不同渗透压的稀释液对猕猴精子低温冷冻保存的影响

以稀释液TTE (382 mOsm/ kg) 为对照, 研究了5 种渗透压(688 、389 、329 、166 、43 mOsm/ kg) 的TEST 稀释液(TEST、mTEST1、mTEST2、mTEST3、mTEST4) 在冷冻过程中对猕猴精子功能的影响。精液一 步稀释于含甘油的防冻液中, 甘油的终浓度为5 % (v/ v) 。在冷冻前后分别检测精子的运动度和质膜完整性, 后者用Hoechst 33342 和碘化丙锭双色标记流式细胞术分析。结果表明: 冷冻之前, 与鲜精相比, 用TEST 和 mTEST4 稀释的精子运动度和质膜完整性显著降低( P < 01001) , 其余组中除mTEST2 稀释的精子质膜完整性显 著降低( P < 0105) 外, 精子运动度无差异; 冷冻复苏后, TTE、mTEST3 和mTEST1 冻存精子的运动度和质膜 完整性最高, 其次是mTEST2 , TEST和mTEST4 冷冻效果最差( P < 0105) 。提示等渗、适当高渗或低渗的稀释 液适合猕猴精子的冷冻保存; 对精子产生高渗毒害作用是导致猕猴精子用TEST 冷冻存活率低的主要原因。

四种渗透性防冻剂在猕猴精子低温冷冻保存中对精子功能状态的影响

以冷冻精子的复苏运动度、荧光染料Hoechst 33258 检测的细胞膜完整率、异硫氰酸荧光素标记的 花生凝集素(FITC2PNA) 检测的顶体完整率作为精子功能状态的指标, 对甘油、二甲亚砜、乙二醇和丙二醇4 种常用渗透性防冻剂在猕猴精子冷冻保存过程中的作用进行了比较。结果表明: 冷冻保存精子的复苏运动度, 甘油(4713 ±517 %) 和乙二醇(4418 ±617 %) > 二甲亚砜(2219 ±019 %) > 丙二醇(0 ±0 %) ; 细胞膜完整 率, 甘油(5418 ±312 %) 和乙二醇(5410 ±617 %) > 二甲亚砜(3715 ±710 %) > 丙二醇(2813 ±615 %) ; 顶 体完整率, 甘油(8212 ±214 %) 和乙二醇(8214 ±214 %) > 二甲亚砜(6817 ±517 %) 和丙二醇(7213 ± 315 %) ( P < 0105) 。结果提示: 二甲亚砜和丙二醇, 尤其是丙二醇并不适合猕猴精子的冷冻保存; 而乙二醇具 有和甘油相似的保护作用, 是一种极具潜力的猕猴精子冷冻保存的渗透性防冻剂。

Effect of butachlor on spermatogenesis, testosterone amount and testes tissue Rutilus frisii kutum Kamenskii 1901

