scholarly journals Genome sequence of cultivated Upland cotton (Gossypium hirsutum TM-1) provides insights into genome evolution

2015 ◽  
Vol 33 (5) ◽  
pp. 524-530 ◽  
Author(s):  
Fuguang Li ◽  
Guangyi Fan ◽  
Cairui Lu ◽  
Guanghui Xiao ◽  
Changsong Zou ◽  
...  
Keyword(s):  
Gossypium Hirsutum ◽  
Genome Evolution ◽  
Genome Sequence ◽  
Upland Cotton

scholarly journals Genome-wide identification and expression analysis of the 2OG-Fe(II) oxygenase gene family in upland cotton (Gossypium hirsutum L.)

2021 ◽  
Author(s):  
Fenglei Sun ◽  
Quanjia Chen ◽  
Qin Chen ◽  
Menghui Jiang ◽  
Qingtao Zeng ◽  
...  
Keyword(s):  
Drought Stress ◽  
Gossypium Hirsutum ◽  
Gene Family ◽  
Genome Sequence ◽  
Complete Genome Sequence ◽  
Complete Genome ◽  
Upland Cotton ◽  
Gossypium Hirsutum L ◽  
Rf Gene ◽  
Genome Wide

AbstractThe 2OG-Fe(II) oxygenase (RF) family of enzyme proteins can affect bulliform cells and cause leaf curling. However, there are few studies related to this family in cotton, and there has been no systematic analysis of RF genes. Here, we determined 25 RF genes in the complete genome sequence of upland cotton (Gossypium hirsutum L.) and 11 RF genes in the complete genome sequence of Arabidopsis thaliana. Cotton RF proteins can be divided into three categories. Whole genome/fragment and scattered replication events played an important role in the expansion of the RF gene family. qRT-PCR analysis results showed that RF genes respond to drought stress Pairwise comparison results showed that the expression of RF genes in Shi yuan 321 was higher than that in Kui 85–174. Overall, genome-wide identification approach was used to further analyze the related functions of the RF gene family, which may include the response to drought stress, in cotton.

scholarly journals Improved Gossypium raimondii Genome Using a Hi-C-based Proximity-Guided Assembly

2020 ◽  
Author(s):  
Guoli Song ◽  
Qiuhong Yang ◽  
Dongyun Zuo ◽  
Qiaolian Wang ◽  
Hailiang Cheng ◽  
...  
Keyword(s):  
Gossypium Hirsutum ◽  
Genome Sequence ◽  
Upland Cotton ◽  
Reference Genome ◽  
3D Structure ◽  
High Quality ◽  
Heat Map ◽  
Gossypium Raimondii ◽  
Guided Assembly ◽  
Structure Research

Abstract Background: Genome sequence plays an important role in both the basic and applied studies. Gossypium raimondii, the putative contributor of the D subgenome of Upland cotton (Gossypium. hirsutum), highlights the need to improve the genome quality in a rapid and efficient way. Methods: we performed Hi-C sequencing of Gossypium raimondii and reassembled its genome based on a set of new Hi-C data and previously published scaffolds. We identified and corrected errors of initial scaffolds before reassembled into chromosomes. Result: A total of 98.42% of sequence was clustered successfully, among which 99.72% of the clustered sequence was ordered and 99.92% of the ordered sequence was oriented with high-quality. Further evaluation of results by heat-map and collinearity analysis revealed that the current reassembled genome is significantly improved than previous one. Conclusion: This improvement in Gossypium raimondii genome not only provides a better reference genome to increase study efficiency, but also offers a new way to assemble cotton genomes. Furthermore, Hi-C data of Gossypium raimondii may be used for 3D structure research or regulating analysis.

scholarly journals GhKWL1 Upregulates GhERF105 but Its Function Is Impaired by Binding with VdISC1, a Pathogenic Effector of Verticillium dahliae

2021 ◽  
Vol 22 (14) ◽  
pp. 7328
Author(s):  
Yang Chen ◽  
Mi Zhang ◽  
Lei Wang ◽  
Xiaohan Yu ◽  
Xianbi Li ◽  
...  
Keyword(s):  
Gene Expression ◽  
Transgenic Plants ◽  
Gossypium Hirsutum ◽  
Verticillium Wilt ◽  
Verticillium Dahliae ◽  
Defense Response ◽  
Upland Cotton ◽  
Effector Protein ◽  
Positive Regulator ◽  
Its Gene

Verticillium wilt, caused by Verticillium dahliae, is a devastating disease for many important crops, including cotton. Kiwellins (KWLs), a group of cysteine-rich proteins synthesized in many plants, have been shown to be involved in response to various phytopathogens. To evaluate genes for their function in resistance to Verticillium wilt, we investigated KWL homologs in cotton. Thirty-five KWL genes (GhKWLs) were identified from the genome of upland cotton (Gossypium hirsutum). Among them, GhKWL1 was shown to be localized in nucleus and cytosol, and its gene expression is induced by the infection of V. dahliae. We revealed that GhKWL1 was a positive regulator of GhERF105. Silencing of GhKWL1 resulted in a decrease, whereas overexpression led to an increase in resistance of transgenic plants to Verticillium wilt. Interestingly, through binding to GhKWL1, the pathogenic effector protein VdISC1 produced by V. dahliae could impair the defense response mediated by GhKWL1. Therefore, our study suggests there is a GhKWL1-mediated defense response in cotton, which can be hijacked by V. dahliae through the interaction of VdISC1 with GhKWL1.

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