A series of fiber-specific mutants, or germplasms, have been recently used in the study of fiber development. In the current study, scanning electron microscopy (SEM) was used to investigate developmental difference...A series of fiber-specific mutants, or germplasms, have been recently used in the study of fiber development. In the current study, scanning electron microscopy (SEM) was used to investigate developmental differences in lint and fuzz initiation in different genotypes (Gossypium hirsutum) of upland cotton. These fiber mutants included dominant naked seed N1, recessive naked seed n2, Xuzhou-142 lintless-fuzzless (XZ142WX), Xinxiangxiaojilintless-fuzzless (XinWX), Xinxiangxiaojilinted-fuzzless (XinFLM), with TM-1, the cytogenetic and genetic experimental standard stock, as the control. Characteristics of fiber initiation were analyzed from -1 to +1 days post anthesis (dpa) and at 4 and 5 dpa for fuzz initiation. Our data suggested that lint initiation centered on day of anthesis (0dpa), and elongated significantly at 1dpa, while fuzz initiation began at 4dpa, although the shape of fuzz protrusions differed from that of lint fibers. Fiber initiation occurred first on the ovule funicular crest. Compared to TM-1, there was a noted retardation in development and fiber protrusion in N1 and XinFLM. Microscopy data also demonstrated that lintless-fuzzless mutants (XZ142WX and XinWX) developed irregular protrusions during early developmental stages, which were unable to grow into fiber.展开更多
基金Supported by the National Natural Science Foundation in China (30270806, 30471104), the State Key Basic Research and Development Plan of China (2002CB111303), the Program for New Century Excellent Talents in University (NCET-04-0500), and the Program for Changjiang Scholars and Innovative Research Team in University.We thank the College of Life Sciences in Nanjing Agricultural University for help with SEM analysis.
文摘A series of fiber-specific mutants, or germplasms, have been recently used in the study of fiber development. In the current study, scanning electron microscopy (SEM) was used to investigate developmental differences in lint and fuzz initiation in different genotypes (Gossypium hirsutum) of upland cotton. These fiber mutants included dominant naked seed N1, recessive naked seed n2, Xuzhou-142 lintless-fuzzless (XZ142WX), Xinxiangxiaojilintless-fuzzless (XinWX), Xinxiangxiaojilinted-fuzzless (XinFLM), with TM-1, the cytogenetic and genetic experimental standard stock, as the control. Characteristics of fiber initiation were analyzed from -1 to +1 days post anthesis (dpa) and at 4 and 5 dpa for fuzz initiation. Our data suggested that lint initiation centered on day of anthesis (0dpa), and elongated significantly at 1dpa, while fuzz initiation began at 4dpa, although the shape of fuzz protrusions differed from that of lint fibers. Fiber initiation occurred first on the ovule funicular crest. Compared to TM-1, there was a noted retardation in development and fiber protrusion in N1 and XinFLM. Microscopy data also demonstrated that lintless-fuzzless mutants (XZ142WX and XinWX) developed irregular protrusions during early developmental stages, which were unable to grow into fiber.
