2种辉蝽的精巢和染色体研究(半翅目:蝽科)

通过探讨中国蝽科Pentatomidae辉蝽属Carbula的红角辉蝽Carbula crassiventris(Dallas,1849)和北方辉蝽C.putoni(Jakovlev,1876)的精巢形态和染色体的核型及减数分裂行为,为蝽科昆虫的细胞分类学提供新资料。采用显微形态解剖法和染色体制片法对其精巢和染色体进行观察。结果表明:2种精巢的位置、外被颜色、形状及精巢叶的数目都一致;染色体组成均为2n(♂)=14(12A+XY),具有X-Y性别决定机制。在减数分裂过程中,常染色体前减数分裂,性染色体后减数分裂且无交叉;在中期-Ⅱ,常染色体排列成环状而性染色体在环中央形成假二价体。但是,2个物种在弥散期常染色体的去固缩程度,终变期常染色体双交叉的个数及中期-Ⅰ常染色体和性染色体的排列方式都各不相同。本文证实了蝽科昆虫的减数分裂行为在不同属间、种间可不相同,而且具有一定的属、种间特异性;同时为精巢在蝽类昆虫分类中的作用提供新的资料。     

红角辉蝽和紫翅果蝽线粒体完整基因组测序及蝽亚科系统发育分析(半翅目: 蝽科)(英文)

【目的】本研究对红角辉蝽Carbula crassiventris和紫翅果蝽Carpocoris purpureipennis完整线粒体基因组测序,以探究蝽亚科(Pentatominae)线粒体基因组特征并重建其系统发育关系。【方法】使用Illumina MiSeq测序平台测定红角辉蝽和紫翅果蝽线粒体基因组全序列,并进行组装和注释。基于这2个种和其他30个蝽亚科分类单元线粒体基因组的13个蛋白质编码基因的第1和2位密码子以及2个rRNA基因的核苷酸序列,利用贝叶斯和最大似然法重建蝽亚科系统发育树。【结果】红角辉蝽和紫翅果蝽的线粒体基因组全长分别为15 824 和16 575 bp, 包含13个蛋白质编码基因、2个rRNA基因、22个tRNA基因和1个控制区。蝽亚科内线粒体基因组基因排列顺序保守且没有发现基因重排。此外,蝽亚科内的碱基组成、密码子使用和RNA结构均较为保守; 控制区重复序列拥有不同的长度、类型和拷贝数。基于贝叶斯法和最大似然法重建的系统发育树显示二星蝽族(Eysarcorini)、果蝽族(Carpocorini)、稻绿蝽族(Nezarini)和Antestiini构成一个稳定分枝。【结论】系统发育分析支持辉蝽属Carbula应属于二星蝽族,而果蝽属Carpocoris、斑须蝽属Dolycoris和珠蝽属Rubiconia同属于果蝽族。     

三种小花蝽核型研究(半翅目:花蝽科)

本文利用姬姆萨染色压片法对花蝽科小花蝽属3个种:荷氏小花蝽Orius horvathi(Reuter),微小花蝽Oriusminutus Linnaeus和东亚小花蝽Orius sauteri(Poppius)的核型做了研究,结果表明3种小花蝽单倍体均具有12条染色体,X-Y性别决定机制,但3种核型行为具特定的差异,其核型特征可用于种间分类。     

辉蝽成虫形态学研究（半翅目：蝽科）

对辉蝽Carbula humerigera(半翅目:蝽科)的成虫进行了重新描述,提供了辉蝽雌雄两性的外生殖器,包括雄虫的阳茎、抱器及雌虫受精囊的绘图或照片。     

五种蝽科昆虫的细胞分类学研究（半翅目：异翅亚目）

研究了5种中国蝽科昆虫的核型和染色体的减数分裂行为,并采用核型分析软件对第一次减数分裂中期的染色体进行核型分析。结果表明：驼蝽Brachycerocoris camalus Costa、滴蝽Dybowskyia reticulata(Dallas）和红玉蝽Hoplistodera pulchra Yang3个种的染色体组成均为2n（♂）＝14,具有X－Y性别决定机制;减数分裂行为比较一致,但在中期－Ⅰ时,常染色体和性染色体的排列方式各不相同,可为蝽科昆虫的形态分类及系统发育提供有用的证据。二星蝽Eysarcoris guttiger(Thunberg）的染色体组成为2n（♂）＝15,具有X1X2Y性别决定机制,进一步证明了在半翅目昆虫的性染色体进化中碎片化过程起着很重要的作用;黑斑二星蝽Eysarcoris fabricii(Kirkaldy）的染色体组成为2n（♂）＝16,具有X－Y性别决定机制。后2种的核型结果,可为二星蝽属分类的进一步研究提供参考。     

