Wild barley cytoplasms reduce grain weight plasticity, with environment-dependent cytonuclear epistasis at the ari-e locus
摘要
Although cytoplasmic genetic variation influences agronomic traits, its potential for breeding applications remains unexplored. We validated cytoplasmic effects on grain traits in barley and tested their portability across nuclear backgrounds and environments. The cytonuclear multi-parent population validation panel (CMPPV) and Magal reciprocal validation panel (MRVP) were evaluated in replicated field trials across two thermally contrasting Israeli environments. The wild B1K-50-04 cytoplasm consistently increased thousand grain weight (TGW) by 6–11% and grain width (GW) by 2–3% relative to the corresponding cultivated cytoplasm within each reciprocal comparison, explaining up to 9.5% of TGW, and 8% of GW variance. These effects persisted in segregating populations derived from crosses with the elite cultivar Magal, demonstrating portability across nuclear backgrounds. Three-way analysis of marker × cytoplasm × environment interactions across a targeted set of loci identified a chromosome 5 H cluster of significant marker effects, including genotype × cytoplasm × environment signals near the ari-e locus; the hypothesized segregation of an HvDep1 mutant allele was confirmed by Sanger sequencing. Near-infrared spectroscopy analysis of grain composition revealed environment-dependent cytonuclear epistasis for the ari-e.GP allele, increasing protein content only in the B1K-50-04 cytoplasmic background at one field site. Image-based high-throughput phenomics under controlled conditions identified morphological and canopy spectral reflectance indices that diverged between cytoplasms and were correlated with final grain dimensions, suggesting that taking cytoplasmic variation into account can reveal novel trait relationships. Findings demonstrate that wild cytoplasms offer portable genetic resources for crop improvement, and that the utility of major nuclear loci in breeding can depend on cytoplasmic context.