Tomikichi Wada

High frequency shoot regeneration and plantlet formation from root tip of garlic

An efficient and novel method of direct shoot regeneration from root tips in garlic was developed. The influence of growth regulators, basal media and age of root explant on shoot initiation and proliferation was examined. The best growth regulator combination was 1-naphthaleneacetic acid and 6-benzyladenine at 1 and 10 µM, respectively, inducing shoot initiation from 75% of the explants. The frequency of shoot initiation on different basal media was similar. Explant root tips from plantlets taken 15 to 18 days after sprouting showed the highest shoot initiation (95%). In contrast to Murashige and Skoog medium, which produced more than 10 shoots per explant, B5 medium produced smaller shoots, although the number was higher. Rooting of individual shoots was induced after transfer to medium without growth regulators. Plantlets, after acclimatization in a growth cabinet, were successfully transplanted to the field, and no phenotypic variation was observed among them. The technique has potential applicability for rapid propagation of garlic.

Trehalase in the spermatophore from the bean-shaped accessory gland of the male mealworm beetle, Tenebrio molitor: purification, kinetic properties and localization of the enzyme.

Trehalase from the bean-shaped accessory glands of the male mealworm beetle, Tenebrio molitor, was purified by acid treatment, with subsequent chromatography on columns of DEAE-cellulofine and Sephacryl S-300. The molecular masses of the native and the denatured forms were estimated to be 43 and 62 kDa by gel filtration and SDS-PAGE, respectively, an indication that the trehalase may be composed of a single polypeptide. The optimum pH of the reaction catalyzed by trehalase was 5.6–5.8. The Km for trehalose was 4.4 mmol·l−1. Immunohistochemical experiments with trehalase-specific antiserum showed that the enzyme was localized in one specific type of secretory cell in the bean-shaped accessory gland epithelium and within the semisolid secretory mass that was a precursor to the wall of spermatophore. SDS-PAGE and immunoblotting analysis revealed the presence of a polypeptide of about 62 kDa in the spermatophore, Immunohistochemical observations showed that the trehalase was located at the outgrowth in the anterior portion of the spermatophore. When a fresh spermatophore was immersed in phosphate-buffered saline it discharged sperm in the same manner as in the bursa copulatrix of the female. Before the rupture of the expanded bulb of the spermatophore, almost all of the trehalase had dissolved in the phosphate-buffered saline. The addition of validoxylamine A to the saline, a specific inhibitor of trehalase, did not affect the expansion and evacuation of the spermatophore. These results demonstrate that trehalase, synthesized by a specific type of secretory cell in the bean-shaped accessory gland epithelium, is actively passed into the lumen of the bean-shaped accessory gland and then incorporated into the spermatophore. Trehalase appears to be one of the structural proteins of the spermatophore, although the possibility can not yet be completely ruled out that the trehalase-trehalose system functions for the nourishment and/or activation of the sperm in the bursa copulatrix of the female.

Pistil hyperplasia in rice spikelets as affected by heat stress

SummarySexual organogenesis in spikelets of rice (Oryza sativa L. cv ‘Kinmaze’) affected by heat stress was investigated using SEM and stereo-microscopy. Of the 243 spikelets dissected, 55.6% developed pistil hyperplasia, i.e., proliferated female organs or tissues, including multiple stigmata and/or ovaries, outgrowth of swollen parenchymatous tissues from inside the ovule, and differentiation of trichomes from ovary epidermis. Conversely, 7% of the spikelets exhibited stamen hypoplasia, represented by a decrease in the number of stamens, and only 3.7% of the spikelets showed hyperplasia, represented by an increase in the number of stamens. The morphological and structural development of the anther was disturbed, and microsporogenesis was inhibited. The shape of the anther was altered, though not perfectly, into the form of an ovary; the lemma and palea changed in form and ultimately resembled each other in shape and size. All of these changes in structure are more or less similar to those that usually result in rice spikelets subjected to cold and other environmental stresses. It was therefore concluded that rice plants show similar responses in sex differentiation in the spikelet under various environmental stresses.