Your search keyword '"Amritphale, Dilip"' showing total 3 results

1. The Perisperm-endosperm Envelope in <it>Cucumis</it>: Structure, Proton Diffusion and Cell Wall Hydrolysing Activity.

Author

RAMAKRISHNA, P. and AMRITPHALE, DILIP

Subjects

CUCUMIS, ENDOSPERM, PLANT cell walls, CUCURBITACEAE, SEED development, GERMINATION

Abstract

• Background and Aims The envelope surrounding the embryo in cucurbit seed, which consists of a single layer of live endosperm cells covered by lipid- and callose-rich layers, is reported to show semi-permeability and also to act as the primary barrier to radicle emergence. Structure, development and permeability of the envelope and activity of cell wall hydrolases during germination of cucumber and muskmelon seeds were investigated.• Methods Sections of seeds were stained with aniline blue and Sudan III. Proton diffusion and endo-β-mannanase activity were detected by tissue printing. A gel-diffusion assay was performed to quantify endo-β-mannanase activity, while the activity of β-glucanase was determined with laminarin as the substrate and glucose formation measured using the GOD-POD method.• Key Results The lipid layer differentiated during seed development in cucumber in the epidermis of a multilayered nucellus, whereas the callose layer appeared to develop outside the endosperm cell layer. Accordingly, the envelope has been called the perisperm-endosperm (PE) envelope. Chloroform treatment of seeds, which resulted in a substantial reduction in Sudan staining of the lipid layer, also enhanced the permeability of the PE envelope to 2,3,5-triphenyltetrazolium chloride. Proton diffusion occurred when the PE envelopes from seeds had their inner surface in contact with bromocresol purple-containing agarose gels, but not when their outer surface was in contact. Substantial endo-β-mannanase activity was present in the caps of the PE envelopes, whereas a marked increase in β-glucanase activity was observed in radicles prior to germination.• Conclusions The lipid layer seems to contribute to the semi-permeability of the PE envelope. The diffusion of protons might create an acidic environment conducive to the activity of cell wall hydrolases, namely endo-β-mannanase (EC 3.2.1.78) and β-glucanase [β(1→3)glucanohydrolase; EC 3.2.1.6], which, in turn, may play a role in the weakening of the PE envelope necessary for the protrusion of the radicle in cucumber and muskmelon seeds. [ABSTRACT FROM AUTHOR]

Published

2005

2. The modulating effect of the perisperm–endosperm envelope on ABA-inhibition of seed germination in cucumber.

Author

Amritphale, Dilip, Yoneyama, Koichi, Takeuchi, Yasutomo, Ramakrishna, P., and Kusumoto, Dai

Subjects

*GERMINATION, *CUCUMBERS, *ABSCISIC acid, *BIOSYNTHESIS, *ENDOSPERM

Abstract

Abscisic acid (ABA) markedly reduced the germination of developing seeds at much lower concentrations (ABA50=0.1 mM) compared with that of mature seeds (ABA50=1.6 mM) in cucumber (Cucumis sativus L. cv. Green long). The perisperm–endosperm (PE) envelope in developing seeds showed partly differentiated lipid and callose layers, considerable ABA biosynthetic activity in endosperm cells, and appreciable permeability to applied ABA. The decrease in the sensitivity of seeds to applied ABA was coincident with the complete development of lipid and callose layers, diminished ABA biosynthetic activity in endosperm cells in imbibed mature seeds, and moderate permeability of the PE envelope to applied ABA. Decoated seeds pretreated with chloroform showed decreased germination (ABA50=0.4 mM) in response to applied ABA and increased ABA permeation through the PE envelope. ABA thus allowed to permeate into embryonic tissues substantially reduced the pregerminative activity of β-glucanase in the radicles. The structure and biophysical/biochemical properties of the PE envelope seem to modulate the effect of ABA on the germination of developing and mature cucumber seeds. [ABSTRACT FROM PUBLISHER]

Published

2005

3. Effect of Acetone on the Induction and Breakage of Secondary Dormancy in Seeds of Cucumber.

Author

AMRITPHALE, DILIP, DIXIT, SANJAY, and SINGH, BHARAT

Published

1993