短额负蝗卵子发生过程中糖复合物的动态分布

以生物素标记的凝集素(UEA-I、SBA、PNA)为探针，利用凝集素组织化学方法对短额负蝗(Atractomorpha sinensis)卵子发生过程中滤泡细胞和卵母细胞内糖复合物的分布进行了定位研究。结果表明，在卵子发生的各期滤泡细胞和卵母细胞中没有UEA-I受体的表达，SBA和PNA受体以不同的分布模式呈阶段性表达。两者首次出现于卵母细胞生长期， 随后PNA受体消失，SBA受体大量表达；在卵黄形成期前期SBA受体和重新出现的PNA受体表达于卵黄颗粒形成部位，卵黄形成期后期两者均为阴性表达；成熟卵子中两种受体又以不同程度重新出现于卵黄膜。两种受体在滤泡细胞内均大量表达 提示，N-乙酰半乳糖胺和半乳糖-β-(1，3)半乳糖胺复合物的修饰和变化与卵母细胞的发育、卵黄物质的形成及滤泡细胞的增殖分化密切相关，卵黄膜上的糖复合物可能与精卵识别有关。     

短额负蝗配子发生过程中蓖麻凝集素受体的分布

利用凝集素细胞化学方法对短额负蝗Atractomorpha sinensis Bolivar配子发生过程中蓖麻凝集素（Ricinus communis agglutinin-Ⅰ,RCA-Ⅰ）受体分布进行了定位研究,旨在认识昆虫配子发生过程中β-半乳糖复合物的分布规律及意义。结果表明： 在短额负蝗精子发生过程中,RCA-Ⅰ在各期生精细胞膜上均有明显的阳性反应,变形期及成熟期精子头部为中强度阳性反应。卵子发生中,各阶段卵母细胞均为阳性反应,在卵母细胞生长期阳性反应达峰值,随着卵黄颗粒的逐渐形成,阳性反应逐渐减弱,成熟卵子中卵黄膜上重新出现中强度阳性反应。结果提示短额负蝗配子发生过程中β-半乳糖复合物的高度表达和修饰变化与其配子发生密切相关。     

短额负蝗精子发生过程中SBA受体的动态分布

用常规组织学方法观察短额负蝗Atractomorpha sinensis Bolivar精子发生过程中生精细胞的显微结构,并以大豆凝集素(soybean agglutinin,SBA)为探针利用凝集素细胞化学方法研究该过程中N-乙酰半乳糖复合物的分布变化。结果表明,短额负蝗精子发生经历了精原细胞增殖期、初级精母细胞期、次级精母细胞期、精子细胞形成期和精子成熟期5个时期,在这5个时期中各期生精细胞的大小、形态、核染色体等变化明显。在整个精子发生过程中,N-乙酰半乳糖复合物出现于精原细胞期,并于精母细胞期发生明显的修饰和变化,精子形成期和成熟期没有N-乙酰半乳糖复合物的表达。提示,N-乙酰半乳糖复合物的修饰和变化与短额负蝗生精细胞的生长和分化密切相关。     

短额负蝗的营养成分与利用评价

本文分析了短额负蝗AtractomorphasinensisBolivar的营养成分 ,包括蛋白质、氨基酸、总糖、粗脂肪、脂肪酸及维生素B1,B2 ,C和E。此种昆虫粗蛋白含量为 2 2 4 5 %～ 32 5 9% ,粗脂肪含量为 2 87%～4 91 % ,总糖为 0 0 95 %。在分析其营养价值的基础上 ,进行了开发利用评价。     

短额负蝗与中华蚱蜢精子比较：直翅目：蝗总科

短额负蝗与中华蚱蜢精子比较（直翅目：蝗总科）奚耕思,郑哲民（陕西师范大学动物研究所陕西省西安市７１００６２）短额负蝗Ａｔｒａｃｔｏｍｏｒｐｈａｓｉｎｅｎｓｉｓ与中华蚱蜢Ａｃｒｉｄａｃｉｎｅｒｅａ为中国两种常见的蝗虫。由于头顶细纵沟,后足股节外侧花纹及...     

昆虫卵子发生过程中细胞凋亡的研究进展

细胞凋亡是动物发育过程中的基本生命现象,是多细胞生物体一种重要的自我稳定机制。除体细胞发生凋亡外,生殖细胞在其发生过程中也有细胞凋亡。对近10年来昆虫卵子发生过程中细胞凋亡的研究作了综述。重点关注昆虫卵子发生过程中细胞凋亡发生的阶段、凋亡的形态特征、凋亡的调控及意义等,以期为相关研究提供基础资料。     

