Nitika Rajora scite author profile

Maintenance of genomic integrity is critical for the perpetuation of all forms of life including humans. Living organisms are constantly exposed to stress from internal metabolic processes and external environmental sources causing damage to the DNA, thereby promoting genomic instability. To counter the deleterious effects of genomic instability, organisms have evolved general and specific DNA damage repair (DDR) pathways that act either independently or mutually to repair the DNA damage. The mechanisms by which various DNA repair pathways are activated have been fairly investigated in model organisms including bacteria, fungi, and mammals; however, very little is known regarding how plants sense and repair DNA damage. Plants being sessile are innately exposed to a wide range of DNA-damaging agents both from biotic and abiotic sources such as ultraviolet rays or metabolic by-products. To escape their harmful effects, plants also harbor highly conserved DDR pathways that share several components with the DDR machinery of other organisms. Maintenance of genomic integrity is key for plant survival due to lack of reserve germline as the derivation of the new plant occurs from the meristem. Untowardly, the accumulation of mutations in the meristem will result in a wide range of genetic abnormalities in new plants affecting plant growth development and crop yield. In this review, we will discuss various DNA repair pathways in plants and describe how the deficiency of each repair pathway affects plant growth and development.

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Significance of solute specificity, expression, and gating mechanism of tonoplast intrinsic protein during development and stress response in plants

Sudhakaran

Thakral

Padalkar

et al. 2021

Physiologia Plantarum

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Tonoplast intrinsic proteins (TIPs), belonging to the aquaporin family, are transmembrane channels located mostly at the tonoplast of plant cells. The TIPs are known to transport water and many other small solutes such as ammonia, urea, hydrogen peroxide, and glycerol. In the present review, phylogenetic distribution, structure, transport dynamics, gating mechanism, sub-cellular localization, tissuespecific expression, and co-expression of TIPs are discussed to define their versatile role in plants. Based on the phylogenetic distribution, TIPs are classified into five distinct groups with aromatic-arginine (Ar/R) selectivity filters, typical poremorphology, and tissue-specific gene expression patterns. The tissue-specific

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Dynamic role of aquaporin transport system under drought stress in plants

Shivaraj

Sharma

Chaudhary

et al. 2021

Environmental and Experimental Botany

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Recent Advances and Applicability of GBS, GWAS, and GS in Polyploid Crops

Thakral

Yadav

Padalkar

et al. 2022

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Opportunity and Challenges for Whole‐Genome Resequencing‐based Genotyping in Plants

Kumawat

Raturi

Dhiman

et al. 2022

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Nitika Rajora

Silicon nanoparticles (SiNPs) in sustainable agriculture: major emphasis on the practicality, efficacy and concerns

Fascinating role of silicon to combat salinity stress in plants: An updated overview

Seed priming with melatonin: A promising approach to combat abiotic stress in plants

Mechanisms of Genome Maintenance in Plants: Playing It Safe With Breaks and Bumps

Significance of solute specificity, expression, and gating mechanism of tonoplast intrinsic protein during development and stress response in plants

Dynamic role of aquaporin transport system under drought stress in plants

Recent Advances and Applicability of GBS, GWAS, and GS in Polyploid Crops

Opportunity and Challenges for Whole‐Genome Resequencing‐based Genotyping in Plants

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