细尾高原鳅和东方高原鳅不同组织器官黑色素的分布和比较

采用组织学方法比较研究细尾高原鳅和东方高原鳅组织器官的黑色素分布特征。结果显示: 两种高原鳅头部皮肤、背部皮肤、体侧皮肤、腹膜肾脏层、脊髓腔壁层、腹膜壁层、围心腔壁层、脑颅腔壁层和眼睛均分布有黑色素;腹部皮肤、肝脏浆膜、脾脏被膜和性腺被膜未发现黑色素。皮肤中黑色素分布在真皮层和皮下组织,其他组织器官中黑色素分布在内膜层或壁层。黑色素主要分布在背侧,体侧则分布稀疏,呈现对称分布。背部和体侧皮肤有斑块处较无斑块处黑色素数量多,分布密集;无斑块处仅是部分聚集,或形成间断分布的黑色素块。同一种高原鳅不同组织器官黑色素分布不同,分布面积百分比和黑色素层厚度有显著性差异,但两种高原鳅同一组织器官黑色素分布特征相似。两种高原鳅组织器官中黑色素的分布与其接受的紫外辐射强度有关,是对高原强紫外辐射环境的适应。     

西藏高原鳅、细尾高原鳅和异尾高原鳅消化道结构的比较

运用解剖学、组织学方法比较研究西藏高原鳅(Triplophysa tibetana)、细尾高原鳅(Triplophysa stenura)和异尾高原鳅(Triplophysastewarti) 3种高原鳅的消化道结构。结果表明: (1)3种高原鳅的消化道均由口咽腔、食道、胃、肠组成。胃“U”型, 无幽门盲囊, 肠道短, 可分为前、中、后三个部分。异尾高原鳅胃长与消化道长比值最大, 比肠长最短, 为0.51±0.07, 与西藏高原鳅比肠长0.64±0.08和细尾高原鳅比肠长0.70±0.06, 差异显著。(2)异尾高原鳅胃黏膜层相对高度大于西藏高原鳅和细尾高原鳅, 肌肉层相对厚度也比其他2种鱼厚。前肠黏膜层为异尾高原鳅相对高度最大, 肌肉层为西藏高原鳅相对最厚。中肠与后肠黏膜层相对厚度由大到小为异尾高原鳅>细尾高原鳅>西藏高原鳅。综上所述, 3种高原鳅的消化道结构均符合肉食性鱼类特征, 推测异尾高原鳅的结构特征适于消化更多的动物性饵料。     

四川省条鳅亚科鱼类的研究：Ⅱ.高原鳅属

本文系四川地区条鳅亚科高原鳅属鱼类的分类研究。根据过去的记录结合标本比较分析了分布于四川的高原鳅属鱼类,整理出13种和亚种,对部分种类作了校订和补充。其中粗壮高原鳅TriplophysarobustaKessler和黑体高原鳅TriplophysaobscuraWang为省的新纪录。     

高原鳅属鱼类雄性第二性征

检测了33种350余尾高原鳅属Triplophysa鱼类的雄性标本,依据吻部两颊和胸鳍的特征,将该属鱼类的雄性第2性征分为12种类型。高原鳅的雄性第2性征具有多样性,不同种类的雄性第2性征可能存在差异,分布在不同或相同水系的同一种类的个体间雄性第2性征也可能发生变化。检视结果表明,仅依据雄性第2性征把高原鳅属划分为高原鳅亚属和赫氏鳅亚属Hedinichthys并不适合。     

短尾高原鳅繁殖力初步研究

对短尾高原鳅Triplophysa brevicauda的繁殖力进行了研究。结果表明,短尾高原鳅雌性个体的成熟系数显著高于雄性。雌性繁殖群体的个体绝对繁殖力为1 028~5 508粒,平均为2 804粒±1 282粒。体长相对繁殖力为42粒/mm±16粒/mm,体质量相对繁殖力为1 006粒/g±292粒/g。短尾高原鳅的绝对繁殖力分别与体长、体质量及性腺质量呈极显著线性正相关;体长相对繁殖力分别与体质量及性腺质量呈极显著线性正相关;体质量相对繁殖力与这些生物学参数均不相关。在雌性短尾高原鳅性腺中,卵径的分布呈"单峰型",推测短尾高原鳅属不分批产卵类型。     

