长蛸生殖系统的形态学与组织学观察

运用解剖学和组织学方法对长蛸(Octopus variabilis)生殖系统的形态结构进行了研究.结果表明,长蛸雌雄异体并异形,雄性右侧第三腕茎化.长蛸雌性生殖系统由一个卵巢、成对的输卵管及输卵管腺组成.卵巢壁上发出一条线状具分支的生殖索,米粒状的滤泡以卵柄连接至生殖索上.每个滤泡是由单层滤泡细胞围绕着一个卵母细胞构成.输卵管形成丰富的纵行褶皱,黏膜上皮具有纤毛.输卵管腺含有两种类型腺细胞.雄性生殖系统包括精巢、输精管前段、储精囊、摄护腺、盲囊、输精管后段和精荚囊.精巢内部被结缔组织分隔成许多精小叶,精原细胞由小叶壁中的生殖上皮产生,并向小叶腔中逐步分化成精子.输精管前段、盲囊和摄护腺所分泌的黏液物质共同参与精荚的形成.储精囊和输精管后段形成较多的纵行褶皱,输精管后段上皮游离面的纤毛可运输生殖细胞.精荚囊的作用则是贮存精荚,囊壁中的平滑肌利于长蛸交配时精荚的排出.     

黑脊倒刺鲃精巢结构和精子发生的研究

用光学显微镜和电子显微镜研究了黑脊倒刺鲃精巢的组织结构和精子发生过程。精巢属于小叶型,由精小叶、小叶间质、壶腹腔和输出管构成。精小叶由各期生精细胞和支持细胞构成。除初级精原细胞以外的各期生精细胞和支持细胞组成了精小囊。每一精小囊中的生精细胞发育同步。成熟的精子从精小囊中释放出来,进入小叶腔中。在精巢的腹侧,小叶腔与壶腹腔连接。在壶腹腔的外侧,有一条与壶腹腔平行的输出管。壶腹腔与输出管相通。在壶腹腔和输出管中都充满精子。精巢的后端与贮精囊相连。贮精囊中充满形状不规则的腔隙。腔隙中有精子分布。输出管从精巢延伸出来,进入贮精囊中,位于贮精囊的一侧。左右两个贮精囊通向一条共同的输精管。输精管上皮具有分泌功能。精子发生在精小叶中进行。精子发生经历了初级精原细胞、次级精原细胞、初级精母细胞、次级精母细胞和精子细胞阶段。精子细胞经过精子形成过程,形成精子。     

平疣桑椹石磺生殖系统结构及精子储存场所

雌雄同体贝类精子的储存和利用规律一直是国内外贝类生物学研究的难点之一,本文利用活体解剖、显微观察、组织切片和扫描电镜技术,综合研究了平疣桑椹石磺(Platevindex mortoni)的生殖系统及精子储存场所。结果显示,其生殖系统包括生殖器本部、雌性生殖部分和雄性生殖部分。生殖器本部由两性腺、两性输送管、蛋白腺、黏液腺、支囊组成;雌性生殖部分包括输卵管、受精囊、阴道,位于身体中后方体腔内;雄性生殖部分包括输精管、刺激器、阴茎、阴茎鞘和阴茎牵引肌,位于身体前端右侧体腔内;其阴茎有阴茎鞘,阴茎表面布满倒刺。平疣桑椹石磺阴茎为直线状,无雄性附属腺。未交配的性成熟个体支囊内充满细长精子,受精囊内无精子;而交配后充当雌性个体的支囊内均为细长的自体精子,受精囊内有大量活力较强的粗短精子,其支囊为自体精子的存储场所,而受精囊为异体精子的存储场所。其精子储运情况为:两性腺内精子成熟后暂存于支囊,交配时通过输精管运输至阴茎,由阴茎输送精子至对方的阴道,异体精子进入受精囊内存储待用。     

