优氯净对苏云金杆菌灭活机理及复方消毒剂的研究
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摘要
家蚕(Bombyx mori)细菌性中毒症是家蚕食下苏云金芽孢杆菌(Bacillusthuringiensis,简称B.t)所产生的芽孢和伴孢晶体而引起的急性中毒症,又称卒倒病。该病原广泛存在于各种土壤及空气中,具有很强的杀虫活性,至少能杀死节肢动物门九个目及原生动物门、线形动物门和扁形动物门中的多种动物,而对人、畜、哺乳动物及天敌等无害,因此,B.t是生防工业中应用最广泛的微生物。而随着BT制剂的广泛应用,家蚕卒倒病越来越严重地威胁着我国的蚕业生产。因此,研制性状稳定、对该菌有强烈杀灭效果的消毒药剂对减少蚕病的发生具有重要意义,而其作用机理的研究又能为生产实践提供理论依据。本文应用生物鉴定技术、电泳技术、电镜技术等从生化指标分析及超微形态观察等方面研究了对B.t有高效灭活作用的氯制剂对B.t伴孢晶体及芽孢的灭活机理。研制出一种以二氯异氰尿酸钠为主剂,加以具有增效、缓蚀、渗透、扩散等作用的辅剂而成的一种一剂多用途的复方消毒剂XDJ-Ⅲ。主要取得以下研究结果:
1.SDS—聚丙烯酰胺凝胶电泳结果表明,经优氯净处理的伴孢晶体的电泳谱带发生了明显的变化,说明氯制剂破坏了伴孢晶体的一级结构。
2.样品的扫描电镜观察表明,氯制剂能够破坏伴孢晶体的表面结构,使伴孢晶体表面出现破损,进而出现孔洞,较长时间作用下可以使伴孢晶体完全失去原有外貌呈不规则的蓬松团状,即立体结构受到破坏。伴孢晶体的一级结构和立体结构被破坏导致伴孢晶体的毒力降低甚至完全丧失。
3.氯制剂能够破坏芽孢的表面结构。使芽孢外壁结构失去致密性,从而减弱了其保护作用。
4.氯制剂能够破坏芽孢的内部结构。芽孢外壁被破坏以后,药液渗透进入芽孢内部,溶解破坏内部组织。破坏到一定程度则芽孢的萌发力降低甚至丧失。
5.以具有高度稳定性和安全性的二氯异氰尿酸钠为主剂,配以几种具有增效、缓蚀、渗透、扩散等作用的辅剂研制而成的复方消毒剂XDJ-Ⅲ可以配成溶液用于蚕室、蚕具及叶面消毒,对家蚕的各种病原均具有较强的杀灭作用。也可以直接点燃用于蚕室蚕具和蚕座的熏烟消毒,作为熏烟剂发烟迅速、无明火,有效成分释放率为99.8%以上,残留低。
6.XDJ-Ⅲ用于蚕室蚕具消毒使用有效氯浓度为0.5%。叶面消毒以有效氯浓度为0.3%为宜,要现配现用。蚕室蚕具熏烟消毒以5~8g/m~3,注意密闭门窗12hr以上。养蚕中蚕体蚕座消毒以1.5g/m~3,30min后通风换气,对家蚕的生长发育无不良影响。
I
王海燕:优氯净对苏云金杆菌灭活机理及复方消毒剂的研究
7.XDJ-Il对金属的缓蚀作用明显;生产工艺简单,储存使用方便安全,能
很好地满足蚕业生产上对多用途消毒剂的要求。
si\kwoTm(Bombyx mori) bacterial toxicosis was caused by Bacillus thuringiensis (B.t) when silkworm ate enough amount of its spore and parasporial crystal .It was an acute toxicosis and its pathogeny was Bacillus thuringiensis .It lied in all kinds of soil and air. B.t had strong insectcidal ability ,and it could kill a lot of creatures of Arthropoda, Protozoa, Nemathelminthes and Platyhelminthes.B.t was the most comprehensive microorganism being used in biotic pesticide.With the more comprehensive use of BT biotic pesticidal, silkworm bacterial toxicosis threntened the development and safety of sericulture in our country.For these reasons, it had great significance developing new medicine with steady character and excellent disinfectant effect to B.t to prevent silkworm from infecting this disease.And the study of disinfectant mechanism of chlorine preparation to parasporal crystal and spore of Bacillus thuringiensis could provide practice with academic direction.We studied these disinfectant mechanisms of sodium dichloroisocyanurate to parasporal crystal and spore by biological assay,electron microscope technique,electrophoresis technique and so on.The major achievements obtained in these experiments were as follows.
1. The result of SDS-PAGE indicated that the pedigrees of the treated parasporal crystal had changed obviously and chlorine preparation distroyed primary structure of parasporal crystal and made it lose its activity.
2. The result of SEM showed that sodium dichloroisocyanurate damaged the shape structure of parasporal crystal, and then holes appeared on its surface.If treatment time was long enough,the parasporal crystal would lose its former
41
appearance and became loose corps,that is,its stereoscopic structure was damaged.The damage of primary and stereoscopic structure of parasporal crystal made its virulence receded and even lost completely.
3. chlorine preparation could destroy external structure of spore. And the fabric of spore was no longer compact,thus its ability of protection was lower.
4. chlorine preparation could destroy inner structure of spore. The medicine penetrating into spore damaged inner tissue.When the damage was serious enough,the germination ability of spore was lower and even lost completely.
