Abstract
The diploid cotton species G. arboreum offers a better opportunity to elucidate gene structure and function as opposed to the allotetraploid cotton species. As a prerequisite for this, a reliable and efficient method of high frequency plant regeneration in G. arboreum must be established. In this study, callus was induced from hypocotyl, root and cotyledon of G. arboreum seedlings on MSB medium (MS salts and B5 vitamins) with 0.09 µM 2, 4-D (2, 4-dichlorophenoxyacetic acid) and 2.32 µM KT (kinetin). During propagation, callus was effectively selected for subculture on different media based on cell morphology to induce embryogenic callus and somatic embryos. Embryogenic callus was induced on MS5 medium (MSB, 37.59 mM KNO3, 62.47 µM NH4NO3, 3% (w/v) glucose, 6.8 mM glutamine, 3.8 mM asparagine) from suspended cultures after several cycles of alternate solid MS3 medium—liquid MS4 medium culture, a key step in somatic embryogenesis. Solid MS3 medium was supplemented with 2.46 µM IBA (īndole-3-butyric acid), 0.93 µM KT, 6.8 mM Gln, 3.8 mM Asn; liquid MS4 medium was supplemented with 0.1 g/L NaCl, 0.1 g/L KCl and 0.1 g/L CuSO4. The solid–liquid alternate culture was effective for embryogenic callus induced in G. arboreum. MS5 medium with maltose (3% w/v) or glucose (1.5% w/v) + maltose (1.5% w/v) performed better than that added single glucose (3% w/v) for somatic embryo maturation and germination. The regenerated plants with well-developed roots were directly transferred to the soil or grafted onto germinated cotton plants. Plant regeneration via somatic embryogenesis in diploid cultivated species was established, but there is a need for improvement and optimization for gene functional analysis and gene editing in the diploid cotton species. Regenerated plants of G. arboreum, a cultivated diploid cotton, were obtained via somatic embryogenesis by adjusting the culture mode and medium compositions.
Highlights
Cultivated cotton is one of the world’s most important commercial crops as a source of fiber
On the base of plant regeneration via somatic embryogenesis in wild diploid cotton species, we have investigated the effects of PGRs, suspension culture and the alternate suspension-solid culture on embryogenic callus formation, somatic embryo initiation and conversion to plantlet in G. arboreum, and further investigated the morphology of callus at the different stages for callus selection and subculture
The diploid G. arboreum or G. herbaceum or their other A-genome progenitor was considered to be a putative contributor of the A subgenome for tetraploid cotton (2n = 4x = 52) species, where the D subgenome came from G. raimondii (D5) (Wendel et al 2009;Li et al 2014; Huang et al 2020)
Summary
Cultivated cotton is one of the world’s most important commercial crops as a source of fiber. The Gossypium genus consists of over 50 species, only four of them (G. hirsutum L., G. barbadense L., G. arboreum L. and G. herbaceum L.) are widely cultivated and provide spinnable fiber, two of these are tetraploid species with AD genome, and two are diploid species with A genome (Wendel et al 1992; 2009). Because of the complex allotetraploid nature, the large genome size of 2.5 Gb in G. hirsutum, much more complex genetic structure and larger genome compared to the diploid species, most genes have multiple copies distributed in At and Dt subgenomes, makes genetic, genomic and functional analyses extremely complicated and challenging (Paterson et al 2012; Li et al 2015; Zhang et al 2015; Wang et al 2019). The diploid cotton species with reproducible, and highly efficient plant regeneration scheme is a prerequisite for the coming functional genomic era
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