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1 obial fitness screens are a key technique in functional genomics.
2 nucleases is transforming genome editing and functional genomics.
3 ting channel catfish genetic enhancement and functional genomics.
4 technology have emerged as a major tool for functional genomics.
5 ing the utility of this collection for plant functional genomics.
6 is a crucial foundation for comparative and functional genomics.
7 RNAi screens are widely used in functional genomics.
8 wheat, thus opening up their pan-genomes to functional genomics.
9 gineering platforms and their application to functional genomics.
10 t CRISPR screens have shown great promise in functional genomics.
11 method for programmable and high-throughput functional genomics.
12 rtunities, including studies in the field of functional genomics.
13 ues which can utilize as a potential tool in functional genomics.
14 rapid development of liver cancer models and functional genomics.
15 s feasible and has exciting implications for functional genomics.
16 solution transcriptional analysis coupled to functional genomics.
17 making it a potential model plant for orchid functional genomics.
18 nsformative approaches in human genetics and functional genomics.
19 consequently used in function prediction and functional genomics.
20 as evolved into the study of high-throughput functional genomics.
21 reverse- and forward-genetics tool in plant functional genomics.
22 formation among variables such as those from functional genomics.
23 portance of these non-reference sequences in functional genomics.
24 ed to create genetic variation resources for functional genomics.
25 ockout screens are revolutionizing mammalian functional genomics.
26 iology and Gene Expression Omnibus (GEO) for functional genomics.
27 individuals of European origin from the 200 Functional Genomics (200FG) cohort in the Human Function
40 that integrates new patient-derived models, functional genomics and chemical screens to facilitate t
41 tion (SSM) is an important tool for mosquito functional genomics and comparative gene expression stud
45 d pluripotency, providing a novel system for functional genomics and developmental research in humans
47 ich will aid in the advancement of tools for functional genomics and elucidation of the biosynthesis
51 reat potential as designer viruses to pursue functional genomics and for the rational design of novel
53 rologous genomic or metagenomic libraries in functional genomics and genome engineering is the low ex
56 rence (RNAi) has become an important tool in functional genomics and has an intriguing therapeutic po
58 user-provided private and publicly available functional genomics and interaction datasets, 3) queryin
59 able elements, which is an important tool in functional genomics and is well established in several c
62 wSeq may serve as a rapid screening tool for functional genomics and offer the opportunity to explore
66 practical resource available for the broader functional genomics and population genetics communities,
67 ted RNAi approach is a tool for studying bee functional genomics and potentially for safeguarding bee
69 y providing an invaluable tool to accelerate functional genomics and proteomic research in monocot an
71 nitzschia multistriata Here, we describe how functional genomics and reverse genetics have contribute
72 r the last few years, numerous approaches in functional genomics and systems biology have led to a gr
73 ating and advancing our understanding of the functional genomics and systems biology of any process f
74 A-seq data, provides a valuable resource for functional genomics and tools for breeding elite Hevea c
75 technologies are widely used in the field of functional genomics and used in an increasing number of
77 -throughput sequencing, structural genomics, functional genomics, and chemical genomics into unified
78 g biological knowledge from model organisms, functional genomics, and integrative approaches can empo
80 n of phenotypes has become a crucial tool of functional genomics, and several large international pro
81 a CRISPR/Cas9-based in vivo platform for BCL functional genomics, and validate discovered genes, such
84 is challenge, we developed a high-throughput functional genomics approach combining inducible CRISPR-
88 ress this, we implemented a multidimensional functional genomics approach that incorporates 7 differe
90 te and applied an integrated data-mining and functional genomics approach to identify a rheostat of D
93 e subsequently prioritized with a convergent functional genomics approach using previous evidence in
99 This Review describes how new CRISPR-based functional genomics approaches can uncover disease mecha