印度辉蝽的生物学特性

<正> 印度辉蝽Carbula indica(Westwood)是喜马拉雅山地区的特有种。已知分布于西藏喜马拉雅山南麓海拔1600～3300m的亚东、聂拉     

七种蝽mtDNA-16S rRNA基因序列多态性的研究(半翅目:蝽科)

测定蝽亚科2族4属7个种(宽碧蝽,辉蝽,凹肩辉蝽,角肩真蝽,褐真蝽,斑真蝽,全蝽)9个个体线粒体DNA(mtDNA)的16SrRNA基因片段,分析了其遗传多态性。通过测定该基因片段的序列发现,不同种群存在丰富的DNA序列多态性,同一种的不同个体差异较小,9个个体具有9种基因型。在扩增的长为400bp的基因片段中,通过排序,有338个碱基可用于这9个个体的比较。在这一基因片段中,共检测到122个多态性核苷酸位点(约36．1％)。NJ法构建的分子系统树表明碧蝽属归于短中片族,全蝽属的分化较其它属要早。     

小花蝽属两种核型的研究(半翅目: 花蝽科)

本文利用姬姆萨染色空气干燥压片方法,对花蝽科小花蝽属中国2种小花蝽的性细胞核型进行了研究.研究结果表明该2种小花蝽的2倍体均具有24条染色体和X-Y性别机制,但2种间在染色体行为特征方面具有差别,主要表现在细胞减数分裂的晚终变期和中期常染色体以及性染色体的排列形状与位置等方面,该特征可以用于种间的细胞分类.     

六种蝽象的染色体研究（半翅目：蝽科）

研究了6种蝽象的核型和减数分裂行为。结果表明：6个种的染色体组成均为2n(♂)=14, 具有X-Y性别决定机制;减数分裂行为比较一致,但在中期-Ⅰ常染色体和性染色体的排列方式具有种的特异性,可为蝽科昆虫的形态分类及系统发育提供有用的证据。     

蝽科精巢细胞减数分裂染色体行为及其反映的属种间亲缘关系

为探讨蝽科精巢细胞减数分裂各时期染色体形态和行为差异, 以及据此反映的属种间亲缘关系, 采用常规染色体制片法对蝽科6属9种精巢细胞减数分裂各期染色体形态特征、 行为及精子的形成进行了观察和比较研究。结果表明： 蝽科精巢细胞为交叉型减数分裂, “O”型交叉为其典型交叉减数分裂形式。各属种减数分裂各期染色体行为相似, 但形态不同。减数分裂各期染色体形态、 排列方式, 中期染色体相对长度、 组成与核型以及精子形态等特征具有属种间差异性。蝽科精巢细胞中期Ⅰ染色体组平均相对长度都为12.5, 在进化过程中染色体组长度信息总量不变。基于染色体相对长度的聚类分析结果显示, 菜蝽属Eurydema、 麦蝽属Aelia、 珠蝽属Rubiconia和条蝽属Graphosoma亲缘关系密切, 而二星蝽属Stollia与果蝽属Carpocoris关系较近。     

STUDY ON THE KARYOTYPES OF THREE SPECIES OF GENUS CARBULA (HETEROPTERA: PENTATOMIDAE)

Abstract  The karyotypes and meiotic behaviors of three Carbula species ( Carbula obtusangda Reuter, C. putoni (Jakovlev)and C. sinica Hsiao et Cheng) were studied. Karyotype analyses using specific software were made and model karyotype chart was presented. All three species have the typical diploid Chromosome number of 14 for the family Pentatomidae and X-Y sex chromosomal mechanism, but the behavior of autosomes and sex-chromosomes during meiosis among three species are different, and one or two supeeruumerary chromosomes were detected in C. putoni . These characteristics may provide some useful clues on the study of pentatomid taxonomy and phylogeny.     

