Identification of Insertion/Deletion Markers for Photoperiod Sensitivity in Rice (Oryza sativa L.)

Simple Summary: Photoperiod sensitivity is important for rice breeders to enable crop adaptation to changing climatic conditions. This study aims to pinpoint candidate insertion/deletion (INDEL) markers linked to photoperiod sensitivity in indica rice cultivars. The INDEL marker can be utilized to explore the gene function in rice flowering, potentially facilitating gene editing using CRISPR/Cas9 technology. Applying this INDEL marker in breeding programs can enhance the genetic gain and economic efficiency of a targeted breeding strategy. The current study aims to identify candidate insertion/deletion (INDEL) markers associated with photoperiod sensitivity (PS) in rice landraces from the Vietnamese Mekong Delta. The whole-genome sequencing of 20 accessions was conducted to analyze INDEL variations between two photoperiod-sensitivity groups. A total of 2240 INDELs were identified between the two photoperiod-sensitivity groups. The selection criteria included INDELs with insertions or deletions of at least 20 base pairs within the improved rice group. Six INDELs were discovered on chromosomes 01 (5 INDELs) and 6 (1 INDEL), and two genes were identified: LOC_Os01g23780 and LOC_Os01g36500. The gene LOC_Os01g23780, which may be involved in rice flowering, was identified in a 20 bp deletion on chromosome 01 from the improved rice accession group. A marker was devised for this gene, indicating a polymorphism rate of 20%. Remarkably, 20% of the materials comprised improved rice accessions. This INDEL marker could explain 100% of the observed distinctions. Further analysis of the mapping population demonstrated that an INDEL marker associated with the MADS-box gene on chromosome 01 was linked to photoperiod sensitivity. The F1 population displayed two bands across all hybrid individuals. The marker demonstrates efficacy in distinguishing improved rice accessions within the indica accessions. This study underscores the potential applicability of the INDEL marker in breeding strategies.