104 ecessitates developing novel high-throughput functional genomics approaches to elucidate the molecula
105 ssue of Cell use genome-wide association and functional genomics approaches to provide deep insights
110 of individual algae, with phylogenomics and functional genomics as tools for contextualizing and tra
111 as the potential to become a useful tool for functional genomics, as well as for combating protein-ex
115 cture/network information such as those from functional genomics, besides using sparsity penalty so t
116 is a valuable reverse genetics tool used in functional genomics, but recently, it has also shown pro
117 ucture prediction plays an important role in Functional Genomics by providing structural models of ge
120 Second, we used a comprehensive Convergent Functional Genomics (CFG) approach to identify and prior
125 ing RNA has potential applications for plant functional genomics, crop improvement and crop protectio
128 integrated our data with publicly available functional genomics data and identified a growth regulat
129 d provides an efficient intermediary between functional genomics data and reverse-genetics resources
130 on in a population of European ancestry, (3) functional genomics data comprised of protein-protein in
131 and complete interpretation of the extensive functional genomics data from HepG2 requires an understa
132 ability of cancer whole genome sequences and functional genomics data from the Encyclopedia of DNA El
136 tuitive 'exploration-style' visualization of functional genomics data relating to the malaria parasit
138 cess several public interaction networks and functional genomics data sets through the portal as well
139 82 individuals by uniformly processing 1,263 functional genomics data sets, developing approaches to
146 Functional Genomics Data is an international functional genomics database at the European Bioinformat
147 e motifs, evolutionary patterns, and diverse functional genomics datasets from a variety of cell type
149 ry statistics with large-scale collection of functional genomics datasets spanning enhancer activity,
152 n loosely termed evolutionary and ecological functional genomics (EEFG), and have been providing key
154 ular mutations, as well as for the design of functional genomics experiments and for decision support
158 Microarray technology, as well as other functional genomics experiments, allow simultaneous meas
160 markers also have value beyond B. napus for functional genomics, facilitated by the close genetic re
166 1 CRISPRi system will have broad utility for functional genomics, genetic interaction mapping and dru
169 ntional pathology with genomic profiling and functional genomics have begun to enhance our understand
173 is a curated online resource for comparative functional genomics in crops and model plant species, cu
174 ramene is an online resource for comparative functional genomics in crops and model plant species.
175 it is expected to revolutionize the field of functional genomics in Dictyostelium by greatly expandin
179 o fully exploit the potential of single-cell functional genomics in the study of development and dise
182 high throughput leaf metabolomics along with functional genomics in wild tomato unreveal potential ro
183 eighting each GWAS by using information from functional genomics increased the number of loci with hi
184 increase statistical power is to incorporate functional genomics information, especially gene express
185 interference (RNAi) in molecular biology and functional genomics is a well-established technology, in
187 n the model yeast, Saccharomyces cerevisiae, functional genomics is used to explore the role of metal
188 ning strategy, combined with comparative and functional genomics, led to the identification of the Co
189 ese two species and their comparisons at the functional genomics level to support tailor-designed bre
191 molecular Fluorescence Complementation-based functional genomics method to perform a high throughput
192 In this study, we developed an integrative functional genomics methodology to identify cancer susce
194 y employed in the fields of evolutionary and functional genomics of both well established and newly s
195 ch will open doors to the study of bacterial functional genomics of different species in numerous set
196 am, microRNA-mediated EBV viral oncogenesis, functional genomics of EBV and its biology, and differen
198 ghput infectious cell culture model enabling functional genomics of hepatitis delta virus entry and i
200 ll as their development and applications for functional genomics of plant coding and non-coding genes
201 provide a platform for the evolutionary and functional genomics of satDNAs in pericentric heterochro
202 tablished as a model for the comparative and functional genomics of temperate cereals and grasses.