似鲇高原鳅皮肤与鳍的组织学观察

采用石蜡切片技术及H.E和AB-PAS染色方法,对似鲇高原鳅(Triplophysa siluroides)头部、腹部、背部、侧线部和尾部皮肤结构及胸鳍、腹鳍、背鳍、臀鳍和尾鳍的组织结构进行观察。各部位皮肤均由表皮和真皮构成,真皮包括疏松层和致密层,不同部位皮肤厚度不同。表皮层腹部最厚,为(84.62±10.82)μm,侧线部最薄,为(14.97±3.95)μm,各部位表皮厚度差异显著。表皮层分布着黏液细胞、棒状细胞及味蕾。疏松层头部最厚,为(282.71±70.56)μm,尾部最薄,为(29.07±4.88)μm,该层分布有黑色素细胞、空泡状细胞和颗粒腺,而黏液腺分布于致密层。各部位的鳍均由表皮层、胶原纤维层、胶原下层及鳍条构成,表皮层与皮肤表皮层组成相似,鳍条是矿化的结缔组织。     

云南石林盲高原鳅的发现及其分类地位的讨论

石林盲高原鳅Triplophysa shilinensis Chen et Yang,sp.nov.是在我国发现的第四种洞穴条鳅鱼类。其鉴别特征为:眼睛完全退化;体半透明;须发达,鼻瓣延长成须状;体裸露无鳞;背鳍、尾鳍分枝鳍条分别为7和14根;体和尾柄较细长。在摒弃趋同演化特征后,综合形态性状并结合地理分布资料分析的结果表明,类似于南盘江高原鳅的祖先曾广泛分布于滇东南一带,后来随着地下河的发育分别进入个旧卡房笆蕉箐溶洞和石林尾博邑溶洞。在溶洞间的地理隔离作用下,形成了与环境相适应的各自形态特点,最终分别演化成为目前的石林盲高原鳅和个旧盲高原鳅。本文还依据朱松泉的条鳅分类系统,订正了如下2个种:个旧盲高原鳅Triplophysa gejiuensis (Chu et Chen)、湘西盲高原鳅Triplophysa xiangxiensis (Yang et al.)。     

广西高原鳅属鱼类一穴居新种记述

2003年1月,在广西壮族自治区天峨县红水河水系地下河采集到一批盲鱼标本。经鉴定,为高原鳅属Triplophysa一未经发表的新种。新种天峨高原鳅Triplophysa tianeensis sp．nov．与个旧盲高原鳅T．gejiuensis、石林盲高原鳅T．shilinensis、阿庐高原鳅T．aluensis和南丹高原鳅T．nandanensis相似;本新种腹鳍末端不达肛门,尾鳍分枝鳍条16,可进一步与个旧盲高原鳅和石林盲高原鳅(腹鳍末端达到肛门,尾鳍分枝鳍条14-15)相区别;本新种背鳍起点位于体之中点、腹鳍起点之后,肛门紧靠臀鳍起点,可进一步与阿庐高原鳅(背鳍起点靠近吻端、位于腹鳍起点之前,肛门距臀鳍起点仍有一段距离)相区别。本新种与同分布于红水河水系的南丹高原鳅Triplophysa nandanensis Lan et al.较为相似;但二者区别明显：新种背鳍分枝鳍条7、胸鳍分枝鳍条9、腹鳍分枝鳍条6、背鳍外缘平截、背鳍起点位于腹鳍起点之后,后者背鳍分枝鳍条8、胸鳍分枝鳍条10～11、腹鳍分枝鳍条7、背鳍外缘凹入、背鳍起点位于腹鳍起点之前;此外,新种的穴居特征更为显著：眼极度退化、头长为眼径16．8—32．8(25．0)倍、部分个体无色素斑且各鳍无斑点,而南丹高原鳅眼小、头长为眼径4．7～9．0(7．5)倍、体和头背侧密布云状斑且各鳍均具点状斑。     