Morphological assessment of sexually mature Rutilus frisii kutum Kamenskii 1901 caught from the rivers (Shirud, Khoshkrud, Sepidrud and Chelavand Rivers) flowing in the southwest Caspian Sea region was conducted and sperm volume, total sperm count and sperm concentration of abnormal sperms were determined after exposing the spawners to 60% herbicide butachlor (machete). Spawners under study were maintained in tanks (1000 l) at the Shahid Ansari Teleost Fish Hatchery and exposed to two different concentrations (25% and 75% of its LC50 value) of butachlor. Results obtained indicate that exposure to high butachlor toxicity (75% of its LC50 value) decreased sperm volume to 0.61 ± 0.42 cc in 2-3 year old fishes and to 0.55 ± 0.42 cc in fishes above 3 years of age, while that in fish exposed to low butachlor toxicity (25% of its LC50 value) decreased to 1.55 ± 0.42 cc in 2-3 year old fishes and to 1.28 ± 0.42 cc in fishes above 3 years of age. The sperm volume under normal conditions in R. frisii kutum is 4.6 ± 0.42 cc in 2-3 year olds and 4.58 ± 0.42 cc in fishes above 3 years of age. The total sperm count in R. frisii kutum is 39.74 ± 2.5 billion spermatozoa/cc in 2-3 year olds and 42.99 ± 2.5 billion spermatozoa/cc in fishes above 3 years of age. When exposed to high butachlor toxicity, total sperm count dropped to 16.92 ± 2.5 billion spermatozoa/cc in 2-3 year olds and to 15.98 ± 2.5 billion spermatozoa/cc in fishes above 3 years of age. Similarly total sperm count in R. frisii kutum exposed to low butachlor toxicity was recorded as 23.6 ± 2.5 billion spermatozoa/cc in 2-3 year olds and 29.4 ± 2.5 billion spermatozoa/cc in fishes above 3 years of age. Under normal conditions, on the basis of morphology, spermatozoa showed only 10 ± 1.92% of abnormal sperms. The number of abnormal sperms increased by 28.6 ± 1.92% in fishes exposed to high butachlor toxicity, while that in fishes exposed to low butachlor toxicity increased by 19.7 ± 1.92% in 2-3 year olds and 16.6 ± 19.2% in fishes above 3 years of age. It is evident from the results obtained that increase in level of pollution caused a decrease in sperm volume but an increase in the percentage of abnormal sperms. Results obtained indicate that exposure to high butachlor toxicity (75% of its LC50 value) decreased testostron hormone to 0.31 ± 0.22 ng/ml in high butachlor toxicity, and to 0.45 ± 0.22 ng/ml in low butachlor toxicity (25% of its LC50 value). Testostron hormone dropped to 0.53 ± 0.22 ng/ml in 2-3 year olds and to 0.79 ± 0.22ng/ in fishes above 3 years of age. The testostron hormone under normal conditions in R. frisii kutum is 2.7 ± 0.22 ng/ml. It is evident from the results obtained that increase in level of pollution caused a decrease in testostron hormone

Study on biological characteristics, sexual maturation and reproduction of Liza abu in the water of Khozestan Province

As the most of the fish resources are known and exploited, protecting their generation is of the greatest importance. Aquaculture is one of the efficient procedures in protecting and reviving fish resources and knowing about the reproductive cycle and gonads development has an important role in approaching this aim. Liza abu belongs to the family Mugilidae that according to its resistance to the environmental condition and its fast growth , can be introduced as a fish with economical value. As there is no scientific data on the reproductive biology of this species , study on the reproductive biology and gonad development is considered as the aim of this research . For this purpose , 360 samples of this species were investigated during the period from February 2007 to January 2008 in Khozestan Province . After studing morphological and histological characteristics of gonad specimen , they were prepared through histological method. Samples were prepared through usual histological method and studied under light microscope. According to the results, the maturity stages of male and female Liza abu were separated to six different successive stages. In ovaries , these stages were as follow : In stage І, the oocytes were small , this stage was observed from July to October . In stage ІІ, considerable growth was observed in the oocytes . This stage was observed from October to January . In stage III, due to vitellogenesis, the maximum growth was observed and three layers of theca, granullosa and follicle cells were visible. This stage was observed during January and February . In stage IV, migration of germinal vesicle was observed and due to hydration of the oocytes , their diameter was increased. The ovaries were yellowish and in maximum size and ovules could be easily observed with naked-eye . This stage was observed in February and March . In stage V, spawning occured. This stage was observed in April . In stage VI, ovaries consisted of immature and atretic oocytes and also empty follicles. This stage was observed in May and June. In testes , these stages were as follow : In stage I , the testes were small in size and contained the spermatogonia which were the only cellular components.This stage was observed in August and September . In stage II (maturing virgin ) , the spermatogonia and the primary spermatocytes were visible. This stage was observed in October . In stage III (developing), intensive spermatogenesis was occured and the primary and the secondary spermatocytes were the most visible cells during this stage .This stage was observed from November to January. In stage IV(developed), cells of all stages of spermatogenesis could be seen but the secondary spermatocytes and spermatids were in large number. This stage was observed from January to March. In stage V , the testes were filled with sperms. This stage was observed in March and April .In stage VI, residual spermatozoa and the spermatogonia were visible in the testes. This stage was observed from May to August. According to cyclic changes in GSI, sexual maturation in breeding begins in January and spawning occurs in April. The ova diameter ranged from 30.75 μ in stage I to 472.19 μ in stage IV. In this study , the sex ratio was 1:2.7, and male and female percentage were 27.02% and 72.98% respectively. This means that females predominate males. In this study absolute fecundity was calculated and changing between 30805.44 to 431247.3 was observed and absolute fecundity was calculated 111275.3 in average.

