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Refinement of rice blast disease resistance QTLs and gene networks through meta-QTL analysis
Saturday, 2024/10/19 | 07:25:40

Basavantraya Navadagi DevannaSumali SucharitaN C SunithaC AnilkumarPankaj K SinghD PrameshSanghamitra Samantaray

Lambodar BeheraJawahar Lal KatarC ParameswaranPrachitara RoutSelvaraj SabarinathanHosahatti RajashekaraTilak Raj Sharma

Sci Rep.; 2024 Jul 16; 14(1):16458. doi: 10.1038/s41598-024-64142-0.

Abstract

Rice blast disease is the most devastating disease constraining crop productivity. Vertical resistance to blast disease is widely studied despite its instability. Clusters of genes or QTLs conferring blast resistance that offer durable horizontal resistance are important in resistance breeding. In this study, we aimed to refine the reported QTLs and identify stable meta-QTLs (MQTLs) associated with rice blast resistance. A total of 435 QTLs were used to project 71 MQTLs across all the rice chromosomes. As many as 199 putative rice blast resistance genes were identified within 53 MQTL regions. The genes included 48 characterized resistance gene analogs and related proteins, such as NBS-LRR type, LRR receptor-like kinase, NB-ARC domain, pathogenesis-related TF/ERF domain, elicitor-induced defense and proteins involved in defense signaling. MQTL regions with clusters of RGA were also identified. Fifteen highly significant MQTLs included 29 candidate genes and genes characterized for blast resistance, such as Piz, Nbs-Pi9, pi55-1, pi55-2, Pi3/Pi5-1, Pi3/Pi5-2, Pikh, Pi54, Pik/Pikm/Pikp, Pb1 and Pb2. Furthermore, the candidate genes (42) were associated with differential expression (in silico) in compatible and incompatible reactions upon disease infection. Moreover, nearly half of the genes within the MQTL regions were orthologous to those in O. sativa indica, Z. mays and A. thaliana, which confirmed their significance. The peak markers within three significant MQTLs differentiated blast-resistant and susceptible lines and serve as potential surrogates for the selection of blast-resistant lines. These MQTLs are potential candidates for durable and broad-spectrum rice blast resistance and could be utilized in blast resistance breeding.

 

See https://pubmed.ncbi.nlm.nih.gov/39013915/

 

Figure 3. Representation of MQTLs harboring genetic loci associated with blast resistance. Loci represented in red indicates characterized blast resistance genes, green indicates RGAs, blue indicates genes associated with blast resistance as per the gene description, and black indicates loci with trait ontology associated with blast resistance.

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