蚕业科学
蠶業科學
잠업과학
ACTA SERICOLOGICA SINICA
2010年
1期
170-174
,共5页
家蚕%二化性品种%谷胱甘肽S-转移酶%滞育诱导%滞育解除
傢蠶%二化性品種%穀胱甘肽S-轉移酶%滯育誘導%滯育解除
가잠%이화성품충%곡광감태S-전이매%체육유도%체육해제
Bombyx mori%Bivoltine strain%Glutathione S-transferase%Diapause induction%Diapause termination
二化性家蚕卵以25 ℃和15 ℃催青,可分别诱导成虫产下子代滞育和非滞育卵,而即时浸酸和5 ℃左右的低温处理可以分别阻止和解除胚胎滞育.利用1-氯-2,4-二硝基苯(CDNB)显色法测定了经上述处理后的胚胎滞育过程中谷胱甘肽S-转移酶(glutathione S-transferase, GST)的活性,结果表明:胚胎发育后期的蚕卵经 25 ℃催青,卵中的GST活性显著高于15 ℃催青蚕卵;蚕卵即时浸酸未显著改变胚胎滞育发动阶段蚕卵中的GST活性;5 ℃低温处理显著提高了滞育卵中的GST活性,但是未能显著改变即时浸酸卵的GST活性.上述结果表明,蚕卵中的GST活性变化与二化性家蚕胚胎滞育诱导和解除密切相关.
二化性傢蠶卵以25 ℃和15 ℃催青,可分彆誘導成蟲產下子代滯育和非滯育卵,而即時浸痠和5 ℃左右的低溫處理可以分彆阻止和解除胚胎滯育.利用1-氯-2,4-二硝基苯(CDNB)顯色法測定瞭經上述處理後的胚胎滯育過程中穀胱甘肽S-轉移酶(glutathione S-transferase, GST)的活性,結果錶明:胚胎髮育後期的蠶卵經 25 ℃催青,卵中的GST活性顯著高于15 ℃催青蠶卵;蠶卵即時浸痠未顯著改變胚胎滯育髮動階段蠶卵中的GST活性;5 ℃低溫處理顯著提高瞭滯育卵中的GST活性,但是未能顯著改變即時浸痠卵的GST活性.上述結果錶明,蠶卵中的GST活性變化與二化性傢蠶胚胎滯育誘導和解除密切相關.
이화성가잠란이25 ℃화15 ℃최청,가분별유도성충산하자대체육화비체육란,이즉시침산화5 ℃좌우적저온처리가이분별조지화해제배태체육.이용1-록-2,4-이초기분(CDNB)현색법측정료경상술처리후적배태체육과정중곡광감태S-전이매(glutathione S-transferase, GST)적활성,결과표명:배태발육후기적잠란경 25 ℃최청,란중적GST활성현저고우15 ℃최청잠란;잠란즉시침산미현저개변배태체육발동계단잠란중적GST활성;5 ℃저온처리현저제고료체육란중적GST활성,단시미능현저개변즉시침산란적GST활성.상술결과표명,잠란중적GST활성변화여이화성가잠배태체육유도화해제밀절상관.
Bivoltine strain of Bombyx mori produces diapause and non-diapause eggs when embryogenesis of the parental eggs was induced at 25℃ and 15℃, respectively. Meanwhile, diapause status can be prevented and terminated by immediate hydrochloric acid treatment and low temperature treatment around 5℃, respectively. In this study, effects of the above treatments on activity of glutathione S-transferase (GST, EC 2.5.1.18) in eggs during diapause process was determined by using 1-chloro-2,4-dinitrobenzene (CDNB) as the color displaying agent. It was discovered that, when eggs at their late embryonic stage were incubated at 25℃, the eggs' GST activity was significantly higher than that incubated at 15℃. GST activity in eggs was not significantly changed by immediate hydrochloric acid treatment at the diapause initiation phase. During the 5℃ chilling, activity of GST in diapause eggs was significantly enhanced while that in diapause eggs with immediate hydrochloric acid treatment was not changed significantly. The above results suggest that variation of GST activity in eggs is closely related to embryonic diapause induction and termination in bivoltine strain of Bombyx mori.