Effect of antibiotics on development in vitro of hamster pronucleate ova

Antibiotics are commonly added to embryo culture media, but effects on embryo development have not been examined thoroughly. Hamster ova were used to investigate whether penicillin, streptomycin or gentamicin affect embryo development in vitro. Ova were collected 10 h post activation by spermatozoa in vivo and cultured in five treatments: 1) Control: chemically-defined medium HECM-9 with no antibiotics; 2) HECM-9 with 100 IU/mL, penicillin; 3) HECM-9 with 50 mug/mL streptomycin; 4) HECM-9 with 10 mug/mL,gentamicin and 5) HECM-9 with both 100 IU/mL penicillin and 50 mug/mL streptomycin. Individually, penicillin, streptomycin and gentamicin did not affect embryo development to the 8-cell stage at 58 h post oocyte activation, or morula/blastocyst stages, or blastocysts alone at 82 h post activation. However, when penicillin and streptomycin were both present in the culture medium the percentages of 8-cell embryos at 58 h and blastocysts at 82 h were significantly lower than the control. No antibiotic treatment improved hamster embryo development in vitro. We caution against the use of penicillin and streptomycin together for hamster embryo culture, and show that it is not necessary to include any antibiotics in embryo culture media for up to 72 h if proper sterile technique is used with an oil overlay. (C) 2000 by Elsevier Science Inc.

Effect of amino acids on cryopreservation of cynomolgus monkey (Macaca fascicularis) sperm

The effects of three amino acids (proline, glutamine, and glycine) added to the freezing medium Tes-Tris-egg yolk (TTE) for cryopreservation of cynomolgus monkey (Macaca fascicularis) spermatozoa were studied. This is the first report on the effects of amino acids on nonhuman primate sperm cryopreservation. The addition of 5 mM proline, 10 mM glutamine, and 10 or 20 mM glycine each significantly improved post-thaw sperm motility and membrane and acrosome integrity compared with the control (TTE alone). However, a significant decrease in motility and membrane/acrosome integrity was observed when amino acid concentrations increased to 60 mM for proline and glutamine, and 80 mM for glycine. The results suggest that adding a limited amount of amino acids to the freezing media is beneficial for freezing cynomolgus monkey sperm.

Comparative studies with six extenders for sperm cryopreservation in the cynomolgus monkey (Macaca fascicularis) and rhesus monkey (Macaca mulatta)

Ejaculated spermatozoa from cynomolgus monkeys and rhesus monkeys were frozen in straws with six different extenders (TTE, DM, mDM, LG-DM, G-DM, and TCG) containing glycerol. Sperm motility and head membrane and acrosomal integrity were evaluated after fr

Effect of sugar type on the survival of frozen-thawed rhesus monkey (Macaca mulatta) sperm

Sperm-freezing extenders supplemented with sugar or a combination of different sugars are widely used for the cryopreservation of nonhuman primate spermatozoa. Understanding which sugar or combination of sugars offers the highest level of cryoprotection w

Survey of biosystematic and sexual reproductive physiology in Holothuroidea on Hormozgan Province

