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Functional Verification of Two Genes Related to Stripe Rust Resistance in the Wheat-Leymus mollis Introgression Line M8664-3

Author:  Source:  Date:2021-12-07  Views:

论文信息:Functional Verification of Two Genes Related to Stripe Rust Resistance in the Wheat- Leymus mollis Introgression Line M8664-3,Pengfei Jin, Kaixiang Chao, Juan Li, Zihao Wang, Peng Cheng, Qiang Li* and Baotong Wang*. Frontiers in Plant Science, 2021, 12:754823. doi: 10.3389/fpls.2021.754823

JCR分区Q1,中科院大类二区,IF:5.753.

论文摘要:Stripe rust, caused by  Puccinia striiformis  f. sp.  tritici  ( Pst ), is one of the most widespread and destructive fungal diseases of wheat worldwide. The cultivation and growth of resistant wheat varieties are the most economical, effective, and environmental friendly methods to control stripe rust. Therefore, it is necessary to use new resistance genes to breed resistant wheat varieties. A single dominant gene temporarily designated as  YrM8664-3 , from a wheat- Leymus mollis  introgression line M8664-3 highly resistant to Chinese predominant  Pst  races, is a potentially valuable source of stripe rust resistance for breeding. Herein, based on previous  YrM8664-3  chromosome location results (bin 4AL13-0.59-0.66 close to 4AL12-0.43-0.59) and expression change information of candidate genes and bioinformatics analysis, several candidate genes with significantly different expression changes were then selected and verified by virus-induced gene silencing (VIGS). Two of the candidate genes temporarily designated as  TaFBN  [containing plastid lipid-associated proteins (PAP)_fibrillin domain in its protein] and Ta_Pes_BRCT  [containing Pescadillo and breast cancer tumour suppressor protein Cterminus (BRCT) domain in its protein], produced the most significant resistance changes in the wheat- Pst  interaction system after silencing. These two genes were further verified by  Agrobacterium -mediated wheat genetic transformation technology. According to the identification of disease resistance, the resistance function of the candidate gene  TaFBN  was further verified. Then, the expression of  TaFBN  under hormone treatment indicated that  TaFBN  may be related to the salicylic acid (SA) and abscisic acid (ABA) signaling pathways. Combined with the expression of  TaFBN  in response to environmental stress stimulation, it can be reasonably speculated that  TaFBN  plays an important role in the resistance of wheat to  Pst  and is involved in abiotic stress pathways.

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