Cai-xia Gao
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Cai-xia Gao's AcademicInfluence.com Rankings
Cai-xia Gaobiology Degrees
Biology
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Biotechnology
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Botany
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Genetics
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Biology
Cai-xia Gao's Degrees
- PhD Plant Biology University of California, Berkeley
- Masters Plant Genetics University of California, Berkeley
- Bachelors Agricultural Science China Agricultural University
Why Is Cai-xia Gao Influential?
(Suggest an Edit or Addition)Cai-xia Gao's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Targeted genome modification of crop plants using a CRISPR-Cas system (2013) (1509)
- Simultaneous editing of three homoeoalleles in hexaploid bread wheat confers heritable resistance to powdery mildew (2014) (1425)
- CRISPR/Cas Genome Editing and Precision Plant Breeding in Agriculture. (2019) (710)
- Efficient DNA-free genome editing of bread wheat using CRISPR/Cas9 ribonucleoprotein complexes (2017) (621)
- Efficient and transgene-free genome editing in wheat through transient expression of CRISPR/Cas9 DNA or RNA (2016) (620)
- Precise base editing in rice, wheat and maize with a Cas9-cytidine deaminase fusion (2017) (605)
- Genome editing in rice and wheat using the CRISPR/Cas system (2014) (528)
- Targeted mutagenesis in Zea mays using TALENs and the CRISPR/Cas system. (2014) (523)
- Cytosine, but not adenine, base editors induce genome-wide off-target mutations in rice (2019) (406)
- Breeding crops to feed 10 billion (2019) (394)
- Prime genome editing in rice and wheat (2020) (393)
- Precision Genome Engineering and Agriculture: Opportunities and Regulatory Challenges (2014) (354)
- Domestication of wild tomato is accelerated by genome editing (2018) (334)
- Expanded base editing in rice and wheat using a Cas9-adenosine deaminase fusion (2018) (306)
- Establishing a CRISPR–Cas-like immune system conferring DNA virus resistance in plants (2015) (294)
- Progress and prospects in plant genome editing (2017) (288)
- Simultaneous modification of three homoeologs of TaEDR1 by genome editing enhances powdery mildew resistance in wheat (2017) (287)
- Gene replacements and insertions in rice by intron targeting using CRISPR–Cas9 (2016) (280)
- Applications of CRISPR–Cas in agriculture and plant biotechnology (2020) (275)
- High‐efficiency gene targeting in hexaploid wheat using DNA replicons and CRISPR/Cas9 (2017) (274)
- Horizontal gene transfer of Fhb7 from fungus underlies Fusarium head blight resistance in wheat (2020) (268)
- Creation of fragrant rice by targeted knockout of the OsBADH2 gene using TALEN technology. (2015) (247)
- Rapid and efficient gene modification in rice and Brachypodium using TALENs. (2013) (242)
- Efficient C-to-T base editing in plants using a fusion of nCas9 and human APOBEC3A (2018) (237)
- Applications and potential of genome editing in crop improvement (2018) (232)
- Genome engineering for crop improvement and future agriculture (2021) (227)
- Targeted, random mutagenesis of plant genes with dual cytosine and adenine base editors (2020) (176)
- The future of CRISPR technologies in agriculture (2018) (173)
- Analysis of the functions of TaGW2 homoeologs in wheat grain weight and protein content traits (2018) (167)
- Genome editing of upstream open reading frames enables translational control in plants (2018) (165)
- A route to de novo domestication of wild allotetraploid rice (2021) (156)
- Construction of a Genome-Wide Mutant Library in Rice Using CRISPR/Cas9. (2017) (155)
- Genome editing of bread wheat using biolistic delivery of CRISPR/Cas9 in vitro transcripts or ribonucleoproteins (2018) (142)
- Hi-TOM: a platform for high-throughput tracking of mutations induced by CRISPR/Cas systems (2017) (140)
- Targeted genome modification technologies and their applications in crop improvements (2014) (139)
- Generation of herbicide tolerance traits and a new selectable marker in wheat using base editing (2019) (133)