THE CONTRIBUTION OF FEMALE MEIOTIC DRIVE TO THE EVOLUTION OF NEO‐SEX CHROMOSOMES

Sex chromosomes undergo rapid turnover in certain taxonomic groups. One of the mechanisms of sex chromosome turnover involves fusions between sex chromosomes and autosomes. Sexual antagonism, heterozygote advantage, and genetic drift have been proposed as the drivers for the fixation of this evolutionary event. However, all empirical patterns of the prevalence of multiple sex chromosome systems across different taxa cannot be simply explained by these three mechanisms. In this study, we propose that female meiotic drive may contribute to the evolution of neo‐sex chromosomes. The results of this study showed that in mammals, the XY₁Y₂ sex chromosome system is more prevalent in species with karyotypes of more biarmed chromosomes, whereas the X₁X₂Y sex chromosome system is more prevalent in species with predominantly acrocentric chromosomes. In species where biarmed chromosomes are favored by female meiotic drive, X‐autosome fusions (XY₁Y₂ sex chromosome system) will be also favored by female meiotic drive. In contrast, in species with more acrocentric chromosomes, Y‐autosome fusions (X₁X₂Y sex chromosome system) will be favored just because of the biased mutation rate toward chromosomal fusions. Further consideration should be given to female meiotic drive as a mechanism in the fixation of neo‐sex chromosomes.     

Different origins of bird and reptile sex chromosomes inferred from comparative mapping of chicken Z-linked genes

Recent progress of chicken genome projects has revealed that bird ZW and mammalian XY sex chromosomes were derived from different autosomal pairs of the common ancestor; however, the evolutionary relationship between bird and reptilian sex chromosomes is still unclear. The Chinese soft-shelled turtle (Pelodiscus sinensis) exhibits genetic sex determination, but no distinguishable (heteromorphic) sex chromosomes have been identified. In order to investigate this further, we performed molecular cytogenetic analyses of this species, and thereby identified ZZ/ZW-type micro-sex chromosomes. In addition, we cloned reptile homologues of chicken Z-linked genes from three reptilian species, the Chinese soft-shelled turtle and the Japanese four-striped rat snake (Elaphe quadrivirgata), which have heteromorphic sex chromosomes, and the Siam crocodile (Crocodylus siamensis), which exhibits temperature-dependent sex determination and lacks sex chromosomes. We then mapped them to chromosomes of each species using FISH. The linkage of the genes has been highly conserved in all species: the chicken Z chromosome corresponded to the turtle chromosome 6q, snake chromosome 2p and crocodile chromosome 3. The order of the genes was identical among the three species. The absence of homology between the bird Z chromosome and the snake and turtle Z sex chromosomes suggests that the origin of the sex chromosomes and the causative genes of sex determination are different between birds and reptiles.     

云南多斑按蚊种团两亲缘种核型和异染色质区的比较观察

通过对多斑按蚊种团亲缘种中的达逻毗按蚊An．dravidicus和威氏按蚊An．willmori核型与异染色区比较,发现存在着明显差异：威氏按蚊的性染色体为亚中着丝点,x染色体的长臂上出现3条带;而达逻毗按蚊的性染色体为端着丝点,x染色体以2条带为主。表明利用染色体技术研究该种团亲缘种的鉴定有一定的价值。     

Single Origin of Sex Chromosomes and Multiple Origins of B Chromosomes in Fish Genus Characidium

