Editing of TOM1 gene in tobacco using CRISPR/Cas9 confers resistance to Tobacco mosaic virus.

Background: Genome editing technology has become one of the excellent tools for precise plant breeding to develop novel plant germplasm. The Tobacco mosaic virus (TMV) is the most prominent pathogen that infects several Solanaceae plants, such as tobacco, tomato, and capsicum, which requires critical host factors for infection and replication of its genomic RNA in the host. The Tobamovirus multiplication (TOM) genes, such as TOM1, TOM2A, TOM2B, and TOM3, are involved in the multiplication of Tobamoviruses.

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

Epigenetic changes are the heritable modifications in genes without altering DNA sequences. The epigenetic changes occur in the plant genomes to regulate gene expression patterns, which were used to regulate different biological processes, including coping various environmental stresses. These changes, including DNA methylation, non-coding RNA regulation, and histone modification, play a vital role in the transcription and translation processes to regulate gene expression.

-mediated genetic transformation and cloning of candidate reference genes in suspension cells of Wall. ex DC.

Unlabelled: A reliable and stable -mediated genetic transformation system for has been developed using cell suspension cultures derived from cotyledon explants. Cotyledon, attached cotyledon, and compound leaves were found to be suitable for the induction of callus among five different types of explants tested. The yellow friable callus derived from attached cotyledon was used to initiate suspension cultures in Suspension Culture Medium (SCM) which was supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) at 2.

Highly efficient -mediated transformation and plant regeneration system for genome engineering in tomato.

Tomato ( L.) is an important vegetable and nutritious crop plant worldwide. They are rich sources of several indispensable compounds such as lycopene, minerals, vitamins, carotenoids, essential amino acids, and bioactive polyphenols.

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

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.