昆虫种群遗传控制技术中启动子的研究

利用昆虫遗传转化技术对害虫进行遗传控制是害虫防治研究的新方向,该技术具有物种特异、防效高且对环境友好的特点。启动子是基因表达调控的重要元件,选择合适的启动子是外源基因高效、准确表达的关键,对获得高效、稳定的遗传修饰昆虫品系至关重要。本文简要介绍了昆虫基因启动子的结构特征,重点描述了昆虫种群遗传防治中组成型启动子、性别和组织特异型启动子、特定发育时期启动子和诱导型启动子的研究和应用概况,并对这几类启动子在害虫遗传控制中的应用前景进行了展望。     

微卫星遗传标记及其在昆虫种群遗传学中的应用

微卫星是一类短串联重复的寡核苷酸序列,广泛地分散于各类真核生物基因组中,它具有多态性高、检测结果稳定可靠等特点,是目前较为理想的群体遗传研究的分子标记之一。该文阐述了微卫星DNA构成及特点,多态性形成机制、位点获得途径,列举了微卫星遗传标记在昆虫种群遗传学研究中的应用实例,并展望了该技术的应用前景。     

昆虫滞育表观遗传调控的研究进展

滞育是昆虫躲避不良环境的一种策略,对延续昆虫种群具有重要意义.特别是昆虫的兼性滞育,能够受环境的周期性季节变化影响,表观遗传可能在其中扮演重要角色.表观遗传是不依赖DNA序列改变所产生的可遗传变异,包括DNA、RNA、蛋白质和染色质水平上的各种表观遗传调控过程,可能参与生物的发育可塑性.昆虫滞育表观遗传调控主要包括两个...     

昆虫种群动态模拟模型

昆虫是动物界中最大的类群,与人类有着密切的利害关系。对昆虫的数量预测与符合经济和生态规律的管理,一直都被国内外列入重点研究课题。种群动态模拟是害虫管理中重要的基础工作。近十年来,关于昆虫种群动态模型的理论和实验研究进展迅速。现分别从单种种群和多种种群两个方面对国内外近些年来昆虫种群动态模拟模型的研究进展进行了概括和总结。单种种群从两个方面阐述:一是最基本的种群动态模拟模型Log istic方程的研究成果,包括方程的修正、参数的拟合与最优捕获策略等;另一个方面是对种群动态模拟常用的矩阵模型的概述,主要介绍不等期年龄组、矩阵维数的变化、矩阵维数与历期的关系、个体之间的发育差异以及发育速率差异等等对昆虫种群动态模型的影响。多种群主要从建模和模型应用两个部分对国内外研究成果进行综述。最后,对种群动态模拟模型研究的发展方向做了深入地讨论,即在原有的数据采集工作的基础上,使用面向对象程序设计语言,把各种要素包括各种物种及各种环境条件抽象成类,用消息传递来表示昆虫种群内个体与个体、昆虫种群与环境之间的相互作用,再结合先进的数学算法,建立一个直观的、操作简单的昆虫种群动态模型库,使模型结构与现实世界有最大的相似性。这样就可以实现昆虫种群动态的可视化、立体化、实时化和精确化的监测及预测。     

昆虫种群动态的空间分析方法探讨

近年来,随着地理信息系统、卫星遥感、航空数字化摄像。全球定位系统以及虚拟可视化等空间技术的迅速发展,昆虫种群的空间动态也已经引起了国内外学者和生产应用部门的高度重视［１］。然而,在考虑生态系统的空间问题时,区别于传统的研究时间尺度的经验和方法,某些涉及空间分析的概念、方法和技术也必须受到足够的关注。本文将就分析昆虫空间动态问题时,必须考虑的一些因素、方法和可能存在的问题作一探讨,以供同行商榷。１空间异质性研究昆虫种群的空间动态,首先需要考虑的就是空间异质性问题。昆虫的发生与其所生存的外部环境密切…     

昆虫基因表达的调控

昆虫的基因表达过程十分复杂,受多种调控因子的调节,随着分子生物学研究新技术在昆虫学上的应用,昆虫基因表达的调控也取得了较快进展,本文以一些特征清楚的系统为例,讨论昆虫基因表达调控的研究现状,旨在为其它昆虫表达的调控研究提供借鉴。     

昆虫种群调查抽样方法的几点探讨

本文对昆虫种群调查常用抽样方法的局限性和改进方法进行了探讨,提出了作者的新见解。     

昆虫夏滞育的调控及其遗传基础

几十年来对昆虫夏滞育的研究不断深入 ,阐明了不少昆虫夏滞育的生态机理。目前 ,探讨其内在的机制已成为研究的方向。该文着重论述夏滞育的生理生化特征、夏滞育的调控及其遗传基础     

白桦的遗传转化及转基因植株的抗虫性

应用农杆菌介导法首次向白桦(Betula platyphylla Suk.)基因组中导入抗虫基因[蜘蛛杀虫肽与苏云金杆菌杀虫毒蛋白基因(Bt基因)C肽序列的嵌合基因].转化结果表明:共培养2 d的脱菌及防止腐烂的效果和转化率均高,液体共培养及液体除菌优于固体共培养及固体除菌;最佳外植体为大叶片;侵染2个月之后产生抗性愈伤组织,转化率达到22%.卡那霉素抗性植株中,GUS阳性率为43%.进行杀虫肽和nptⅡ基因的PCR(聚合酶链式反应)均检测出目的带.转化植株目的基因的PCR Southern(DNA印记杂交)杂交呈阳性,证明获得了转基因植株.初步的喂虫试验表明转基因白桦具有一定的抗虫性.     