可口革囊星虫的精子发生及精子结构

为了探究可口革囊星虫(Phascolosoma esculenta)精子发生过程及结构上的特殊性,用显微及亚显微技术研究了可口革囊星虫的精子发生和精子结构。可口革囊星虫的精巢位于收吻肌基部,为一曲折的带状组织。成熟精巢内可观察到精原细胞、精母细胞以及精细胞等各阶段的生精细胞。在精子形成早期,很多精细胞脱离精巢,以精细胞团的形式掉落到体腔中。精细胞团内的精细胞同步发育为精子后,脱离精子团进入肾管。成熟精子由头部和尾部组成。头部由钟形顶体与鼓形细胞核构成。顶体后段下包于精核的前端。顶体分内、中、外三层,外层有横隔;顶体下腔内有颗粒状物质不均匀分布,中央有一束丝状纤维组成的顶体棒。核物质电子密度高,核内含空泡。无核前窝,具浅的核后窝。尾部分中段和末段,中段由6个(偶见5个或7个)线粒体围绕近、远端中心粒构成;末段细长鞭状,由轴丝及包绕轴丝的质膜组成,轴丝为典型的"9 2"结构。分析认为:可口革囊星虫精子发生过程以及超微结构上存在特殊的结构与机制:①精细胞团保证了精子形成的同步性;②顶体后段下包于精核的前端使精子头部小而灵巧,利于快速运动;③顶体的横隔使精子顶体的牢固性增强,确保受精时顶体反应的正常进行;④中段较多的线粒体使精子具有更强的环境适应性,有利于有效的受精。     

日本沼虾雄性生殖系统的研究：Ⅲ.输精管内精荚的结构与形成

于光镜和电镜下研究日本沼虾输精管内精荚的结构与形成。结果显示：粗荚呈索状,由精子群、精荚基质、粘液团和荚壁组成;精荚基质与粘液团内均含有交织的纤丝,其中散布着絮状泡和同心圆形泡,精荚壁呈“Ｃ”型,单层,由致密纤丝、絮状泡和沟形的网状结构组成,包裹精子群和粘液团;前、中、后输精管的上皮细胞均具合成、分泌精荚形成物质的功能。     

成年日本新糠虾雄性生殖系统的组织学

对成年日本新糠虾(Neomysis japonica)雄性生殖系统的解剖特征和组织结构进行了观察,结果表明,日本新糠虾雄性生殖系统由精巢、输精管和交接器组成,整体似“n”形。精巢左右对称,由一条“n”形的精索和其外侧延伸形成的19～21个精母细胞囊及与之相连的19～21个精子细胞袋组成,精子细胞袋位于精母细胞囊背部偏外侧的位置,通过一个短窄的通道与输精管相连。输精管是一个“n”形的管子,位于精索的背面,其前段连着精巢,后段逐渐变细,直至第8胸节向腹部弯曲变得更细,随后膨大形成壶腹,壶腹向后通入交接器中并在末端膨大。交接器位于身体的腹中线附近,其壁由外层的角膜层和内层的上皮细胞层组成,具有防御和保护功能;其内的肌肉层加厚,外层为环肌层,内层为纵肌层。从精索,经精母细胞囊,到精子细胞袋依次分布着不同发育阶段的精细胞。成熟精子有头部和尾部两部分,头部较短,尾部相当长,且头尾之间有一个15°的转角。精子呈簇分布形成精子束,精子束通过精子细胞袋与输精管间的通道被输送到输精管中,并沿输精管向交接器运输。     

