Kunbo Wang
YOU?
Author Swipe
View article: Transcriptome dynamics along with expression analysis of key genes involved in fiber development between Gossypium barbadense and Gossypium darwinii
Transcriptome dynamics along with expression analysis of key genes involved in fiber development between Gossypium barbadense and Gossypium darwinii Open
View article: Transcriptional landscape of cotton roots in response to salt stress at single-cell resolution
Transcriptional landscape of cotton roots in response to salt stress at single-cell resolution Open
Increasing soil salinization has led to severe losses of plant yield and quality. Thus, it is urgent to investigate the molecular mechanism of the salt stress response. In this study, we took systematically analyzed cotton root response to…
View article: Widespread incomplete lineage sorting and introgression shaped adaptive radiation in the Gossypium genus
Widespread incomplete lineage sorting and introgression shaped adaptive radiation in the Gossypium genus Open
View article: Pollen morphology of the genus Gossypium and its systematic implications
Pollen morphology of the genus Gossypium and its systematic implications Open
Background Plants develop a variety of pollen morphological features during long-term evolution, which are controlled by genes and are not easily affected by the external natural environment. Therefore, pollen morphology has great signific…
View article: Evolutionary divergence of duplicated genomes in newly described allotetraploid cottons
Evolutionary divergence of duplicated genomes in newly described allotetraploid cottons Open
Allotetraploid cotton ( Gossypium ) species represents a model system for the study of plant polyploidy, molecular evolution, and domestication. Here, chromosome-scale genome sequences were obtained and assembled for two recently described…
View article: Genome-Wide Dissection of the Genetic Basis for Drought Tolerance in Gossypium hirsutum L. Races
Genome-Wide Dissection of the Genetic Basis for Drought Tolerance in Gossypium hirsutum L. Races Open
Drought seriously threats the growth and development of Gossypium hirsutum L. To dissect the genetic basis for drought tolerance in the G. hirsutum L. germplasm, a population, consisting of 188 accessions of G. hirsutum races and a cultiva…
View article: Transcriptome Analysis Reveals Drought Stress response Mediated by Biological Processes and Key Pathways in Gossypium Darwinii
Transcriptome Analysis Reveals Drought Stress response Mediated by Biological Processes and Key Pathways in Gossypium Darwinii Open
Background The allotetraploid wild cotton species, Gossypium darwinii , possess important traits of stress tolerance and good genetic stability that can be used for cotton improvement. Materials and Methods In this study, we analyzed the R…
View article: GhGLK1 a Key Candidate Gene From GARP Family Enhances Cold and Drought Stress Tolerance in Cotton
GhGLK1 a Key Candidate Gene From GARP Family Enhances Cold and Drought Stress Tolerance in Cotton Open
Drought and low-temperature stresses are the most prominent abiotic stresses affecting cotton. Wild cotton being exposed to harsh environments has more potential to cope with both biotic and abiotic stresses. Exploiting wild cotton materia…
View article: Profiling of H3K4me3 and H3K27me3 and Their Roles in Gene Subfunctionalization in Allotetraploid Cotton
Profiling of H3K4me3 and H3K27me3 and Their Roles in Gene Subfunctionalization in Allotetraploid Cotton Open
Cotton is an excellent model for studying crop polyploidization and domestication. Chromatin profiling helps to reveal how histone modifications are involved in controlling differential gene expression between A and D subgenomes in allotet…
View article: Functional Characterization of Cotton C-Repeat Binding Factor Genes Reveal Their Potential Role in Cold Stress Tolerance
Functional Characterization of Cotton C-Repeat Binding Factor Genes Reveal Their Potential Role in Cold Stress Tolerance Open
Low temperature is a common biological abiotic stress in major cotton-growing areas. Cold stress significantly affects the growth, yield, and yield quality of cotton. Therefore, it is important to develop more robust and cold stress-resili…
View article: Multi-Omics-Based Identification and Functional Characterization of Gh_A06G1257 Proves Its Potential Role in Drought Stress Tolerance in Gossypium hirsutum
Multi-Omics-Based Identification and Functional Characterization of Gh_A06G1257 Proves Its Potential Role in Drought Stress Tolerance in Gossypium hirsutum Open
Cotton is one of the most important fiber crops globally. Despite this, various abiotic stresses, including drought, cause yield losses. We used transcriptome profiles to investigate the co-expression patterns of gene networks associated w…
