RESUMEN
The present work establishes that isolated microspores of Ginkgo biloba L. cultured at densities of 1.5 to 5·10(4) per milliliter in Bourgin and Nitsch (1967) liquid medium are able to divide, both in the presence and in the absence of exogenous growth regulators, and to germinate by growing a pollen tube. In all experiments the microspores exhibited various modes of division leading to embryo formation in the liquid medium. Four weeks later, the microspores which had been previously submitted to various electrical stresses showed pro-embryo development earlier than those which had not. After ten weeks the number of embryos was found to be 300 to 5300 ml(-1) following the experiments. When the embryos exhibited a slower growth in liquid medium, they were transferred onto various solid media for maturation. Two months later, embryos had proliferated visibly.
RESUMEN
Haploid protoplasts isolated from prothallus (i.e. female gametophyte) of Ginkgo biloba, at densities ranging from 5×10(4) to 10(5) protoplasts per milliliter, were able to divide and form microclones which directly evolved into embryos, when they were cultured in two different liquid media. These were: the Murashige and Tucker medium (1969) modified by omitting ammonium ions and supplementing with glutamine, benzyladenine and various levels of naphthaleneacetic acid; or the Bourgin and Nitsch medium (1967) without growth regulators, supplemented with coconut milk. Three months later, the number of embryos ranged from 165 to 1900 embryos ml(-1) depending on the culture medium. After four months, embryos at whatever stage (globular, oblong or heart) exhibited a slow growth, which delayed the transfer onto solid media.
RESUMEN
Rauvolfia vomitoria mesophyll protoplasts have been isolated from axenic shoot cultures and cultured (10(5)-10(6) protoplasts per ml) in Murashige and Tucker liquid medium containing growth regulators. Within 6-8 weeks, a mixed population of calli and proembryos were obtained and transferred on solid media. Calli produced shoots; however, rooting did not occur. Somatic embryos achieved different patterns of development. In particular, whole plantlets have been obtained either directly through germination of primary embryos or via embryogenic calli.
RESUMEN
Callus cultures of Choisya ternata have been prepared by different strategies: aggregate clones, subclones and protoclones obtained from well-established strains; protoclones obtained from mesophyll tissue; cultures transformed by Agrobacterium tumefaciens. All of them show high variability in their dihydrofuroquinoline alkaloid production. As compared to the alkaloid content of the whole plant, one alkaloid (platydesminium) could be obtained in higher amounts in some lines, but it was impossible to get high-balfourodinium accumulating lines. Moreover balfourodinium-producing capacities were lower in transformed cells as compared to those of normal cell lines.
RESUMEN
Protoclones and aggregate clones have been prepared from 5 callus strains of C. ternata chosen for their dihydrofuroquinoline-accumulating capacities in a population of well-established strains. The results show that it is possible to obtain cell lines which accumulate higher alkaloid contents than the highest alkaloid-producing strain; the probability of obtaining a high-producing clone is greater if a high-producing strain is chosen as the parent strain for cloning. Compared to the alkaloid content of the whole plant, one alkaloid (platydesminium) could be obtained in greater amounts in some clones, but another alkaloid (balfourodinium) was always found in lesser quantities, even in the clones which accumulated most alkaloids. Aggregate clones were easier to obtain than protoclones and alkaloid production was rather unstable in all the clones. The protoplast-cloning procedure was not more efficient than the aggregate-cloning procedure for the selection of high-alkaloid producing lines.
