Observation of fiber ultrastructure of Ligon lintless mutant in upland cotton during fiber elongation

Lintless mutant is a super-short fiber mutanl in upland cotton only 4-8 mm in fiber length and also named Ligon cotton controlled by one dominant gene Li1. Fiber ultrastructure of the mutant (Li1) and its its wild (li1) in siti and in vitro was observed under an electron microscope to understand its cytological characteristics during the fiber cell elongation. The resulls showed that the mutant fiber in situ had thinner cytoplasm, more small vacuoles, less mitochondria, Golgi apparatus and endoplasmic reticula, and there were more starch granules which were free or packed in the amyloplast beside the cell wall than thai of wild type. It was indicated that scarcity of functional organelles and disability of transformation from starch to sugar might be associated with the tact that the mutant fiber cell was aborted too early to elongate into normal length. Mutant ovule in some media containing GA3 could produce a kind of huge callus that grew faster than normal ovules. The callus was covered with many white, loose, and semitransparent fiber-like cells that apt lo get off from ovule. These fiber-like cells were multicellular fibers generated by cell division and had black dots just like pigment glands in the stem and leaf of cotton. There were lots of micro-tubes beside cytoplasm membrane uf the multiecllular fiber, which were thought to be primary preparation for second wall deposition of multicellular fiber. It was indicated that GA3 might induce the expression of gene(s) that kept inactive in the field condition and then stimulate the original fiber cell in vitro to undergo divisionagain.

Observation of fiber ultrastructure of Ligon lintless mutant in upland cotton during fiber elongation

Lintless mutant is a super-short fiber mutant in upland cotton only 4–8 mm in fiber length and also named Ligon cotton controlled by one dominant geneLi ₁. Fiber ultrastructure of the mutant (Li ₁) and its wild type (li ₁)in situ andin vitro was observed under an electron microscope to understand its cytological characteristics during the fiber cell elongation. The results showed that the mutant fiberin situ had thinner cytoplasm, more small vacuoles, less mitochondria, Gllgi apparatus and endoplasmic reticula, and there were more starch granules which were free or packed in the amyloplast beside the cell wall than that of wild type. It was indicated that scarcity of functional organelles and disability of transformation from starch to sugar might be associated with the fact that the mutant fiber cell was aborted too early to elongate into normal length. Mutant ovule in some media containing GA₃ could produce a kind of huge callus that grew faster than normal ovules. The callus was covered with many white, loose, and semitransparent fiber-like cells that apt to get off from ovule. These fiber-like cells were multicellular fibers generated by cell division and had black dots just like pigment glands in the stem and leaf of cotton. There were lots of micro-tubes beside cytoplasm membrane of the multicellular fiber, which were thought to be primary preparation for second wall deposition of multicellular fiber. It was indicated that GA₃ might induce the expression of gene(s) that kept inactive in the field condition and then stimulate the original fiber cellin vitro to undergo division again.