- High-efficiency prime editing with optimized, paired pegRNAs in plants (2021) (113)
- A CRISPR way for accelerating improvement of food crops (2020) (109)
- Current and future editing reagent delivery systems for plant genome editing (2017) (97)
- Perfectly matched 20-nucleotide guide RNA sequences enable robust genome editing using high-fidelity SpCas9 nucleases (2017) (95)
- Prime editing efficiently generates W542L and S621I double mutations in two ALS genes in maize (2020) (95)
- A ‘new lease of life’: FnCpf1 possesses DNA cleavage activity for genome editing in human cells (2017) (93)
- TALENs: customizable molecular DNA scissors for genome engineering of plants. (2013) (93)
- Targeted mutagenesis in wheat microspores using CRISPR/Cas9 (2018) (88)
- Generation of thermosensitive male-sterile maize by targeted knockout of the ZmTMS5 gene. (2017) (79)
- Transcriptome Association Identifies Regulators of Wheat Spike Architecture1[OPEN] (2017) (73)
- Genome-edited powdery mildew resistance in wheat without growth penalties (2022) (73)
- Rationally Designed APOBEC3B Cytosine Base Editors with Improved Specificity. (2020) (70)
- The CRISPR-Cas toolbox and gene editing technologies. (2021) (62)
- Fine‐tuning the amylose content of rice by precise base editing of the Wx gene (2020) (60)
- Genome-wide specificity of prime editors in plants (2021) (56)
- Fine-tuning sugar content in strawberry (2020) (55)
- Genotyping genome‐edited mutations in plants using CRISPR ribonucleoprotein complexes (2018) (54)
- From Genetic Stock to Genome Editing: Gene Exploitation in Wheat. (2017) (50)
- Roadmap for Accelerated Domestication of an Emerging Perennial Grain Crop. (2020) (46)
- Manipulating mRNA splicing by base editing in plants (2018) (44)
- Modulating chromatin accessibility by transactivation and targeting proximal dsgRNAs enhances Cas9 editing efficiency in vivo (2019) (44)
- Highly efficient heritable genome editing in wheat using an RNA virus and bypassing tissue culture. (2021) (43)
- MicroRNA393 is involved in nitrogen-promoted rice tillering through regulation of auxin signal transduction in axillary buds (2016) (42)
- Conferring DNA virus resistance with high specificity in plants using virus-inducible genome-editing system (2018) (41)
- Robust genome editing of CRISPR-Cas9 at NAG PAMs in rice (2017) (41)
- Comparative analysis of transgenic tall fescue (Festuca arundinacea Schreb.) plants obtained by Agrobacterium-mediated transformation and particle bombardment (2008) (40)
- A chromatin loop represses WUSCHEL expression in Arabidopsis (2018) (38)
- An engineered prime editor with enhanced editing efficiency in plants (2022) (37)
- KTN80 confers precision to microtubule severing by specific targeting of katanin complexes in plant cells (2017) (37)
- Prospects for the accelerated improvement of the resilient crop quinoa (2020) (36)
- Precise, predictable multi-nucleotide deletions in rice and wheat using APOBEC–Cas9 (2020) (33)
- An Uncanonical CCCH-Tandem Zinc-Finger Protein Represses Secondary Wall Synthesis and Controls Mechanical Strength in Rice. (2018) (30)
- SWISS: multiplexed orthogonal genome editing in plants with a Cas9 nickase and engineered CRISPR RNA scaffolds (2020) (29)
- Manipulating gene translation in plants by CRISPR–Cas9-mediated genome editing of upstream open reading frames (2020) (29)
- Generation of large numbers of transgenic Kentucky bluegrass (Poa pratensis L.) plants following biolistic gene transfer (2006) (27)
- High-fidelity SaCas9 identified by directional screening in human cells (2020) (27)
- Genome editing in crops: from bench to field (2015) (24)
- An efficient TALEN mutagenesis system in rice. (2014) (23)
- Biolistic genetic transformation of a wide range of Chinese elite wheat (Triticum aestivum L.) varieties. (2015) (22)
- Prime editing efficiently generates W542L and S621I double mutations in two ALS genes in maize (2020) (21)
- Generating broad-spectrum tolerance to ALS-inhibiting herbicides in rice by base editing (2020) (19)
- Biolistic Delivery of CRISPR/Cas9 with Ribonucleoprotein Complex in Wheat. (2019) (18)
