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Table_3.XLS

Lu, Quanwei ; Xiao, Xianghui ; Gong, Juwu ; [et al.]

Frontiers Media SA ; 2021

In: Frontiers in Plant Science Vol. 12 ( 2021-12-14)

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In: Frontiers in Plant Science, Frontiers Media SA, Vol. 12 ( 2021-12-14)

Abstract: Fiber length is an important determinant of fiber quality, and it is a quantitative multi-genic trait. Identifying genes associated with fiber length is of great importance for efforts to improve fiber quality in the context of cotton breeding. Integrating transcriptomic information and details regarding candidate gene regions can aid in candidate gene identification. In the present study, the CCRI45 line and a chromosome segment substitution line (CSSL) with a significantly higher fiber length (MBI7747) were utilized to establish F 2 and F 2:3 populations. Using a high-density genetic map published previously, six quantitative trait loci (QTLs) associated with fiber length and two QTLs associated with fiber strength were identified on four chromosomes. Within these QTLs, qFL-A07-1 , qFL-A12-2 , qFL-A12-5 , and qFL-D02-1 were identified in two or three environments and confirmed by a meta-analysis. By integrating transcriptomic data from the two parental lines and through qPCR analyses, four genes associated with these QTLs including Cellulose synthase-like protein D3 ( CSLD3 , GH_A12G2259 for qFL-A12-2 ), expansin-A1 ( EXPA1 , GH_A12G1972 for qFL-A12-5 ), plasmodesmata callose-binding protein 3 ( PDCB3 , GH_A12G2014 for qFL-A12-5 ), and Polygalacturonase ( At1g48100 , GH_D02G0616 for qFL-D02-1 ) were identified as promising candidate genes associated with fiber length. Overall, these results offer a robust foundation for further studies regarding the molecular basis for fiber length and for efforts to improve cotton fiber quality.

Type of Medium: Online Resource

ISSN: 1664-462X

URL: Article

DOI: 10.3389/fpls.2021.796722

DOI: 10.3389/fpls.2021.796722.s001

DOI: 10.3389/fpls.2021.796722.s002

DOI: 10.3389/fpls.2021.796722.s003

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2021

detail.hit.zdb_id: 2687947-5

detail.hit.zdb_id: 2613694-6

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Genome-wide analyses of member identification, expression pattern, and protein–protein interaction of EPF/EPFL gene family in Gossypium

Li, Pengtao ; Zhao, Zilin ; Wang, Wenkui ; [et al.]

Springer Science and Business Media LLC ; 2024

In: BMC Plant Biology Vol. 24, No. 1 ( 2024-06-14)

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In: BMC Plant Biology, Springer Science and Business Media LLC, Vol. 24, No. 1 ( 2024-06-14)

Abstract: Epidermal patterning factor / -like ( EPF/EPFL ) gene family encodes a class of cysteine-rich secretory peptides, which are widelyfound in terrestrial plants.Multiple studies has indicated that EPF/EPFLs might play significant roles in coordinating plant development and growth, especially as the morphogenesis processes of stoma, awn, stamen, and fruit skin. However, few research on EPF/EPFL gene family was reported in Gossypium . Results We separately identified 20 G. raimondii , 24 G. arboreum , 44 G. hirsutum , and 44 G. barbadense EPF/EPFL genes in the 4 representative cotton species, which were divided into four clades together with 11 Arabidopsis thaliana , 13 Oryza sativa , and 17 Selaginella moellendorffii ones based on their evolutionary relationships. The similar gene structure and common motifs indicated the high conservation among the EPF/EPFL members, while the uneven distribution in chromosomes implied the variability during the long-term evolutionary process. Hundreds of collinearity relationships were identified from the pairwise comparisons of intraspecifc and interspecific genomes, which illustrated gene duplication might contribute to the expansion of cotton EPF/EPFL gene family. A total of 15 kinds of cis-regulatory elements were predicted in the promoter regions, and divided into three major categories relevant to the biological processes of development and growth, plant hormone response, and abiotic stress response. Having performing the expression pattern analyses with the basic of the published RNA-seq data, we found most of GhEPF/EPFL and GbEPF/EPFL genes presented the relatively low expression levels among the 9 tissues or organs, while showed more dramatically different responses to high/low temperature and salt or drought stresses. Combined with transcriptome data of developing ovules and fibers and quantitative Real-time PCR results (qRT-PCR) of 15 highly expressed GhEPF/EPFL genes, it could be deduced that the cotton EPF/EPFL genes were closely related with fiber development. Additionally, the networks of protein–protein interacting among EPF/EPFLs concentrated on the cores of GhEPF1 and GhEPF7, and thosefunctional enrichment analyses indicated that most of EPF/EPFLs participate in the GO (Gene Ontology) terms of stomatal development and plant epidermis development, and the KEGG (Kyoto Encyclopedia of Genes and Genomes) pathways of DNA or base excision repair. Conclusion Totally, 132 EPF/EPFL genes were identified for the first time in cotton, whose bioinformatic analyses of cis-regulatory elements and expression patterns combined with qRT-PCR experiments to prove the potential functions in the biological processes of plant growth and responding to abiotic stresses, specifically in the fiber development. These results not only provide comprehensive and valuable information for cotton EPF/EPFL gene family, but also lay solid foundation for screening candidate EPF/EPFL genes in further cotton breeding.

