Somatic embryogenesis and plant regeneration in cotton (Gossypium hirsutum L.)

Tissue culture methods for improvement of cotton has lagged seriously compared to other major crops. A method for regeneration of cotton which includes a morphogenetically competent cell suspension was needed to facilitate selection of stress-resistant variants and gene manipulation. Preliminary screening of eight strains of Gossypium hirsutum L. for embryogenic potential resulted in the production of somatic embryos in all strains. Coker 312 was selected for use in the development of a model regeneration system for G. hirsutum. Calli were initiated from hypocotyl tissues of 3-day-old-seedlings. Globular embryos were present after six weeks in culture. Calli were subcultured to liquid suspension in growth regulator-free medium. After three to four weeks, suspensions were sieved to collect globular and heart stage embryos. Collected embryos developed further when plated onto semi-solid medium. To induce germination and plantlet growth, mature embryos were placed on sterile vermiculite saturated with medium. Upon development of roots and two true leaves, plantlets were potted in peat and sand, and hardened. Mature plants and progeny have been obtained with this procedure. A high percentage of infertile plants was observed among the regenerants.Abbreviations NAA 1 naphthaleneacetic acid - IAA indole-3-acetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - MS Murashige and Skoog - BA 6 benzylamino purine - 2i P N⁶-(²-isopentenyladenine     

In vitro induction of multiple shoots and plant regeneration in cotton (Gossypium hirsutum L.)

Induction of multiple shoots in cotton (Gossypium hirsutum L. cv. Anjali-LRK 516) has been achieved with cotyledonary nodes devoid of cotyledons and apical meristems. Explants from 35-day-old seedlings yielded the maximum number of shoots (4.7 shoots/explant) using Murashige and Skoog (MS) basal medium supplemented with 6-benzylaminopurine and kinetin (2.5 mg/1 each). Explants from 35-day-old seedlings raised in glass bottles produced a higher number of multiple shoots (8.3 shoots/explant) than those grown in glass tubes and cultured on the same shoot induction medium. Elongation of multiple shoots was obtained on liquid or agar MS basal medium without phytohormones. In vitro shoots were rooted on half-strength agar-solidified MS basal medium or with 0.05 or 0.1 mg/1 naphthaleneacetic acid. Hardening and survival of tissue culture plantlets was 95% under greenhouse conditions.Abbreviations BAP 6-Benzylaminopurine - GA₃ Gibberellic acid - MS Murashige and Skoog medium - NAA -Napthaleneacetic acid     

Correlation studies on yield and fibre traits in upland cotton (Gossypium hirsutum L.)

Summary Two diverse parents of upland cotton namely J.34 and I.C. 1926 were crossed. A comparison between biparental intermated progenies and F₃ families indicated alteration of correlation coefficient between yield and halo length. The significant negative correlation in F₃ population between these two attributes changed to a positive but non significant one in biparental intermated progenies. A change in correlation coefficients was expected due to breakage of linkage upon intermating. An increase in the correlation coefficients could also be expected when linkages are predominantly in the repulsion phase. It is suggested that intermating in early generations coupled with selection of desirable segregants may prove a useful method for improving yield and quality simultaneously. The diallel selective mating system may also supplement intermating to improve yield and quality in cotton.Part of Ph.D. Thesis submitted to the Haryana Agricultural University. Hissar-125004, India     

Line x tester analysis for fixed effect model in cotton (Gossypium hirsutum L.)

Summary The data from an experiment in cotton consisting of three testers and 12 lines selected deliberately have been analysed. The investigation showed higher specific combining ability variance for yield of seed cotton and number of bolls, indicating the predominance of non-additive gene action. Of parental lines, H777 was found to possess high g.c.a. effects for seed cotton yield, number of bolls and number of sympodes. Parent H842 contributed only for boll weight, whereas H655 was good general combiner for number of monopodes. There appeared to be better chances for increasing the yield by exploiting hybrid vigour for the number of bolls and boll weight. The presence of marked non-additive gene effects, in addition to additive gene effects, indicated the need for exploiting both the fixable and non-fixable components of genetic variance for increasing productivity in cotton.     

