Dulam Sandhya scite author profile

Background CRISPR/Cas9 genome editing technology is a DNA manipulation tool for trait improvement. This technology has been demonstrated and successfully applied to edit the genome in various species of plants. The delivery of CRISPR/Cas9 components within rigid plant cells is very crucial for high editing efficiency. Here, we insight the strengths and weaknesses of each method of delivery. Main text The mutation efficiency of genome editing may vary and affected by different factors. Out of various factors, the delivery of CRISPR/Cas9 components into cells and genome is vital. The way of delivery defines whether the edited plant is transgenic or transgene-free. In many countries, the transgenic approach of improvement is a significant limitation in the regulatory approval of genetically modified crops. Gene editing provides an opportunity for generating transgene-free edited genome of the plant. Nevertheless, the mode of delivery of the CRISPR/Cas9 component is of crucial importance for genome modification in plants. Different delivery methods such as Agrobacterium -mediated, bombardment or biolistic method, floral-dip, and PEG-mediated protoplast are frequently applied to crops for efficient genome editing. Conclusion We have reviewed different delivery methods with prons and cons for genome editing in plants. A novel nanoparticle and pollen magnetofection-mediated delivery systems which would be very useful in the near future. Further, the factors affecting editing efficiency, such as the promoter, transformation method, and selection pressure, are discussed in the present review.

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The Rise of the CRISPR/Cpf1 System for Efficient Genome Editing in Plants

Alok

Sandhya

Jogam

et al. 2020

Front. Plant Sci.

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Cpf1, an endonuclease of the class 2 CRISPR family, fills the gaps that were previously faced in the world of genome engineering tools, which include the TALEN, ZFN, and CRISPR/Cas9. Other simultaneously discovered nucleases were not able to carry out reengineering at the same region due to the loss of a target site after first-time engineering. Cpf1 acts as a dual nuclease, functioning as an endoribonuclease to process crRNA and endodeoxyribonuclease to cleave target sequences and generate double-stranded breaks. Additionally, Cpf1 allows for multiplexed genome editing, as a single crRNA array transcript can target multiple loci in the genome. The CRISPR/Cpf1 system enables gene deletion, insertion, base editing, and locus tagging in monocot as well as in dicot plants with fewer off-target effects. This tool has been efficiently demonstrated into tobacco, rice, soybean, wheat, etc. This review covers the development and applications of Cpf1 mediated genome editing technology in plants.

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Direct regeneration and genetic fidelity analysis of regenerated plants of Andrographis echioides (L.) - An important medicinal plant

Savitikadi

Jogam

Rohela

et al. 2020

Industrial Crops and Products

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A review on CRISPR/Cas-based epigenetic regulation in plants

Jogam

Sandhya

Alok

et al. 2022

International Journal of Biological Macromolecules

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Genetic stability analysis using DNA barcoding and molecular markers and foliar micro-morphological analysis of in vitro regenerated and in vivo grown plants of Artemisia vulgaris L.

Jogam

Sandhya

Shekhawat

et al. 2020

Industrial Crops and Products

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Dulam Sandhya

The present and potential future methods for delivering CRISPR/Cas9 components in plants

The Rise of the CRISPR/Cpf1 System for Efficient Genome Editing in Plants

Direct regeneration and genetic fidelity analysis of regenerated plants of Andrographis echioides (L.) - An important medicinal plant

A review on CRISPR/Cas-based epigenetic regulation in plants

Genetic stability analysis using DNA barcoding and molecular markers and foliar micro-morphological analysis of in vitro regenerated and in vivo grown plants of Artemisia vulgaris L.

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