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National Center for Biotechnology Information , U. Jensen observed the ultrastructure and composition of the cotton zygote and described a dramatic series of alterations in cell structure including zygote size, endoplasmic reticulum, microtubes, mitochondria, ribosomes and plastids . The positive and negative regulation through hub in Arabidopsis trichome development. Pathway enrichment analysis for common differentially expressed genes in various recessive mutants. Cellulose , 23 , — Cotton fibers used in textiles originate from the outer epidermal layer of the maturing seed, and are classified into two types: lint and fuzz.
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Mol Genet Genomics : — We found differentially expressed transcription factor genes in common between the wild-type TM-1 and the naked mutants Figure 7. Illuminating the functions of key regulators in fuzz development could help explain the reasons for the delayed developmental and elongation steps of fuzz fiber development. GhHOX1 was able to restore the glabrous phenotype of gl2 mutant, indicating that this protein is a functional homologue of GL2 in controlling trichome development and may function in fiber development . NCC are formed by synthesizing and accumulating natural pigments during the course of fibre development in the field.
Subsequently, genetic analysis mapped GhsusA1 to homoeologous subgenomes A8 and D8. Support Center Support Center. Stewart JM Fiber initiation on the cotton ovule Gossypium hirsutum. Comparison of the molecular mechanisms between Arabidopsis trichome and cotton fibre development. Plant Biotechnology Journal. Lintless mutants, however, only occur in conjunction with lack of fuzz fiber, so are essentially fiberless . Some biochemical or genetic studies of these genes should be carried out to explore their possible internal relationship in the actin dynamics of fibre development.