Increased mutation efficiency of CRISPR/Cas9 genome editing in banana by optimized construct

The CRISPR/Cas9-mediated genome editing system has been used extensively to engineer targeted mutations in a wide variety of species. Its application in banana, however, has been hindered because of the species’ triploid nature and low genome editing efficiency. This has delayed the development of a DNA-free genome editing approach. In this study, we reported that the endogenous U6 promoter and banana codon-optimized Cas9 apparently increased mutation frequency in banana, and we generated a method to validate the mutation efficiency of the CRISPR/Cas9-mediated genome editing system based on transient expression in protoplasts. The activity of the MaU6c promoter was approximately four times higher than that of the OsU6a promoter in banana protoplasts. The application of this promoter and banana codon-optimized Cas9 in CRISPR/Cas9 cassette resulted in a fourfold increase in mutation efficiency compared with the previous CRISPR/Cas9 cassette for banana. Our results indicated that the optimized CRISPR/Cas9 system was effective for mutating targeted genes in banana and thus will improve the applications for basic functional genomics. These findings are relevant to future germplasm improvement and provide a foundation for developing DNA-free genome editing technology in banana.

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GFP tagging based method to analyze the genome editing efficiency of CRISPR/Cas9-gRNAs through transient expression in N. benthamiana

Journal of Plant Biochemistry and Biotechnology ◽

10.1007/s13562-019-00540-0 ◽

2019 ◽

Vol 29 (2) ◽

pp. 183-192

Author(s):

Swapnil S. Thakare ◽

Navita Bansal ◽

S. Vanchinathan ◽

G. Rama Prashat ◽

Veda Krishnan ◽

...

Keyword(s):

Genome Editing ◽

Transient Expression ◽

Editing Efficiency

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Recent advances in CRISPR/Cas9 and applications for wheat functional genomics and breeding

aBIOTECH ◽

10.1007/s42994-021-00042-5 ◽

2021 ◽

Author(s):

Jun Li ◽

Yan Li ◽

Ligeng Ma

Keyword(s):

Functional Genomics ◽

Genome Editing ◽

Functional Annotation ◽

Genome Engineering ◽

Agronomic Traits ◽

Wheat Breeding ◽

Breeding Programs ◽

Base Editing ◽

The World ◽

World Food Security

AbstractCommon wheat (Triticum aestivum L.) is one of the three major food crops in the world; thus, wheat breeding programs are important for world food security. Characterizing the genes that control important agronomic traits and finding new ways to alter them are necessary to improve wheat breeding. Functional genomics and breeding in polyploid wheat has been greatly accelerated by the advent of several powerful tools, especially CRISPR/Cas9 genome editing technology, which allows multiplex genome engineering. Here, we describe the development of CRISPR/Cas9, which has revolutionized the field of genome editing. In addition, we emphasize technological breakthroughs (e.g., base editing and prime editing) based on CRISPR/Cas9. We also summarize recent applications and advances in the functional annotation and breeding of wheat, and we introduce the production of CRISPR-edited DNA-free wheat. Combined with other achievements, CRISPR and CRISPR-based genome editing will speed progress in wheat biology and promote sustainable agriculture.

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AsCas12a ultra nuclease facilitates the rapid generation of therapeutic cell medicines

Nature Communications ◽

10.1038/s41467-021-24017-8 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

Liyang Zhang ◽

John A. Zuris ◽

Ramya Viswanathan ◽

Jasmine N. Edelstein ◽

Rolf Turk ◽

...

Keyword(s):

T Cells ◽

Nk Cells ◽

Genome Editing ◽

Nk Cell ◽

Basic Research ◽

Cell Recognition ◽

Site Specific ◽

Editing Efficiency ◽

Rapid Generation ◽

Therapeutic Cell

AbstractThough AsCas12a fills a crucial gap in the current genome editing toolbox, it exhibits relatively poor editing efficiency, restricting its overall utility. Here we isolate an engineered variant, “AsCas12a Ultra”, that increased editing efficiency to nearly 100% at all sites examined in HSPCs, iPSCs, T cells, and NK cells. We show that AsCas12a Ultra maintains high on-target specificity thereby mitigating the risk for off-target editing and making it ideal for complex therapeutic genome editing applications. We achieved simultaneous targeting of three clinically relevant genes in T cells at >90% efficiency and demonstrated transgene knock-in efficiencies of up to 60%. We demonstrate site-specific knock-in of a CAR in NK cells, which afforded enhanced anti-tumor NK cell recognition, potentially enabling the next generation of allogeneic cell-based therapies in oncology. AsCas12a Ultra is an advanced CRISPR nuclease with significant advantages in basic research and in the production of gene edited cell medicines.

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Editorial: Plant Disease Management in the Post-genomic Era: From Functional Genomics to Genome Editing

Frontiers in Microbiology ◽

10.3389/fmicb.2020.00107 ◽

2020 ◽

Vol 11 ◽

Author(s):

Sabrina Sarrocco ◽

Alfredo Herrera-Estrella ◽

David B. Collinge

Keyword(s):

Disease Management ◽

Functional Genomics ◽

Genome Editing ◽

Plant Disease ◽

Plant Disease Management

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Agrobacterium-mediated transient transformation of sorghum leaves for accelerating functional genomics and genome editing studies

BMC Research Notes ◽

10.1186/s13104-020-04968-9 ◽

2020 ◽

Vol 13 (1) ◽

Cited By ~ 3

Author(s):

Rita Sharma ◽

Yan Liang ◽

Mi Yeon Lee ◽

Venkataramana R. Pidatala ◽

Jenny C. Mortimer ◽

...

