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1 fish were used as an in vivo model to assess gene function.
2 to for supporting computational analyses of gene function.
3 ective towards a better understanding of SMN gene function.
4 ving our understanding of cis-regulation and gene function.
5 (RNAi) is a valuable technique to determine gene function.
6 s fill, which can lead to new discoveries in gene function.
7 pleiotropic effects of system-wide losses of gene function.
8 systems biology and for characterizing novel gene function.
9 r to its widespread use to dissect bacterial gene function.
10 R screens enable systematic interrogation of gene function.
11 termination (G-MAD) allows the annotation of gene function.
12 technology for the systematic evaluation of gene function.
13 erable value for the rapid identification of gene function.
14 nes possess all structure necessary for PEBP gene function.
15 s rapid and reversible manipulation to study gene function.
16 e variants but little enrichment in terms of gene function.
17 , hemizygosity, and used mutants, to explore gene function.
18 d transcriptional information can illuminate gene function.
19 iologically relevant and sensitive to detect gene function.
20 o understand the impact of human variants on gene function.
21 ion is necessary to make strong claims about gene function.
22 cs for spatial and/or temporal regulation of gene function.
23 etic variants lead to increased or decreased gene function.
24 for variant interpretation and understanding gene function.
25 traditionally thought to disrupt the entire gene function.
26 tion can be used to inform investigations of gene function.
27 /Cas9 system is a powerful tool for studying gene function.
28 he importance of posterior prevalence in Hox gene function.
29 f-function reagents for the determination of gene function.
30 t DNA, RNA or protein to reduce or to ablate gene function.
31 s the application of the technology to study gene function.
32 accuracy on predicting all three domains of gene function.
33 ontext of expression data and help elucidate gene function.
34 es of selection against heterozygous loss of gene function.
35 cation, are powerful tools for understanding gene function.
36 h 'human knockouts' can provide insight into gene function.
37 ics of archaea that holds promise to unravel gene function.
38 reens are a powerful tool for assessments of gene function.
39 stage suggests some of its significance for gene function.
40 ntegrating in a manner that preserves target gene function.
41 DGAT1-1 gene revealed its regulatory role in gene function.
42 undational for characterization of essential gene function.
43 o improve our fundamental knowledge of coral gene function.
44 into a single cohesive strategy to knock out gene function.
45 notype to genotype and ultimately can assign gene function.
46 ed oil improvement and the identification of gene function.
47 sights into compound mechanism of action and gene function.
48 aired by guides which inefficiently abrogate gene function.
49 cleaved copies-the Rescue-provides essential gene function.
50 gs for tumors that are driven by the loss of gene function.
51 to determine if and how rare variants affect gene function.
52 its detection requires pickpocket 23 (ppk23) gene function.
53 tion of protein-coding genetic variation and gene function.
54 , requiring cis-retinal chromophore and Opn5 gene function.
55 gions and controlling cardiomyocyte-specific gene functions.
56 ntiation, cell signaling pathways, and viral gene functions.
57 el genera with a large repertoire of unknown gene functions.
58 frequently used vocabulary for representing gene functions.
59 for data mining and deeper understanding of gene functions.
60 Transgenic gerbera plants were used to infer gene functions.
61 as well as in studying gene expressions and gene functions.
62 omic studies or rapidly assessing individual gene functions.
63 omosomes is quintessential for understanding gene functions.
64 the type of dataset impacts inferences about gene functions.
65 tion of complex phenotypes, and to attribute gene functions.
66 e in great detail to better understand viral gene functions.
67 dels to (1) strengthen conclusions of single-gene function; (2) model diversity among human populatio
72 ce conservation is commonly used to decipher gene function and assess medical relevance, methods for
73 is based on two linked approaches to impute gene function and bridge genes with biological processes
75 providing tremendous opportunities to study gene function and cell fate in early human development.
76 tic marks such as DNA methylation can affect gene function and change in response to environmental co
77 offers a fast-track approach for perturbing gene function and circumvents certain limitations of sta
78 paramount in decoding the molecular basis of gene function and designing tools to modulate its downst
79 sposon system should facilitate the study of gene function and directed differentiation in human stem
81 an excellent vertebrate model for evaluating gene function and disease pathogenesis, especially becau
82 ering plants have resulted in differences in gene function and expression patterns, contributing to d
83 a valuable tool for both genetic analysis of gene function and for synthetic biology applications.
86 rain development provides vital insight into gene function and identifies critical sensitive periods
87 oanoflagellates has hampered direct tests of gene function and impeded the establishment of choanofla
88 le strategy for globally interrogating miRNA gene function and miRNA-based therapeutic intervention.
89 ive toolbox that allows for interrogation of gene function and modulation of the cellular behaviors.