- Comparison between Agrobacterium-mediated and direct gene transfer using the gene gun. (2013) (18)
- Correction to: Applications and potential of genome editing in crop improvement (2019) (17)
- Boosting activity of high-fidelity CRISPR/Cas9 variants using a tRNAGln-processing system in human cells (2019) (16)
- Transient expression of a TaGRF4-TaGIF1 complex stimulates wheat regeneration and improves genome editing (2021) (15)
- Development and characterization of marker‐free and transgene insertion site‐defined transgenic wheat with improved grain storability and fatty acid content (2019) (15)
- Wheat AGAMOUS LIKE 6 transcription factors function in stamen development by regulating the expression of Ta APETALA3 (2019) (14)
- Targeted mutagenesis in ryegrass (Lolium spp.) using the CRISPR/Cas9 system (2020) (14)
- CRISPR twins: a condemnation from Chinese academic societies (2018) (14)
- [CRISPR/Cas: a novel way of RNA-guided genome editing]. (2013) (12)
- CRISPR editing-mediated antiviral immunity: a versatile source of resistance to combat plant virus infections (2019) (12)
- Genome editing in plants with MAD7 nuclease. (2021) (11)
- Agrobacterium-mediated transformation of meadow fescue (Festuca pratensis Huds.) (2009) (10)
- An Efficient Targeted Mutagenesis System Using CRISPR/Cas in Monocotyledons. (2016) (10)
- The MYB family transcription factor TuODORANT1 from Triticum urartu and the homolog TaODORANT1 from Triticum aestivum inhibit seed storage protein synthesis in wheat (2021) (8)
- Genome-edited crops: how to move them from laboratory to market (2020) (8)
- Generation of Stable Transgenic Rice (Oryza sativa L.) by Agrobacterium-Mediated Transformation. (2016) (8)
- Comparison of three selectable marker genes for transformation of tall fescue (Festuca arundinacea Schreb.) plants by particle bombardment (2011) (8)
- The CRISPR/Cas9 Genome Editing Revolution. (2016) (8)
- Shortening the sgRNA-DNA interface enables SpCas9 and eSpCas9(1.1) to nick the target DNA strand (2020) (8)
- Identification and characterization of Sr22b, a new allele of the wheat stem rust resistance gene Sr22 effective against the Ug99 race group (2021) (7)
- Recent advances in DNA-free editing and precise base editing in plants. (2017) (7)
- Research progress of genome editing and derivative technologies in plants. (2015) (7)
- Precision plant breeding using genome editing technologies (2019) (7)
- Anything impossible with CRISPR/Cas9? (2017) (6)
- Targeted Mutagenesis in Hexaploid Bread Wheat Using the TALEN and CRISPR/Cas Systems. (2017) (6)
- Developing CRISPR Technology in Major Crop Plants (2015) (5)
- Genetic manipulations of TaARE1 boost nitrogen utilization and grain yield in wheat. (2021) (5)
- An unbiased method for evaluating the genome-wide specificity of base editors in rice (2020) (5)
- Genome-wide identification of seed storage protein gene regulators in wheat through coexpression analysis. (2021) (4)
- Accelerated Domestication of New Crops: Yield is Key (2022) (4)
- Antagonistic control of seed dormancy in rice by two bHLH transcription factors (2022) (4)
- Targeted Gene Mutation in Plants (2015) (4)
- The wheat cytosolic glutamine synthetase GS1.1 modulates N assimilation and spike development by characterizing CRISPR-edited mutants (2020) (3)
- CRISPR-edited plants by grafting. (2023) (3)
- [Progress on base editing systems]. (2019) (3)
- Author Correction: Applications of CRISPR–Cas in agriculture and plant biotechnology (2020) (3)
- Publisher Correction: Applications of CRISPR–Cas in agriculture and plant biotechnology (2020) (3)
- A precise and efficient adenine base editor. (2022) (2)
- Tuning plant phenotypes by precise, graded downregulation of gene expression. (2023) (2)
- Targeted, random mutagenesis of plant genes with dual cytosine and adenine base editors (2020) (2)
- Plant genome engineering from lab to field—a Keystone Symposia report (2021) (2)
- Author Correction: An engineered prime editor with enhanced editing efficiency in plants (2022) (2)