5. We developed a compound disinfectant ,named XDJ-III, using sodium dichloroisocyanurate as main medicament which had high stability and security and some substance as accessorial medicament which could increase effect,postpone erosion, increase penetration ability and pervasion ability. XDJ-III could disinfect silkworm rooms and tools .leaves surface when being confected to a certain concentration solution. It had good disinfecting effect on silkworm's main pathogens.At the same time,it could be used as smoking medicine disinfecting silkworm rooms.Being used as smoking medicine, XDJ- El had many strongpoints.For example,it could give out smoke rapidly and had no eyeable fire.lt could loose its active ingredient more than 99.8% and the leftover was very little.
6. Being used as disinfectant of silkworm rooms and tools, the available chlorine concentration of XDJ-III should be 0.5%. As disinfecting leaves, the available chlorine concentration of XDJ-III should be 0.3%. We'd better use up the solution, otherwise it would decrease its effect. Being used as smoking disinfectant, its effective concentration was about 5~8g/m3,and we must close windows and doors more than 12 hours. And when disinfecting silkworm and rearing bed, its concentration was about 1.5g/m3 and 30 minutes later we should air the silkworm room. It did not have bad influence on silkworm growth and development.
7. XDJ-III had obvious effect of postponing erosion of metal. The manufacture technics , preservasion and use were very simple and easy .It could meet the need of multiuse medicine?in sericulture.
1.SDS—聚丙烯酰胺凝胶电泳结果表明,经优氯净处理的伴孢晶体的电泳谱带发生了明显的变化,说明氯制剂破坏了伴孢晶体的一级结构。
2.样品的扫描电镜观察表明,氯制剂能够破坏伴孢晶体的表面结构,使伴孢晶体表面出现破损,进而出现孔洞,较长时间作用下可以使伴孢晶体完全失去原有外貌呈不规则的蓬松团状,即立体结构受到破坏。伴孢晶体的一级结构和立体结构被破坏导致伴孢晶体的毒力降低甚至完全丧失。
3.氯制剂能够破坏芽孢的表面结构。使芽孢外壁结构失去致密性,从而减弱了其保护作用。
4.氯制剂能够破坏芽孢的内部结构。芽孢外壁被破坏以后,药液渗透进入芽孢内部,溶解破坏内部组织。破坏到一定程度则芽孢的萌发力降低甚至丧失。
5.以具有高度稳定性和安全性的二氯异氰尿酸钠为主剂,配以几种具有增效、缓蚀、渗透、扩散等作用的辅剂研制而成的复方消毒剂XDJ-Ⅲ可以配成溶液用于蚕室、蚕具及叶面消毒,对家蚕的各种病原均具有较强的杀灭作用。也可以直接点燃用于蚕室蚕具和蚕座的熏烟消毒,作为熏烟剂发烟迅速、无明火,有效成分释放率为99.8%以上,残留低。
6.XDJ-Ⅲ用于蚕室蚕具消毒使用有效氯浓度为0.5%。叶面消毒以有效氯浓度为0.3%为宜,要现配现用。蚕室蚕具熏烟消毒以5~8g/m~3,注意密闭门窗12hr以上。养蚕中蚕体蚕座消毒以1.5g/m~3,30min后通风换气,对家蚕的生长发育无不良影响。
I
王海燕:优氯净对苏云金杆菌灭活机理及复方消毒剂的研究
7.XDJ-Il对金属的缓蚀作用明显;生产工艺简单,储存使用方便安全,能
很好地满足蚕业生产上对多用途消毒剂的要求。
si\kwoTm(Bombyx mori) bacterial toxicosis was caused by Bacillus thuringiensis (B.t) when silkworm ate enough amount of its spore and parasporial crystal .It was an acute toxicosis and its pathogeny was Bacillus thuringiensis .It lied in all kinds of soil and air. B.t had strong insectcidal ability ,and it could kill a lot of creatures of Arthropoda, Protozoa, Nemathelminthes and Platyhelminthes.B.t was the most comprehensive microorganism being used in biotic pesticide.With the more comprehensive use of BT biotic pesticidal, silkworm bacterial toxicosis threntened the development and safety of sericulture in our country.For these reasons, it had great significance developing new medicine with steady character and excellent disinfectant effect to B.t to prevent silkworm from infecting this disease.And the study of disinfectant mechanism of chlorine preparation to parasporal crystal and spore of Bacillus thuringiensis could provide practice with academic direction.We studied these disinfectant mechanisms of sodium dichloroisocyanurate to parasporal crystal and spore by biological assay,electron microscope technique,electrophoresis technique and so on.The major achievements obtained in these experiments were as follows.
1. The result of SDS-PAGE indicated that the pedigrees of the treated parasporal crystal had changed obviously and chlorine preparation distroyed primary structure of parasporal crystal and made it lose its activity.
2. The result of SEM showed that sodium dichloroisocyanurate damaged the shape structure of parasporal crystal, and then holes appeared on its surface.If treatment time was long enough,the parasporal crystal would lose its former
41
appearance and became loose corps,that is,its stereoscopic structure was damaged.The damage of primary and stereoscopic structure of parasporal crystal made its virulence receded and even lost completely.
3. chlorine preparation could destroy external structure of spore. And the fabric of spore was no longer compact,thus its ability of protection was lower.
4. chlorine preparation could destroy inner structure of spore. The medicine penetrating into spore damaged inner tissue.When the damage was serious enough,the germination ability of spore was lower and even lost completely.
