Identification of Introgressed Alleles Conferring High Fiber Quality Derived From Gossypium barbadense L. in Secondary Mapping Populations of G. hirsutum L.

Chen, Yu; Liu, Guodong; Ma, Hehuan; Song, Zhangqiang; Zhang, Chuanyun; Zhang, Jingxia; Zhang, Junhao; Wang, Furong; Zhang, Jun

doi:10.3389/fpls.2018.01023

Cited by 31 publications

(26 citation statements)

References 68 publications

(142 reference statements)

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“…The CSSLs are similar to their recurrent parents in terms of field-observed phenotypes but with one or more specific traits of G. barbadense (Ma et al 2013;Li et al 2019b). 2012 Chen et al (2018) In this paper, the CSSLs exhibited high genetic diversity in fiber quality traits (Table 1, Fig. S1).…”

Section: Characteristics Of the Materials Used In This Studymentioning

confidence: 50%

“…In the CCRI36 background: 11 FL-QTLs (qFL-C1-1, qFL- and qFL-C22-1), 12 FM-QTLs (qFM-C1-1, qFM- and 13 FS-QTLs (qFS-C7-4, qFS- were previously reported (Deng et al 2019;Fang et al 2014;Guo et al 2018;Jamshed et al 2016;Li et al 2019b;Ma et al 2017;Said et al 2015b;Shao et al 2014;Shen et al 2005;Shi et al 2019;Song et al 2017;Sun et al 2012;Wang et al 2016Wang et al , 2017aYang et al 2015;Zhai et al 2016;Zhang et al 2012Zhang et al , 2016. In the CCRI 45 background: 16 FL-QTLs (qFL-C2-1, qFL- were previously reported, 10 FM-QTLs (qFM-C5-2, qFM- and 23 FS-QTLs (qFS-C7-3, qFS- were previously reported (Chen et al 2018;Deng et al 2019;Fang et al 2014;Guo et al 2015;He et al 2007;Huang et al 2018;Jamshed et al 2016;Li et al 2019b;Lin et al 2005;Ning et al 2014;Said et al 2015b;Shao et al 2014;Shen et al 2005;Shi et al 2019;Song et al 2017;Sun et al 2012;Tang et al 2015;Wang et al 2011Wang et al , 2012Wang et al , 2015Wang et al , 2016Zhai et al 2016;…”

Section: Qtls For Fiber Quality Traitsmentioning

confidence: 88%

“…A QTL for FS, qFS-D11-1, was fine mapped using the ILs of TM-1 (G. hirsutum L.) × H102 (G. barbadense L.) (Su et al 2013), and a QTL for FL, qFL-chr1, was fine mapped and analyzed using near-isogenic introgression lines (NIILs) of Upland Tamcot 2111 (G. hirsutum, the recurrent parent) × Pima S-6 (G. barbadense, the donor parent) (Xu et al 2017). Some QTLs related to fiber quality in G. barbadense were identified based on segregating populations of derived progenies of one IL (Chen et al 2018;Wang et al 2011Wang et al , 2016. To date, most of the CSLs, ILs or CSSLs reported in cotton have been detected in the obsolete TM-1 genetic background.…”

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confidence: 99%

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Examining two sets of introgression lines across multiple environments reveals background-independent and stably expressed quantitative trait loci of fiber quality in cotton

et al. 2020

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Key message Background-independent (BI) and stably expressed (SE) quantitative trait loci (QTLs) were identified using two sets of introgression lines across multiple environments. Genetic background more greatly affected fiber quality traits than environmental factors. Sixty-one SE-QTLs, including two BI-QTLs, were novel and 48 SE-QTLs, including seven BI-QTLs, were previously reported. Abstract Cotton fiber quality traits are controlled by QTLs and are susceptible to environmental influence. Fiber quality improvement is an essential goal in cotton breeding but is hindered by limited knowledge of the genetic basis of fiber quality traits. In this study, two sets of introgression lines of Gossypium hirsutum × G. barbadense were used to dissect the QTL stability of three fiber quality traits (fiber length, strength and micronaire) across environments using 551 simple sequence repeat markers selected from our high-density genetic map. A total of 76 and 120 QTLs were detected in the CCRI36 and CCRI45 backgrounds, respectively. Nine BI-QTLs were found, and 78 (41.71%) of the detected QTLs were reported previously. Thirty-nine and 79 QTLs were SE-QTLs in at least two environments in the CCRI36 and CCRI45 backgrounds, respectively. Forty-eight SE-QTLs, including seven BI-QTLs, were confirmed in previous reports, and 61 SE-QTLs, including two BI-QTLs, were considered novel. These results indicate that genetic background more strongly impacts on fiber quality traits than environmental factors. Twenty-three clusters with BI-and/or SE-QTLs were identified, 19 of which harbored favorable alleles from G. barbadense for two or three fiber quality traits. This study is the first report using two sets of introgression lines to identify fiber quality QTLs across environments in cotton, providing insights into the effect of genetic backgrounds and environments on the QTL expression of fiber quality and important information for the genetic basis underlying fiber quality traits toward QTL cloning and molecular breeding.