Sea cucumbers belong to phylum Echinodermata, order Holothuroidea are an abundant and diverse group of Invertebrates, with over 1400 species occuring from the intertidal to the deepest oceanic trenches. Sea cucumbers are important components of the food chain in temperate and coral reef ecosystems and they play an important role as deposite feeders and suspension feeders. Rapid decline in populations may have serious consequences for the survival of other species that are part of the same complex food web,as the eggs, larve and juveniles constitute an important food source for the other marine species including crustaceans, fish and mollusks. In addition sea cucumbers are often called the earthworms of the sea, because they are responsible for the extensive shifting and mixing of the substrate, and recycling of detrital matter. Sea cucumbers consume and grind sediment and organic material into finer particles , turning over the top layers of sediment in lagoons , reefs and other habitats and allowing the penetration of oxygen. While the taxonomy of the holothurian families is generally well known , the distinction of similar species is difficult. There are relatively few holothurian taxonomist.Most sea cucumber species can be identified by Holothurin taxonomists by using the calcareous skeletal ossicles found in the body wall. In this study , at first a sea cucumber from Kish island in Persian gulf has recognized. Individuals collected from west and east extend far away into north and south of coral reefs by diving. I have checked them morphologically and anatomically.Then with key to the orders of the Holothuroidea, They belong to the Aspidochirotida with key to the families of Aspidochirotida, they were in Stichopodidae families and with key to the genus of Stchopodidae, they were Stichopus. Then ossicles were extracted at National Museum of Natural History, by Dr David Pawson. The ossicles were measured on a transect across a slide prepared from the mid-dorsal region of each specimen.The one we have in the shallow waters of Kish island, is Stichopus hermanni, a massive holothurian, body broad, considerably flattened ventraly ,the dorsal side slightly arched and the lateral sides almost vertical; body wall fairy thick and soft ; mouth subterminal; anus central; tentacles usually 20 in number of length and leaf shaped. Numerous ossicles consisting of table with large discs having usually 7 to 15 peripheral holes, but often irregular or incomplete and spire of moderate height ending in a group of spinelets, rosettes of variable development, and c-shaped rods. Color (exept papillae)partly remained after preservation in alcohol which is found at the depth of 4 to 8 meters, on coral reef. Furthermore, the sexual reproductive cycle was described using standard methods. Gonads were removed and transferred to Bouin's fixative for four weeks and then processed according to standard embedding technique. To prevent the loss of tubule contents during embedding, the tubule sections, were cut well beyond the segment selected for sectioning. For each individual, six sections, each section with 5µm diameter by microtome were cut from tubules. These sections were first placed on gelatin coated slides (the gelatin was heated to 42°c) and then transferred to the oven at 37°c for one hour. This technique usually prevents the fragil tubules from breaking and the loss of gametes. The slides were stained with Eosin and Hematoxylin, and good resolution of the various cell types achieved.A second series of slides was stained with the Periodic Acid Schiff(PAS) to identify polysaccharides(glycogen). Monthly sampling was occurred.The sexual reproductive cycle was defined through the combined use of these criteria: Monthly percentages of the gonad stages for each sex, the monthly gonad index (GI) , given as the ratio of the wet gonad weight (G) to the dray weight (DW)and the monthly percentage of individuals that undetermined sex. The gonad consists of two tufts of tubules on which saccules develop. Gonadal development was classified into five stages: post spawning, recovery, growth, advanced growth, and mature stage that were adapted from the earlier studies of holothurians. Histological preparations showed that the sex of larger individuals could be identified by the presence of oogonia and young oocytes in females, and spermatogonic stages in males.The mean diameter of the tubules and gonadal mass follow annual cycles, increasing from late winter through spring, and dropping abruptly after spawning in the summer. Gametogenesis is generally a prolongate process and begins in March. By summer the ovarian tubules contain oocytes with diameter of 120-240 pm and the testicular tubules contain an abundance of spermatozoa (diameter 5-6 gm ).Following spawning the predominant activity within the spent tubules is phagocytosis of the residual gamets.The active phase of gametogenesis (March to July), coincides with an increasing photoperiod regim, and an accelerated gametogenesis occurs in July when temperature is high. Throughout the year, the gonad of Stichopus hermanni is larger in males than in females, and this is due to the number of tubules in the testis rather than to tubules length or diameter.

Study on the reproductive biology of Pinctada fucata (Gould) (Mollusca: Pteriidae)