First evidence of trans-resveratrol production in cell suspension cultures of cotton (Gossypium hirsutum L.)

For the first time, trans-resveratrol, a stilbene, has been identified in cotton cell suspensions. Cell suspensions of Coker 312, a cultivar which produces embryogenic structures, acccumulate trans-resveratrol contrary to those of cultivar R405-2000, which do not. This stilbene may be a good phenolic marker for induction of somatic embryogenesis in cotton.     

Plant regeneration via somatic embryogenesis in many cultivars of cotton (Gossypium hirsutum L.)

Summary Embryogenic callus was formed from several cultivars of cotton (Gossypium hirsutum L.) when sections of hypocotyl and cotyledon were cultured on medium supplemented with 5 mg/liter 6-(γ, γ-dimethylallyl-amino)-purine (2iP) and 0.1 mg/liter α-naphthaleneacetic acid (NAA) for callus initiation and proliferation, and subcultured on medium supplemented with 5 mg/liter NAA and 0.1 to 1 mg/liter 2iP for embryogenic callus induction. It seems that a high 2iP:auxin ratio is preferred for callus initiation and proliferation, but should be exchanged with a higher NAA:cytokinin ratio before differentiation will occur. Embryogenic calluses were recovered at a frequency of 2 to 85% depending on the cultivar used. Coker cultivars produced embryogenic callus faster and at higher frequencies than other cultivars. Embryogenic callus produced somatic embryos on phytohormone-free medium. This medium was used to maintain and proliferate embryogenic callus for a perid of 18 to 24 mo. Somatic embryos were converted to plants on a lower ionic strength medium supplemented with 0.1 mg/liter gibberellic acid (GA₃) and 0.01 mg/liter NAA. Glucose was the only carbohydrate used through all phases of tissue culture and was much better than sucrose, on which phenolic production was very high. High temperature (30° C) and low light intensity (9 μE · m⁻² · s⁻¹) were optimal conditions for callus initiation, embryogenic callus induction, and maintenance, whereas lower temperature (25° C) and high light intensity (90 μE · m⁻² s⁻¹) were the optimal conditions for somatic embryo maturation, germination, and plantlet development. Plants could be regenerated within 10 to 12 wk in Cokers or 7 to 8 mo. in others.     

Transformation of cotton (Gossypium hirsutum L.) by Agrobacterium tumefaciens and regeneration of transgenic plants

Cotton (Gossypium hirsutum L.) cotyledon tissues have been efficiently transformed and plants have been regenerated. Cotyledon pieces from 12-day-old aseptically germinated seedlings were inoculated with Agrobacterium tumefaciens strains containing avirulent Ti (tumor-inducing) plasmids with a chimeric gene encoding kanamycin resistance. After three days cocultivation, the cotyledon pieces were placed on a callus initiation medium containing kanamycin for selection. High frequencies of transformed kanamycin-resistant calli were produced, more than 80% of which were induced to form somatic embryos. Somatic embryos were germinated, and plants were regenerated and transferred to soil. Transformation was confirmed by opine production, kanamycin resistance, immunoassay, and DNA blot hybridization. This process for producing transgenic cotton plants facilitates transfer of genes of economic importance to cotton.     

Indirect somatic embryogenesis and plant recovery from cotton (Gossypium hirsutum L.)

Summary We describe a tissue culture procedure for somatic embryogenesis and plantlet regeneration in cotton (Gossypium hirsutum L. cv. Coker 312). Callused explants or individual globular embryos were transferred to basal media to induce somatic embryogenesis. To determine characteristic early indicators of successful germination and conversion, we identified six types of embryos that developed on basal media. Two of the six embryo types, designated as tulip-shaped and trumpet-shaped, could undergo conversion in preliminary tests, whereas the others had little or no developmental potential. Several media treatments designed to enhance the maturation of globular somatic embryos failed to increase the fraction of embryos which matured to form recoverable types. In efforts to improve plantlet recovery, tulip-shaped embryos were used in limited trials to contrast the effects of chemical and physical desiccation treatments on germination and conversion. The selective use of tulip-shaped somatic embryos, coupled with partial desiccation, seems to have augmented plant recovery. Growth habit, flowering, seed set, and lint production of most of the regenerated plants were comparable to seed-derived plants grown under the same conditions. Partial research support was provided by state and federal funds appropriated to the Ohio Agricultural Research and Development Center, The Ohio State University.     

