Different nitrogen sources, abscisic acid (ABA), gellan gum at various concentrations, and osmotica were evaluated for their effects on maturation of somatic embryo (SE) in Japanese larch (Larix leptolepis). Different concentrations of L-glutamine or casein hydrolysate (CH) in the medium were also compared. The highest number of matured embryos was obtained with ½ Litvay (LM) medium supplemented with 1.71 mM Lglutamine and 250 mg l -1 CH. In terms of osmoticum effect, the highest number of cotyledonary SEs was produced in medium containing 0.2 M maltose. As for the effects of ABA and gellan gum concentration, the highest number of cotyledonary SEs was achieved on a medium containing 60 lM ABA and 0.8% gellan gum. In addition, the best plantlet conversion frequency (35.5%) was obtained with SEs derived from the treatment with 60 lM ABA and 0.8% gellan gum.
Basal media, plant growth regulator type and concentration, sucrose, and light were examined for their effects on duckweed (Lemna gibba) frond proliferation, callus induction and growth, and frond regeneration. Murashige and Skoog medium proved best for callus induction and growth, while Schenk and Hildebrandt medium proved best for frond proliferation. The ability of auxin to induce callus was associated with the relative strength of the four auxins tested, with 20 or 50 ~tM 2,4-dichlorophenoxyacetic aci¢l giving the highest frequency (10%) of fronds producing callus. Auxin combinations did not improve callus induction frequency. Auxin in combination with other plant growth regulators was needed for long-term callus growth; the two superior plant growth regulator combinations were 10 ~tM naphthaleneacetic acid, 10 ~tM gibberellic acid, and 2 p.M benzyladenine with either 1 or 20 ~tM 2,4-dichlorophenoxyacetic acid. Three percent sucrose was best for callus induction and growth. Callus induction and growth required light. Callus that proliferated from each frond's meristematic zone contained a mixture of dedifferentiated and somewhat organized cell masses. Continual callus selection was required to produce mostly dedifferentiated, slow-growing callus cell lines. Frond regeneration occurred on Schenk and Hildebrandt medium without plant growth regulators but was promoted by 1 pM benzyladenine. Callus maintained its ability to regenerate fronds for at least 10 mo. Regenerated fronds showed a slower growth rate than normal fronds and a low percentage of abnormal morphologies that reverted to normal after one or two subcultures.
The effect of phytohormones on the breaking of dormancy of axillary buds in Salix pseudolasiogyne and their subsequent proliferation from nodal explants were examined. Nodal explants obtained from a 20-year-old S. pseudolasiogyne tree were cultured either on woody plant basal medium (WPM) or WPM supplemented with benzyladenine (BA, 2.2/4.4 lM), zeatin (1.1/2.2 lM), gibberillic acid (GA 3 , 2.9 and 14.5 lM), and GA 3 + BA (2.9 + 4.4 lM). Although axillary shoots developed in all the media, a higher percentage bud break occurred on BA supplemented media. To corroborate the results, endogenous levels of cytokinins [Cks, N 6 -isopentenyladenine (iP), zeatin riboside (t-ZR), dihydrozeatinriboside (DHZR)] and abscisic acid (ABA) were determined. On BA supplemented media, the levels of zeatin type (Z-type) of Cks were higher than those of isopentenyladenine type of Ck in the explants, while the ABA level was low. Axillary shoots did not grow well and became necrotic upon subculture to fresh basal WPM. In order to improve shoot growth, they were subcultured twice at a 4-week interval on to WPM supplemented with BA (2.2/4.4 lM), GA 3 (1.4 lM), or GA 3 + BA (1.4 + 4.4/2.9 + 4.4 lM). Maximal shoot growth (93%) was achieved on WPM supplemented with 2.2 lM BA. Comparative analyses of endogenous Cks revealed that higher Cks (Z-type Cks) were present in actively growing shoots. Rooting was readily achieved when the shoots were subcultured to WPM without phytohormones. The rooted plants were acclimatized well upon transplantation.
In an attempt to obtain insight into the differential responsiveness of different genotypes of Kalopanax septemlobus regarding their embryogenic capacity, several parameters such as endogenous hormonal levels, DNA content, embryogenic callus proliferation and somatic embryogenesis were studied in several genotypes of this plant. Also, to understand the effect of the age of the explants on their embryogenic capacity, the same parameters were studied in two embryogenic cell lines of different ages in the selected genotype. In the present study, it was observed that the cytokinins/abscisic acid (ABA) ratio plays an important role in embryogenic capacity in the studied genotypes of K. septemlobus species. A decrease in embryogenic capacity of callus was observed with increasing age, along with a marginal decrease in the DNA content of nuclei. Further, it can be suggested from our results that young embryogenic callus is a better choice for somatic embryo formation than the long-term-maintained callus in K. septemlobus.
An effective micropropagation technique via somatic embryogenesis has been developed using tissue from serially grafted shoots generated from a mature Kalopanax septemlobus tree (~40 y old). Callus was induced from leaf segments obtained from the grafts by culturing the explants in Murashige and Skoog (MS) medium supplemented with 2,4-D and 3% w/v sucrose under darkness. The effects of sucrose, coconut water, and polyethylene glycol (PEG-3350) were evaluated as factors to promote development of somatic embryos (SEs) from embryogenic callus. More than 90% of explants formed callus; however, only 2.5%, or 20 leaf segments out of 800 explants, formed embryogenic callus after 8 wk of culture. High sucrose concentrations (3% and 5% w/v) were effective in inducing SEs. Treatment with 2-10% v/v coconut water also had a positive effect on embryo induction. A synergistic effect on SE induction was obtained using sucrose and PEG, with presence of the latter compound resulting in smaller, more uniform SEs. Embryo germination and conversion to plantlets were significantly influenced by the gelling agents. In general, gelrite-gelled medium was superior to agar-gelled medium. In gelrite-gelled medium, gibberillic acid (GA 3 ) enhanced embryo germination. Converted plantlets in an artificial soil mixture showed a 91% survival rate and displayed no distinct morphological variations. Our results indicate that reliable somatic embryogenesis and plant production can be achieved with rejuvenated tissues after repeated grafting of shoots derived from a mature Kalopanax septemlobus tree.
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