野生和人工养殖似鲇高原鳅肌肉营养成分比较

对野生和人工养殖似鲇高原鳅的肌肉营养成分进行了比较分析。野生与人工养殖似鲇高原鳅肌肉中粗蛋白、粗脂肪、粗灰分、水分含量及氨基酸总量、非必需氨基酸总量、鲜味氨基酸总量无显著差异(P>0.05)。野生和人工养殖似鲇高原鳅的氨基酸组成基本一致,均含有17种氨基酸(色氨酸未测),必需氨基酸指数(EAAI)分别为85.17和82.48。根据氨基酸评分(AAS),似鲇高原鳅的第一限制性氨基酸为缬氨酸(Val);根据化学评分(CS),似鲇高原鳅的第一限制性氨基酸为蛋氨酸+胱氨酸(Met+Cys)。综合分析表明,野生似鲇高原鳅在常规营养品质上略高于人工养殖似鲇高原鳅,人工养殖似鲇高原鳅与野生似鲇高原鳅一样味道鲜美而且是补充人体所需赖氨酸的理想食品来源。     

贝氏高原鳅胚胎和仔鱼的形态发育

通过人工授精获得受精卵,对贝氏高原鳅胚胎和仔鱼的发育过程进行了观察和描述。结果表明,成熟卵淡黄色,卵径较小(直径0.94－1.10mm),遇水后产生强黏性。在水温9.0－12.8℃下,胚盘在受精后4h20min开始分裂,在19h50min和27h40min时达到囊胚期和原肠期,64h40min胚孔封闭,287h时部分胚胎开始出膜,405h30min全部出膜。初孵仔鱼全长(4.32±0.23)mm,肌节36－38对,眼和躯干部黑色素细胞明显,胸鳍原基发育良好。出膜后第5天仔鱼体侧和头部出现浓密的感觉芽。到第8天时全长(6.05±0.41)mm,卵黄吸收完全。仔鱼鳔一室和鳔二室分别于出膜后第30天和第50天形成。第55天的仔鱼全长(14.05±1.01)mm,肌节52－53对,体侧出现7－8条黑色素带,各鳍鳍条数目与成鱼基本一致,但仍有少量鳍褶存在。仔鱼的卵黄囊体积减小速度为0.027mm3/d,鱼体长度生长、鱼体长度性状间的比例关系并不相同,其中,肛后长／全长比例随胚后发育逐渐增加,由初出膜时的31%增加到最后的42％左右。     

异齿裂腹鱼仔鱼的黑色素分布

本文运用组织学方法对异齿裂腹鱼仔鱼发育过程中除眼睛以外的黑色素分布进行研究。结果表明: 异齿裂腹鱼孵化出膜后,黑色素在各个组织器官的出现顺序为: 脑颅外膜→围心腔、背部皮肤→腹腔内膜、脊髓腔。其中,出膜5 d时脑颅外膜处出现黑色素;7 d时围心腔和背部皮肤出现黑色素;10 d时腹腔内膜、脊髓腔出现黑色素。异齿裂腹鱼出膜10 d后,其皮肤和内脏器官(脑颅、围心腔、腹腔内膜、脊髓腔)均具有黑色素,且主要分布在背侧。黑色素在异齿裂腹鱼仔鱼发育过程中的出现时序和分布规律可能与其所处的强紫外辐射环境有关。本研究可为研究鱼类黑色素的紫外防护机制提供参考,并为今后高原鱼类仔鱼的培育条件优化提供理论支撑。     

Scrota1 melanins in bats (Chiroptera): description, distribution and function

Several species of bats contain pigment granules within the scrotal skin, tunica vaginalis, or tunica albuginea surrounding the testis and/or epididymis. Seventy-two species of bats, representing 49 genera were examined for the presence of such pigmentation. Histological, chemical and spectrophotometric tests were performed and confirmed the pigment as melanin. Melanin was found only in the families Pteropidae, Megadermatidae, Myzopodidae and Vespertilionidae. A strong correlation exists between scrotal pigmentation and roosting in locations where the bats are exposed to solar radiation. Melanin pigmentation in the scrotal region appears to be an adaption protecting male germinal tissue from the harmful effects of ultraviolet radiation. In one species, Laoiu frons , melanin deposited within the scrotal skin appears to have a social/reproductive communication function.     