Genetic elimination of field-cage populations of Mediterranean fruit flies

The Mediterranean fruit fly (medfly, Ceratitis capitata Wiedemann) is a pest of over 300 fruits, vegetables and nuts. The sterile insect technique (SIT) is a control measure used to reduce the reproductive potential of populations through the mass release of sterilized male insects that mate with wild females. However, SIT flies can display poor field performance, due to the effects of mass-rearing and of the irradiation process used for sterilization. The development of female-lethal RIDL (release of insects carrying a dominant lethal) strains for medfly can overcome many of the problems of SIT associated with irradiation. Here, we present life-history characterizations for two medfly RIDL strains, OX3864A and OX3647Q. Our results show (i) full functionality of RIDL, (ii) equivalency of RIDL and wild-type strains for life-history characteristics, and (iii) a high level of sexual competitiveness against both wild-type and wild-derived males. We also present the first proof-of-principle experiment on the use of RIDL to eliminate medfly populations. Weekly releases of OX3864A males into stable populations of wild-type medfly caused a successive decline in numbers, leading to eradication. The results show that genetic control can provide an effective alternative to SIT for the control of pest insects.     

Genetic sexing strains in medfly,Ceratitis capitata,sterile insect technique programmes

The introduction of genetic sexing strains (GSS) into medfly, Ceratitis capitata(Wiedemann), sterile insect technique (SIT) programmes started in 1994 and it was accompanied by extensive evaluation of the strains both in field cages and in open field situations. Two male-linked translocation systems, one based on pupal colour, wp, and the other based on temperature sensitivity, tsl, have been used in medfly SIT programmes and they have quite different impacts on mass rearing strategy. In strains based on tsl, female zygotes are killed using high temperature and for wpstrains, female and male pupae are separated based on their colour. In all these systems the colony females are homozygous for the mutation requiring that the mutation is not too deleterious and the males are also semi-sterile due to the presence of a male-linked translocation. Managing strain stability during large-scale mass rearing has presented some problems that have been essentially solved by selecting particular translocations for GSS and by the introduction of a filter rearing system (FRS). The FRS operates by removing from the colony any recombinant individuals that threaten the integrity of the strain. The use of GSS opens up the possibility of using the SIT for suppression as opposed to eradication and different radiation strategies can be considered. Some of the many field trials of the strains that were carried out before the strains were introduced into operational programmes are reviewed and an overview is given of their current use.     

滇牡丹天然居群的遗传多样性分析

以云南中部及西北部的6个滇牡丹(Paeonia delavayi)天然居群为研究对象,进行株高、新枝长等9个表型性状的表型多样性分析和ISSR分析。结果表明:9个表型性状变异幅度为0.9%~39.8%,平均值达到了18.9%;居群间生殖器官的变异较大,居群内营养器官更容易产生变异。利用居群间欧式距离进行聚类分析,6个居群聚为4个类群,没有与实际地理位置相吻合,说明表型特征的性状与地理距离的相关性不大。遗传多样性分析结果表明:利用筛选得到的10条引物,在取自6个自然居群、180个个体中,检测到56个多态位点。在居群水平上,多态位点百分率(PPB)为60.2%,Nei's基因多样性指数(H)和Shannon's信息指数(I)分别为0.281和0.414。在物种水平上,Nei's基因多样性指数(H)和Shannon's信息指数(I)分别为0.409和0.596。居群间的遗传分化系数(Gst)达0.319。结果显示,表型性状在居群间和居群内均存在广泛变异。滇牡丹遗传多样性水平较高,居群间遗传分化较大,滇牡丹并不濒危。     

Genetic sexing strains for the population suppression of the mosquito vector Aedes aegypti

Aedes aegypti is the primary vector of arthropod-borne viruses including dengue, chikungunya and Zika. Vector population control methods are reviving to impede disease transmission. An efficient sex separation for male-only releases is crucial for area-wide mosquito population suppression strategies. Here, we report on the construction of two genetic sexing strains using red- and white-eye colour mutations as selectable markers. Quality control analysis showed that the Red-eye genetic sexing strains (GSS) is better and more genetically stable than the White-eye GSS. The introduction of an irradiation-induced inversion (Inv35) increases genetic stability and reduces the probability of female contamination of the male release batches. Bi-weekly releases of irradiated males of both the Red-eye GSS and the Red-eye GSS/Inv35 fully suppressed target laboratory cage populations within six and nine weeks, respectively. An image analysis algorithm allowing sex determination based on eye colour identification at the pupal stage was developed. The next step is to automate the Red-eye-based genetic sexing and validate it in pilot trials prior to its integration in large-scale population suppression programmes.This article is part of the theme issue ‘Novel control strategies for mosquito-borne diseases’.     

