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Exploration and genetic analyses of canopy leaf pigmentation changes in soybean (Glycine max L.): unveiling a novel phenotype
Wednesday, 2024/08/21 | 08:19:29

Hee Jin YouHyun JoJi-Min KimSung-Taeg KangNgoc Ha LuongYeong-Ho Kim & Sungwoo Lee

Theoretical and Applied genetics; August 13 2024; vol.137; article 202

Key message

Pigmentation changes in canopy leaves were first reported, and subsequent genetic analyses identified a major QTL associated with levels of pigmentation changes, suggesting Glyma.06G202300 as a candidate gene.

Abstract

An unexpected reddish-purple pigmentation in upper canopy leaves was discovered during the late reproductive stages in soybean (Glycine max L.) genotypes. Two sensitive genotypes, ‘Uram’ and PI 96983, exhibited anomalous canopy leaf pigmentation changes (CLPC), while ‘Daepung’ did not. The objectives of this study were to: (i) characterize the physiological features of pigmented canopy leaves compared with non-pigmented leaves, (ii) evaluate phenotypic variation in a combined recombinant inbred line (RIL) population (N = 169 RILs) under field conditions, and (iii) genetically identify quantitative trait loci (QTL) for CLPC via joint population linkage analysis. Comparison between pigmented and normal leaves revealed different Fv/Fm of photosystem II, hyperspectral reflectance, and cellular properties, suggesting the pigmentation changes occur in response to an undefined abiotic stress. A highly significant QTL was identified on chromosome 6, explaining ~ 62.8% of phenotypic variance. Based on the QTL result, Glyma.06G202300 encoding flavonoid 3′-hydroxylase (F3′H) was identified as a candidate gene. In both Uram and PI 96983, a 1-bp deletion was confirmed in the third exon of Glyma.06G202300 that results in a premature stop codon in both Uram and PI 96983 and a truncated F3′H protein lacking important domains. Additionally, gene expression analyses uncovered significant differences between pigmented and non-pigmented leaves. This is the first report of a novel symptom and an associated major QTL. These results will provide soybean geneticists and breeders with valuable knowledge regarding physiological changes that may affect soybean production. Further studies are required to elucidate the causal environmental stress and the underlying molecular mechanisms.

 

See https://link.springer.com/article/10.1007/s00122-024-04693-y

 

Figure 1; Pigmentation changes in canopy leaves of soybean plants. 

(a) Images showing the novel canopy leaf pigmentation changes in soybean genotypes observed in mid-August (left) and mid-September (right) in 2019. 

(b) The phenotypic scores characterizing the levels of the pigmentation changes based on plants in a row plot. Scores 1 and 9 indicate no and high anomalous pigmentation, respectively

 

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