Project description:A cDNA library from 0-10 day post anthesis cotton ovules was established to study genes expressed in cotton ovule during initiation and quickly elongation period. We randomly sequenced over 100,000 ESTs from this library and acquired a gene pool of more than 28,000 UniESTs. The cotton UniESTs were then PCR-amplified and printed onto microarray. This array is comprised of about 28000 high-quality cotton cDNAs (with average length>750bp) and external controls. To study the different growth potential of cotton fibers in a one-year cycle, we then hybridized the array with RNA samples derived from +7 DPA wild-type upland cotton fibers in four different seasons, respectively.
Project description:Transcriptomes fiber and ovules were compared by applying serial analysis of gene expression (SAGE). Keywords: Tissue Comparison We constructed three SAGE libraries and sequenced 57321, 64188, and 69104 tags from fiber, Xu-142 ovule (ovule) and fl mutant ovules (fl) respectively of Upland Cotton, Gossypium hirsutum L. cv. Xu-142.
Project description:In this study, the leaves of upland cotton X142 and its corresponding fuzzness-lintness mutant X142fl were used as materials. Proteomic techniques were used to analysis the protein abundant between the leaves of upland cotton and MaxQuant software was selected to analyze the proteomic data.
Project description:Sea-island cotton (Gossypium barbadense L.) has superior fiber quality properties such as length, fineness and strength, while Upland cotton (Gossypium hirsutum L.) is characterized by high yield. To reveal features of Upland cotton and Sea-island cotton fiber cells, differential genes expression profiles during fiber cell elongation and in secondary wall deposits were established using cDNA microarray technology. This research provides a valuable genomic resource to deepen our understanding of the molecular mechanisms of cotton fiber development, and may ultimately lead to improvements in cotton fiber quality and yield.