203 ant applications of the viral vector include functional genomics of the grapevine and disease control
204 ls that can be used for investigation of the functional genomics of these loci, and progress has been
205 clerosis and CAD will be learned through the functional genomics of these loci, and the hope is that
206 f fungi situates them as a relatively simple functional genomics platform for identification of mutat
208 a genome-scale CRISPR interference (CRISPRi) functional genomics platform to systematically identify
211 ctional Genomics (200FG) cohort in the Human Functional Genomics Project, obtained over three differe
217 mutLBSgeneDB provides a useful resource for functional genomics, protein structure, drug and disease
218 ression networks have been a useful tool for functional genomics, providing important clues about the
219 Genomics Data is one of three international functional genomics public data repositories, alongside
221 p a data-sanitization procedure allowing raw functional genomics reads to be shared while minimizing
223 iew summarizes current GWAS efforts in maize functional genomics research and discusses future prospe
224 The recent surge in genome sequence data and functional genomics research has ushered in the discover
225 lish a standardized RT-qPCR protocol for the functional genomics research in a ladybeetle C. maculate
230 g unprecedented opportunities to develop the functional genomics resources required to investigate co
231 vard Medical School and associated DRSC/TRiP Functional Genomics Resources website serve as a reagent
234 ng a shRNA library targeting 15,000 genes, a functional genomics screen was performed to identify gen
235 ppression pathway was identified by way of a functional genomics screening in human hepatoma cells.
236 researchers at all stages of high-throughput functional genomics screening, from assay design and rea
237 We demonstrated that AsCpf1 can be used for functional genomics screenings and that an AsCpf1-based
238 eutics, we combined antibody engineering and functional genomics screens to identify putative mechani
239 t HNSCC cell lines to RNA interference-based functional genomics screens to identify, in an unbiased
240 scale image-based analyses for mycobacterial functional genomics, simultaneously establishing the uti
242 combinatorial genomics-assisted breeding and functional genomics strategy, this study identified natu
244 r effector technology is a powerful tool for functional genomics studies and biotechnological applica
245 ts for cancer treatment in clinical studies, functional genomics studies and computational studies an
246 sed to probe combinatorial gene functions in functional genomics studies and have the potential to ad
247 ng sequences and genes, which are needed for functional genomics studies and trait improvement in cro
248 encing of many crops has been achieved, crop functional genomics studies have stepped into the big-da
250 applications of this viral vector system for functional genomics studies in maize and other monocots.
252 eated a variety of clone and mutant sets for functional genomics studies of Escherichia coli K-12.
255 d to be mapped to variants and genes through functional genomics studies that combine annotation of v
257 es focus on rare event categorical data, and functional genomics studies typically study the presence
268 -wide association is a powerful approach for functional genomics study of specialized metabolism.
271 milar to human GWASs, it is important to use functional genomics techniques to gain a mechanistic und
273 ent state of knowledge concerning the use of functional genomics technologies to understand mechanism
274 advances in genomic resources and tools for functional genomics that are shifting the paradigm of wh
275 evelopments in transcriptomics (RNA-seq) and functional genomics that we expect to help us develop an
276 In addition to the potential application in functional genomics, this study provides the foundation
277 adly applicable platform for high-throughput functional genomics to accelerate biological studies and
279 oot phenotyping, whole-plant physiology, and functional genomics to discover novel root traits and th
281 sms are poorly understood.Objectives: To use functional genomics to identify cellular mechanisms asso
285 be fundamental in applications ranging from functional genomics to precision medicine and is a conje
286 pigenetics research aligns with the field of functional genomics to provide insights into environment
291 on gene discovery, fine mapping of loci, and functional genomics using state-of-the-art technologies.
292 enetic mapping, linkage group selection, and functional genomics was used to identify Pfs47 as a P. f
296 Using a combination of transcriptomics and functional genomics, we unexpectedly identified a nodal
298 s focused on the field of autoimmune disease functional genomics with a particular focus on the most
299 of studies at the proximate level, including functional genomics, with behavioral and ecological stud
300 roscopy-based screens are powerful tools for functional genomics, yielding intracellular information