豇豆胰蛋白酶抑制基因改良大白菜抗虫性的研究

以8个大白菜亲本材料无菌苗为实验材料,从近生长点处切下无菌苗子叶,在MS＋1 mg/L 2,4-D培养基上预培养48 h,以携带豇豆胰蛋白酶抑制基因（该基因可赋予大白菜抗菜青虫和小菜蛾等昆虫的抗性,Cowpea Trypsin Inhibitor gene,CpTI）的质粒pBinΩSCK为载体,通过OD600值约0.3～0.4的根癌农杆菌LBA4404侵染3min,在MS＋2 mg/L BA＋0.5 mg/L NAA＋5 mg/L硝酸银＋2%蔗糖＋8 g/L琼脂培养基上共培养48 h,将其转到含有卡那霉素和头孢霉素的筛选培养基中,约4周出现大量转化体,经分子杂交检测,证明了豇豆胰蛋白酶抑制剂基因整合到了大白菜基因组中,室内和田间的抗虫试验也表明,豇豆胰蛋白酶抑制剂基因赋予了转基因大白菜较强的抗虫能力.本研究还对影响农杆菌遗传转化效率及植株再生的各种因素进行了优化.     

Genetic Diversity and the Survival of Populations

Abstract: In this comprehensive review, a range of factors is considered that may influence the significance of genetic diversity for the survival of a population. Genetic variation is essential for the adaptability of a population in which quantitatively inherited, fitness-related traits are crucial. Therefore, the relationship between genetic diversity and fitness should be studied in order to make predictions on the importance of genetic diversity for a specific population. The level of genetic diversity found in a population highly depends on the mating system, the evolutionary history of a species and the population history (the latter is usually unknown), and on the level of environmental heterogeneity. An accurate estimation of fitness remains complex, despite the availability of a range of direct and indirect fitness parameters. There is no general relationship between genetic diversity and various fitness components. However, if a lower level of heterozygosity represents an increased level of inbreeding, a reduction in fitness can be expected. Molecular markers can be used to study adaptability or fitness, provided that they represent a quantitative trait locus (QTL) or are themselves functional genes involved in these processes. Next to a genetic response of a population to environmental change, phenotypic plasticity in a genotype can affect fitness. The relative importance of plasticity to genetic diversity depends on the species and population under study and on the environmental conditions. The possibilities for application of current knowledge on genetic diversity and population survival for the management of natural populations are discussed.     

岷江柏野生居群和迁地保护居群的遗传多样性比较

通过分析岷江柏的迁地保护居群和野生居群的遗传多样性、遗传结构及居群间基因流,判断迁地保 护岷江柏居群的遗传多样性水平,为其迁地保护提供理论基础。本研究利用GBS（Genotyping-by-Sequencing） 测序技术获得的SNP位点对四川大渡河双江口岷江柏迁地保护移栽苗、苗圃播种苗及3个野生居群进行主成分分析（PCA分析）、聚类分析、分子进化树、遗传多样性和遗传结构分析。经过GBS测序共获得高质量Clean Data 118 321 514 728 bp,并开发了1947 047个tags,从中鉴定到了1 259 610个SNP位点。系统发育进化树显示大部分移栽岷江柏居群和野生岷江柏聚在一起,居群结构分析结果显示交叉验证错误率的谷值确定最优分群数为1。4个岷江柏居群的观测杂合度（H_o）、期望杂合度（H_e）、Shannon信息指数I（S_hi）、近交系数（F_is）、多态信息含量（P_ic）的值分别为0.181 5~0.272 0、0.223 2~0.300 3、0.331 0~0.464 9、0.178 0~0.246 5和0.272 2~0.309 2,说明岷江柏居群的遗传多样性水平较高。移栽岷江柏居群的H_e=0.300 3,S_hi=0.464 9,岷江柏居群迁地保护居群遗传多样性总体水平略高于野生居群。野生岷江柏居群中白湾隧道（BW）_vs_松岗镇（SA）的遗传分化指数（F_st）较大,基因流（N_m）较小（F_st=0.091,N_m=2.496）,而迁地保护的岷江柏居群与野生岷江柏居群没有明显的遗传分化,居群间的基因交流频繁（F_st<0.05,基因流N_m>4）,说明没有明显的分群现象,岷江柏居群迁地保护居群遗传多样性较高。因此,移栽濒危植物是迁地保护过程中较好的方法,本文为以后野生岷江柏迁地保护提供参考,为其他树木种质资源的保存提供理论依据。