5. We developed a compound disinfectant ,named XDJ-III, using sodium dichloroisocyanurate as main medicament which had high stability and security and some substance as accessorial medicament which could increase effect,postpone erosion, increase penetration ability and pervasion ability. XDJ-III could disinfect silkworm rooms and tools .leaves surface when being confected to a certain concentration solution. It had good disinfecting effect on silkworm's main pathogens.At the same time,it could be used as smoking medicine disinfecting silkworm rooms.Being used as smoking medicine, XDJ- El had many strongpoints.For example,it could give out smoke rapidly and had no eyeable fire.lt could loose its active ingredient more than 99.8% and the leftover was very little.
6. Being used as disinfectant of silkworm rooms and tools, the available chlorine concentration of XDJ-III should be 0.5%. As disinfecting leaves, the available chlorine concentration of XDJ-III should be 0.3%. We'd better use up the solution, otherwise it would decrease its effect. Being used as smoking disinfectant, its effective concentration was about 5~8g/m3,and we must close windows and doors more than 12 hours. And when disinfecting silkworm and rearing bed, its concentration was about 1.5g/m3 and 30 minutes later we should air the silkworm room. It did not have bad influence on silkworm growth and development.
7. XDJ-III had obvious effect of postponing erosion of metal. The manufacture technics , preservasion and use were very simple and easy .It could meet the need of multiuse medicine?in sericulture.
引文
1.Gill,钱纪放.苏芸金芽孢杆菌内毒素作用机制[J].国外农学:蚕业 1993,54(2):6~14
2.白翠华,王艳秋,董丽丽等.强力氯复方消毒剂杀菌效果的实验室观察[J].中国消毒学杂志,1999,16(3):165~166
3.陈贵秋,李爱斌,余雁.爽露消毒液杀灭细菌芽胞效果与腐蚀性检测[J].中国消毒学杂志,2000,17(2):106~109
4.陈难先等.桑蚕病原分散单体对有效氯的稳定性[J].蚕桑通报,1991,22(2):20~22
5.陈宗胜,张用梅,蔡昌建等.苏云金杆菌抗药性研究[J].微生物学杂志.1991,11(2):66~71
6.崔云龙,邵宗泽,牟志美.优氯挣对苏云金杆菌伴孢晶体消毒效果及机理的研究[J].蚕业科学,1993a,19(1):19~24
7.崔云龙,田明,邵宗泽.紫外线使苏云金芽孢杆菌伴孢晶体失活机理的研究[J].微生物学通报,1993b,20(4):193~195
8.崔云龙,刘训理,邵宗泽.优氯净和防消散熏烟剂的消毒效果的比较实验[J].蚕桑通报,1994,25(4):20~21
9.崔云龙,邵宗泽,田明.干燥温度对苏云金芽孢杆菌伴孢晶体的结构及杀虫活性的影响[J].微生物学通报,1994,21(5):264~267
10.戴莲韵,王学聘.苏云金芽孢杆菌研究进展[M].北京:科学出版社,1997
11.戴美学,严芝学,李世国等.苏云金杆菌SD-5菌株伴孢晶体蛋白的研究[J].山东师大学报(自然科学版),1995,10(4):424~428
12.高绘菊.山东省家蚕微孢子虫及防治药剂的研究[R].山东农业大学硕士研究生学位论文,2001
13.高迎春.二氯异氰尿酸钠在养殖业中的开发应用[J].山东农业科学,1998,2:49
14.郭秀君.微生物学[M].济南:山东大学出版社,1994
15.华南农业大学主编.蚕病学[M].北京:农业出版社,1998
16.黄可威,朱峰等.克蚕菌防治家蚕细菌性败血症的研究[J].蚕业科学,1993,19(4):234~236
17.黄伍龙.稳定性二氧化氯(强力安)杀菌机理和在蚕业上应用研究[J].蚕桑茶叶通讯,1996,(3):10~14
18.黄新宇,蒋健平.JL消毒剂杀灭微生物效果与腐蚀性的试验观察[J].中国消毒学杂志,2000,17(3):151~154
19.蒋莉,王太星.万福金安消毒剂性能的实验观察[J].中国消毒学杂志,1997,14(4):212~216
20.金伟,陈难先,鲁兴萌等.新型蚕室蚕具消毒剂-消特灵[J].蚕桑通报,1990,21(4):1~5
21.黎明等.三氯异氰尿素对家蚕病原体的消毒效果[J].蚕业科学,1981,7(2):121~124
22.李秋丽.消毒剂对金属腐蚀性试验方法的研究[J].中国消毒学杂志,1996,13(1):19~22
23.李荣森,陈涛,邓海凡等.几种苏芸金杆菌伴孢晶体的超微结构[J].微生物学报,1983,23(4):343~346
24.李荣森,罗成.苏芸金杆菌伴孢晶体和芽孢孢衣的蛋白质组分及其与毒力关系[J].昆虫学报,1989,32(2):149~157
25.李荣森,罗成.苏云金杆菌伴孢晶体的蛋白质和抗蛋白酶多肽及其毒力特性[J].微生物学报,1989,29(6):397~404