Keyword(s):

Functional Genomics ◽

Genome Editing ◽

Transient Transformation

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Genome editing in Bombyx mori : New opportunities for silkworm functional genomics and the sericulture industry

Insect Science ◽

10.1111/1744-7917.12609 ◽

2018 ◽

Vol 26 (6) ◽

pp. 964-972 ◽

Cited By ~ 8

Author(s):

San‐Yuan Ma ◽

Guy Smagghe ◽

Qing‐You Xia

Keyword(s):

Functional Genomics ◽

Bombyx Mori ◽

Genome Editing

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Genome editing's potential target diseases in the cardiovascular field

10.31219/osf.io/gc23p ◽

2021 ◽

Author(s):

Moataz Dowaidar

Keyword(s):

Cardiovascular Diseases ◽

Genome Editing ◽

Target Cells ◽

Clinical Use ◽

Editing Efficiency ◽

Potential Target ◽

Genome Wide ◽

Significant Barrier

Two types of cardiovascular diseases can be cured or prevented using genome editing. The liver is the organ that has received the most attention in terms of clinical genome editing for cardiovascular diseases. Off-target mutagenesis is a concern of any form of genome editing. Off-target mutations in target cells or tissues may lead to undesirable functional phenotypes, including cancer. For therapeutic editing of the heart, the authors claim it's critical to achieve high editing efficiency at a chosen genomic site in a desired tissue. Off-target editing can be tested genome-wide unbiasedly using newer cell-based methods. For low off-target impact, well-designed gRNAs are important. The delivery of genome editors to target tissues and cells is a significant barrier to clinical use.

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Agrobacterium-Mediated Gene Transient Overexpression and Tobacco Rattle Virus (TRV)-Based Gene Silencing in Cassava

International Journal of Molecular Sciences ◽

10.3390/ijms20163976 ◽

2019 ◽

Vol 20 (16) ◽

pp. 3976 ◽

Cited By ~ 6

Author(s):

Hongqiu Zeng ◽

Yanwei Xie ◽

Guoyin Liu ◽

Yunxie Wei ◽

Wei Hu ◽

...

Keyword(s):

Gene Silencing ◽

Functional Genomics ◽

Transient Expression ◽

Fluorescent Protein ◽

Tobacco Rattle Virus ◽

Mosaic Disease ◽

African Cassava Mosaic Virus ◽

Cassava Mosaic Disease ◽

Virus Induced Gene Silencing ◽

Transient Expression Assay

Agrobacterium-mediated transient expression and virus-induced gene silencing (VIGS) are very useful in functional genomics in plants. However, whether these methods are effective in cassava (Manihot esculenta), one of the most important tropical crops, remains elusive. In this study, we used green fluorescent protein (GFP) and β-glucuronidase (GUS) as reporter genes in a transient expression assay. GFP or GUS could be detected in the infiltrated leaves at 2 days postinfiltration (dpi) and were evidenced by visual GFP and GUS assays, reverse-transcription PCR, and Western blot. In addition, phytoene desaturase (PDS) was used to show the silencing effect in a VIGS system. Both Agrobacterium GV3101 and AGL-1 with tobacco rattle virus (TRV)-MePDS-infiltrated distal leaves showed an albino phenotype at 20 dpi; in particular, the AGL-1-infiltrated plants showed an obvious albino area in the most distal leaves. Moreover, the silencing effect was validated by molecular identification. Notably, compared with the obvious cassava mosaic disease symptom infiltrated by African-cassava-mosaic-virus-based VIGS systems in previous studies, TRV-based VIGS-system-infiltrated cassava plants did not show obvious virus-induced disease symptoms, suggesting a significant advantage. Taken together, these methods could promote functional genomics in cassava.

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A qPCR method for genome editing efficiency determination and single-cell clone screening in human cells

Scientific Reports ◽

10.1038/s41598-019-55463-6 ◽

2019 ◽

Vol 9 (1) ◽

Author(s):

Bo Li ◽

Naixia Ren ◽

Lele Yang ◽

Junhao Liu ◽

Qilai Huang

Keyword(s):

Single Cell ◽

Genome Editing ◽

Cell Clone ◽

Editing Efficiency ◽

Base Editing ◽

Single Cell Clone ◽

Cell Clones ◽

Nucleotide Mismatch

AbstractCRISPR/Cas9 technology has been widely used for targeted genome modification both in vivo and in vitro. However, an effective method for evaluating genome editing efficiency and screening single-cell clones for desired modification is still lacking. Here, we developed this real time PCR method based on the sensitivity of Taq DNA polymerase to nucleotide mismatch at primer 3′ end during initiating DNA replication. Applications to CRISPR gRNAs targeting EMX1, DYRK1A and HOXB13 genes in Lenti-X 293 T cells exhibited comprehensive advantages. Just in one-round qPCR analysis using genomic DNA from cells underwent CRISPR/Cas9 or BE4 treatments, the genome editing efficiency could be determined accurately and quickly, for indel, HDR as well as base editing. When applied to single-cell clone screening, the genotype of each cell colony could also be determined accurately. This method defined a rigorous and practical way in quantify genome editing events.

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