铃虫对氰戊菊酯抗性和敏感品系的选育

用氰戊菊酯对来自阳谷的棉铃虫（ＹＧ）Ｈｅｌｉｏｔｈｉｓａｒｍｉｇｅｒａ（Ｈｕｂｎｅｒ）进行抗性品系的筛选。在１５代期间经过９代的室内选育,获得抗性品系（Ｆｅｎ－Ｒ）,抗性倍数高达２４６３倍,筛选后Ｆ１,代ＬＤ５０值（２４．１４１２ｇ／头）比筛选前Ｆ１代ＬＤ５０值（０．２０２０　ｇ／头）提高了１１９．５倍。对来自偃师的棉铃虫（ＹＳ）进行了连续两代单对筛选,得到敏感品系（Ｆｅｎ－Ｓ）,敏感品系的ＬＤ５０值为０．０１１６ｇ／头,接近１９８３年东台敏感品系的ＬＤ５０值（０．００９８ｇ／头）。Ｆｅｎ－Ｒ抗性品系筛选前后分别测定了七种杀虫剂的剂量－死亡回归线,发现Ｆｅｎ－Ｒ抗性品系对溴氰菊酯［ＬＤ５０（Ｆｅｎ－Ｒ）ＬＤ５０（ＹＧ）＝５．２Ｘ］和氯氰菊酯（２．５Ｘ）具有一定程度的交互抗性;而对功夫菊酯（０．６６Ｘ）,氯菊酯（０．８７Ｘ）、灭多威（０．７４Ｘ）及久效磷（１．５Ｘ）没有交互抗性。氰戊菊酯加Ｐｂ的增效试验结果表明棉铃虫对氰戊菊酯的抗性主要是由于多功能氧化酶的代谢作用。毒理学资料还暗示抗性为多因子（基因）的。     

朱砂叶螨抗氧化乐果品系选育及遗传分析

对采自棉田的朱砂叶螨种群使用氧化乐果选择压（６６．６７－１３３．３３μｌ／ｌ）１６次筛选后,抗氧化乐果由８、３３倍上升到３６、９３倍。利用此抗性品系（Ｒ）和采自河南省固始县的敏感品系（Ｓ）杂交和回交,研究了朱砂叶螨抗氧化乐果的遗传方式,正交和反交（ＳＲ和ＲＳ）Ｆ１代的ＬＣ－Ｐ线介于Ｓ与Ｒ之间偏向Ｒ方,显性系数ＤＳＲ和ＤＲＳ分别为０．５６７９和０．５６５９,表明抗性是由不完全显性基因控制,对Ｆ１杂合     

中国棉铃虫P450家族的CYP6B2基因与抗药性关系

运用ＲＴ－ＰＣＲ技术从棉铃虫五龄幼虫扩增到一个６２７ｂｐ的ＤＮＡ片段,测序表明这一片段为ＣＹＰ６Ｂ２基因的功能保守区,以这一片段为探针对棉铃虫除除虫菊酯抗性（Ｒ）及敏感（Ｓ）品系的总ＲＮＡ进行点杂交。ＲＮＡ点杂交表明未经氰戊菊酯诱导的情况下Ｒ品系的ＣＹＰ６Ｂ２基因的ｍＲＮＡ水平明显高于Ｓ品系,即为转录水平的调控,而经氰戊菊酯诱导后杂交表明Ｓ品系明显０被氰戊菊酯诱导,但Ｒ品系不被诱导。由此推测,棉铃     

大豆花叶病的抗性遗传──Ⅰ．几个引用抗原对东北大豆花叶病毒二号株系的抗性遗传

本文通过１２个（抗×感）杂交组合Ｆ＿１、Ｆ＿２、回交ＣＦ１和基因等位性测交组合Ｆ＿１、Ｆ＿２群体对东北大豆花叶病毒２号株系抗性的分析,明确了４个引用抗原的抗性水平及应用价值。鲁豆４和跃进４抗原的抗性为两对具有抑制作用的显性基因控制,抗、感分离比例为１３：３;徐豆２和辽８１－５０１７抗原的抗性为两对显性互补基因控制,抗、感分离比例为９：７,但在其杂交后代中易出现大量顶枯株。等位性测验表明：吉林２１和跃进４、鲁豆４的抗病基因不在同一座位,并且独立遗传。跃进４和鲁豆４抗原有亲缘关系。     