26.李荣森,罗成,戴顺英.化学物质和保存条件对苏云金杆菌δ-内毒素的影响[J].微生物学通报,1991,18(1):5~8
27.李荣森,戴顺英,李小刚.化学助剂对苏云金芽孢杆菌的影响及新型悬乳剂的研制[J].微生物学通报,1991,18(2):68~71
28.廖富蘋,林志坚等.家蚕卒倒病的病征变化与中肠组织细胞病理的研究[J].华南农业大学学报,1999,20(1):108~112
29.刘步林.农药剂型加工技术[M].北京:化学工业出版社,1998
30.刘长春,胡国强.二氯异氰尿酸钠的消毒杀菌特征及其应用[J].资源节约和综合利用,1998,(2):41~42
31.刘程等.表面活性剂应用手册[M].北京:化学工业出版社,1995
32.刘品贤.BT剂研究,应用现状和展望[J].国外农学-植物保护,1993,6(1):6~7
33.鲁兴萌.消特灵和漂白粉消毒液的稳定性[J],蚕桑通报,1991,22(2):5~7
34.鲁兴萌,金伟.含氯制剂对家蚕微粒子虫孢子消毒效果评价的研究[J].蚕业科学,1998,24(3):191~192
35.吕鸿声.昆虫病毒分子生物学[M].北京:中国农业科技出版社,1998
36.罗科,张青文.苏云金杆菌的杀虫蛋白质和基因的结构,特点,分化及调控的研究[J].农业生物技术学报,1995,13(3):15~24
37.钱元骏,陆雪芳,李荣森等.“优氯净”消毒试验[J].蚕业科学,1985,11(3):157~162
38.邱新兰,聂新军.几种蚕室蚕具消毒药剂的部分特性研究[J].江西农业大学学报,1999,21(4):536~539
39.山东农业大学主编.微生物学试验[M].北京:北京农业大学出版社,1994
40.邵明,杨文伟,葛敏.氯代异氰尿酸的性质及应用[J].氯碱工业,1999,(8):27~29
41.申继忠,钱传范.苏云金杆菌(Bt)芽孢的杀虫作用[J].生物防治通报,1993,9(4):181~184
42.申继忠.过氧化氢对苏云金杆菌伴孢晶体蛋白的损伤[J].中国生物防治,1996,12(1):44
43.时连根,卢春松,陆雪芳等.新型养蚕用烟熏消毒剂神农1号的研究[J].蚕桑通报,1999,30(1):21~24
44.时秀梅,王希敏,李慧玲等.复力霉素防治家蚕细菌病的效果研究[J].山东科学,1999a,12(3):33~37
45.时秀梅,崔明荣,王希敏等.蚕菌灵防治家蚕细菌性疾病的药理试验[J].山东农业科学,1999b,(6):46~47
46.孙凡生,姚元庚.微囊二氯异氰尿酸钠复方消毒剂杀灭微生物作用与稳定性的试验[J].中国消毒学杂志,1998,15(3):160~162
47.覃光星,刘挺.蚕室蚕具消毒剂“消杀精”的杀菌效果[J].中国蚕业,1995,(2):17~19
48.覃光星,刘挺.蚕室蚕具消毒剂消杀灵的消毒效果[J].中国蚕业,1997,(1):14~15
49.汤传根.影响养蚕消毒效果的因素与改进方法[J].科技转让集锦,1991.(7):10
50.田超,马小燕,许晓风.二氧化氯对几种蚕体病原真菌、细菌的消毒效果[J].安徽农业大学学报,1996,23(4):525~528
51.王安福,桑金隆.苏云金杆菌制剂芽孢杀灭法试验[J].生物防治通报,1993,9(1):48~49
52.王宏,蔡平钟,冯永德.不同浓度漂白粉澄清液浸消桑叶对家蚕健康性及经济性状的影响[J].西南农业学报.1999,12(4):96~100
53.王梅华.二氯异氰尿酸(钠)烟熏剂消毒试验[J].中国兽药杂志,1998,32(4):34~35
54.王瑛等.苏云金杆菌伴孢晶体与芽孢分离的研究[J].微生物学报,1980,20(3):285~288
55.王早骧.农药助剂[M].北京:化学工业出版社,1994
56.王忠华,舒庆尧,崔海瑞等.Bt杀虫基因与Dt转基因抗虫植物研究进展[J].植物学通报,1999,16(1):51~58
57.薛广波.实用消毒学[M].北京:人民军医出版社,1986
58.薛明.二氯异氰尿酸钠的性质和应用[J].中国兽医杂志,1990,16(12):47~48
59.杨大桢.国内外蚕用消毒剂的现状和展望[J].蚕桑通报,1985,16(2):23~28
60.杨大桢,夏如山.实用蚕病学[M].成都:四川科技出版社,1992
61.杨妙春等.防治桑蚕细菌病新药“蚕菌清”的研制与应用[J].蚕桑通报,1993,24(2):11~16
62.由英才,王彦利,张保龙等.消毒剂二氯异氰尿酸钠的缓释研究[J].南开大学学报,1998,31(1):90~93
63.余健秀,余榕捷,庞义.苏云金杆菌杀虫伴孢晶体蛋白作用机制的研究进展[J].昆虫天敌,1998,20(4):180~183
64.余晓丽,李咏梅.二氯异氰尿酸钠对鱼虾类的急性毒性试验[J].淡水渔业,1999,29(5):7~9
65.喻子牛.苏云金芽胞杆菌灭蚊研究的进展[M].生物防治(五).重庆:科学技术文献出版社重庆分社,1983
66.喻子牛.苏云金芽胞杆菌[M].北京:科学出版社,1990
67.喻子牛,孙明,刘子铎等.苏云金芽孢杆菌的分类及生物活性蛋白基因[J].中国生物防治,1996,12(2):85~89
68.张继红,王琛柱,钦俊德.苏云金杆菌δ-内毒素的杀虫机理及其增效途径[J].昆虫学报,1998,41(3):323~332
69.张龙翔,张庭芳,李令媛主编.生物试验方法和技术(第二版)[M],北京:高等教育出版社,1997
70.张旭译.蛋白质的定量法[M],北京:农业出版社,1981
71.章春英,陈代全,沈红.灭菌灵消毒剂性能的试验观察[J].中国消毒学杂志,2000,17(2):103~106
72.赵聿修.氯化异氰尿酸类消毒药物的作用原理和消毒剂量[J].蚕业科学,1984,10(2):117~119
73.仲哲编译.苏云金杆菌对哺乳动物的毒性[J].农药译丛,1996,18(2):48~55
74.周垂钦,消石灰对桑蚕多角体病毒灭活机理的探讨[J].蚕桑通报,1988,19(2):24~26
75.周垂钦,李云芝.蚕用熏烟消毒剂新烟力宝的研究[J].中国蚕业,1998,(1):12~13
76.周德庆.微生物学教程[M].北京:高等教育出版社,1993
77.祝荣华,沈晓明.“消特灵”叶面消毒对家蚕的影响试验[J].江苏蚕业,1996,(2):55~57
78.柏村鹤雄·荒武義.消石灰乳蚕病病原对不活化效果[J].蚕糹研究,1977,102:45~53
79.饭塚敏彦·寺江尚子.Bacillus thuringiensis 结晶質 SDS-PAGE 解析[J].日蚕雜1989,58(4):308~314
80.山本敬司等.BT 产生的杀虫性内毒素[J].蛋白质·核酸·酶,1984,29(6):444~454
81.山崎寿·山田·小林子.消石灰乳蚕伝染性软化病不活化[J].日蚕雜,1966,35:158~160
82.周垂欽,家蚕多角体病不活化关研究[R].博士学位论文,2000.3
