Selection of GhTT2‐A07 promoter enhances fiber quality in improved cotton varieties

SUMMARY Modern cultivated cotton fibers are predominantly white with enhanced quality compared to their wild ancestors. However, the molecular mechanisms and evolutionary drivers linking fiber color to quality remain least focused. In this study, we identified FQC1 ( Fiber Quality and Color 1 ), a major quantitative trait locus (QTL) on chromosome A07 that concurrently regulates both fiber quality and pigmentation. Through map‐based cloning, we revealed that Gossypium hirsutum TRANSPARENT TESTA2‐A07 ( GhTT2‐A07 ), an R2R3‐MYB transcription factor, resides within this locus. GhTT2‐A07 modulates fiber development by directly activating genes in the general phenylpropanoid pathway, thereby promoting the metabolic flux toward downstream secondary metabolites. Variations in the GhTT2‐A07 promoter led to its reduced expression in modern white cotton cultivars. This down‐regulation suppresses the accumulation of S/G/H‐type lignin monomers and proanthocyanidins, resulting in altered secondary cell wall composition and ultimately enhancing the quality of mature white fibers. Population genetic analyses further indicate that the white‐fiber allele GhTT2‐A07 W has been fixed in modern breeding genotypes, underscoring the impact of artificial selection during cotton domestication. Overall, our study elucidates the biochemical and molecular mechanisms underlying fiber quality and pigmentation in cotton, clarifies the selection criteria for high‐quality white fibers in modern cultivars, and provides a theoretical basis for future targeted genetic improvement of cotton fibers.