The lower regeneration rate of wheat calli is the main factor restricting the development of transgenic wheat plants. Therefore, improving the regeneration rate of wheat callus is a precondition for developing genetic engineering-based wheat breeding approaches. In the present study, we explored the molecular mechanism of wheat regeneration and aimed to establish an efficient system for transgenic wheat. We isolated and identified a regeneration-related gene, (KC808517), from wheat cultivar Lunxuan 987. Sequence analysis revealed that the ORF of was 1623bp long encoding 540 amino acids. The gene was expressed in various wheat tissues. Further, the level of expression was higher in calli and increased gradually with increasing callus induction time, reaching a peak on the 11th day after induction. Moreover, the expression level of was higher in embryogenic calli than in non-embryonic calli. The TaTCP-1 protein was localized to the nucleus, cytoplasm, and cell membrane. The callus regeneration rate of wheat plants transformed with TaTCP-1-RNAi reduced by 85.09%. In contrast, it increased by 14.43% in plants overexpressing . In conclusion, our results showed that played a vital role in promoting wheat regeneration, and regulated the somatic embryogenesis of wheat. These results may have implications in the genetic engineering of wheat for improved wheat production.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7492748 | PMC |
| http://dx.doi.org/10.3389/fpls.2020.01004 | DOI Listing |
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