AI Article Synopsis
- Length and strength are crucial for cotton fiber quality, making them key factors in cotton breeding, with the gene GhROPGEF5 identified as a major controller.* -
- A rare mutation in GhROPGEF5, found in a small number of Upland cottons, enhances fiber length and strength but is less common due to reduced yield.* -
- Knockouts of GhROPGEF5 or its interacting partner GhROP10 disrupt various genes related to fiber development, leading to improved elongation and denser fibers, offering insights for better cotton breeding.*
Article Abstract
Length and strength are key parameters impacting the quality of textiles that can be produced from cotton fibers, and therefore are important considerations in cotton breeding. Through map-based cloning and function analysis, we demonstrated that GhROPGEF5, encoding a ROP guanine nucleotide exchange factor, was the gene controlling fiber length and strength at qFS. Evolutionary analysis revealed that a base deletion in the third exon of GhROPGEF5 resulting in superior fiber length and strength was a rare mutation occurring in a tiny percentage of Upland cottons, with reduced fiber yield hindering its spread. GhROPGEF5 interacted with and activated GhROP10. Knockout or mutation of GhROPGEF5 resulted a loss of the ability to activate GhROP10. Knockout of GhROPGEF5 or GhROP10 affected the expression of many downstream genes associated with fiber elongation and secondary wall deposition, prolonged fiber elongation and delayed secondary wall deposition, producing denser fiber helices and increasing fiber length and strength. These results revealed new molecular aspects of fiber development and revealed a rare favorable allele for improving fiber quality in cotton breeding.
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| http://dx.doi.org/10.1111/nph.20286 | DOI Listing |
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