View article: Functional Characterization of GhACX3 Gene Reveals Its Significant Role in Enhancing Drought and Salt Stress Tolerance in Cotton
Functional Characterization of GhACX3 Gene Reveals Its Significant Role in Enhancing Drought and Salt Stress Tolerance in Cotton Open
The acyl-coenzyme A oxidase 3 (ACX3) gene involved in the β-oxidation pathway plays a critical role in plant growth and development as well as stress response. Earlier on, studies focused primarily on the role of β-oxidation limited to fat…
View article: Comparative genomics and polyploid dynamics in tetraploid cotton (Gossypium)
Comparative genomics and polyploid dynamics in tetraploid cotton (Gossypium) Open
Allotetraploid species of cotton (Gossypium) represent a model system for the study of plant polyploidy, molecular evolution and domestication. In this study three high-quality draft assemblies of tetraploid cottons are presented, comprisi…
View article: Transcriptome Analysis Reveals Drought Stress response Mediated by Biological Processes and Key Pathways in Gossypium darwinii
Transcriptome Analysis Reveals Drought Stress response Mediated by Biological Processes and Key Pathways in Gossypium darwinii Open
Background: The allotetraploid wild cotton species, Gossypium darwinii , possess important traits of stress tolerance and good genetic stability that can be used for cotton improvement. In this study, we analyzed the RNA-seq transcriptomes…
View article: Genome wide identification and functional characterization of the cotton C-repeat binding factor (CBF) under cold stress condition
Genome wide identification and functional characterization of the cotton C-repeat binding factor (CBF) under cold stress condition Open
Background Low temperature is a common biological abiotic stress in major cotton growing areas. Cold stress significantly affects the growth, yield and yield quality of cotton. Therefore, it is important to develop a more robust and cold s…
View article: Knockdown of 60S Ribosomal Protein L14-2 Reveals Their Potential Regulatory Roles in Enhancing Drought and Salt Tolerance in Cotton
Knockdown of 60S Ribosomal Protein L14-2 Reveals Their Potential Regulatory Roles in Enhancing Drought and Salt Tolerance in Cotton Open
BackgroundCotton is an important economic crop and the primary source of natural fiber. The effects of drought and salt stresses threaten strong fiber and large quantity production. However, due to the ever-changing climatic conditions, pl…
View article: Genome Wide Identification of Cotton C-Repeat Binding Factor (CBF) and Overexpression of Gthu17439 (GthCBF4) Gene Confer Cold Stress Tolerance in Arabidopsis Thaliana
Genome Wide Identification of Cotton C-Repeat Binding Factor (CBF) and Overexpression of Gthu17439 (GthCBF4) Gene Confer Cold Stress Tolerance in Arabidopsis Thaliana Open
Low temperature is a common biological abiotic stress in major cotton growing areas. Cold stress significantly affects the growth, yield and yield quality of cotton. Therefore, it is important to develop a more robust and cold stress toler…
View article: Genome Wide Identification and Characterization of Light-Harvesting Chloro a/b Binding Genes Reveals their Potential Role in Enhancing Drought Tolerance in Gossypium hirsutum
Genome Wide Identification and Characterization of Light-Harvesting Chloro a/b Binding Genes Reveals their Potential Role in Enhancing Drought Tolerance in Gossypium hirsutum Open
BackgroundCotton is an important commercial crop for its valuable source of natural fiber. Its production has undergone a sharp failure because of abiotic stress influences, of significance is drought. Moreover, plants have evolved self-de…
View article: WITHDRAWN: Comparative genome analyses highlight transposon-mediated genome expansion shapes the evolutionary architecture of 3D genomic folding in cotton
WITHDRAWN: Comparative genome analyses highlight transposon-mediated genome expansion shapes the evolutionary architecture of 3D genomic folding in cotton Open
Transposable element (TE) amplification has been recognized as a driving force mediating genome size expansion and evolution, but the effect on shaping of 3D genomic architecture remains largely unknown in plants. Here, we report three ref…
View article: Genetic Map Construction and Functional Characterization of Genes within the Segregation Distortion Regions (SDRs) in the F2:3 Populations Derived from Wild Cotton Species of the D Genome
Genetic Map Construction and Functional Characterization of Genes within the Segregation Distortion Regions (SDRs) in the F2:3 Populations Derived from Wild Cotton Species of the D Genome Open
