Table 2.
Potential of gene editing tools for enhancing the phytomicrobiome interactions
| Gene editing Tools | Traits present | Application | References |
|---|---|---|---|
| Cpf1 (gene replacement, gene knock-out, multiplex GE) and Cas9 | Metabolic engineering | Exploration the metabolome pathways of novel plant | [51] |
| Cpf1 (gene replacement, gene knock-out, multiplex GE) and Cas9 | Signaling molecules helps in Improvement of stress resistance | Enhances nutrients uptake | [52] |
| Cpf1 (gene replacement, gene knock in/out,) and Cas9 | Improves nodulation in non-leguminous plants | Nutrient uptake and plant growth promotion | [52] |
| RNA editing tool and Cas13 | In plant disease resistance | Identify pathogens | [53] |
| Base editing, Cpf1 (gene replacement, gene knock-out, multiplex GE) and Cas9 | In plant disease resistance | Plant disease resistance against pest | [53] |
| EvolvR | Phytomicrobiome interactions | In allele generation | [54] |
| Lineage tracing and Genotyping | Phytomicrobiome interactions | In identification of genes that involves in phytomicrobiome interactions | [55] |