90 miR-29 biomarkers were selected based on gene function and mRNA expression using quantitative rev
91 not only to the study of human hematopoietic gene function and networks, but also to perform sophisti
95 activation and can be valuable indicators of gene function and the potential toxicity of therapeutic
96 xpression analysis is widely used to predict gene function and to identify functionally related gene
99 een built to allow users to browse and query gene functions and analyze large-scale experimental data
100 ve as a powerful tool for dissecting in vivo gene functions and biological processes in a temporal ma
101 to predict isoform functions from annotated gene functions and expression data, but their performanc
102 gain-of-function approach for interrogating gene functions and for manipulating biological traits.
104 m is a useful tool for the study of specific gene functions and may allow the identification of antig
105 proteomics data yield specific hypotheses on gene functions and metabolic capabilities; and provide s
109 f-function studies are key for investigating gene function, and CRISPR technology has made genome edi
110 titative trait loci, have helped to identify genes, functions, and mechanisms of prime importance for
112 existing VIGS vectors for revealing monocot gene functions are described and potential new vectors a
113 ecipitation (ChIP-seq) revealed BAZ1B target gene functions are enriched for neurogenesis, neuron dif
116 we show that BEX1 is a heart failure-induced gene functioning as an mRNA-associated protein that enha
118 ycle during the transition, whereas epilepsy genes function as downstream effectors in the same proce
120 ction could be used to predict the timing of gene function, as mRNA abundance was found to correlate
123 on intrinsic or extrinsic noises and reveal gene function-associated noise trends implicating the ac
129 nce is not attributable to acute loss of MMR gene function but might arise during sustained MMR-defic
130 eating a genome- and phenome-wide catalog of gene function by characterizing new knockout-mouse strai
131 titutes state-of-the-art technology to study gene function by facilitating inducible expression in a
134 pression caused by the perturbation of clock gene function can have large effects on the growth of ad
135 y low in F0 embryos that cell non-autonomous gene functions can be probed effectively and redundant a
136 t size for a habitat suggested four putative gene function categories associated with a habitat in bo
139 e conservation of gene expression depends on gene function, cell type and evolutionary distance.
140 fish demonstrate that p.Tyr247Cys attenuates gene function, consistent with protein structural analys
141 PR-Cas nucleases is a powerful tool to study gene function, create disease models and holds promise f
142 acute manipulations more likely reveal basic gene functions, developmental plasticity can be a major
145 ash-soil community already showed a similar gene function diversity, phylum diversity and overall re
149 AG and STK genes show strong conservation of gene function during poplar catkin development and are p
150 ations that can further our understanding of gene function during postembryonic development and in di
151 e obtained by untangling specific paralogous gene functions during development might not only signifi
153 also show that the dre-1/F box heterochronic gene functions early in development to control maintenan
154 ene expression is essential to understanding gene function, engineering cellular behaviors, and devel
155 SR, we calculated gene-by-gene correlations, gene function enrichment, and comparison of temporal dyn
158 d the choice of dataset, annotation quality, gene function, expression similarity measure, and cluste
159 onally, libraries were created by predicting gene function from RNA-seq co-expression data processed
160 -Cas9 genome editing is widely used to study gene function, from basic biology to biomedical research
165 shing early developmental programs, maternal gene functions have remained elusive due to a paucity of
166 m presents an innovative approach to predict gene function, identify novel factors related to differe
167 o enable the discovery of: (i) new leads for gene function, (ii) non-coding RNAs; (iii) genes, pathwa
179 ies have revolutionized our understanding of gene function in complex biological settings, including
180 reating a platform for systematic screens of gene function in developing and adult flies with unprece
181 ources, which have been key to understanding gene function in diploid model organisms, are missing in
184 e marrow delivery system to rapidly evaluate gene function in innate and adaptive immune cells in viv
186 Overall, we show that large-scale studies of gene function in model organisms provide a powerful appr
187 xpression analysis has provided insight into gene function in organisms from Arabidopsis to zebrafish
191 rently lack the means to identify and modify gene function in specific subsets of midbrain dopaminerg
194 and the wide range of mechanistic effects on gene function in the context of signalling networks.