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Section: Characteristics Of the Materials Used In This Studymentioning

confidence: 50%

Section: Qtls For Fiber Quality Traitsmentioning

confidence: 88%

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confidence: 99%

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Examining two sets of introgression lines across multiple environments reveals background-independent and stably expressed quantitative trait loci of fiber quality in cotton

et al. 2020

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“…Because of the limited genetic diversity within cultivated upland cotton (May et al ., ; Tyagi et al ., ), simultaneous improvement of fibre quality and yield via conventional breeding methods has been difficult. However, long‐term interspecific hybridization has developed a large amount of germplasm with obviously improved traits, such as fibre quality and/or biotic or abiotic tolerances, that contains introgressed components from other Gossypium species (Abdelraheem et al ., ; Bell et al ., , ; Iqbal et al ., ; Keerio et al ., ; Mammadov et al ., ; Wang et al ., ; Xu et al ., ; Zhang et al ., ; Zhou et al ., ), especially from cultivated G. barbadense varieties (Chen et al ., ; Wang et al ., , , ). Unfortunately, a major problem in using these germplasm resources is the negative correlation between fibre quality and lint yield (Scholl and Miller, ; Zhou et al ., ).…”

Section: Introductionmentioning

confidence: 99%

Identification of candidate genes for key fibre‐related QTLs and derivation of favourable alleles in Gossypium hirsutum recombinant inbred lines with G. barbadense introgressions

Wang

Zhang

et al. 2019

Plant Biotechnology Journal

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Summary Fine mapping QTLs and identifying candidate genes for cotton fibre‐quality and yield traits would be beneficial to cotton breeding. Here, we constructed a high‐density genetic map by specific‐locus amplified fragment sequencing (SLAF‐seq) to identify QTLs associated with fibre‐quality and yield traits using 239 recombinant inbred lines (RILs), which was developed from LMY22 (a high‐yield Gossypium hirsutumL. cultivar) × LY343 (a superior fibre‐quality germplasm with G. barbadenseL. introgressions). The genetic map spanned 3426.57 cM, including 3556 SLAF‐based SNPs and 199 SSR marker loci. A total of 104 QTLs, including 67 QTLs for fibre quality and 37 QTLs for yield traits, were identified with phenotypic data collected from 7 environments. Among these, 66 QTLs were co‐located in 19 QTL clusters on 12 chromosomes, and 24 QTLs were detected in three or more environments and determined to be stable. We also investigated the genomic components of LY343 and their contributions to fibre‐related traits by deep sequencing the whole genome of LY343, and we found that genomic components from G. hirsutum races (which entered LY343 via its G. barbadense parent) contributed more favourable alleles than those from G. barbadense. We further identified six putative candidate genes for stable QTLs, including Gh_A03G1147 (GhPEL6), Gh_D07G1598 (GhCSLC6) and Gh_D13G1921 (GhTBL5) for fibre‐length QTLs and Gh_D03G0919 (GhCOBL4), Gh_D09G1659 (GhMYB4) and Gh_D09G1690 (GhMYB85) for lint‐percentage QTLs. Our results provide comprehensive insight into the genetic basis of the formation of fibre‐related traits and would be helpful for cloning fibre‐development‐related genes as well as for marker‐assisted genetic improvement in cotton.

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“…A chromosome segment substitution line population developed by crossing between two tetraploid genome species (G. hirsutum and G. barbadense) detected 103 QTLs associated with fiber quality traits . The introgression of superior alleles of fiber quality from G. barbadense contributed to G. hirsutum have been linked in five QTL clusters for fiber quality which further associated with significant candidate genes (Gh_A07G1752, Gh_A07G1753, Gh_A07G1754, Gh_A07G1755, and Gh_A07G1756) in fiber development (Chen et al, 2018).…”

Section: Potential Qtls Mapped For Key Fiber Quality Traitsmentioning

confidence: 99%

Fiber Quality Improvement in Upland Cotton (Gossypium hirsutum L.): Quantitative Trait Loci Mapping and Marker Assisted Selection Application

et al. 2019

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Genetic improvement in fiber quality is one of the main challenges for cotton breeders. Fiber quality traits are controlled by multiple genes and are classified as complex quantitative traits, with a negative relationship with yield potential, so the genetic gain is low in traditional genetic improvement by phenotypic selection. The availability of Gossypium genomic sequences facilitates the development of high-throughput molecular markers, quantitative trait loci (QTL) fine mapping and gene identification, which helps us to validate candidate genes and to use marker assisted selection (MAS) on fiber quality in breeding programs. Based on developments of high density linkage maps, QTLs fine mapping, marker selection and omics, we have performed trait dissection on fiber quality traits in diverse populations of upland cotton. QTL mapping combined with multi-omics approaches such as, RNA sequencing datasets to identify differentially expressed genes have benefited the improvement of fiber quality. In this review, we discuss the application of molecular markers, QTL mapping and MAS for fiber quality improvement in upland cotton.

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Identification of Introgressed Alleles Conferring High Fiber Quality Derived From Gossypium barbadense L. in Secondary Mapping Populations of G. hirsutum L.

Cited by 31 publications

References 68 publications

Examining two sets of introgression lines across multiple environments reveals background-independent and stably expressed quantitative trait loci of fiber quality in cotton

Examining two sets of introgression lines across multiple environments reveals background-independent and stably expressed quantitative trait loci of fiber quality in cotton

Identification of candidate genes for key fibre‐related QTLs and derivation of favourable alleles in Gossypium hirsutum recombinant inbred lines with G. barbadense introgressions

Fiber Quality Improvement in Upland Cotton (Gossypium hirsutum L.): Quantitative Trait Loci Mapping and Marker Assisted Selection Application

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