池塘养殖三疣梭子蟹雄体生长和性腺发育规律

池塘养殖是三疣梭子蟹(Portunus trituberculatus)的主要养殖方式,但关于池塘养殖三疣梭子蟹雄体的生长和性腺发育规律尚不清楚。本研究通过定点连续采样,首先系统研究池塘养殖过程中三疣梭子蟹雄体的生长和成熟雄体生殖系统的外观及组成的变化,其次研究池塘养殖三疣梭子蟹雄体性腺发育过程中性腺各部分组织学特征及其指数的变化,以及不同月份雄体性腺发育的情况和比例。结果表明:(1)三疣梭子蟹雄体的体重和壳宽增长率及特定增长率均在8月份最高,且体重与壳宽呈显著正相关关系。(2)三疣梭子蟹成熟雄体的生殖系统由体外(阴茎、交接器)和体内(精巢、输精管)两部分构成。(3)根据精巢和输精管的外观、组织学特征及其指数的变化,可将三疣梭子蟹雄体性腺发育分为3期。精子发生期,即精巢内主要细胞类型是精原细胞和初级精母细胞,精巢指数为0.07%～0.16%,此时输精管呈透明状,肉眼很难发现;精荚形成期,精巢内主要细胞类型为次级精母细胞和精子细胞,精巢指数为0.10%～0.51%,输精管内有大量精荚和分泌物,输精管指数为0.01%～0.41%;成熟期,精巢内主要细胞类型是精子细胞和成熟精子,精巢指数为0.10%～0.41%,输精管进一步膨大,输精管指数为0.20%～0.65%。(4)在雄体性腺发育期间,性腺指数和输精管指数呈显著上升趋势,而精巢指数呈现先上升后下降的趋势,且统计分析发现性腺指数与肝胰腺指数无明显的相关性。(5)池塘养殖雄体性腺发育不同步,7月份主要处于精子发生期,8月底,有76%的雄体性腺发育达到精荚形成期,至9月底,达到成熟期雄体的比例为47%,此后雄体性腺发育趋于成熟,10月中下旬至12月份池塘养殖雄体均主要处于成熟期。     

耳河螺生殖器官和精子的形态学研究

耳河螺「Ｒｉｖｕｌａｒｉａ ａｕｒｉｃｕｌａｔａ （Ｍａｒｔｅｎｓ）」为雌雄异体。雄性生殖器官由精巢,输精小管,贮精囊,输精管,前列腺和阴茎组成。精巢内有精子,精子有典型精子和非典型精子两种。扫描电镜下,典型精子头部呈螺旋状,尾端只有一根较粗壮;非典型精子头部和中部为棒状,尾部呈扫帚状,由８－１５根鞭毛组成。     

唐鱼精巢的组织学观察

应用光学显微镜对唐鱼Tanichthys albonubes精巢的组织结构进行了观察.结果表明,唐鱼的精巢属于小叶型结构.性成熟唐鱼的精巢呈乳白色,长条状,左右各一,合并成“Y”型.小叶间质把精巢分成许多精小叶,每个精小叶由数个精小囊组成,精子就在精小囊中形成.同一精小叶内的精小囊不一定同步发育,但同一精小囊中的生精细胞发育是同步的.唐鱼的精子发生和形成过程经历了初级精原细胞、次级精原细胞、初级精母细胞、次级精母细胞、精子细胞和成熟精子6个阶段.精巢内同时存在初级精原细胞和次级精原细胞两种类型的精原细胞.     

脉红螺Rapana venosa(Valenciennes)生殖系统的组织解剖学研究

脉红螺为雌雄异体。雄性生殖系统包括8部分:精巢、输精小管、贮精囊、输精管、前列腺、输精管外套段Ⅰ、输精管外套段Ⅱ和阴茎。雌性生殖系统包括7部分:卵巢、输卵小管、输卵管Ⅰ段、纳精囊、输卵管Ⅱ段、蛋白腺和产卵器。 脉红螺精子形成过程中有精子细胞团形成。精子线形,由头段、中段和尾段构成。头段核基部内凹形成倒“U”形管;中段有丝状线粒体鞘,螺旋缠绕轴丝;尾段由9条粗纤维包围‘9+2’型轴丝构成。 本文亦对前列腺、蛋白腺及蛋白质卵黄粒等的超微结构作了观察。     

The Vas Deferens of the Spanish Lobster,Scyllarus chacei

Summary

The male reproductive tract of Scyllarus chacei consists of paired testes and vasa deferentia that conduct sperm containing spermatophores to the genital pores at the base of each fifth walking leg. The testis is joined to the vas deferens which can be divided into four regions: (1) the anterior vas deferens can be further divided into three regions. It is highly convoluted and is the region in which the sperm become encapsulated in ovoid spermatophores of approximately 100 sperm as well as produces seminal fluids. (2) The middle vas deferens is the primary site of sperm storage and adds to seminal fluids which formed in the anterior region. (3) The posterior region is highly muscularized and may serve for limited sperm storage. (4) The most distal portion is the ejaculatory duct which is highly muscularized for extruding the spermatophoric mass for transfer to the female. A final seminar product is added here.     

