Sushma Tiwari scite author profile

Sushma Tiwari

3Publications

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Jawaharlal Nehru Krishi Vishwa Vidyalaya

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Improved method of DNA extraction from leaf and rhizome samples of black turmeric (Curcuma caesia) for molecular analysis

Sahu¹,

Tantawi²,

Sapre³

et al. 2022

J Phytopharmacol

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Curcuma caesia belongs to the genus Curcuma and the family of Zingiberaceae, which is a very important but unexplored medicinal plant. It is locally known as black turmeric or kali halide and is mainly used by the local tribal community as traditional medicine for the health sector. The rhizome of black turmeric has wide applications in the economic pharma sector due to essential active ingredients. This research aims to standardize a rapid, simple and efficient protocol for DNA extraction in Curcuma caesia which can be used for another genus of Zingiberaceae to obtain DNA from leaf samples. Changes in the concentration of components of DNA extraction buffer have improved the quantity of DNA from leaf samples compared to rhizomes. Extracted DNA samples also proved more efficient in PCR amplification of DNA barcode primers. The protocol developed in the present study is more efficient for leaf samples of Curcuma caesia compared to rhizome samples.

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Molecular Advances to Combat Different Biotic and Abiotic Stresses in Linseed (Linum usitatissimum L.): A Comprehensive Review

Paliwal

Tripathi

et al. 2023

Genes

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Flax, or linseed, is considered a “superfood”, which means that it is a food with diverse health benefits and potentially useful bioactive ingredients. It is a multi-purpose crop that is prized for its seed oil, fibre, nutraceutical, and probiotic qualities. It is suited to various habitats and agro-ecological conditions. Numerous abiotic and biotic stressors that can either have a direct or indirect impact on plant health are experienced by flax plants as a result of changing environmental circumstances. Research on the impact of various stresses and their possible ameliorators is prompted by such expectations. By inducing the loss of specific alleles and using a limited number of selected varieties, modern breeding techniques have decreased the overall genetic variability required for climate-smart agriculture. However, gene banks have well-managed collectionns of landraces, wild linseed accessions, and auxiliary Linum species that serve as an important source of novel alleles. In the past, flax-breeding techniques were prioritised, preserving high yield with other essential traits. Applications of molecular markers in modern breeding have made it easy to identify quantitative trait loci (QTLs) for various agronomic characteristics. The genetic diversity of linseed species and the evaluation of their tolerance to abiotic stresses, including drought, salinity, heavy metal tolerance, and temperature, as well as resistance to biotic stress factors, viz., rust, wilt, powdery mildew, and alternaria blight, despite addressing various morphotypes and the value of linseed as a supplement, are the primary topics of this review.

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Genome Editing and Improvement of Abiotic Stress Tolerance in Crop Plants

Yadav

Tripathi

Tiwari

et al. 2023

Life

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Genome editing aims to revolutionise plant breeding and could assist in safeguarding the global food supply. The inclusion of a 12–40 bp recognition site makes mega nucleases the first tools utilized for genome editing and first generation gene-editing tools. Zinc finger nucleases (ZFNs) are the second gene-editing technique, and because they create double-stranded breaks, they are more dependable and effective. ZFNs were the original designed nuclease-based approach of genome editing. The Cys2-His2 zinc finger domain’s discovery made this technique possible. Clustered regularly interspaced short palindromic repeats (CRISPR) are utilized to improve genetics, boost biomass production, increase nutrient usage efficiency, and develop disease resistance. Plant genomes can be effectively modified using genome-editing technologies to enhance characteristics without introducing foreign DNA into the genome. Next-generation plant breeding will soon be defined by these exact breeding methods. There is abroad promise that genome-edited crops will be essential in the years to come for improving the sustainability and climate-change resilience of food systems. This method also has great potential for enhancing crops’ resistance to various abiotic stressors. In this review paper, we summarize the most recent findings about the mechanism of abiotic stress response in crop plants and the use of the CRISPR/Cas mediated gene-editing systems to improve tolerance to stresses including drought, salinity, cold, heat, and heavy metals.

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Sushma Tiwari

Improved method of DNA extraction from leaf and rhizome samples of black turmeric (Curcuma caesia) for molecular analysis

Molecular Advances to Combat Different Biotic and Abiotic Stresses in Linseed (Linum usitatissimum L.): A Comprehensive Review

Genome Editing and Improvement of Abiotic Stress Tolerance in Crop Plants

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