83. Burges H.D.,Thomson. E.M. et al. Importanct of spore and δ -endotoxin protein crystals of bacillus thuringiensis.in Galleria mellonella[J]. J.Invertebr. Pathol. 1976,27(1 ):87~94
84. Crichmore N,Zeigler D R et. al. Bacillus thuringiensis and its pesticidal crystal proteins[J].Microbiology and Molecular Reviews, 1998,62:775~806
85. Estadall,Ferre J.Binding of insecticidal crystal proteins of bacillus thuringiensis. to the brush border membrane of the cabbege looper, Trichoplusia ni (Hübner)(Lepidoptera:Noctuidae),and selection for resistance to one of the crystal proteins[J].Appl. Environ. Microbiol., 1994,60(10):3840~3846
86. Gill S S,Cowles E A,Pietrantonio P V. The mode of action of bacillus thuringiensis [J]. Endotoxins. Annu. Rew. Entomol., 1992,37:615~636
87. Hedshi I,Kuroda E. Wadano A et al. Specific toxicity of δ- endotoxins from bacillus thuringien. s. to Bombyx mori[J].Biosci. Biotech. Biochem, 1993, 57 (2):200~204
88. Hofte H,Whiteley HR.Insecticidal crystal proteins of bacillus thuringiensis[J]. Microbiol Rew, 1989,53(2):242~155
89. Knowles B H,Ellar D J. Chatacterization and partial purification of a plasma membrane receptor for bacillus thuringiensis.var. Kurstaki lepodopteran specific delta-endoxin[J].J Cell Sci., 1986,83:89
90. Knowles B H,Ella DJ.Differential specificity of two insecticidal toxins from bacillus thuringiensis, var.aizawai[J]. Mol Microbioi, 1988(2): 153~157
91. Kronstad J W, Schnep H E, Whiteley H R. Diversity of location for the bacillus thuringiensis.crystal protein gene[J].J Bacteriol, 1983,154:418~428
92. Kronstad J W, Whiteley HR.Three classes of homologous bacillus thuringiensis. crystal protain genes[J].Gene, 1986,43:29~40
93. Laemmli,U.K.Clealvage of structural protein during the assembly of the Head of bacteriophage T4[J].Nature, 1970,227(5259):680~685
94. Lecadet,M M,Frachon E,Cosmao-Dumanoir.V et al., Updating the H-antigen classification of bacillus thuringiensis. [J].J-appl-microbiol. 1999,86 (4) : 660-672
95. Oddou P,Hartmann H,Radecke F et al.Immunologically unrelated Heliothis sp.and Spokoptera sp.midhut memtrance-proteins bind bacillus thuringiensis CrylA(b) 6-endotoxin[J] .Eur.J.Biochem., 1993,212:145-150
96. Pefereon M.Advances in insect controhthe role of transgenic Plants.Taylor and Francis. 1997,21-28
97. Percy,Fast PG. bacillus thuringiensis. crystal toxin:Ultrastructural studies of its effect on silkworm midgut cells[J].J Invertebr Pathol. 1983,41 :86
98. Peter J,Knight,Ctickwore N,et al. The receptor of bacillus thuringiensis. CrylA(C) delta-endotoxin in the brush border membrane of the lepikopteran Mandtuca Sexta is amino peptidase N[J].Molcular Microbio, 1 994,1 1(3) :429-436
99. Salama H S,Foda M S,Sharaby A. Potential of some chemicals to increase the effective of bacillus thuringiensis. Against plodia interpunctella[J]. Insect Sci.Appl,1992,15(6) :775-779
100. Sato R.Cloning hetetologous expression and localization of a novel crystal protein gene from bacillus thuringiensis. Serovar japonensis stain Buibui toxic to scrabaeidae insects[J].Curr Microbiol, 1994,28(1) : 15-19