The histochemical localization of prostaglandin synthetase activity in reproductive tract of the male rat.

PG synthetase activity was assessed histochemically in the reproductive tract of male rats. Moderate activity was observed in tails of spermatozoa within the corpus and cauda epididymidis but there was no activity in the caput epididymidis or the seminiferous tubules. The sperm tail activity was maximal for cells within the vas deferens. PG synthetase activity was also observed in individual adipose cells adhering to the testicular capsule, epididymis and vas deferens, and in isolated interstitial cells of the testis and the caput, corpus and cauda epididymidis. Specific cells in the capsules of the testes, epididymis and vas deferens also produced PGs. The activity observed in the interstitial cells of the testis and the caput epididymidis was less than that for the other tissues in terms of the proportion of possible cells. The demonstration of PG synthetase activity paralleled to known loss of arachidonic acid from the phospholipids of the spermatozoa as they pass through the male tract. Endogenous substrate was not limiting in the assay system, even in the testis and caput epididymidis where PG synthesis was not normally observed, indicating that a PG synthesis inhibitor may be present in these two tissues. PG synthetase activity within teased seminiferous tubules was markedly increased by physical trauma. Indomethacin diminished but did not eliminate synthesis.     

Morphology and development of the male reproductive tract in Callinectes danae (Crustacea: Brachyura)

The aim of this study was to characterize the morphology and function of each section of the reproductive system of male Callinectes danae, as well as the stages of reproductive development and their relation to secondary sexual characteristics. Development of their reproductive system begins after completion of the pubertal moult. The growth of the gonopodium showed negative allometry for both juveniles and adults. The reproductive system is divided into portions with different functions. There is a germinal zone in the testes containing spermatogonia, a zone of maturation containing spermatocytes, spermatids or spermatozoa, as well as a collecting duct, which carries spermatozoa to the vas deferens. There are two matrices in the anterior vas deferens that initiate the separation of spermatozoa groups, one composed of polysaccharide acids (matrix I) and another consisting of neutral polysaccharides (matrix II). In the median vas deferens, the matrix II forms an acellular capsule, which forms the spermatophores. In the posterior vas deferens, the matrices are accumulated, initially with a granular texture and are homogenous for the final portion. The ejaculatory duct and penis have muscle lining to expel the spermatophores at copulation. Even after copulation, males retain a stock of spermatophores, allowing copulation with other females.     

中华绒螯蟹(Eriocheir sinensis)雄性生殖系统的组织学研究

中华绒螯蟹雄性生殖系统的组织学研究表明:生精小管一侧为管壁上皮,另一侧为生发区,生殖细胞由生发区基底部同管腔增殖。输精管分为输精细管和贮精囊,管壁上皮具分泌功能,贮精囊有肌肉层。射精管壁肌肉层较厚,粘膜形成纵行皱襞。副性腺内壁为单层立方上皮。生殖系统发育有明显的季节性,8月开始发育加速,10月进入高峰,4月开始发育停滞。     

Ultrastructure and histochemistry of the male reproductive system of the genus Callinectes Stimpson, 1860 (Brachyura: Portunidae)

