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Genome editing technologies and their applications in crop improvement
Rukmini Mishra,Kaijun Zhao 한국식물생명공학회 2018 Plant biotechnology reports Vol.12 No.2
Crop improvement is very essential to meet the increasing global food demands and enhance food nutrition. Conventional crop-breeding methods have certain limitations such as taking lot of time and resources, and causing biosafety concerns. These limitations could be overcome by the recently emerged-genome editing technologies that can precisely modify DNA sequences at the genomic level using sequence-specific nucleases (SSNs). Among the artificially engineered SSNs, the CRISPR/Cas9 is the most recently developed targeted genome modification system and seems to be more efficient, inexpensive, easy, user-friendly and rapidly adopted genome-editing tool. Large-scale genome editing has not only improved the yield and quality but also has enhanced the disease resistance ability in several model and other major crops. Increasing case studies suggest that genome editing is an efficient, precise and powerful technology that can accelerate basic and applied research towards crop improvement. In this review, we briefly overviewed the structure and mechanism of genome editing tools and then emphatically reviewed the advances in the application of genome editing tools for crop improvement, including the most recent case studies with CRISPR/Cpf1 and base-editing technologies. We have also discussed the future prospects towards the improvement of agronomic traits in crops.
Tista Mallick,Rukmini Mishra,Sasmita Mohanty,Raj Kumar Joshi 한국식물병리학회 2022 Plant Pathology Journal Vol.38 No.2
Pectobacterium carotovorum subsp. carotovorum (Pcc) is a gram-negative, broad host range bacterial pathogen which causes soft rot disease in potatoes as well as other vegetables worldwide. While Pectobacterium infection relies on the production of major cell wall degrading enzymes, other virulence factors and the mechanism of genetic adaptation of this pathogen is not yet clear. In the present study, we have performed an in-depth genome-wide characterization of Pcc strain ICMP5702 isolated from potato and compared it with other pathogenic bacteria from the Pectobacterium genus to identify key virulent determinants. The draft genome of Pcc ICMP5702 contains 4,774,457 bp with a G + C content of 51.90% and 4,520 open reading frames. Genome annotation revealed prominent genes encoding key virulence factors such as plant cell wall degrading enzymes, flagella-based motility, phage proteins, cell membrane structures, and secretion systems. Whereas, a majority of determinants were conserved among the Pectobacterium strains, few notable genes encoding AvrE-family type III secretion system effectors, pectate lyase and metalloprotease in addition to the CRISPR-Cas based adaptive immune system were uniquely represented. Overall, the information generated through this study will contribute to decipher the mechanism of infection and adaptive immunity in Pcc.