101. Schnepf HE,Wong H C,Whiteley H R.Expression of a cloned bacillus thuringiensis.crystal protein gene in Escherichia coli. [J].J Bacteriol, 1987,169:4110-4118
102. Shimizu M,Oshiek,Nakamure K et al .Cloning and expression in Escherichia coli.of the 135Kd insecticidal protein gene from bacillus thuringiensis. Subsp aizawai IPL7[J] Agric Biol Chem,1988,52:1565-1573
103. Slatin S L.Mode of action of delta-endotoxins from bacillus thuringiensis. :a comparision with other bacterial toxins[J]. Insect Biochem. Molec. Biol. ,1992, 22(1) :1-7
104. Tojo A,Aizawak.Dissolution and degraduation of bacillus thuringiensis. δ-endotoxin by gut juice protease of the silkworm Bommori[J]. Appl. Environ. Microbiol., 1983,45(2) :576-580
2.白翠华,王艳秋,董丽丽等.强力氯复方消毒剂杀菌效果的实验室观察[J].中国消毒学杂志,1999,16(3):165~166
3.陈贵秋,李爱斌,余雁.爽露消毒液杀灭细菌芽胞效果与腐蚀性检测[J].中国消毒学杂志,2000,17(2):106~109
4.陈难先等.桑蚕病原分散单体对有效氯的稳定性[J].蚕桑通报,1991,22(2):20~22
5.陈宗胜,张用梅,蔡昌建等.苏云金杆菌抗药性研究[J].微生物学杂志.1991,11(2):66~71
6.崔云龙,邵宗泽,牟志美.优氯挣对苏云金杆菌伴孢晶体消毒效果及机理的研究[J].蚕业科学,1993a,19(1):19~24
7.崔云龙,田明,邵宗泽.紫外线使苏云金芽孢杆菌伴孢晶体失活机理的研究[J].微生物学通报,1993b,20(4):193~195
8.崔云龙,刘训理,邵宗泽.优氯净和防消散熏烟剂的消毒效果的比较实验[J].蚕桑通报,1994,25(4):20~21
9.崔云龙,邵宗泽,田明.干燥温度对苏云金芽孢杆菌伴孢晶体的结构及杀虫活性的影响[J].微生物学通报,1994,21(5):264~267
10.戴莲韵,王学聘.苏云金芽孢杆菌研究进展[M].北京:科学出版社,1997
11.戴美学,严芝学,李世国等.苏云金杆菌SD-5菌株伴孢晶体蛋白的研究[J].山东师大学报(自然科学版),1995,10(4):424~428
12.高绘菊.山东省家蚕微孢子虫及防治药剂的研究[R].山东农业大学硕士研究生学位论文,2001
13.高迎春.二氯异氰尿酸钠在养殖业中的开发应用[J].山东农业科学,1998,2:49
14.郭秀君.微生物学[M].济南:山东大学出版社,1994
15.华南农业大学主编.蚕病学[M].北京:农业出版社,1998
16.黄可威,朱峰等.克蚕菌防治家蚕细菌性败血症的研究[J].蚕业科学,1993,19(4):234~236
17.黄伍龙.稳定性二氧化氯(强力安)杀菌机理和在蚕业上应用研究[J].蚕桑茶叶通讯,1996,(3):10~14
18.黄新宇,蒋健平.JL消毒剂杀灭微生物效果与腐蚀性的试验观察[J].中国消毒学杂志,2000,17(3):151~154
19.蒋莉,王太星.万福金安消毒剂性能的实验观察[J].中国消毒学杂志,1997,14(4):212~216
20.金伟,陈难先,鲁兴萌等.新型蚕室蚕具消毒剂-消特灵[J].蚕桑通报,1990,21(4):1~5
21.黎明等.三氯异氰尿素对家蚕病原体的消毒效果[J].蚕业科学,1981,7(2):121~124
22.李秋丽.消毒剂对金属腐蚀性试验方法的研究[J].中国消毒学杂志,1996,13(1):19~22
23.李荣森,陈涛,邓海凡等.几种苏芸金杆菌伴孢晶体的超微结构[J].微生物学报,1983,23(4):343~346
24.李荣森,罗成.苏芸金杆菌伴孢晶体和芽孢孢衣的蛋白质组分及其与毒力关系[J].昆虫学报,1989,32(2):149~157
25.李荣森,罗成.苏云金杆菌伴孢晶体的蛋白质和抗蛋白酶多肽及其毒力特性[J].微生物学报,1989,29(6):397~404
26.李荣森,罗成,戴顺英.化学物质和保存条件对苏云金杆菌δ-内毒素的影响[J].微生物学通报,1991,18(1):5~8
27.李荣森,戴顺英,李小刚.化学助剂对苏云金芽孢杆菌的影响及新型悬乳剂的研制[J].微生物学通报,1991,18(2):68~71
28.廖富蘋,林志坚等.家蚕卒倒病的病征变化与中肠组织细胞病理的研究[J].华南农业大学学报,1999,20(1):108~112
29.刘步林.农药剂型加工技术[M].北京:化学工业出版社,1998
30.刘长春,胡国强.二氯异氰尿酸钠的消毒杀菌特征及其应用[J].资源节约和综合利用,1998,(2):41~42
31.刘程等.表面活性剂应用手册[M].北京:化学工业出版社,1995
32.刘品贤.BT剂研究,应用现状和展望[J].国外农学-植物保护,1993,6(1):6~7
33.鲁兴萌.消特灵和漂白粉消毒液的稳定性[J],蚕桑通报,1991,22(2):5~7
34.鲁兴萌,金伟.含氯制剂对家蚕微粒子虫孢子消毒效果评价的研究[J].蚕业科学,1998,24(3):191~192
35.吕鸿声.昆虫病毒分子生物学[M].北京:中国农业科技出版社,1998
36.罗科,张青文.苏云金杆菌的杀虫蛋白质和基因的结构,特点,分化及调控的研究[J].农业生物技术学报,1995,13(3):15~24
37.钱元骏,陆雪芳,李荣森等.“优氯净”消毒试验[J].蚕业科学,1985,11(3):157~162
38.邱新兰,聂新军.几种蚕室蚕具消毒药剂的部分特性研究[J].江西农业大学学报,1999,21(4):536~539
39.山东农业大学主编.微生物学试验[M].北京:北京农业大学出版社,1994
40.邵明,杨文伟,葛敏.氯代异氰尿酸的性质及应用[J].氯碱工业,1999,(8):27~29
41.申继忠,钱传范.苏云金杆菌(Bt)芽孢的杀虫作用[J].生物防治通报,1993,9(4):181~184