195 ificant; it extends our understanding of Dlx gene function in the developing forebrain beyond the reg
198 rculosis pathogenesis, analysis of essential gene function in this slow-growing pathogen remains diff
202 imentary approaches are widely used to study gene function in zebrafish: induction of genetic mutatio
204 tions have enabled researchers to understand gene functions in disease and development, providing a p
205 s are being harnessed to probe combinatorial gene functions in functional genomics studies and have t
207 ing technique and widely used to investigate gene functions in some biological processes and diseases
208 opens avenues for discovering and analyzing gene functions in the spatial and temporal contexts of p
209 is Primer, I summarise how this multifaceted gene functions in various mammalian tissues and organs,
213 gly, most of these differentially methylated genes function in cell adhesion and communication pathwa
215 rray analyses revealed that JMJD1A-dependent genes function in cellular growth, proliferation and sur
218 phenotypic variation that can elucidate how genes function in networks to collectively shape ocular
219 othesized that Dlx1, Dlx2 and Brn3b homeobox genes function in parallel intrinsic pathways to determi
220 even greater decrease, suggesting that both genes function in response to salt and have distinct fun
222 amk2-specific negative interactors included genes functioning in chromatin silencing and DNA damage
226 lecture in which he outlined key ideas about gene function, in particular what he called the central
227 show how dTn-Seq can help identify leads for gene function, including those involved in hyper-compete
228 role in extending the repertoire of specific gene functions, including light and oxygen sensing, whic
230 variants predicted to lead to loss of ACVR1C gene function influence body fat distribution and protec
232 s befalling coral reefs, understanding coral gene function is essential to advance reef conservation.
233 of multicellular organisms, interrogation of gene function is greatly facilitated by methods that all
235 act of rare variants is under-appreciated as gene function is normally studied in the context of a si
236 rstanding the genetic and molecular bases of gene function is of increasing importance to harness the
238 GWAS schizophrenia variants whose associated gene function is related to synaptic transmission, and (
239 lend support to the notion that loss of ndh gene function is the first step of plastome degradation
240 The classic model for the evolution of novel gene function is through gene duplication followed by ev
242 provide a valuable foundation for studies of gene function, metabolic engineering, and trait modifica
243 l global impact of AS on the human canonical gene functions, molecular interactions and cellular path
244 cts expression patterns to information about gene function, mouse expression patterns and phenotypes,
245 alleles, transgenic lines, gene expression, gene function, mutant phenotypes, orthology, human disea
246 rast, predictors based on attributes such as gene function, mutation rates, or network features perfo
247 ns has led to ground-breaking discoveries in gene-function, neuronal circuits, and physiological resp
249 stablish that human collybistin, the loss of gene function of which causes severe encephalopathy, is
250 ortant because different downstream effector genes function optimally at different expression levels.
252 quencies, and variants having high impact on gene function or provide any other added information or
253 At last, it will help users hypothesize new gene functions or genotype-phenotype associations by an
254 understudied mechanism of evolution for new gene functions, particularly under conditions of rapid e
255 reference data sets related to mouse genes, gene functions, phenotypes, and mouse models of human di
256 Our work has broad impacts on the study of gene functions, phenotypical heterogeneity, and genetic
257 etwork (GCN) can be constructed and used for gene function prediction, candidate gene selection, and
258 ne, GCN analysis has shown great promise for gene function prediction, however, measurable progress i
259 arding cancer gene networks construction and gene function prediction, MFR also obtains the results w
262 and human osteoblast expression studies; (2) gene-function prediction; (3) skeletal phenotyping of 12
264 tive phenotype is caused by an alteration in gene function rather than a loss-of-function mutation.
265 ated reprogramming indicating that the PpCSP genes function redundantly in cellular reprogramming.
270 del may offer unique usefulness for studying gene functions simultaneously in multilineages in the lu
273 allel sequencing often require complementary gene function studies to determine if and how rare varia
276 efficient approach to investigate essential gene function that may be particularly useful in charact
277 enabled the definition of sets of genes and gene functions that were acquired or lost in specific li
279 itors requires CREB-CBP interaction and Nr4a gene function, these data support the notion that the ba
281 ultiple data types and external knowledge of gene function to detect candidate genes, applied the met
282 lop a new technology for inhibiting maternal gene function to identify the H3K9 methyltransferase nec
283 l links and help researchers to choose which gene functions to investigate in a biological event.
284 technique helps to transfer the knowledge of gene functions to the prediction of isoform functions an
286 ated, cross-species approaches to uncovering gene function using functional genomics and other approa
287 l microscopy is a powerful tool for studying gene functions using strain libraries, but it suffers fr
291 ing of bptf in zebrafish to induce a loss of gene function, we observed a significant reduction in he
292 ese "molecular scars" as a guide to discover gene functions, we discovered a vertebrate-specific MIto
293 mbinase system is an essential tool to study gene function when early ablation or overexpression can
294 ClvRs, each targeting a different essential gene, function when located at a common chromosomal posi
295 genes or cause the loss of tumor suppressing gene function which can lead to tumorigenesis by downreg
296 CRISPR-Cas9 system enables global screens of gene function with high sensitivity and specificity, but
297 hat uses a range of approaches for assessing gene function with high-throughput molecular, genetic, a
298 le for understanding the effects SVs have on gene function, with the prospect of identifying novel ag
299 d recessive CHD are associated with distinct gene functions, with cilia-related genes providing a res