Synthesis and assembly of fungal melanin

Melanin is a unique pigment with myriad functions that is found in all biological kingdoms. It is multifunctional, providing defense against environmental stresses such as ultraviolet (UV) light, oxidizing agents and ionizing radiation. Melanin contributes to the ability of fungi to survive in harsh environments. In addition, it plays a role in fungal pathogenesis. Melanin is an amorphous polymer that is produced by one of two synthetic pathways. Fungi may synthesize melanin from endogenous substrate via a 1,8-dihydroxynaphthalene (DHN) intermediate. Alternatively, some fungi produce melanin from l-3,4-dihydroxyphenylalanine (l-dopa). The detailed chemical structure of melanin is not known. However, microscopic studies show that it has an overall granular structure. In fungi, melanin granules are localized to the cell wall where they are likely cross-linked to polysaccharides. Recent studies suggest the fungal melanin may be synthesized in internal vesicles akin to mammalian melanosomes and transported to the cell wall. Potential applications of melanin take advantage of melanin's radioprotective properties and propensity to bind to a variety of substances.     

Regulation of human skin pigmentation and responses to ultraviolet radiation

Pigmentation of human skin is closely involved in protection against environmental stresses, in particular exposure to ultraviolet (UV) radiation. It is well known that darker skin is significantly more resistant to the damaging effects of UV, such as photocarcinogenesis and photoaging, than is lighter skin. Constitutive skin pigmentation depends on the amount of melanin and its distribution in that tissue. Melanin is significantly photoprotective and epidermal cells in darker skin incur less DNA damage than do those in lighter skin. This review summarizes current understanding of the regulation of constitutive human skin pigmentation and responses to UV radiation, with emphasis on physiological factors that influence those processes. Further research is needed to characterize the role of skin pigmentation to reduce photocarcinogenesis and to develop effective strategies to minimize such risks.     

Melanoprotein: absence of a direct melanin-protein relationship in chick embryo melanocytes.

Short-term synthesis of radioactivity labeled melanin (using DL-[2-14C]tyrosine or 2-[2-14C]thiouracil) by chick retinal pigment tissues in vitro was not influenced by inhibitors of protein synthesis, puromycin and cycloheximide. Co-ordinate synthesis of protein is, therefore, unnecessary for melanin synthesis, and melanoproteins must represent secondary interactions between melanin and protein. Melanin was isolated from chick embryo feather germs by extracting the proteins with hot dodecyl sulfate/mercaptoethanol. Melanin isolated from tissues incubated previously in L-[U-14C]valine medium had no associated radioactivity compared to the radioactivity of melanin prepared from tissues incubated in DL-[2-14C]tyrosine or 2-[2-14C]thiouracil. If melanoproteins exist at all, they are non-covalently bonded associations of melanin and melanosomal proteins.     

Microstructure of cell wall-associated melanin in the human pathogenic fungus Cryptococcus neoformans

Melanin is a virulence factor for many pathogenic fungal species, including Cryptococcus neoformans. Melanin is deposited in the cell wall, and melanin isolated from this fungus retains the shape of the cells, resulting in hollow spheres called "ghosts". In this study, atomic force, scanning electron, and transmission electron microscopy revealed that melanin ghosts are covered with roughly spherical granular particles approximately 40-130 nm in diameter, and that the melanin is arranged in multiple concentric layers. Nuclear magnetic resonance cryoporometry indicated melanin ghosts contain pores with diameters between 1 and 4 nm, in addition to a small number of pores with diameters near 30 nm. Binding of the antibodies to melanin reduced the apparent measured volume of these pores, suggesting a mechanism for their antifungal effect. We propose a model of cryptococcal melanin structure whereby the melanin granules are held together in layers. This structural model has implications for cell division, cell wall remodeling, and antifungal drug discovery.     

Melanoprotein Absence of a direct melanin-protein relationship in chick embryp melanocytes

Short-term synthesis of radioactivity labeled melanin (using dl-[2-¹⁴C]tyrosine or 2-[2-¹⁴C]thiouracil) by chick retinal pigment tissues in vitro was not influenced by inhibitors of protein synthesis, puromycin and cyloheximide. Co-ordinate synthesis of protein is, therefore, unnecessary for melanin synthesis, and melanoproteins must represent secondary interactions between melanin and protein. Melanin was isolated from chick embryo feather germs by extracting the proteins with hot dodecyl sulfate/mercaptoethanol. Melanin isolated from tissues incubated previously in l-[U-¹⁴C]valine medium had no associated radioactivity compared to the radioactivity of melanin prepared from tissues incubated in dl-[2-¹⁴C]tyrosine or 2-[2-¹⁴C]thiouracil. If melanoproteins exist at all, they are non-covalently bonded associations of melanin and melanosomal proteins.