Annual cycle of gonad development and spawning in pearl oyster, Pinctada ficata (Gould) in Nakhiloo, Northeast Persian Gulf, was investigated over two years from August 1994 to June 1996. Gonadal condition was assessed by staging criteria to describe gametogenic development from histological preparations of randomly collected individuals of all sizes. A bimodal gametogenic pattern with summer and autumn spawning periods was evident throughout the study. Gametogensis commenced in November-December which proceeded by major gonadal maturation during February-April. Summer spawning was observed from April to July with major spawning at the latter end. During spawning peak in July, low level of gametogensis was noticed. Gametogenic activity was picked up again in August-September which proceeded by autumn spawning from September to December. Towards the end of spawning season, incidence of gonadal inactivation increased. Minimum level of gonadal activity was observed in November. Temperature regime appears to have influential role in regulation of gametogenic and spawning processes. Gonadal development and spawning trends were similar in both sexes. P. radiaata was found to be protandrous hermaphrodite which matured as a male at shell height greater than 20 mm. Biseivality was uncommon and the sex ratio was about 1:1. Ultrastructure of gametes were investigated in the Pictada fucata (Gould). "Auxiliary cells" closely accociated with developing oocytes were observed. Each oocyte seems to be associated with only one secretory cell. which is characterized by an abundant rough endoplasmic reticulum at the onset of vitellogenesis. Contact between this cell and a developing oocytes is maintained by a desmosome-like junction which can be observed when the vitelline coat is formed. these "auxiliary or nursing cells" seem to play a tropic role in vitellogenesis, and may be involved in the formation of the vitelline coat of the oocytes. Oocytic degeneration is observed in this species, it is a continuous phenomenon of varing intensity throughout the year. The ultrastructural changes resulting in lysis of the oocyte are described. Mature spermatozoa consist of a broad, cap-shaped acrosomal vesicle, subacrosomal material, a round nucleus, two triplet substructure centrioles surrounded by four spherical mitochondria, and a flagellum anchored to the distal centriole and plasma membrane. Spermatozoa of Plucata closley resemble to those of other investigated Pteriidae. Changes in proximate composition of soft tissue and gonadal cycle of Pinctada fucata was studied. Mobilization and utilization of stored reserves are apparent during gametogenesis and gonadal maturation. Protein reserves are utilized during spermatogenesis while reserved carbohydrates form the main energy donor in oogenesis. The role of lipid as am.: energy reserve is second to that of carbohydrate.

Cloning and expression of medaka dazl during ernbryogenesis and gametogenesis

The Deleted in azoospermia family consists of RNA-binding proteins Bottle, Daz, and Daz-like (Dazl) that are expressed in the germline. Here, we report the cloning and expression of the medakafish (Oryzias latipes) dazl gene (odazl). Interestingly, although the predicted medaka Dazl protein (oDazl) contains a RRM motif and a DAZ repeat characteristic of its mammalian homologs, it lacks 80 aa at the C-terminus. By RT-PCR, RNA in situ hybridization, Western blotting and fluorescent immunohistochemistry using a rabbit anti-DazI antibody (alpha Oazl), we analyzed the expression patterns of odazl and its protein. The odazl transcript persists throughout embryogenesis and delineates with primordial germ cells. In adults, the expression of odazl RNA and its protein is restricted to germ cells of both the testis and ovary. We observed differential expression of RNA and protein at critical stages of gametogenesis. In the testis, the odazl RNA is low at premeiotic stages, abundant at meiotic stages, but absent in postmeiotic stages; whereas the oDazl protein is rich in premeiotic stages, reduced at meiotic stages, becomes barely detectable or absent in postmeiotic round spermatids or sperm, respectively. This is in sharp mature spermatozoa. In the ovary, the odazl RNA contrast to the human situation where the Dazl transcript and protein are present in and protein persist throughout oogenesis and also show differential expression at premeiotic, meiotic and postmeiotic stages. Thus, the odazl or its protein is a marker for germ cells during embryogenesis and at critical stages of gametogenesis in both sexes of medaka. (c) 2006 Elsevier B.V. All rights reserved.

