Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Genome-wide association analysis reveals genetic variations and candidate genes associated with salt tolerance related traits in Gossypium hirsutum
View through CrossRef
Abstract
Background: Cotton is more resistant to salt and drought stresses as compared to other field crops, which makes itself as a pioneer industrial crop in saline-alkali lands. However, abiotic stresses still negatively affect its growth and development significantly. It is therefore important to breed salt tolerance varieties which can help accelerate the improvement of cotton production. The development of molecular markers linked to causal genes has provided an effective and efficient approach for improving salt tolerance.Results: In this study, a genome-wide association study (GWAS) of salt tolerance related traits at seedling stage was performed based on two years of phenotype identification for 217 representative upland cotton cultivars by genotyping-by-sequencing (GBS) platform. A total of 51,060 single nucleotide polymorphisms (SNPs) unevenly distributed among 26 chromosomes were screened across the cotton cultivars, and 25 associations with 27 SNPs scattered over 12 chromosomes were detected significantly (-log10p>4) associated with three salt tolerance related traits in 2016 and 2017. Among these, the associations on chromosome A13 and D08 for relative plant height (RPH), A07 for relative shoot fresh matter weight (RSFW), A08 and A13 for relative shoot dry matter weight (RSDW) were expressed in both environments, indicating that they were likely to be stable quantitative trait loci (QTLs). A total of 12 salt-induced candidate genes were identified differentially expressed by the combination of GWAS and transcriptome analysis. Three promising genes were selected for preliminary function verification of salt tolerance. The increase of GH_A13G0171-silenced plants in salt related traits under salt stress indicated its negative function in regulating the salt stress response.Conclusions: These results provided important genetic variations and candidate genes for accelerating the improvement of salt tolerance in cotton.
Springer Science and Business Media LLC
Title: Genome-wide association analysis reveals genetic variations and candidate genes associated with salt tolerance related traits in Gossypium hirsutum
Description:
Abstract
Background: Cotton is more resistant to salt and drought stresses as compared to other field crops, which makes itself as a pioneer industrial crop in saline-alkali lands.
However, abiotic stresses still negatively affect its growth and development significantly.
It is therefore important to breed salt tolerance varieties which can help accelerate the improvement of cotton production.
The development of molecular markers linked to causal genes has provided an effective and efficient approach for improving salt tolerance.
Results: In this study, a genome-wide association study (GWAS) of salt tolerance related traits at seedling stage was performed based on two years of phenotype identification for 217 representative upland cotton cultivars by genotyping-by-sequencing (GBS) platform.
A total of 51,060 single nucleotide polymorphisms (SNPs) unevenly distributed among 26 chromosomes were screened across the cotton cultivars, and 25 associations with 27 SNPs scattered over 12 chromosomes were detected significantly (-log10p>4) associated with three salt tolerance related traits in 2016 and 2017.
Among these, the associations on chromosome A13 and D08 for relative plant height (RPH), A07 for relative shoot fresh matter weight (RSFW), A08 and A13 for relative shoot dry matter weight (RSDW) were expressed in both environments, indicating that they were likely to be stable quantitative trait loci (QTLs).
A total of 12 salt-induced candidate genes were identified differentially expressed by the combination of GWAS and transcriptome analysis.
Three promising genes were selected for preliminary function verification of salt tolerance.
The increase of GH_A13G0171-silenced plants in salt related traits under salt stress indicated its negative function in regulating the salt stress response.
Conclusions: These results provided important genetic variations and candidate genes for accelerating the improvement of salt tolerance in cotton.
Related Results
Are Cervical Ribs Indicators of Childhood Cancer? A Narrative Review
Are Cervical Ribs Indicators of Childhood Cancer? A Narrative Review
Abstract
A cervical rib (CR), also known as a supernumerary or extra rib, is an additional rib that forms above the first rib, resulting from the overgrowth of the transverse proce...
Dissecting the genetic basis of learning, memory, and thermal tolerance in a multi-parental population of fruit flies
Dissecting the genetic basis of learning, memory, and thermal tolerance in a multi-parental population of fruit flies
Learning, memory, and thermal tolerance are complex traits that are fundamental survival skills in many species. For example, small poikilotherms " like Drosophila melanogaster, ha...
Genome-Wide Association Analysis Reveals Genetic Variations and Candidate Genes Associated with Salt Tolerance Related Traits in Gossypium Hirsutum
Genome-Wide Association Analysis Reveals Genetic Variations and Candidate Genes Associated with Salt Tolerance Related Traits in Gossypium Hirsutum
Abstract
Background: As a pioneer industrial crop in saline-alkali lands, cotton is more resistant to salt and drought stresses. However, abiotic stresses still have signif...
Genome-wide association analysis reveals genetic variations and candidate genes associated with salt tolerance related traits in Gossypium hirsutum
Genome-wide association analysis reveals genetic variations and candidate genes associated with salt tolerance related traits in Gossypium hirsutum
Abstract
Background: Cotton is more resistant to salt and drought stresses as compared to other field crops, which makes itself as a pioneer industrial crop in saline-alkal...
IDENTIFICATION CANDIDATE SSR, SNPs AND GENES ASSOCIATED SALT TOLERANCE IN ASIATIC COTTON (GOSSYPIUM ARBOREUM)
IDENTIFICATION CANDIDATE SSR, SNPs AND GENES ASSOCIATED SALT TOLERANCE IN ASIATIC COTTON (GOSSYPIUM ARBOREUM)
Soil is a vital resource for feeding the growing global population. Increased salt tolerance of perennial species used for fodder or fuel production is an important and natural met...
Phylogenetic analysis of salt tolerant genes in local Thai rice and salt tolerant gene identification by F2 bulk-segregant analysis
Phylogenetic analysis of salt tolerant genes in local Thai rice and salt tolerant gene identification by F2 bulk-segregant analysis
Genetic diversity is important for developing salt-tolerant rice varieties. This research used the existing whole-exome sequences of eight Thai rice varieties, including the standa...
Deformation of Allochthonous Salt and Evolution of Related Salt-Structural Systems, Eastern Louisiana Gulf Coast
Deformation of Allochthonous Salt and Evolution of Related Salt-Structural Systems, Eastern Louisiana Gulf Coast
Abstract
Salt tectonics in the northern Gulf of Mexico involves both vertical diapirism and lateral silling or flow of salt into wings and tablets (sheets). Combi...
An overview of salinity stress, mechanism of salinity tolerance and strategies for its management in cotton
An overview of salinity stress, mechanism of salinity tolerance and strategies for its management in cotton
Salinity stress is one of the primary threats to agricultural crops resulting in impaired crop growth and development. Although cotton is considered as reasonably salt tolerant, it...