Background: Segregation distortion (SD) is a phenomenon common among stable or segregating populations, and the principle behind it still puzzles many researchers. The F 2:3 progenies developed from the wild cotton species of the D genomes…
View article: Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton
Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton Open
BackgroundWild species of cotton are excellent resistance to abiotic stress. Diploid D-genome cotton showed abundant phenotypic diversity and was the putative donor species of allotetraploid cotton which produce the largest textile natural…
View article: Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton
Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton Open
Background: Wild species of cotton are excellent resistance to abiotic stress. Diploid D-genome cotton showed abundant phenotypic diversity and was the putative donor species of allotetraploid cotton which produce the largest textile natur…
View article: Genetic Map Construction and Functional Characterization of Genes within the Segregation Distortion Regions (SDRs) in the F2:3 Populations Derived from Wild Cotton Species of the D Genome
Genetic Map Construction and Functional Characterization of Genes within the Segregation Distortion Regions (SDRs) in the F2:3 Populations Derived from Wild Cotton Species of the D Genome Open
Background: Segregation distortion (SD) is a phenomenon common among stable or segregating populations, and the principle behind it still puzzles many researchers. The F2:3 progenies developed from the wild cotton species of the…
View article: Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton
Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton Open
Background Wild species of cotton are excellent resistance to abiotic stress. Diploid D-genome cotton showed abundant phenotypic diversity and was the putative donor species of allotetraploid cotton which produce the largest textile natura…
View article: Genetic Map Construction and Functional Characterization of Genes within the Segregation Distortion Regions (SDRs) in the F2:3 Populations Derived from Wild Cotton Species of the D Genome
Genetic Map Construction and Functional Characterization of Genes within the Segregation Distortion Regions (SDRs) in the F2:3 Populations Derived from Wild Cotton Species of the D Genome Open
Background Segregation distortion (SD) is a phenomenon common among stable or segregating populations, and the principle behind it still puzzles many researchers. The F 2:3 progenies developed from the wild cotton species of the D genomes …
View article: Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton
Comparative transcriptome analysis reveals evolutionary divergence and shared network of cold and salt stress response in diploid D-genome cotton Open
Background Wild species of cotton are excellent resistance to abiotic stress. Diploid D-genome cotton showed abundant phenotypic diversity and was the putative donor species of allotetraploid cotton which produce largest textile natural fi…
View article: Peer Review #2 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.1)"
Peer Review #2 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.1)" Open
The activity of genome-specific repetitive sequences is the main cause of genome variation between Gossypium A and D genomes.Through comparative analysis of the two genomes, we retrieved a repetitive element termed ICRd motif, which appear…
View article: Peer Review #1 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.2)"
Peer Review #1 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.2)" Open
The activity of genome-specific repetitive sequences is the main cause of genome variation between Gossypium A and D genomes.Through comparative analysis of the two genomes, we retrieved a repetitive element termed ICRd motif, which appear…
View article: Peer Review #1 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.1)"
Peer Review #1 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.1)" Open
The activity of genome-specific repetitive sequences is the main cause of genome variation between Gossypium A and D genomes.Through comparative analysis of the two genomes, we retrieved a repetitive element termed ICRd motif, which appear…
View article: Peer Review #2 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.2)"
Peer Review #2 of "Identification of a genome-specific repetitive element in the Gossypium D genome (v0.2)" Open
The activity of genome-specific repetitive sequences is the main cause of genome variation between Gossypium A and D genomes.Through comparative analysis of the two genomes, we retrieved a repetitive element termed ICRd motif, which appear…