黄胫小车蝗卵子发生及卵母细胞凋亡的显微观察

对黄胫小车蝗(Oedaleus infernalis)卵子发生过程和卵母细胞凋亡进行显微观察。结果表明,黄胫小车蝗卵子发生可明显分为3个时期10个阶段,即卵黄发生前期、卵黄发生期和卵壳形成期。第1阶段,卵母细胞位于卵原区,经历减数第一次分裂;第2阶段,卵母细胞核内染色体解体成网状,滤泡细胞稀疏地排列在卵母细胞周围;第3阶段,滤泡细胞扁平状,在卵母细胞周围排成一层;第4阶段,滤泡细胞呈立方形排在卵母细胞周围;第5阶段,滤泡细胞呈长柱形排在卵母细胞周围,滤泡细胞之间、滤泡细胞与卵母细胞之间出现空隙;第6阶段,卵母细胞边缘开始出现卵黄颗粒;第7阶段,卵母细胞中沉积大量卵黄,胚泡破裂;第8阶段,滤泡细胞分泌卵黄膜包围卵黄物质;第9阶段,滤泡细胞分泌卵壳;第10阶段,卵壳分泌结束,卵子发育成熟。卵母细胞发育过程中的凋亡发生在卵黄发生前期,主要表现为滤泡细胞向卵母细胞内折叠,胞质呈团块状等特征。     

不同地理种群短额负蝗对环境温度的适应性

[目的]本研究旨在探明短额负蝗Atractomorpha sinensis不同地理种群对环境温度响应的适应性差异.[方法]以大豆叶片为食物饲养,在恒温16,20,24,28和32℃,相对湿度70％,光周期16L:8D条件下,系统观测陕西延安、河南郑州、四川成都、云南曲靖和广东广州5个短额负蝗地理种群的生长发育过程,比较...     

短额负蝗线粒体基因组及其lrRNA和srRNA二级结构分析

采用长距PCR扩增及保守引物步移法测定并注释了短额负蝗的线粒体基因组全序列。结果表明,短额负蝗的线粒体基因组全长15558bp,A T含量为74.3%,37个基因位置与飞蝗的一致,基因间隔序列共计11处64bp,间隔长度从1～16bp不等;有15对基因间存在51bp重叠,重叠碱基数在1～8bp之间。13个蛋白质编码基因中找到6种可能的起始密码子,有12个基因在基因3'端能找到完全的TAA或TAG终止密码子,只有ND5基因终止密码子为不完整的TA。除tRNASer(AGN)外,其余21个tRNA基因的二级结构均属典型的三叶草结构。tRNASer(AGN)的DHU臂缺失,在相应的位置上只形成一个环。预测的lrRNA二级结构总共有6个结构域(结构域Ⅲ缺失),49个茎环结构。预测的srRNA的二级结构包含3个结构域,33个茎环结构。A T丰富区中存在一个被认为与复制及转录起始有关的Ploy(T)(T-stretch)结构。     

山西省六个负蝗种群的遗传多样性

用等位酶电泳分析方法对短额负蝗(A tractom orpha sinensis)和奇异负蝗(A tractom orpha p ereg rina)各3个自然种群10种酶(AAT,CK,G 3PD,HEX,IDH,LDH,M DH,M E,PG I,PGM)进行检测。结果显示:两种负蝗在某些基因座上共享常见的等位基因,如A a t-1-b、A a t-2-b、G 3p d-a、Ck-1-b和Ldh-b;除个别基因座在部分种群符合H ardy-W e inberg平衡外,两种负蝗的大多数基因座的基因型频率显著偏离H ardy-W e inberg平衡。此外,奇异负蝗M e-c(0.318~0.740)、短额负蝗H ex-1-a(0.800~1.000)及Ldh-b(0.487~0.750)等位基因频率呈现出由北向南递增的趋势,表明M e和H ex、Ldh基因座上的等位基因频率与地理分布存在一定的相关关系。短额负蝗平均每个基因座的等位基因数(A)为1.9~2.3、多态基因座百分率(P)为56.3%~68.8%、平均观察杂合度(Ho)为0.072~0.096;而奇异负蝗的相应值依次为A=1.7~2.2,P=43.8~56.3%,Ho=0.070~0.107。从A、P和Ho3个参数可知,短额负蝗遗传多样性明显高于奇异负蝗。6个负蝗种群的平均观察杂合度均明显低于H ardy-W e inberg平衡预期值,表明6个负蝗种群均出现了杂合体缺乏现象。短额负蝗3种群I值为0.971~0.996,奇异负蝗3种群I值为0.982~0.995,短额负蝗与奇异负蝗I值为0.379~0.451,表明种内遗传相似度明显高于种间,从种间I值可知奇异负蝗和短额负蝗属于近缘种。根据R oger's遗传距离进行的聚类分析表明,两种负蝗可分为两支,且两种负蝗的遗传距离与地理距离均存在明显的相关趋势。两种负蝗的平均FST值都不显著偏离0值(奇异负蝗FST=0.087,p>0.05,短额负蝗FST=0.045,p>0.05),表明该两种负蝗种群间的分化不明显。     

Genetic diversity of six populations of Atractomorpha sinensis and Atractomorpha peregrina in Shanxi Province, China