We described the ultrastructure and histochemistry of the reproductive system of five Callinectes species, and evaluate the seasonal variation in weight of the reproductive system and hepatopancreas by comparing annual changes of somatic indices. The somatic indices changed little throughout the year. In Callinectes, spermatogenesis occurs inside the lobular testes and, within each lobule, the cells are at the same developmental stage. Spermatogenesis and spermiogenesis follow the same development pattern in all Callinectes studied. Mature spermatozoa are released into the seminiferous ducts through the collecting ducts. Cells of the vas deferens are secretory as evidenced by rough endoplasmic reticulum, Golgi complex, and secretory vesicles that produce the seminal fluid. The anterior vas deferens shows two portions: proximal and distal. In proximal portion (AVDp), spermatozoa are clustered and embedded in an electron-dense, basophilic glycoproteinaceous secretion Type I. In the distal portion (AVDd), the spermatophore wall is formed by incorporation of a less electron-dense glycoproteinaceous secretion Type II. The secretion Type I change to an acid polysaccharide-rich matrix that separates the spermatophores from each other. The median vas deferens (MVD) stores the spermatophores and produces the granular glycoproteinaceous seminal fluid. The posterior vas deferens (PVD) has few spermatophores. Its epithelium has many mitochondria and the PVD seminal fluid changes into a liquid and homogeneous glycoprotein. Many outpocketings in the PVD and MVD help to increase the fluid production. Overall, the reproductive pattern of Callinectes is similar to other species that produce sperm plugs. The secretions of AVD, MVD, and PVD are responsible for the polymerization that forms the solid, waxy plug in the seminal receptacle. The traits identified here are common to all Portunidae species studied so far.     

中国对虾雄性生殖系统的结构及发育

本文较详细地叙述中国对虾雄性生殖系统的结构,与以前作者描述的有异。其精巢为分叶状;输糟管中段和分泌管道共处于同一圆管之内;生殖管道上皮多有分泌功能。在一次发育期中精子的发生大约持续两个月,产生的精子量大;雄虾具有多次交配的能力。     

Development of the genital ducts in Telmatodrilinae (Tubificidae, Clitellata)

In Tubificidae, the male genital duct comprises a funnel in the testes segment, followed by a vas deferens, an atrium, and, frequently, a copulatory structure in the adjacent ovarian segment. There may also be a diffuse or compact prostate gland in association with the duct. The morphology and position of the genital ducts are important for the classification of the oligochaetous Clitellata. Different parts of the male duct, however, have been named without regard to whether they are homologous or not. One way to establish better hypotheses of homology is to study the detailed morphology and/or the development of the genital ducts. The morphogenesis of the genital ducts in Alexandrovia onegensis (Telmatodrilinae) is described. The male funnel originates by multiplication of peritoneal (mesodermal) cells in the posterior septum in the testes segment. A cord of these cells breaks through the septum and grows backwards into the next segment, where it connects to the epidermis. This cord gives rise to the vas deferens, and is therefore mesodermal in origin. The atrium in A. onegensis develops from a primary epidermal (ectodermal) invagination. The vas deferens and atrium connect and a continuous duct from the testes segment to the exterior is formed. Several compact prostate glands develop along the atrium, each being formed from cells in the atrial epithelium. The spermatheca develops from an invagination of the epidermis in the testes segment. The female duct is formed from peritoneal (mesodermal) cells in the posterior septum in the ovarian segment. These developmental findings strengthen the hypothesis about a closer relationship between the Telmatodrilinae and Tubificinae (both Tubificidae).     

Immunohistochemical localization of two angiotensin I-converting isoenzymes in the reproductive tract of the male rabbit

The male reproductive tract contains two different isoenzymes of angiotensin I-converting enzyme (ACE), i.e., pulmonary and testicular ACE. The present study shows selectively the cellular distribution of the ACE isoenzymes in the reproductive tract of male rabbit, using indirect immunofluorescence or immunoperoxidase methods. Testicular ACE was found in the seminiferous tubules of the testes in spermatocytes containing mature spermatids, and in spermatids within the epididymal tubular lumen in sexually mature, but not in immature, rabbits. Epididymal tubular cells contained pulmonary ACE. In the young rabbit, epididymal tissue contained more ACE than that in adult rabbit, since ACE was observed in principal cells in addition to basal cells. In mature rabbit, ACE was observed in basal cells only. Strong staining for pulmonary ACE was observed in cells of the vas deferens in both young and adult rabbit. Therefore, synthesis of epididymal ACE, unlike the testicular isoenzyme, was not stimulated by sexual maturation. Enzymatically active ACE in seminal fluid corresponds to the pulmonary isoenzyme. The present study indicates that this seminal fluid ACE may originate from cells of the epididymal tubules, particularly those of the vas deferens. Endothelial cells of blood vessels lying in the interstitium of both testicular and epididymal tissue contained the pulmonary isoenzyme.