Type of Medium: Online Resource

ISSN: 1471-2229

URL: Article

DOI: 10.1186/s12870-024-05262-7

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2024

detail.hit.zdb_id: 2059868-3

SSG: 12

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Fine mapping and candidate gene analysis of qFL-A12-5: a fiber length-related QTL introgressed from Gossypium barbadense into Gossypium hirsutum

Xiao, Xianghui ; Liu, Ruixian ; Gong, Juwu ; [et al.]

Springer Science and Business Media LLC ; 2023

In: Theoretical and Applied Genetics Vol. 136, No. 3 ( 2023-03)

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In: Theoretical and Applied Genetics, Springer Science and Business Media LLC, Vol. 136, No. 3 ( 2023-03)

Type of Medium: Online Resource

ISSN: 0040-5752 , 1432-2242

URL: Article

DOI: 10.1007/s00122-023-04247-8

RVK:

WA 15000

Language: English

Publisher: Springer Science and Business Media LLC

Publication Date: 2023

detail.hit.zdb_id: 1478966-8

SSG: 12

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Table_5.xlsx

Li, Ziyin ; Shi, Yuzhen ; Xiao, Xianghui ; [et al.]

Frontiers Media SA ; 2023

In: Frontiers in Plant Science Vol. 14 ( 2023-3-15)

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In: Frontiers in Plant Science, Frontiers Media SA, Vol. 14 ( 2023-3-15)

Abstract: Cotton is an important fiber crop. The cotton fiber is an extremely long trichome that develops from the epidermis of an ovule. The trichome is a general and multi-function plant organ, and trichome birefringence-like ( TBL ) genes are related to trichome development. At the genome-wide scale, we identified TBLs in four cotton species, comprising two cultivated tetraploids ( Gossypium hirsutum and G. barbadense ) and two ancestral diploids ( G. arboreum and G. raimondii ). Phylogenetic analysis showed that the TBL genes clustered into six groups. We focused on GH_D02G1759 in group IV because it was located in a lint percentage-related quantitative trait locus. In addition, we used transcriptome profiling to characterize the role of TBLs in group IV in fiber development. The overexpression of GH_D02G1759 in Arabidopsis thaliana resulted in more trichomes on the stems, thereby confirming its function in fiber development. Moreover, the potential interaction network was constructed based on the co-expression network, and it was found that GH_D02G1759 may interact with several genes to regulate fiber development. These findings expand our knowledge of TBL family members and provide new insights for cotton molecular breeding.

Type of Medium: Online Resource

ISSN: 1664-462X

URL: Article

DOI: 10.3389/fpls.2023.1127760

DOI: 10.3389/fpls.2023.1127760.s001

DOI: 10.3389/fpls.2023.1127760.s002

DOI: 10.3389/fpls.2023.1127760.s003

DOI: 10.3389/fpls.2023.1127760.s004

DOI: 10.3389/fpls.2023.1127760.s005

DOI: 10.3389/fpls.2023.1127760.s006

DOI: 10.3389/fpls.2023.1127760.s007

DOI: 10.3389/fpls.2023.1127760.s008

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2023

detail.hit.zdb_id: 2687947-5

detail.hit.zdb_id: 2613694-6

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Genome-Wide Identification and Characterization of the PPO Gene Family in Cotton (Gossypium) and Their Expression Variations Responding to Verticillium Wilt Infection

Yang, Shuhan ; Ge, Qun ; Wan, Sumei ; [et al.]

