A. Rashid

Haploids from Pollen Grains -- Retrospect and Prospect

The production of large numbers of haploid plants from pollen grains in aseptic culture of anthers or isolated pollen grains has now been demonstrated in many angiosperms. It is a technique which holds much promise for creating desired variability by mutations for biochemical and applied genetics and for producing pure lines for crop improvement. This paper reviews the research on the production of haploids from pollen grains. The response is dependent on a variety of factors such as media formulation (especially the hormone component), genotype and physiological status of the donor plant, developmental stage of the pollen grain, anther culture environment and anther wall itself-all of which influence greatly the successful production of haploid plants. Although still in its infancy, the culture of isolated pollen is seen as a promising line of further research as it has the potential of offering several advantages over the culture of whole anthers.

TDZ-induced somatic embryogenesis in non-responsive caryopses of rice using a short treatment with 2,4-D

Caryopses cultures of rice on an auxin medium (2,4-D, 20 μM) formed slow-growing tissues that failed to regenerate. The embryogenic tissue possibly lost its regeneration potential on the auxin medium. Reproducible regeneration, however, could be achieved by a short treatment with 20 μM 2,4-D for 3 days. Transfer of these caryopses to the medium containing TDZ or BA at 10 μM resulted in regeneration of somatic embryos and shoots in 30% of the cultures within 10–15 days. TDZ was better than BA for inducing shoot regeneration. Short treatment for 3 days at higher concentrations of auxin (40–80 μM) and subsequent transfer to TDZ or BA medium resulted in an increased frequency (up to 50%) of regeneration.

Sodium chloride resistant cell line from haploidDatura innoxia mill

SummaryA cell line resistant to sodium chloride was selected from callus cultures of haploidDatura innoxia by cloning under selective pressure. Cells of the resistant cell line retained their resistance even after subculture in absence of NaCl. Plantlets could be regenerated from resistant cells in the presence as well as absence of NaCl. In contrast, regeneration of plantlets was not possible from normal cells in the presence of NaCl, although regeneration readily occurred in the absence of NaCl.To examine the stability of the resistance in the long-term, callus cultures were initiated in presence of NaCl from stem expiants of the differentiated plantlets. All expiants of plantlets derived from resistant cells showed callus formation. This callus, derived from resistant explants, retained the trait of resistance upon subculture.

High frequency production of embryos inDatura innoxia from isolated pollen grains by combined cold treatment and serial culture of anthers in liquid medium

SummaryThis study concerns the development of pollen embryos as affected by various physical conditions of culture in media devoid of hormones. Freshly isolated pollen, from anthers ofDatura, failed to form embryos regardless of whether they were cultured on liquid or solid medium. In contrast, pollen isolated from anthers precultured on solid medium did form embryos and the response could be increased by prior cold treatment of anthers at 4 °C for 4 days. However, the best results were obtained when anthers were cultured from the very beginning in liquid medium and transferred serially to fresh medium. Under such conditions, the anthers dehisced, allowing spontaneous shedding of pollen grains. It was thus possible to have several fractions of shed pollen continuing their development into embryos. When serial culture was started with anthers from cold-treated buds not only were embryos formed in all the fractions of shed pollen but the frequency was also considerably higher than in any mode of culturing.

Somatic embryogenesis from immature and mature embryos of a minor millet Paspalum scrobiculatum L.

Immature and mature zygotic embryos of Paspalum scrobiculatum L. cv. PSC 1 cultured on MS or N6 nutrient medium supplemented with different concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D), formed embryogenic callus. Induction of embryogenic callus and subsequent somatic embryogenesis was possible at a lower concentration of 2,4-D on N6 than MS medium. Immature embryos were highly totipotent, forming somatic embryos at a higher frequency than mature embryos. Addition of amino acids (L-proline or L-tryptophan) to 2,4-D medium resulted in significant enhancement of embryogenesis on culture of mature embryos. Silver nitrate also supported an increased frequency of embryogenesis. Thus it is possible to have high frequency of somatic embryogenesis on culture of mature embryos, which are available in abundance and with ease than immature embryos. The somatic embryos readily germinated and formed plantlets on hormone-free regeneration medium. The regenerated plantlets were successful on transfer to soil and set seed.