42.申继忠.过氧化氢对苏云金杆菌伴孢晶体蛋白的损伤[J].中国生物防治,1996,12(1):44
43.时连根,卢春松,陆雪芳等.新型养蚕用烟熏消毒剂神农1号的研究[J].蚕桑通报,1999,30(1):21~24
44.时秀梅,王希敏,李慧玲等.复力霉素防治家蚕细菌病的效果研究[J].山东科学,1999a,12(3):33~37
45.时秀梅,崔明荣,王希敏等.蚕菌灵防治家蚕细菌性疾病的药理试验[J].山东农业科学,1999b,(6):46~47
46.孙凡生,姚元庚.微囊二氯异氰尿酸钠复方消毒剂杀灭微生物作用与稳定性的试验[J].中国消毒学杂志,1998,15(3):160~162
47.覃光星,刘挺.蚕室蚕具消毒剂“消杀精”的杀菌效果[J].中国蚕业,1995,(2):17~19
48.覃光星,刘挺.蚕室蚕具消毒剂消杀灵的消毒效果[J].中国蚕业,1997,(1):14~15
49.汤传根.影响养蚕消毒效果的因素与改进方法[J].科技转让集锦,1991.(7):10
50.田超,马小燕,许晓风.二氧化氯对几种蚕体病原真菌、细菌的消毒效果[J].安徽农业大学学报,1996,23(4):525~528
51.王安福,桑金隆.苏云金杆菌制剂芽孢杀灭法试验[J].生物防治通报,1993,9(1):48~49
52.王宏,蔡平钟,冯永德.不同浓度漂白粉澄清液浸消桑叶对家蚕健康性及经济性状的影响[J].西南农业学报.1999,12(4):96~100
53.王梅华.二氯异氰尿酸(钠)烟熏剂消毒试验[J].中国兽药杂志,1998,32(4):34~35
54.王瑛等.苏云金杆菌伴孢晶体与芽孢分离的研究[J].微生物学报,1980,20(3):285~288
55.王早骧.农药助剂[M].北京:化学工业出版社,1994
56.王忠华,舒庆尧,崔海瑞等.Bt杀虫基因与Dt转基因抗虫植物研究进展[J].植物学通报,1999,16(1):51~58
57.薛广波.实用消毒学[M].北京:人民军医出版社,1986
58.薛明.二氯异氰尿酸钠的性质和应用[J].中国兽医杂志,1990,16(12):47~48
59.杨大桢.国内外蚕用消毒剂的现状和展望[J].蚕桑通报,1985,16(2):23~28
60.杨大桢,夏如山.实用蚕病学[M].成都:四川科技出版社,1992
61.杨妙春等.防治桑蚕细菌病新药“蚕菌清”的研制与应用[J].蚕桑通报,1993,24(2):11~16
62.由英才,王彦利,张保龙等.消毒剂二氯异氰尿酸钠的缓释研究[J].南开大学学报,1998,31(1):90~93
63.余健秀,余榕捷,庞义.苏云金杆菌杀虫伴孢晶体蛋白作用机制的研究进展[J].昆虫天敌,1998,20(4):180~183
64.余晓丽,李咏梅.二氯异氰尿酸钠对鱼虾类的急性毒性试验[J].淡水渔业,1999,29(5):7~9
65.喻子牛.苏云金芽胞杆菌灭蚊研究的进展[M].生物防治(五).重庆:科学技术文献出版社重庆分社,1983
66.喻子牛.苏云金芽胞杆菌[M].北京:科学出版社,1990
67.喻子牛,孙明,刘子铎等.苏云金芽孢杆菌的分类及生物活性蛋白基因[J].中国生物防治,1996,12(2):85~89
68.张继红,王琛柱,钦俊德.苏云金杆菌δ-内毒素的杀虫机理及其增效途径[J].昆虫学报,1998,41(3):323~332
69.张龙翔,张庭芳,李令媛主编.生物试验方法和技术(第二版)[M],北京:高等教育出版社,1997
70.张旭译.蛋白质的定量法[M],北京:农业出版社,1981
71.章春英,陈代全,沈红.灭菌灵消毒剂性能的试验观察[J].中国消毒学杂志,2000,17(2):103~106
72.赵聿修.氯化异氰尿酸类消毒药物的作用原理和消毒剂量[J].蚕业科学,1984,10(2):117~119
73.仲哲编译.苏云金杆菌对哺乳动物的毒性[J].农药译丛,1996,18(2):48~55
74.周垂钦,消石灰对桑蚕多角体病毒灭活机理的探讨[J].蚕桑通报,1988,19(2):24~26
75.周垂钦,李云芝.蚕用熏烟消毒剂新烟力宝的研究[J].中国蚕业,1998,(1):12~13
76.周德庆.微生物学教程[M].北京:高等教育出版社,1993
77.祝荣华,沈晓明.“消特灵”叶面消毒对家蚕的影响试验[J].江苏蚕业,1996,(2):55~57
78.柏村鹤雄·荒武義.消石灰乳蚕病病原对不活化效果[J].蚕糹研究,1977,102:45~53
79.饭塚敏彦·寺江尚子.Bacillus thuringiensis 结晶質 SDS-PAGE 解析[J].日蚕雜1989,58(4):308~314
80.山本敬司等.BT 产生的杀虫性内毒素[J].蛋白质·核酸·酶,1984,29(6):444~454
81.山崎寿·山田·小林子.消石灰乳蚕伝染性软化病不活化[J].日蚕雜,1966,35:158~160
82.周垂欽,家蚕多角体病不活化关研究[R].博士学位论文,2000.3
83. Burges H.D.,Thomson. E.M. et al. Importanct of spore and δ -endotoxin protein crystals of bacillus thuringiensis.in Galleria mellonella[J]. J.Invertebr. Pathol. 1976,27(1 ):87~94
84. Crichmore N,Zeigler D R et. al. Bacillus thuringiensis and its pesticidal crystal proteins[J].Microbiology and Molecular Reviews, 1998,62:775~806
85. Estadall,Ferre J.Binding of insecticidal crystal proteins of bacillus thuringiensis. to the brush border membrane of the cabbege looper, Trichoplusia ni (Hübner)(Lepidoptera:Noctuidae),and selection for resistance to one of the crystal proteins[J].Appl. Environ. Microbiol., 1994,60(10):3840~3846
86. Gill S S,Cowles E A,Pietrantonio P V. The mode of action of bacillus thuringiensis [J]. Endotoxins. Annu. Rew. Entomol., 1992,37:615~636
