fet3fet4 yeast (Saccha

194 By gene complementation of KO cell lines or by a newly developed

195 Complementation of KO cells with WT or enzyme-dead FAM17

196 Genetic complementation of mitotic phenotypes identifies a novel

197 Complementation of mouse hepatocytes with hNTCP confers

198 tch into the ONE HELIX PROTEIN1 gene allowed complementation of ohp1 mutants and induction of the mut

199 ptogenetics, membrane sensor technology, and complementation of oxygenic phototrophy.

200 Genetic complementation of patient's cells with wild-type FANCM

201 Complementation of RM1 with a genomic library revealed t

202 studies have demonstrated that interspecies complementation of rodent blastocysts lacking a developm

203 tified in bioinformatics studies and in vivo complementation of select mutants; however, none of thes

204 n (snRNP) assembly, demonstrating intragenic complementation of SMN alleles.

205 d in density gradients and allowed the trans-complementation of subgenomic reporter HEV replicons.

206 Complementation of the Arabidopsis hpr1-1 mutant by eith

207 Complementation of the Arabidopsis tt19-8 mutant, which

208 1, one of three EgWRI1 orthologs, by genetic complementation of the Arabidopsis wri1 mutant.

209 Complementation of the At2OGO-KO lines with a barley (cv

210 iate complexes containing cytochrome b (559) Complementation of the Chlamydomonas reinhardtii (hereaf

211 Genetic complementation of the disrupted locus with a mutated PI

212 Complementation of the mutant strain with the wild-type

213 GFP-tagged protein variants, and phenotypic complementation of the yeast strain Kl3, we identified r

214 nize bark-covered wood, suggesting potential complementation of their weaker wood-decaying abilities

215 expression of ZAP, indicative of synergy or complementation of these hitherto unconnected pathways.

216 ion phenotype on cotton, olive, and okra but complementation of two genes restored the defoliation ph

217 ys with the recombinant proteins or by their complementation of yeast mutants.

218 ability assays, revealing 50 new human-yeast complementation pairs, thus opening up avenues to furthe

219 NAP tags improve upon other protein fragment complementation (PFC) approaches by offering both multid

220 Here, we establish a versatile blastocyst complementation platform based on CRISPR-Cas9-mediated z

221 ficient conjugative transfer, 'extracellular complementation' potentially involving intercellular pro

222 nsional printing and interspecies blastocyst complementation, promise organoids manufactured from the

223 We use yeast complementation, real-time PCR and proteomics to study p

224 ns in specific genes of interest followed by complementation remains problematic for obligates and is

225 ically relevant, we use a recently developed complementation reporter system to evaluate the kinetics

226 loped NanoLuciferace (NLuc)-based structural complementation reporter system which allows us to obser

227 Efficient chimera formation and lung complementation required newly developed culture conditi

228 ent with the telomerase activity and in vivo complementation results.

229 east two-hybrid and Bimolecular Fluorescence Complementation revealed that while all the AtPam18s int

230 pe analysis, as well as chemical and genetic complementation, revealed that CEK3, a Cho-specific kina

231 discovered rare alleles by zebrafish in vivo complementation reveals an enrichment for pathogenic all

232 or synapsis and recombination, using a novel complementation strategy that exploits a previously unch

233 pproach that applies a cell-surface fragment complementation strategy, Split-TurboID, and identify a

234 Genetic complementation studies and enzyme kinetics assays indic

235 different virulence phenotypes using genetic complementation studies and infection assays.

236 east two-hybrid and bimolecular fluorescence complementation studies demonstrated interaction of both

237 Targeted pocR mutations and complementation studies identified reuterin to be the pr

238 Furthermore, we employ cell-based complementation studies in mouse embryonic fibroblast de

239 Additionally, complementation studies in zebrafish demonstrate that p.

240 Complementation studies indicate that the C-terminal fil

241 Yeast complementation studies indicate that the two missense v

242 ying a forward genetic approach supported by complementation studies of ecotype Columbia (Col), which

243 was demonstrated using reverse genetics and complementation studies of h2ax mutants, establishing th

244 Complementation studies revealed that these enzymes are

245 Our functional complementation studies show that these channels are mor

246 Recombinant protein assays and complementation studies using LtgG containing a site dir

247 ce of employing true null mutants in genetic complementation studies.