In-ovulo embryo culture and seedling development of cotton (Gossypium hirsutum L.)

A convenient and reliable method for culturing cotton embryos is needed to obtain interspecific hybrids of this genus. C.A. Beasley and I.P. Ting (Amer. J. Bot. 60, 130, 1973) developed a phytohormone-supplemented medium (BTP) upon which the growth of ovules was similar that of in situ ovules. This medium was examined for in-ovulo embryo culture. Although good ovule growth occurred on BTP no embryos developed to maturity. However, when the medium was supplemented with NH ₄ ⁺ , more than 50% of the ovules produced mature embryos, and many of these germinated precociously after 8–10 weeks of culture. After germination seedlings were established on a separate medium designed to give balanced root and shoot growth. Subsequently young plants could be transferred to pots for greenhouse culture.     

Maternal effects and generation mean analysis of seed-oil content in cotton (Gossypium hirsutum L.)

Summary The nature of gene action and of maternal influence governing cottonseed oil attributes were determined with four lines, two each with high and low seed-oil percentage. For this purpose, P1, P2, F0, F1, F2 and alternative sets of BC1 and BC2 generations were analysed in six cross-combinations and their reciprocals. Marginal extents of heterosis for seed-oil percentage were noticeable in F1, with inbreeding depression in F2. Data from reciprocal backcrosses provided evidence in favour of maternal rather than cytoplasmic effects of seed-oil development. Relatively higher extents of heterosis, sizeable inbreeding depression and reciprocally unequal F2 averages were characteristic of the seed index trait, which often showed a reversal of effects from F1 to F2. Reverse reciprocal backcrosses exhibited some differences, including greater resemblance between the types, (A/B)A and (B/A)A, in addition to variable dose effects in seed index. Thus, the differences between F1 seed index values were not due to cytoplasmic influence. Positive heterotic effects for seed-oil index, especially among the backcrosses, ranged between 16.08% and 47.29% over midparent averages. Genetic component estimates from analysis of similar sets of crosses differing only in reciprocal backcrosses, and also from sets of reciprocal crosses between any two parental combinations, were inconsistent. Scaling tests detected presence of epistasis within and between a majority of cross-combinations. Despite reciprocal differences, additive gene effects for seed-oil percentage were significant in 7 out of 24 crosses, representing high x low, low x high and low x low seed-oil parents. Those were, however, accompanied by significant dominance effects of higher order. In crosses involving low seed-oil percentage parents SA1060 and SA229, all six components were detected significant, with opposite effects of dominance and dominance x dominance epistatic components. Significant additive components were also detected for seed index and seed-oil index in 7 and 5 out of 24 crosses, respectively. In the inheritance of seed index and seed-oil index, dominance effects were more important. Epistatic components of additive x additive, and to a lesser extent, those of dominant x dominant were found significant.     

Protoplast-to-plant regeneration in cotton (Gossypium hirsutum L. cv. Coker 312) using feeder layers

Summary We report the regeneration of protoplasts isolated from two embryogenic cell lines of Gossypium hirsutum L. cv. Coker 312 initiated from hypocotylderived callus. Protoplasts plated on cellulose nitrate filters and placed over feeder layers formed embryogenic callus from which plants were regenerated. Plating efficiency up to 12.8% depended upon the cell line. Addition of phytohormones to the protoplast medium had no stimulating effect on plating efficiency. The influence of feeder cells and conditioned medium on plating efficiency was significantly different for the two cell lines.Abbreviations ACM autoclaved conditioned medium - AFC autoclaved feeder cells - BM basic medium - BM+ basic medium with phytohormones - CM non-autoclaved conditioned medium - FC non-autoclaved feeder cells - FDA fluorescein diacetate - MM maturation medium - NAA 1-naphtaleneacetic acid - PCM protoplast culture medium - PCM+ protoplast culture medium with phytohormones - SC settled cells - 2,4-D 2,4-dichlorophenoxyacetic acid - 6-BAP 6-benzylamino purine     

Storage protein accumulation patterns in somatic embryos of cotton (Gossypium hirsutum L.)