87. Hedshi I,Kuroda E. Wadano A et al. Specific toxicity of δ- endotoxins from bacillus thuringien. s. to Bombyx mori[J].Biosci. Biotech. Biochem, 1993, 57 (2):200~204
88. Hofte H,Whiteley HR.Insecticidal crystal proteins of bacillus thuringiensis[J]. Microbiol Rew, 1989,53(2):242~155
89. Knowles B H,Ellar D J. Chatacterization and partial purification of a plasma membrane receptor for bacillus thuringiensis.var. Kurstaki lepodopteran specific delta-endoxin[J].J Cell Sci., 1986,83:89
90. Knowles B H,Ella DJ.Differential specificity of two insecticidal toxins from bacillus thuringiensis, var.aizawai[J]. Mol Microbioi, 1988(2): 153~157
91. Kronstad J W, Schnep H E, Whiteley H R. Diversity of location for the bacillus thuringiensis.crystal protein gene[J].J Bacteriol, 1983,154:418~428
92. Kronstad J W, Whiteley HR.Three classes of homologous bacillus thuringiensis. crystal protain genes[J].Gene, 1986,43:29~40
93. Laemmli,U.K.Clealvage of structural protein during the assembly of the Head of bacteriophage T4[J].Nature, 1970,227(5259):680~685
94. Lecadet,M M,Frachon E,Cosmao-Dumanoir.V et al., Updating the H-antigen classification of bacillus thuringiensis. [J].J-appl-microbiol. 1999,86 (4) : 660-672
95. Oddou P,Hartmann H,Radecke F et al.Immunologically unrelated Heliothis sp.and Spokoptera sp.midhut memtrance-proteins bind bacillus thuringiensis CrylA(b) 6-endotoxin[J] .Eur.J.Biochem., 1993,212:145-150
96. Pefereon M.Advances in insect controhthe role of transgenic Plants.Taylor and Francis. 1997,21-28
97. Percy,Fast PG. bacillus thuringiensis. crystal toxin:Ultrastructural studies of its effect on silkworm midgut cells[J].J Invertebr Pathol. 1983,41 :86
98. Peter J,Knight,Ctickwore N,et al. The receptor of bacillus thuringiensis. CrylA(C) delta-endotoxin in the brush border membrane of the lepikopteran Mandtuca Sexta is amino peptidase N[J].Molcular Microbio, 1 994,1 1(3) :429-436
99. Salama H S,Foda M S,Sharaby A. Potential of some chemicals to increase the effective of bacillus thuringiensis. Against plodia interpunctella[J]. Insect Sci.Appl,1992,15(6) :775-779
100. Sato R.Cloning hetetologous expression and localization of a novel crystal protein gene from bacillus thuringiensis. Serovar japonensis stain Buibui toxic to scrabaeidae insects[J].Curr Microbiol, 1994,28(1) : 15-19
101. Schnepf HE,Wong H C,Whiteley H R.Expression of a cloned bacillus thuringiensis.crystal protein gene in Escherichia coli. [J].J Bacteriol, 1987,169:4110-4118
102. Shimizu M,Oshiek,Nakamure K et al .Cloning and expression in Escherichia coli.of the 135Kd insecticidal protein gene from bacillus thuringiensis. Subsp aizawai IPL7[J] Agric Biol Chem,1988,52:1565-1573
103. Slatin S L.Mode of action of delta-endotoxins from bacillus thuringiensis. :a comparision with other bacterial toxins[J]. Insect Biochem. Molec. Biol. ,1992, 22(1) :1-7
104. Tojo A,Aizawak.Dissolution and degraduation of bacillus thuringiensis. δ-endotoxin by gut juice protease of the silkworm Bommori[J]. Appl. Environ. Microbiol., 1983,45(2) :576-580