Isolation and culture of protoplasts of Capsicum annuum L. and their regeneration into plants flowering in vitro

SummaryAxenic shoot cultures ofCapsicum annuum cv.California Wonder were used as the source for isolation of protoplasts from mesophyll cells. Protoplasts underwent sustained mitotic activity and proliferated to form callus masses on NT or DPD medium enriched with 2,4-D, NAA and BAP each at 1 mg/l level. The callus could be differentiated into whole plants on the differentiation media and plants floweredin vitro under long day conditions.

Somatic Embryogenesis or Shoot Formation Following High 2,4-D Pulse-Treatment of Mature Embryos of Paspalum scrobiculatum

Mature zygotic embryos of Paspalum scrobiculatum L. cv. PSC 1 on MS or N6 nutrient medium supplemented with various concentrations of 2,4-D (4.5 – 22.5 µM) formed embryogenic callus, which differentiated into somatic embryos within 5 weeks of culture. The somatic embryos after transfer to hormone-free regeneration medium germinated and formed plantlets. Of the two nutrient formulations, N6 was relatively better than MS for somatic embryogenesis. A culture for 11 d on 100 µM 2,4-D was essential for the establishment of an embryogenic callus. Shorter duration, 4-d or 7-d culture on 2,4-D medium, supported some proliferation and subsequent differentiation into shoot-buds or multiple-shoots, in high-frequency cultures. This is first instance in monocots of a controlled regeneration response; either somatic embryogenesis or shoot formation.

Production of haploid plantlets in anther cultures of Albizzia lebbeck L.

Anthers of Albizzia lebbeck on B5 medium (BM) supplemented with kinetin (2 mg/l) and 2, 4-D (0.5 mg/l) showed callus initiation from microspores. Differentiation of embryoids and shoots was obtained on BM + BAP (1 mg/l) + IAA (0.5 mg/l) and of roots on BM. Root tip squashes of the regenerated plantlets showed the haploid chromosome number (n=13), confirming the microspore origin of the regenerants.

Androgenic response from cultured anthers of a leguminous tree,Cassia siamea Lam.

SummaryAnthers ofCassia siamea, on culture on B5 medium supplemented with coconut milk (15%, v/v), 2,4-D (2 mg/l), and kinetin (0.5 mg/l), split open after one to two weeks of inoculation and eject a callus mass. Microscopic examination of the anthers cultured at the late uninucleate or early bi-celled stages, after 7–14 days of culture, revealed many multicellular structures at various stages of development, thus indicating the pollen origin of callus. Callus cells also showed the haploid chromosome number (n=14).

Comparative study of somatic embryogenesis from immature and mature embryos and organogenesis from leaf-base of Triticale

Immature and mature zygotic embryos of hexaploid, Triticale var. DT-46 formed an embryogenic callus, with subsequent somatic embryo formation upon subculture to MS (Murashige and Skoog, 1962) or N6 (Chu et al., 1975) nutrient medium supplemented with various concentrations (9.0–22.5 μM) of 2,4-dichlorophenoxyacetic acid (2,4-D). Of the two types of explants, embryogenic tissue from immature embryos responded at a higher frequency, to form somatic embryos over the callus surface. Leaf-base segment cultured on to 2,4-D-containing medium formed a tissue which did not form somatic embryos and instead differentiated into shoot-buds. N6 medium proved to be more effective than MS in support of somatic embryogenesis or shoot-bud formation. Regeneration of plantlets occurred on 2,4-D-free basal medium. These in vitro-formed plantlets were successfully transferred to soil and set seed.