猕猴精子冷冻保存方法的改进及活率检测

精液的冷冻保存对家畜繁殖、人类辅助生殖以及濒危物种保护有着重要意义。然而目前精子冷冻的研究很大程度上是经验性的，并且要使用含卵黄、脱脂乳等复杂成分的稀释液。这些复杂成分不仅是潜在的污染源，也使精子冷冻中的质量控制及分析特定物质的功能变得困难。即便如此也仅有约50％的精子能够存活下来，而且存活精子的受精能力也有所下降。称猴是生物医学研究中使用广泛的灵长类动物，开展赫猴精子的冷冻保存有利于该物种的繁殖并促进基础胚胎学的研究，成功的称猴精子冷冻方法还可以为其它珍稀濒危灵长类动物所借鉴。但是目前成功的称猴精子冷冻的报道仍然很少，且精子质量检测方法并不完善。因此本文致力于建立简单有效的称猴精子冷冻方法和活率检测方法。主要结果如下：1）建立了一种用单一紫外激光同时激发Hoechst33342和碘化丙锭结合流式细胞术检测称猴精子活率的有效方法，并将此方法用于称猴精子冷冻研究。2）发现甘油的一步加入或去除与分步加入或去除对称猴精子冷冻效果没有明显影响，在此基础上发现各种糖类稀释液之间的作用差异很小，但不含糖的化学成分确定的TT稀释液对精子冷冻保护作用显著高于糖类稀释液。这可能是因为TT的渗透压（138mOsm/kg）较好地适合于猫猴精子的冻存，高渗毒害作用可能是导致称猴精子用TEST冷冻存活率低的重要原因。3）以TT为基础稀释液，探讨了精子冷冻中一些关键因素，以期进一步改进冷冻方法。结果表明精液一步稀释于含5％甘油的一倍浓度TT，平衡0.5h可得到最佳效果，总体上复苏精子的运动度可达到55％以上，质膜完整性能达到6D％左右。这种方法与传统的以含有卵黄的TTE为稀释液的称猴精子冷冻方法效果相当，复苏精子还能够成功地进行体外受精。另外，用液化精液1：2直接稀释于防冻液还能进一步提高冷冻效果。本研究建立的用化学成分确定稀释液冷冻称猴精子的简单方法，有利于提高称猴精子的冻存效率，并有助于分析特定成分在精子冷冻中的作用。而Hoechst33342和碘化丙锭双染方法，是一种简单有效的精子活率检测方法，并在多参数精子功能的流式检测中有很高应用价值。

灵长类动物精子超低温冷冻保存的研究

精子的超低温冷冻保存为珍稀、濒危动物种质资源的保存、人类不育症的治疗、家畜繁殖以及辅助生殖技术（如人工授精、体外受精和胚胎移植）的进一步发展奠定了基础。灵长类动物精子的冷冻保存距今已有30多年的历史，到目前为止，全世界两百余种灵长类动物中仅有约15个物种的精子被冷冻保存的报道，而用冷冻精液人工授精产下后代的报道仅见于大猩猩、黑猩猩、食蟹猴、械猴和称猴等5种灵长类动物。冻精人工授精率如此之低主要是因为人们对灵长类动物精子的低温生物学知识、精子的冷冻损伤机制以及某些物质的冷冻保护作用机理缺乏了解，导致了冷冻复苏精子的存活率降低，受精力急剧下降。为了探讨灵长类动物精子冷冻损伤的机理，提高精子的冷冻保存效率，本论文以食蟹猴和称猴为动物模型，以冷冻复苏精子的运动度、质膜完整率和顶体完整率为检测指标，对．影响灵长类动物精子冷冻保存效果的因素作了积极的探讨和研究：1）研究了脯氨酸、谷氨酞胺和甘氨酸对食蟹猴精子冷冻保存的影响，发现一定浓度的氨基酸有利于食蟹猴精子的冷冻保存，但高浓度的氨基酸却会对冷冻复苏精子产生负面影响；2）首次建立了灵长类动物精子成分确定防冻液的冷冻保存方法，为准确分析研究精子冷冻损伤机制和某些物质的冷冻保护机理莫定了基础；3）对比研究了不同类型冷冻保存稀释液及不同渗透性防冻剂在食蟹猴精子冷冻保存中的作用以及对冷冻复苏精子功能的影响，筛选、优化出了凡种适合于食蟹猴精子冷冻保存的稀释液和渗透性防冻剂；4）比较研究了几种不同类型防冻液对食蟹猴和称猴精子冷冻保存的效果，发现适合食蟹猴精子冻存的防冻液也同样适合于称猴精子。本研究的结果既有利于改进现有的灵长类动物精子冷冻保存方法，又有利于对精子的冷冻损伤机制和保护性物质的作用机理作进一步的研究，为低温生物学和生物多样性的保护作贡献。