Ten enzymes (AAT,CK,G3PDH,HEX,IDH,LDH,MDH,ME,PGI,PGM)were examined using horizontal starch gel electrophoresis to estimate the levels of genetic variation within and among six natural populations of two grasshopper species Atractomorpha sinensis and A.peregrina from Shanxi,China.The collecting sites were geographically distant from each other from south to north:Quwo district,Linfen city;Xiangyuan county,Changzhi;Jinyuan district,Taiyuan city;Yuanping county,Xinzhou city and Fanshi county of Xinzhou.A.sinensis showed 43 alleles at 16 loci but A.peregrine showed 39 alleles at 15 loci (ldh-1 was deficient).The zymograms showed that some common alleles were shared at several loci in these two species (Aat-1-b,Aat-2-b,G3pdh-a,Ck-1-b and Ldh-b).However,Hex-1-a,Hex-2-a,Hex-3-a,Idh-2-b,Mdh-2-b,Mdh-1-f Pgi-b,Pgm-b had common alleles in A.sinensis and Hex-1-b,Hex-2-b,Hex-3-b,Idh-2-a,Mdh-2-a,Mdh-1-d,Pgi-a,Pgm-c were of high frequency in A.peregrine instead.Most of the observed genotype frequencies were found to significantly deviate from the Hardy-Weinberg expectations in both species.A tendency of clinal distribution of allele frequency was observed at three loci.The frequency of the moderately migrating allele Me-c (0.318-0.740)in A.peregrina,Hex-1-a (0.800-1.000)and Ldh-b (0.487-0.750)in A.sinensis demonstrated increased frequency from north to south.Such tendency suggests that the allele frequency in these three loci may be correlated with the species'geographic distributions.A.sinensis showed higher genetic diversity than A.peregrina as indicated by higher mean number of alleles per locus (A=1.9-2.3 in A.sinensis and 1.7-2.2 in A.peregrina),percentage of polymorphic loci (56.3%-68.8%in A.sinensis and 43.8%-56.3%in A.peregrina),and the observed heterozygosities (Ho=0.072-0.096 in A.sinensis and 0.070-0.107 in A.peregrina).The observed heterozygosities of the six populations were all noticeably lower than the Hardy-Weinberg expectations,mostly due to heterozygote deficiency in the populations of both species.The overall mean Fsr were small (FST=0.045,P＞0.05 in A.sinensis populations and 0.087,P＞0.05 in A.peregrina populations).Nei's genetic identity (I)estimates indicate low intraspecific (＞0.95)but higher interspecific (0.377-0.447)genetic diversity.The cluster analysis based on modified Roger's genetic distance (D)showed that the two species were divided into two branches.Both species are of limited dispersal capacity and a moderate geographical barrier might significantly restrict the gene exchange among populations,resulting in accumulation of local genetic differentiations.The A.sinensis populations used in this study were separated from each other by 155.2 to 271.4 km and the A.peregrina populations were separated from each other by 78.8 to 174.9 km with observable physical barriers.The aUozyme data showed only minimal genetic differentiation at population level,most likely as a result of gene exchange.It is reasoned that natural factors and human agricultural activities might have facilitated migration and dispersal for the two species.     

黄脸油葫芦与短额负蝗马氏管组织结构比较

采用组织学方法对直翅目剑尾亚目和锥尾亚目的两个物种--黄脸油葫芦Teleogryllus emma和短额负蝗Atractomorpha sinensis成虫的马氏管进行了观察,发现两者在着生位置、方式和细胞结构上存在明显不同.着生位置上,黄脸油葫芦的马氏管着生在后肠前端与后肠后端的交界处,短额负蝗的马氏管着生在中肠与后肠的交界处.着生方式上,黄脸油葫芦的马氏管是通过一根无色透明的公共管与肠道相通的,而短额负蝗的马氏管分为12丛,每一丛直接与肠道相连.细胞结构上,黄脸油葫芦的管壁由8个细胞构成,且集中在管的中央,与管壁有空隙;而短额负蝗的管壁由3～4个细胞组成,分散在管壁外围,有马氏管凸.     

Oogenesis in Acerentomon gallicum Jonescu (Protura)

Summary Late stages of oogenesis in Acerentomon gallicum Jonescu have been studied by means of light and electron microscopy. Each of the two ovaries of this species consists of a single panoistic ovariole. Late previtellogenic and early vitellogenic oocytes are enclosed in an electron opaque layer, the so-called primary sheath. The precursors for this sheath are most likely synthesized by follicle cells. The yolk develops through autosynthesis, with free ribosomes, dictyosomes and lamellar bodies being involved in the process. Mature yolk spheres contain proteins and polysaccharides. Besides the organelles that take part in vitellogenesis, mitochondria and cisternal stacks of the rough endoplasmic reticulum occur in the ooplasm.This work was supported by Government Problem Grant ii-1.3.13     

中华蚱蜢精子发生过程中花生凝集素受体的分布与变化

采用生物素标记的花生凝集素(PNA)对中华蚱蜢(Acrida cinerea)精子发生过程中细胞质膜的糖蛋白(含有糖基Gal--β(1,3)-GalNAC)进行了标记,旨在认识精子发生过程中细胞质膜糖复合物的形成与变化规律,探讨其所具有的功能。结果表明,在中华蚱蜢的精子发生中,精母细胞能够自身合成PNA受体;精子细胞到成熟精子时期生精细胞质膜糖复合物发生了明显的修饰变化,这些变化与精子获得及卵子进行识别、粘附、结合等受精能力密切相关。