Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing
Solanum lycopersicum (tomato) is an internationally acclaimed vegetable crop that is grown worldwide. However, drought stress is one of the most critical challenges for tomato production, and it is a crucial task for agricultural biotechnology to produce drought-resistant cultivars. Although breeder...
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my.um.eprints.333292022-08-08T01:38:56Z http://eprints.um.edu.my/33329/ Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing Taheri, Sima Gantait, Saikat Azizi, Parisa Mazumdar, Purabi QR Microbiology TP Chemical technology Solanum lycopersicum (tomato) is an internationally acclaimed vegetable crop that is grown worldwide. However, drought stress is one of the most critical challenges for tomato production, and it is a crucial task for agricultural biotechnology to produce drought-resistant cultivars. Although breeders have done a lot of work on the tomato to boost quality and quantity of production and enhance resistance to biotic and abiotic stresses, conventional tomato breeding approaches have been limited to improving drought tolerance because of the intricacy of drought traits. Many efforts have been made to better understand the mechanisms involved in adaptation and tolerance to drought stress in tomatoes throughout the years. ``Omics'' techniques, such as genomics, transcriptomics, proteomics, and metabolomics in combination with modern sequencing technologies, have tremendously aided the discovery of drought-responsive genes. In addition, the availability of biotechnological tools, such as plant transformation and the recently developed genome editing system for tomatoes, has opened up wider opportunities for validating the function of drought-responsive genes and the generation of drought-tolerant varieties. This review highlighted the recent progresses for tomatoes improvement against drought stress through ``omics'' and ``multi-omics'' technologies including genetic engineering. We have also discussed the roles of non-coding RNAs and genome editing techniques for drought stress tolerance improvement in tomatoes. Springer Verlag (Germany) 2022-03 Article PeerReviewed Taheri, Sima and Gantait, Saikat and Azizi, Parisa and Mazumdar, Purabi (2022) Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing. 3 Biotech, 12 (3). ISSN 2190-572X, DOI https://doi.org/10.1007/s13205-022-03132-3 <https://doi.org/10.1007/s13205-022-03132-3>. 10.1007/s13205-022-03132-3 |
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QR Microbiology TP Chemical technology Taheri, Sima Gantait, Saikat Azizi, Parisa Mazumdar, Purabi Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing |
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Solanum lycopersicum (tomato) is an internationally acclaimed vegetable crop that is grown worldwide. However, drought stress is one of the most critical challenges for tomato production, and it is a crucial task for agricultural biotechnology to produce drought-resistant cultivars. Although breeders have done a lot of work on the tomato to boost quality and quantity of production and enhance resistance to biotic and abiotic stresses, conventional tomato breeding approaches have been limited to improving drought tolerance because of the intricacy of drought traits. Many efforts have been made to better understand the mechanisms involved in adaptation and tolerance to drought stress in tomatoes throughout the years. ``Omics'' techniques, such as genomics, transcriptomics, proteomics, and metabolomics in combination with modern sequencing technologies, have tremendously aided the discovery of drought-responsive genes. In addition, the availability of biotechnological tools, such as plant transformation and the recently developed genome editing system for tomatoes, has opened up wider opportunities for validating the function of drought-responsive genes and the generation of drought-tolerant varieties. This review highlighted the recent progresses for tomatoes improvement against drought stress through ``omics'' and ``multi-omics'' technologies including genetic engineering. We have also discussed the roles of non-coding RNAs and genome editing techniques for drought stress tolerance improvement in tomatoes. |
| format |
Article |
| author |
Taheri, Sima Gantait, Saikat Azizi, Parisa Mazumdar, Purabi |
| author_facet |
Taheri, Sima Gantait, Saikat Azizi, Parisa Mazumdar, Purabi |
| author_sort |
Taheri, Sima |
| title |
Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing |
| title_short |
Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing |
| title_full |
Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing |
| title_fullStr |
Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing |
| title_full_unstemmed |
Drought tolerance improvement in Solanum lycopersicum: An insight into ``OMICS'' approaches and genome editing |
| title_sort |
drought tolerance improvement in solanum lycopersicum: an insight into ``omics'' approaches and genome editing |
| publisher |
Springer Verlag (Germany) |
| publishDate |
2022 |
| url |
http://eprints.um.edu.my/33329/ |
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1740826022232719360 |