猕猴精子的冷冻保存以及影响冷冻复苏精子功能的因素

自从1949年Polge等研究者发现甘油的冷冻保护作用，开创了低温生物学的里程碑以来，精子冷冻保存已经逐渐成为治疗人类不育、家畜繁殖和生物多样性保护的重要手段。然而目前人类对多数物种的基本生殖生物学及其种质冷冻保存的低温生物学知识仍很缺乏。哺乳动物精子冷冻的研究很大程度上是经验性的，即使运用最现代的低温冷冻程序和仪器设备，也仅有约50％的精子能够存活下来。灵长类动物的精子对冷冻非常敏感，迄今为止应用称猴冷冻精子人工受精仅产生过一个后代。为了提高冷冻保存精子的功能和受精能力，本论文以称猴为动物模型，以冷冻复苏精一的运动度、精子质膜和顶体的完整率以及体外受精作为精子功能的检钡l指标，探讨影响动物精子冷冻保存的因素。通过研究1）建立了适合称猴精子冷冻保存的适宜方法以及冷冻复苏精子功能的检测方法，并首次成功地运用冷冻称猴精子体外受精；2）检测了不同甘油浓度和二甲亚飒浓度对冷冻复苏精子运动能力、精子质膜、精子顶体结构和受精能力的影响，确定了称猴精子冷冻保存的适宜甘油浓度；3）对比研究了不同类型渗透性防冻剂在精子冷冻保存中的作用以及对冷冻复苏精子功能的影响，发现对于称猴精子，除了甘油外，乙二醇也是一种优秀的渗透性防冻剂，而丙二醇和二甲亚矾对精子产生了较大的毒害作用，并不适合称猴精子的冷冻保存；4）研究了单糖、二糖和二糖在精子冷冻复苏过程中的保护作用，发现不同类型糖类的冷冻保护作用存在显著差异，单糖和二糖对精子的冷冻保护作用优于二糖，二糖在冷冻复苏过程中对于精子的顶体产生了破坏作用，不同类型的糖类配合使用可以提高对精子的冷冻保护效率。本研究的结果有利于优化灵长类动物精子冷冻保存的方法，包括调整防冻液的成分和冷冻降温程序，从而有助于提高精子冷冻保存的存活率。此外，还有利于深入研究哺乳动物精子冷冻损伤的机制和探讨防冻剂的冷冻保护机理.

