GaHD1, a candidate gene for the Gossypium arboreum SMA-4 mutant, promotes trichome and fiber initiation by cellular H2O2 and Ca2+ signals

Cotton fibers are initiated from the epidermal cells of the ovule before or on the day of anthesis. Gossypium arboreum SMA-4 mutant contains recessive mutation ( sma-4(ha) ) and has the phenotypes of fibreless seeds and glabrous stems. In this study, fine mapping and alternative splicing analysis in...

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Bibliographic Details
Published in:Plant molecular biology 2020-07, Vol.103 (4-5), p.409-423
Main Authors: Ding, Mingquan, Cao, Yuefen, He, Shae, Sun, Jian, Dai, Huaqin, Zhang, Hua, Sun, Chendong, Jiang, Yurong, Paterson, Andrew H., Rong, Junkang
Format: Article
Language:English
Subjects:
Alternative splicing
Biochemistry
Biomedical and Life Sciences
Calcium signalling
Cell culture
Cotton
Gossypium arboreum
Homeobox
Hydrogen peroxide
Leucine zipper proteins
Life Sciences
Mutants
Phenotypes
Plant Pathology
Plant Sciences
Seeds
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Summary:Cotton fibers are initiated from the epidermal cells of the ovule before or on the day of anthesis. Gossypium arboreum SMA-4 mutant contains recessive mutation ( sma-4(ha) ) and has the phenotypes of fibreless seeds and glabrous stems. In this study, fine mapping and alternative splicing analysis indicated a nucleotide substitution (AG → AC) at splicing site in a homeodomain-leucine zipper IV family gene ( GaHD1 ) might cause gene A3S (Alternative 3′ splicing) mistake, suggested that GaHD1 was the candidate gene of sma-4(ha). Many genes related to the fiber initiation are identified to be differentially expressed in the mutant which could result in the blocked fiber initiation signals such as H 2 O 2, or Ca in the mutant. Further comparative physiological analysis of H 2 O 2 production and Ca 2+ flux in the SMA-4 and wide type cotton confirmed that H 2 O 2 and Ca were important fiber initiation signals and regulated by GaHD1 . The in vitro ovule culture of the mutant with hormones recovered the fibered phenotype coupled with the restoration of these signals. Overexpressing of GaHD1 in Arabidopsis increased trichome densities on the sepal, leaf, and stem tissues while transient silencing of the GaHD1 gene in G. arboreum reduced the trichome densities. These phenotypes indicated that GaHD1 is the candidate gene of SMA-4 with a crucial role in acting upstream molecular switch of signal transductions for cotton trichome and fiber initiations.
ISSN:0167-4412
1573-5028
DOI:10.1007/s11103-020-01000-3