Effects of magnetic field on the histology of silk gland of silkworm, Bombyx mori L. (Lepidoptera, Bombycidae)

Snehal D. Londhe, A. K. Chougale
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引用次数: 0

Abstract

Magnetic field influences the physiology and development of living organisms, depending up on the strength of magnetic field. In silkworm, it enhances enzymes, proteins and nucleic acids of silk gland. On this line, histology of silk gland of silkworm Bombyx mori L. (Lepidoptera, Bombycidae) was studied after its magnetization, at 3500 G and 4000 G separately. Exposure of silkworm to magnetic field resulted in increase in diameter of its silk gland/lumen of silk gland/space occupied by secretory substance (silk protein-fibroin). The studies showed 46.15 and 21.19 per cent increase in diameter of silk gland of larvae exposed to 3500 G and 4000 G magnetic field respectively than that in control larvae. Larvae treated with 3500 G magnetic field and 4000 G magnetic field exhibited 51 per cent gain and 1.29 per cent loss in the size of secretory substance respectively than that of control group larvae. Cellular thickness is more in magnetized larvae than that of control larvae. This is favourable for sericulture.
磁场对家蚕丝腺组织学的影响(鳞翅目,家蚕科)
磁场对生物生理和发育的影响取决于磁场的强度。对蚕丝腺有增强酶、蛋白质和核酸的作用。本文对家蚕(鳞翅目,蚕蛾科)在3500 G和4000 G下分别磁化后的丝腺组织学进行了研究。家蚕在磁场作用下,其丝腺直径/丝腺腔/分泌物质(丝蛋白-丝素)所占空间增大。结果表明,在3500 G和4000 G磁场下,蚕丝腺直径分别比对照增大46.15%和21.19%。在3500 G和4000 G磁场处理下,幼虫的分泌物质大小分别比对照组增加51%和减少1.29%。磁化幼虫的细胞厚度大于对照幼虫。这有利于养蚕。
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CiteScore
0.40
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