248 We confirmed these findings in a genetic complementation study that involved crossing FHH and MNS

249 demonstrates the potential of the NS1 trans complementation system as a new platform for flavivirus

250 s have demonstrated the potential of the NS1 complementation system as an alternative platform for fl

251 Using an inducible complementation system, we analyze the impact of express

252 Using an inducible complementation system, we find that CTCF mutants lackin

253 Here, we report on a nanoluciferase-based complementation technique to detect ligands that promote

254 click beetle luciferase (Emerald Luc, ELuc) complementation technique.

255 in live cells that utilizes split-luciferase complementation technology based on TREM2 and TYROBP fus

256 , based on the DiscoverX InCell Pulse enzyme complementation technology, we characterized the binding

257 Complementation test and gene expression analysis reveal

258 Furthermore, complementation test results suggest that phosphorylatio

259 We validate its effect using a quantitative complementation test with CRISPR/Cas9-generated null mut

260 Complementation tests in the polyprenol-deficient yeast

261 Functional complementation tests indicated that C. bicolor THI4, wh

262 Map-based cloning and complementation tests revealed that fsh is due to an E40

263 Linkage analysis and complementation tests showed that the lls1 mutant phenot

264 In complementation to current models that place mTORC1 as t

265 We used bimolecular fluorescence complementation to show that expression of single phosph

266 Our rationale was to employ genetic complementation to uncover the mechanism of action of Rh

267 coupled to a supported lipid bilayer via DNA complementation, triggers TCRs and activates nuclear tra

268 Heterologous complementation using C. heterostrophus MAT genes shows

269 In addition, in trans complementation using heterologous RanBP genes from Aspe

270 The degree of complementation was variable and correlated with the ami

271 Using donor strand complementation, we constructed a panel of recombinant p

272 genome editing, transposon mutants, and gene complementation, we empirically assessed the contributio

273 unoprecipitation and bimolecular florescence complementation, we found that SsCP1 interacts with PR1

274 Using genomic resequencing and complementation, we identified OsCADT1 as the causal gen

275 tion microscopy and bimolecular fluorescence complementation, we map protein distribution at SPB fene

276 CRISPR-mediated gene knockout and subsequent complementation, we validate an essential role for the e

277 ach, demarcated by dystrophin exons 2-79, in complementation with a cardiac and skeletal muscle direc

278 Complementation with a functional SsrA in the P2-excised

279 Genetic complementation with a plasmid carrying the M.tb H37Rv s

280 Complementation with a recombinant clone harboring hmgA

281 Gene complementation with adeno-associated viral (AAV) vector

282 nally, rescue of an fst1 insertion mutant by complementation with an FST1 genomic fragment restored t

283 In vivo complementation with catalytically inactive CGEP-S781R o

284 Using a combination of genetic complementation with deletion constructs and virus overl

285 icromolar concentrations of putrescine or by complementation with either glycosomal or cytosolic vers

286 Complementation with GAS RmlB and RmlC containing specif

287 Transient complementation with IRAK1 increased NF-kappaB activity

288 on of neuronal cells, which is restored upon complementation with LDLRAD3.

289 duces bright luminescence upon high-affinity complementation with LgBiT, an 18-kDa subunit derived fr

290 Complementation with MEF8-E549A failed to restore editin

291 In contrast, complementation with NCgl2764 derivatives mutated at res

292 Complementation with NCgl2764 normalized turnover of hTM

293 Complementation with ORF37-wt (wild type) or BGLF5 (the

294 cytoplasmic O-fucosyltransferase (OFT) by 1) complementation with TgSPY-MYC(3), 2) its functional dep

295 Complementation with the mrm2 allele carrying the equiva

296 Lentiviral complementation with wild-type MDH2 cDNA restored MDH2 l

297 Blastocyst complementation with wild-type porcine blastomeres gener

298 Complementation with wild-type, but not mutagenized, C1q

299 Complementation with WT CspE, but not with a F30V CspE v

300 Complementation with ZPR1 elevates senataxin levels, red