Chromosome painting with DNA probes obtained from supernumerary (B) and sex chromosomes in three species of fish genus Characidium (C. gomesi, C. pterostictum and C. oiticicai) showed a close resemblance in repetitive DNA content between B and sex chromosomes in C. gomesi and C. pterostictum. This suggests an intraspecific origin for B chromosomes in these two species, probably deriving from sex chromosomes. In C. oiticicai, however, a DNA probe obtained from its B chromosome hybridized with the B but not with the A chromosomes, suggesting that the B chromosome in this species could have arisen interspecifically, although this hypothesis needs further investigation. A molecular phylogenetic analysis performed on nine Characidium species, with two mtDNA genes, showed that the presence of heteromorphic sex chromosomes in these species is a derived condition, and that their origin could have been unique, a conclusion also supported by interspecific chromosome painting with a CgW probe derived from the W chromosome in C. gomesi. Summing up, our results indicate that whereas heteromorphic sex chromosomes in the genus Characidium appear to have had a common and unique origin, B chromosomes may have had independent origins in different species. Our results also show that molecular phylogenetic analysis is an excellent complement for cytogenetic studies by unveiling the direction of evolutionary chromosome changes.     

Dynamic sex chromosomes in Old World chameleons (Squamata: Chamaeleonidae)

Much of our current state of knowledge concerning sex chromosome evolution is based on a handful of ‘exceptional’ taxa with heteromorphic sex chromosomes. However, classifying the sex chromosome systems of additional species lacking easily identifiable, heteromorphic sex chromosomes is indispensable if we wish to fully understand the genesis, degeneration and turnover of vertebrate sex chromosomes. Squamate reptiles (lizards and snakes) are a potential model clade for studying sex chromosome evolution as they exhibit a suite of sex‐determining modes yet most species lack heteromorphic sex chromosomes. Only three (of 203) chameleon species have identified sex chromosome systems (all with female heterogamety, ZZ/ZW). This study uses a recently developed method to identify sex‐specific genetic markers from restriction site‐associated DNA sequence (RADseq) data, which enables the identification of sex chromosome systems in species lacking heteromorphic sex chromosomes. We used RADseq and subsequent PCR validation to identify an XX/XY sex chromosome system in the veiled chameleon (Chamaeleo calyptratus), revealing a novel transition in sex chromosome systems within the Chamaeleonidae. The sex‐specific genetic markers identified here will be essential in research focused on sex‐specific, comparative, functional and developmental evolutionary questions, further promoting C. calyptratus’ utility as an emerging model organism.     

H-Y antigen as a tool for the determination of the heterogametic sex in Amphibia

H-Y antigen was investigated in three amphibian species with different degrees of sex-chromosome differentiation: Bufo bufo, Triturus vulgaris, and Pyxicephalus adspersus. No heteromorphic sex chromosomes were found in B. bufo, but an examination of the progeny of hermaphrodites (Ponse, 1942) indicated that the female of this species was heterogametic (ZW). Sex chromosomes differing only by a very small heterochromatic region at their telomeres were found in the male of T. vulgaris (XY). Pyxicephalus adspersus revealed high differentiated ZW sex chromosomes. The results of the H-Y antigen studies on these three species indicate that H-Y antigen is expressed only in the heterogametic sex, irrespective of differences in morphological differentiation of the sex chromosomes. Therefore, H-Y antigen could be a valuable tool in determining the heterogametic sex, not only in Amphibia but possibly also in other vertebrate species that have either evolved no heteromorphic sex chromosomes or where sex-reversal experiments are not possible.     

Cytogenetic studies of Hynobiidae (Urodela)XVIII. A ZZ/ZW sex-determining mechanism in a hynobiid salamander species,Hynobius tokyoensis Tago

The karyotype of Hynobius tokyoensis (2n = 56) was analyzed using three kinds of banding methods to determine the morphological differentiation of the sex chromosomes of this species. Salamanders and egg sacs were collected from seven localities around Tokyo, Japan. Of 28 chromosome pairs, microchromosome No. 21 was identified as a ZZ/ZW-type sex chromosome. The Z chromosome was acrocentric, whereas the W chromosome was submetacentric, with a heterochromatic, elongated short arm. Interestingly, the W chromosome is of three distinct types, W(A), W(B), and W(C), based on R-banding and Ag-NOR patterns. W(A) was detected in five populations from southern habitats, whereas W(B) and W(C) were detected in one population each from northern habitats. W(A), W(B), and W(C) were all found to carry Ag-NORs on their heterochromatic short arms. Considering the karyotypes of other species belonging to the same genus, we discuss the evolution of the sex chromosomes of H. tokyoensis.