- Transcriptional Repression of TaNOX10 by TaWRKY19 Compromises ROS Generation and Enhances Wheat Susceptibility to Stripe Rust. (2022) (2)
- The florigen interactor BdES43 represses flowering in the model temperate grass Brachypodium distachyon. (2019) (2)
- Preface to the special topic on genome editing research in China (2019) (2)
- Gene Replacement by Intron Targeting with CRISPR-Cas9. (2019) (2)
- Protoplast Isolation and Transfection in Wheat. (2022) (1)
- Modulating chromatin accessibility by transactivation and targeting proximal dsgRNAs enhances Cas9 editing efficiency in vivo (2019) (1)
- Enabling technology and core theory of synthetic biology (2023) (1)
- Optimized prime editing in monocot plants using PlantPegDesigner and engineered plant prime editors (ePPEs) (2022) (1)
- Perfectly matched 20-nucleotide guide RNA sequences enable robust genome editing using high-fidelity SpCas9 nucleases (2017) (1)
- SWISS: multiplexed orthogonal genome editing in plants with a Cas9 nickase and engineered CRISPR RNA scaffolds (2020) (1)
- Saturation Mutagenesis Using Dual Cytosine and Adenine Base Editors (2021) (1)
- Expanded base editing in rice and wheat using a Cas9-adenosine deaminase fusion (2018) (1)
- Conferring DNA virus resistance with high specificity in plants using virus-inducible genome-editing system (2018) (1)
- Developing Genome Editing Technologies for Crop Improvement (2015) (1)
- Erratum to: Prospects for the accelerated improvement of the resilient crop quinoa (2021) (0)
- Special Issue: CRISPR in CHINA. (2020) (0)
- Shortening the sgRNA-DNA interface enables SpCas9 and eSpCas9(1.1) to nick the target DNA strand (2020) (0)
- Manipulating gene translation in plants by CRISPR–Cas9-mediated genome editing of upstream open reading frames (2020) (0)
- Special Issue: CRISPR in CHINA. (2020) (0)
- Erratum to: Generating broad-spectrum tolerance to ALS-inhibiting herbicides in rice by base editing (2022) (0)
- Epigenetic modifications mediate cultivar-specific root development and metabolic adaptation to nitrogen availability in wheat (2023) (0)
- An unbiased method for evaluating the genome-wide specificity of base editors in rice (2020) (0)
- Manipulating mRNA splicing by base editing in plants (2018) (0)
- Cancer immunotherapy: Molecular switch controls therapy (2015) (0)
- Anthocyanin-assisted Agrobacterium infiltration for the rapid evaluation of genome editing efficiencies across multiple plant species (2022) (0)
- Fine-tuning sugar content in strawberry (2020) (0)
- Plant biology: CRISPR cripples plant viruses (2015) (0)
- Robust genome editing of CRISPR-Cas9 at NAG PAMs in rice (2017) (0)
- Precise integration of large DNA sequences in plant genomes using PrimeRoot editors. (2023) (0)
- Targeted Genome Editing in Crop Plants Using a CRISPR/Cas System (2014) (0)
- [Preface for genome editing special issue]. (2017) (0)
- Precise, predictable multi-nucleotide deletions in rice and wheat using APOBEC–Cas9 (2020) (0)
- CRISPR Adventures in China. (2021) (0)
- Breeding crops to feed 10 billion (2019) (0)
- Hi-TOM: a platform for high-throughput tracking of mutations induced by CRISPR/Cas systems (2018) (0)
- Anything impossible with CRISPR/Cas9? (2017) (0)
- Highlights of special issue “Genome Editing in Agriculture: Technology, Applications and Regulations” (2020) (0)
- Correction to: Applications and potential of genome editing in crop improvement (2019) (0)
- Targeted genome modification technologies and their applications in crop improvements (2013) (0)
- Erratum to: Generating broad-spectrum tolerance to ALS-inhibiting herbicides in rice by base editing (2022) (0)
- Gene editing: from technologies to applications in research and beyond (2022) (0)
- Prime genome editing in rice and wheat (2020) (0)
- Generation of herbicide tolerance traits and a new selectable marker in wheat using base editing (2019) (0)
- Targeted mutagenesis in wheat microspores using CRISPR/Cas9 (2018) (0)
- Applications and potential of genome editing in crop improvement (2018) (0)
- Current and future editing reagent delivery systems for plant genome editing (2017) (0)
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