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作者:J F J Grigolli , L A Souza , M G Fernandes ...
来源:[J].Neotropical Entomology(IF 0.675), 2017, Vol.46 (4), pp.442-451
摘要:The cotton boll weevil Anthonomus grandis Boheman (Coleoptera: Curculionidae) is the main pest in cotton crop around the world, directly affecting cotton production. In order to establish a sequential sampling plan, it is crucial to understand the spatial distribution of the pe...
作者:Yunlei Zhao , Hongmei Wang , Wei Chen ...
来源:[J].BMC Genomics(IF 4.397), 2017, Vol.18 (1)
摘要:Verticillium wilt is one of the most destructive diseases affecting global cotton production. The most effective way to control wilt disease has been the development of new cotton varieties that are resistant to VW. VW-resistant Upland cotton cultivars have been created in both t...
作者:Chao Shen , Xin Jin , De Zhu ...
来源:[J].BMC Genomics(IF 4.397), 2017, Vol.18 (1)
摘要:Cotton ( Gossypium spp.), as the world’s most utilized textile fibre source, is an important, economically valuable crop worldwide. Understanding the genomic variation of tetraploid cotton species is important for exploitation of the excellent characteristics of wild cotton...
作者:Mercedes C. Hernandez-Gomez , Jean-Luc Runavot , Frank Meulewaeter ...
来源:[J].BMC Plant Biology(IF 4.354), 2017, Vol.17 (1)
摘要:Cotton fibre quality traits such as fibre length, strength, and degree of maturation are determined by genotype and environment during the sequential phases of cotton fibre development (cell elongation, transition to secondary cell wall construction and cellulose deposition). The...
作者:Qian Gong , Zhaoen Yang , Xiaoqian Wang ...
来源:[J].BMC Plant Biology(IF 4.354), 2017, Vol.17 (1)
摘要:Verticillium dahliae is a phytopathogenic fungal pathogen that causes vascular wilt diseases responsible for considerable decreases in cotton yields. The complex mechanism underlying cotton resistance to Verticillium wilt remains uncharacterized. Identifying an endogenous resista...
作者:Xinchuan Cao , Yuling Liu , Zhen Liu ...
来源:[J].Hereditas, 2017, Vol.154 (1)
摘要:... Cotton ( Gossypium Linnaeus, 1753) is the main natural fiber crop in the world. The resistance gene analog (RGA) cloning after its single chromosome microdissection can greatly promote cotton genome research and breeding.
作者:Atul S. Hande , Ishwarappa S. Katageri , Mangesh P. Jadhav ...
来源:[J].BMC Genomics(IF 4.397), 2017, Vol.18 (1)
摘要:Cotton fibre is a single cell and it is one of the best platforms for unraveling the genes express during various stages of fibre development. There are reports devoted to comparative transcriptome study on fiber cell initiation and elongation in tetraploid cultivated cotton. How...
作者:Lori L. Hinze , Amanda M. Hulse-Kemp , Iain W. Wilson ...
来源:[J].BMC Plant Biology(IF 4.354), 2017, Vol.17 (1)
摘要:Cotton germplasm resources contain beneficial alleles that can be exploited to develop germplasm adapted to emerging environmental and climate conditions. Accessions and lines have traditionally been characterized based on phenotypes, but phenotypic profiles are limited by the co...
作者:Yanpeng Li , Tiegang Yang , Dandan Dai ...
来源:[J].BMC Plant Biology(IF 4.354), 2017, Vol.17 (1)
摘要:... However, there has been no genome-wide characterization of this gene subfamily in cotton. We thus sought to analyze the evolution and functional characterization of CSLD proteins in cotton based on fully sequenced cotton genomes.
作者:Peng He , Peng Zhao , Limin Wang ...
来源:[J].BMC Genomics(IF 4.397), 2017, Vol.18 (1)
摘要:... Cotton fiber cells are a model system for studying cell elongation due to their large size. Cotton is also the world’s most utilized crop for the production of natural fibers for textile and garment industries, and targeted expression of the IAA biosynthetic gene iaaM incr...

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