二点叶螨对甲氰菊酯、氧乐果和四螨嗪抗药性的选育、衰退和恢复

以兰州吐鲁沟公园的二点叶螨Tetranychus urticae 为敏感品系,分别用氧乐果、甲氰菊酯、四螨嗪喷雾处理15次,其抗性水平分别为38.5、479.8和67.3倍。将抗性品系分别与敏感品系进行杂交和回交的结果表明：抗氧乐果品系的显性系数DRS（R♀×S♂）为0.4700、D_SR（S♀×R♂）为0.4749;抗甲氰菊酯品系的DRS（R♀×S♂）为0.5155, DSR为0.5237;抗四螨嗪品系的DRS为0.3134, DSR为0.2466。表明二点叶螨对这3种药剂的抗性均是由单个不完全显性基因所控制。在连续10个月不接触药剂的情况下,3个抗性品系的抗药性都有下降,抗氧乐果品系的抗性下降最快,只有敏感品系的抗性倍数的3.6倍;抗甲氰菊酯种群的抗性下降较慢,为敏感品系的95.9倍。再经甲氰菊酯、氧乐果、四螨嗪分别连续15次喷雾处理后,3个抗性种群的抗性水平又再度回升,抗甲氰菊酯品系回升较快,抗性为敏感品系的523.5倍,抗四螨嗪品系次之,抗氧乐果的品系抗性恢复最慢。     

取食不同寄主植物对棉蚜后代抗药性的影响

测定了5种药剂对棉蚜Aphis gossypii抗氰戊菊酯、吡虫啉品系和敏感品系取食棉花、黄瓜和石榴的后代的毒力,并对它们的后代体内乙酰胆碱酯酶和羧酸酯酶的比活力做了初步探索。结果表明,氰戊菊酯抗性品系取食棉花比取食黄瓜的后代对氰戊菊酯的抗性大76.4倍,对灭多威、氧乐果、硫丹和吡虫啉的抗性也大0.5～4.6倍;取食石榴的后代对5种药剂的抗性介于取食棉花和黄瓜的之间。吡虫啉抗性品系的测定结果与氰戊菊酯抗性品系基本一致。敏感品系取食黄瓜比取食棉花的后代对5种药剂的敏感性更高。3个品系取食不同植物的后代相比,其体内乙酰胆碱酯酶的比活力,取食棉花的为取食黄瓜的2.4～2.8倍;羧酸酯酶的比活力,取食棉花的为取食黄瓜的1.8～2.4倍。证明棉蚜的抗性和敏感品系取食的寄主植物不同,可引起对药剂敏感性的变化。乙酰胆碱酯酶和羧酸酯酶活力的变化均是引起这种变化的重要因素。     

家蝇（Musca domestica）对三氟氯氰菊酯的抗药性遗传

研究了家蝇对三氟氯氰菊酯抗性的遗传,通过对抗性品系和敏感品系杂交后代的抗性遗传分析发现家蝇对三氟氯氰菊酯的抗性受多因子控制,抗性显性率为－0．102,为不完全隐性。其对三氟氯氰菊酯的抗性现实遗传力为0．120。     

二点叶螨对甲氰菊酯、氧乐果和四螨嗪抗药性的选育、衰退和恢复

以兰州吐鲁沟公园的二点叶螨Tetranychusurticae为敏感品系 ,分别用氧乐果、甲氰菊酯、四螨嗪喷雾处理 15次 ,其抗性水平分别为 38 5、 479 8和 6 7 3倍。将抗性品系分别与敏感品系进行杂交和回交的结果表明 :抗氧乐果品系的显性系数DRS (R♀×S♂ )为 0 470 0、DSR (S♀×R♂ )为 0 4749;抗甲氰菊酯品系的DRS (R♀×S♂ )为 0 5 15 5 ,DSR 为0 5 2 37;抗四螨嗪品系的DRS为 0 3134 ,DSR 为 0 2 46 6。表明二点叶螨对这 3种药剂的抗性均是由单个不完全显性基因所控制。在连续 10个月不接触药剂的情况下 ,3个抗性品系的抗药性都有下降 ,抗氧乐果品系的抗性下降最快 ,只有敏感品系的抗性倍数的 3 6倍 ;抗甲氰菊酯种群的抗性下降较慢 ,为敏感品系的 95 9倍。再经甲氰菊酯、氧乐果、四螨嗪分别连续15次喷雾处理后 ,3个抗性种群的抗性水平又再度回升 ,抗甲氰菊酯品系回升较快 ,抗性为敏感品系的 5 2 3 5倍 ,抗四螨嗪品系次之 ,抗氧乐果的品系抗性恢复最慢。     