MDPI AG ; 2023

In: Genes Vol. 14, No. 2 ( 2023-02-13), p. 477-

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In: Genes, MDPI AG, Vol. 14, No. 2 ( 2023-02-13), p. 477-

Abstract: Polyphenol oxidases (PPOs) are copper-binding metalloproteinases encoded by nuclear genes, ubiquitously existing in the plastids of microorganisms, plants, and animals. As one of the important defense enzymes, PPOs have been reported to participate in the resistant processes that respond to diseases and insect pests in multiple plant species. However, PPO gene identification and characterization in cotton and their expression patterns under Verticillium wilt (VW) treatment have not been clearly studied. In this study, 7, 8, 14, and 16 PPO genes were separately identified from Gossypium arboreum, G. raimondii, G. hirsutum, and G. barbadense, respectively, which were distributed within 23 chromosomes, though mainly gathered in chromosome 6. The phylogenetic tree manifested that all the PPOs from four cotton species and 14 other plants were divided into seven groups, and the analyses of the conserved motifs and nucleotide sequences showed highly similar characteristics of the gene structure and domains in the cotton PPO genes. The dramatically expressed differences were observed among the different organs at various stages of growth and development or under the diverse stresses referred to in the published RNA-seq data. Quantitative real-time PCR (qRT-PCR) experiments were also performed on the GhPPO genes in the roots, stems, and leaves of VW-resistant MBI8255 and VW-susceptible CCRI36 infected with Verticillium dahliae V991, proving the strong correlation between PPO activity and VW resistance. A comprehensive analysis conducted on cotton PPO genes contributes to the screening of the candidate genes for subsequent biological function studies, which is also of great significance for the in-depth understanding of the molecular genetic basis of cotton resistance to VW.

Type of Medium: Online Resource

ISSN: 2073-4425

URL: Article

DOI: 10.3390/genes14020477

Language: English

Publisher: MDPI AG

Publication Date: 2023

detail.hit.zdb_id: 2527218-4

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Transcriptome Analysis Suggests That Chromosome Introgression Fragments from Sea Island Cotton ( Gossypium barbadense ) Increase Fiber Strength in Upland Cotton ( Gossypium hirsutum )

Lu, Quanwei ; Shi, Yuzhen ; Xiao, Xianghui ; [et al.]

Oxford University Press (OUP) ; 2017

In: G3 Genes|Genomes|Genetics Vol. 7, No. 10 ( 2017-10-01), p. 3469-3479

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In: G3 Genes|Genomes|Genetics, Oxford University Press (OUP), Vol. 7, No. 10 ( 2017-10-01), p. 3469-3479

Abstract: As high-strength cotton fibers are critical components of high quality cotton, developing cotton cultivars with high-strength fibers as well as high yield is a top priority for cotton development. Recently, chromosome segment substitution lines (CSSLs) have been developed from high-yield Upland cotton (Gossypium hirsutum) crossed with high-quality Sea Island cotton (G. barbadense). Here, we constructed a CSSL population by crossing CCRI45, a high-yield Upland cotton cultivar, with Hai1, a Sea Island cotton cultivar with superior fiber quality. We then selected two CSSLs with significantly higher fiber strength than CCRI45 (MBI7747 and MBI7561), and one CSSL with lower fiber strength than CCRI45 (MBI7285), for further analysis. We sequenced all four transcriptomes at four different time points postanthesis, and clustered the 44,678 identified genes by function. We identified 2200 common differentially-expressed genes (DEGs): those that were found in both high quality CSSLs (MBI7747 and MBI7561), but not in the low quality CSSL (MBI7285). Many of these genes were associated with various metabolic pathways that affect fiber strength. Upregulated DEGs were associated with polysaccharide metabolic regulation, single-organism localization, cell wall organization, and biogenesis, while the downregulated DEGs were associated with microtubule regulation, the cellular response to stress, and the cell cycle. Further analyses indicated that three genes, XLOC_036333 [mannosyl-oligosaccharide-α-mannosidase (MNS1)], XLOC_029945 (FLA8), and XLOC_075372 (snakin-1), were potentially important for the regulation of cotton fiber strength. Our results suggest that these genes may be good candidates for future investigation of the molecular mechanisms of fiber strength formation and for the improvement of cotton fiber quality through molecular breeding.

Type of Medium: Online Resource

ISSN: 2160-1836

URL: Article

DOI: 10.1534/g3.117.300108

Language: English

Publisher: Oxford University Press (OUP)

Publication Date: 2017

detail.hit.zdb_id: 2629978-1

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