棘蛙族(Tribe Paini)精子形态结构及精巢年周期研究

棘蛙族(Tribe Paini)隶两栖纲(Amphibia)、无尾目(Anura)、蛙科(Ranidae)、叉舌蛙亚科(Dicroglossinae)，由棘蛙属(Paa)、倭蛙属(Nanorana) 和沙巴蛙属(Chaparana)构成（Dubois,1992）。由于特殊的形态特征和染色体核型，棘蛙族受到国内外学者的广泛重视和研究，但是到目前为止，棘蛙族的系统发育关系尚未明晰，族下属种的分类和归属问题还有待进一步研究和新的证据出现。本文通过光学显微镜、电子显微镜和石蜡切片对棘蛙族10 物种的精子和精巢进行研究，旨在了解棘蛙族精子的形态、量度、超微结构特征及不同季节精巢结构的变化规律，同时为棘蛙族的系统研究提供新的依据，也为棘蛙族濒危物种的保护和经济物种的繁殖提供基础资料。研究结果表明：棘蛙族各属物种精子的形态基本相似，精子整体呈线形，由头部、中片和尾部构成。精子头部呈长条状，顶体呈锥状，位于头部顶端并向前伸出，中片较长，尾部波动弯曲。棘蛙族各属物种精子量度差异较大，将各属物种精子头部、中片、尾部、头宽、尾宽的量度数据进行聚类分析，结果表明棘蛙族10 物种可分为三类：第一类包括棘侧蛙、合江棘蛙、小棘蛙、棘腹蛙和棘胸蛙，特点是精子较短，全长在72.6～103.35µm 之间；第二类包括倭蛙、高山倭蛙、腹斑倭蛙，特点是精子较长，全长在107.74～129.75µm 之间；第三类包括隆肛蛙和双团棘胸蛙，特点是精子最长，全长在145.89～165.84µm 之间。棘蛙族各属精子超微结构基本相似：精子头部由顶体、细胞核构成；中片由中心粒、线粒体构成；尾部由单根轴丝构成。精子顶体横切呈圆环状，细胞核电子密度高；线粒体为卵圆形，呈环状围绕轴丝排列，线粒体数目较多，约30层；尾部轴丝为典型的9＋2结构，即由2根中央微管和9对外周微管组成。不同季节的倭蛙精巢结构变化表明倭蛙精巢每年只有一个生精周期，生精周期始于7 月，繁殖季节从5 月到6 月，生精高峰期为9 月；根据倭蛙不同季节精巢结构的变化，可将生精周期分为3 个阶段：第一阶段从7 月到9 月，为精子形成期；第二阶段从10 月到翌年4 月，为精子的贮存阶段，也即倭蛙的冬眠期；第三阶段从5 月到6 月，为精子的排放阶段，即倭蛙的繁殖期。不同季节的隆肛蛙精巢结构变化表明5 月为隆肛蛙的繁殖高峰期。根据棘蛙族各属精子的形态、量度和超微结构特征，结合已有的棘蛙族形态学、生态学、染色体核型及系统学研究成果，本文认为：1．基于精子数据对棘蛙族的划分和基于形态学及分子系统学数据对棘蛙族的划分均有相同之处，精子形态结构可为棘蛙族的系统研究提供新的证据。2． 棘蛙族各属精子的形态、量度及超微结构不仅与蛙科其他属种有明显差异，而且在无尾类中也较为特殊，精子学研究结果支持将棘蛙族从蛙科中分离出来，归隶于叉舌蛙科的叉舌蛙亚科的系统学修正。3. 精子的顶体、细胞核、中片的形态结构及量度可作为蛙科的分类指标。On the base of unique morphological and kyrotype characters, Dubois(1992)recognized three genera Paa, Narnorana, Chaparana as tribe Paini, which is amember of Dicroglossinae, Ranidae. In present study, the sperm shape, size andultrastructure of 10 paini species were investigated through the light and electronmicroscope, and testis structure of N. pleskei and F. quadrana was also studied. Wesuppose this study could offer some spermatological evidence to phylogeny andreproduction study of tribe Paini. The results were as follows:The sperm shape of tribe paini is homologically similar, the spermatozoa arefiliform, composed of elongate head, long mid-piece and waved tail. The acrosome isapically associated with the nucleus and extend anteriorly.The sperm length of tribe paini differ remarkably among genera. Cluster for thelength of sperm head, mid-piece, tail, total length, head-width, tail-width of ten painifrogs indicated the 10 species could be separated into three groups: GroupⅠcontainsP. shini, P. robertingeri, P. spinosa, P. exilispinosa, P. boulengeri, the spermatozoa ischaracterized with short in total length, ranging from 72.6µm to 103.35µm; GroupⅡcontains N. pleskei, N. parkeri, N. ventripunctata, the spermatozoa ischaracterized with relatively long in total length, ranging from 107.74µm to129.75µm; Group Ⅲ contains F. quadrana and P. yunnanensis, the spermatozoa is characterized with longest in total length, ranging from 145.89µm to 165.84µm. thethree groups based on spermatological data is partially match the classification basedon morphological and molecular data.The ultrastructure of spermatozoa in tribe paini is also basic similar, includingacrosome vescile, nuleus of the head proper, centriole, mitochondriol of themid-pieces, axoneme of the tail. The acrosome vescle is circle in TEM transversesection, the density of nucleus is high; The mitochondrions is oval, surrounding theaxial filament with about 30 layers of mitochondria; The axoneme has the typical 9+2pattern of microtubules.The seasonal changes in testis of N. pleskei indicates it has only onespermatogenesis circle, which begin in July, the reproduction season is from May toJune, the spermatogenesis is active in September. On the base of seasonal changes intestis, the spermatogenesis circle can be separated into three stages: In stageⅠfromJuly to September, spermatids are formed; In stage Ⅱ from October to April next year,the spermatozoa are stored in testis,which is the hibernated period; In stage Ⅲ fromMay to June, mature spermatozoa were released from the testis, which is thereproduction season of N. pleskei. As to F. quadrana, reproduction is active in May.With the previous study of morphology, ecology, karyotypes and phylogenyresearch of tribe Paini, the spermatological data in present study suggests:1. The spermatological classification of tribe paini is partially consistant with themorphological and molecular classification respectively.2.The sperm morphology and ultrustructure of tribe paini is unique not only inthe family Ranida but also in Anura, which suggest the tribe paini is monophyletic andmight be transfered from the family Ranida to the family Dicroglossidae based onmolecular evidence.3. The acrosome, nuleus, shape, length and ultrastructure of mid-piece can beused as an alternative taxonomic character in Anura.