小菜蛾对阿维菌素的抗性遗传方式 和相对适合度研究

就小菜蛾Plutella xylostella对阿维菌素的抗性遗传方式和抗性品系的相对适合度进行了研究。室内选育的阿维菌素抗性品系与同源的敏感品系杂交、F₁代自交、F₁代与亲本回交,结果表明：杂交后的显性度（D）分别为-0.64和-0.52,说明小菜蛾对阿维菌素的抗性是常染色体、不完全隐性遗传;χ²检验证实,可能是多基因控制的抗性遗传。杂交F₁代乙酰胆碱酯酶（AChE）、羧酸酯酶（CarE）和谷胱甘肽转移酶（GST）活性比抗性亲本有所降低,F2代及回交后代三种酶的活性继续降低。种群适合度研究表明,抗性品系相对于敏感品系有0.84的适合度。     

棉铃虫对Bt杀虫剂的抗性遗传方式

随着转基因棉花种植面积的日益增加,棉铃虫Helicoverpa armigera（Hübner)对Bt的抗性已经成为一个不容忽视的问题。发展转多价基因作物是当前缓解害虫对Bt抗性的最有效措施。本研究以经室内多年筛选的、抗性倍数达2 000多倍的Bt杀虫剂（含多种蛋白）抗性品系为材料,通过生物测定和不同的杂交试验,测定棉铃虫对Bt杀虫剂的抗性遗传方式,以期为Bt生物农药的抗性治理提供一定的依据,同时为制定棉铃虫对转多基因作物的抗性治理策略提供一定的参考。对敏感亲本和抗性亲本杂交产生的F1代的研究结果表明,杂交品系的抗性倍数分别为22.2倍和24.6倍;抗性显性度D值均小于0,分别为-0.20和-0.17,抗性为常染色体不完全隐性遗传。对4种回交后代和2种自交后代F2的研究结果表明,实际死亡率与期望死亡率差异较大,说明抗性是由单基因多个位点或多基因控制。     

Recent advances in the study of Kaposi's sarcoma-associated herpesvirus replication and pathogenesis

It has now been over twenty years since a novel herpesviral genome was identified in Kaposi's sarcoma biopsies. Since then, the cumulative research effort by molecular biologists, virologists, clinicians, and epidemiologists alike has led to the extensive characterization of this tumor virus, Kaposi's sarcoma-associated herpesvirus(KSHV; also known as human herpesvirus 8(HHV-8)), and its associated diseases. Here we review the current knowledge of KSHV biology and pathogenesis, with a particular emphasis on new and exciting advances in the field of epigenetics. We also discuss the development and practicality of various cell culture and animal model systems to study KSHV replication and pathogenesis.     

Selection with two alleles and complete dominance

For a plant selection model with frequency-independent viabilities, fertilities and selfing rates, it is shown that apart from global fixation, for certain parameter combinations a protected polymorphism and facultative fixation (either allele may become fixed according to initial frequencies) may both occur. Facultative fixation requires different selling rates for the dominant and recessive type. Protection of the polymorphism requires resource allocation for male and female function. In this connection the problem of purely genetically caused population extinction is discussed.
For general frequency dependence and regular segregation, the chances for establishment of a completely recessive gene are compared to those of a completely dominant gene. It is proven that the process of establishment of the recessive gene, despite a fitness advantage, may be considerably endangered by drift effects if random mating prevails. The recessive gene may reach the same effectivity in establishment as a dominant gene, only if the recessive homozygote mates exclusively with its own type during the period of establishment.     

杆状病毒出芽病毒粒子膜融合蛋白的研究进展

杆状病毒是一类感染节肢动物的病原微生物,其基因组为双链环状DNA,大小为80～180kb.     

Inception of the Modern Public Health System in China and Perspectives for Effective Control of Emerging Infectious Diseases: In Commemoration of the 140th Anniversary of the Birth of the Plague Fighter Dr. Wu Lien-Teh

In this article, we systematically review Dr. Wu Lien-Teh's academic achievements and outstanding contributions in the prevention and control of the plague epidemic in northeast China and introduce the development of the earliest public health epidemic prevention system in China in order to commemorate the 140th anniversary of Dr. Wu Lien-Teh's birth. We hope that this article will provide insights into the effective prevention and control of emerging infectious diseases as well as the current worldwide pandemic of COVID-19, facilitating the improvement and development of public health systems in China and around the globe.