Summary The storage protein content of somatic embryos of Gossypium hirsutum L. cv. Coker 201 was determined using extinction level, antigen/antibody association detection methods. Mature storage protein was first detected in early globular-stage somatic embryos at a total concentration of 0.36% of the embryo protein mass. Tulip-stage and mature somatic embryos were comprised of 3.0% and 1.3% mature storage protein, respectively. Maximum storage protein synthesis was found to occur during early globular- and early heart-stages. During this period of development, significant levels of protein precursors were found also to accumulate. The pattern of storage protein synthesis, processing and accumulation paralleled the pattern that has been reported for the zygotic system, although somatic embryos accumulate storage protein at much earlier stages and to a lesser degree. The possibility of using complex biochemical pathways to monitor embryogenic systems in vitro is discussed.     

An efficient grafting system for transgenic plant recovery in cotton (Gossypium hirsutum L.)

A successful transformation program relies on the number of survival plants in soil that can be obtained. Low recovery of transgenic plants is still a key restrictive factor for transgenic cotton production. In order to utilize genetic transformation in cotton breeding program effectively, an efficient grafting system for recovering plants derived from somatic embryogenesis following Agrobacterium infection and kanamycin selection was developed. Various aspects of in vitro grafting were examined in efforts to improve the efficiency of transformant recovery. Using strong seedling rootstocks was the first important step to obtain high rate of successful grafts. Scion size >0.6 cm and seedling rootstock at age of 6–12 days were appropriate for grafting. The successful grafting ratio was higher when using hypocotyls without radicle. Shoot-tip and shoot stem with axillary bud were also suitable for in vitro grafting, which meant we could significantly improve the survival ratio of transgenic plantlets, because one plantlet has a shoot-tip but several axillary buds. Based on our data, the period from in vitro seedling rootstock germination to transplant of grafts to field usually takes one month. Over 90% successful grafting ratio could be obtained under optimal conditions, which represented a significant improvement over currently available methods for recovery of cotton plantlet from somatic embryogenesis after transformation. Ex vitro grafting could also be used for plant recovery, which gave an average of successful grafting ratio of 71.9%. However, this method was strongly affected by environmental factors.     

The effects of NaCl on antioxidant enzyme activities in callus tissue of salt-tolerant and salt-sensitive cotton cultivars (Gossypium hirsutum L.)

Summary To determine NaCl effects on callus growth and antioxidant activity, callus of a salt-tolerant and a salt-sensitive cultivar of cotton was grown on media amended with 0, 75, and 150 mM NaCl. Callus of the salt-tolerant cultivar, Acala 1517-8 8, grown at 150 mM NaCl, showed significant increases in superoxide dismutase, catalase, ascorbate peroxidase, peroxidase and glutathione reductase activities compared to callus tissue grown at 0 mM NaCl. In contrast, callus tissue of the salt-sensitive cultivar, Deltapine 50, grown at 0, 75, and 150 mM NaCl, showed no difference in the activities of these enzymes. At the 150 mM NaCl treatment, peroxidase was the only antioxidant enzyme from Deltapine 50 with an activity as high as that observed in Acala 1517-88. The NaCl-induced increase in the activity of these enzymes in Acala 1517-88 indicates that callus tissue from the more salt-tolerant cultivar has a higher capacity for scavenging and dismutating superoxide, an increased ability to decompose H₂O₂, and a more active ascorbate-glutathione cycle when grown on media amended with NaCl.     

Specific binding of a Verticillium dahliae phytotoxin to protoplasts of cotton, Gossypium hirsutum

Summary The occurrence of specific, high-affinity binding sites for a protein-lipopolysaccharide (PLP) phytotoxin purified from culture filtrates of a virulent Vertidllium dahliae isolate has been demonstrated in cotton protoplasts. Binding of the ¹²⁵I-radiolabelled PLP-complex to protoplasts from cotyledon tissue was saturable and with an affinity (K_d = 17.3 nM) comparable with the concentration required for biological activity. A single class of binding site, accessible at the surface of the intact protoplasts, was found and the maximal number of binding sites were estimated as 2.41 × 10^–16 moles per protoplast. The binding affinity to protoplasts proved near identical to that found with purified plasma membrane fractions from roots. When cultivars exhibiting resistance or susceptibility towards the pathogen were compared, no significant differences were found in the affinity of binding, but five times as many binding sites per protoplast and sixteen times as many binding sites per mg membrane protein were found in the resistant cultivar.Abbreviations PLP protein-lipopolysaccharide - k_d dissociation constant - B_max maximal number of binding sites - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol     

Isolation and structural characterization of a novel oligosaccharide from the rhamnogalacturonan of Gossypium hirsutum L

An alkali extract of cell walls of Gossypium hirsutum L. was sequentially digested by endo-polygalacturonase (EC 3.2.1.15), arabinofuranosidase AN1571.2 (EC 3.2.1.55), endo-arabinase (EC 3.2.1.99), and rhamnogalacturonan hydrolase AN9314.2 (EC 3.2.1.15). The rhamnogalacturonan hydrolase-generated oligosaccharides were separated by ultrafiltration, size-exclusion, and anion exchange chromatography. Fractions from the anion exchange chromatography were pooled, lyophilized, and screened by MALDI-TOFMS. A new oligosaccharide (RGS29), which contained a rhamnogalacturonan dimer backbone with two galactose and two arabinose residues in the side chains, was found. Its structure was identified by 1D and 2D NMR spectra as follows: [FORMULA: SEE TEXT].     

Transgene integration and organization in Cotton (Gossypium hirsutum L.) genome

While genetically modified upland cotton (Gossypium hirsutum L.) varieties are ranked among the most successful genetically modified organisms (GMO), there is little knowledge on transgene integration in the cotton genome, partly because of the difficulty in obtaining large numbers of transgenic plants. In this study, we analyzed 139 independently derived T0 transgenic cotton plants transformed by Agrobacterium tumefaciens strain AGL1 carrying a binary plasmid pPZP-GFP. It was found by PCR that as many as 31% of the plants had integration of vector backbone sequences. Of the 110 plants with good genomic Southern blot results, 37% had integration of a single T-DNA, 24% had two T-DNA copies and 39% had three or more copies. Multiple copies of the T-DNA existed either as repeats in complex loci or unlinked loci. Our further analysis of two T1 populations showed that segregants with a single T-DNA and no vector sequence could be obtained from T0 plants having multiple T-DNA copies and vector sequence. Out of the 57 T-DNA/T-DNA junctions cloned from complex loci, 27 had canonical T-DNA tandem repeats, the rest (30) had deletions to T-DNAs or had inclusion of vector sequences. Overlapping micro-homology was present for most of the T-DNA/T-DNA junctions (38/57). Right border (RB) ends of the T-DNA were precise while most left border (LB) ends (64%) had truncations to internal border sequences. Sequencing of collinear vector integration outside LB in 33 plants gave evidence that collinear vector sequence was determined in agrobacterium culture. Among the 130 plants with characterized flanking sequences, 12% had the transgene integrated into coding sequences, 12% into repetitive sequences, 7% into rDNAs. Interestingly, 7% had the transgene integrated into chloroplast derived sequences. Nucleotide sequence comparison of target sites in cotton genome before and after T-DNA integration revealed overlapping microhomology between target sites and the T-DNA (8/8), deletions to cotton genome in most cases studied (7/8) and some also had filler sequences (3/8). This information on T-DNA integration in cotton will facilitate functional genomic studies and further crop improvement.