半滑舌鳎仔、稚鱼视网膜结构与视觉特性

对1-50d半滑舌鳎仔、稚鱼视网膜和全长50mm的半滑舌鳎幼鱼视网膜结构和视觉特性进行了研究。结果表明:(1)3d仔鱼色素层形成,15d仔鱼没有显著的视网膜运动反应,25d时具有正常感受自然光的明视功能,43d半滑舌鳎稚鱼适应自然光的功能丧失;(2)半滑舌鳎仔鱼阶段感受细胞主要为高密度的单锥,视杆细胞和双锥细胞出现的较晚;单锥融合成双锥时,由于半滑舌鳎视锥细胞椭圆体细长,融合程度较差,尽管在视网膜横切面上能够看到双锥,但在切向切面上仍呈现单锥排列方式;随其生长发育,视锥和神经节细胞密度降低,视杆细胞密度增加,31d后视杆细胞数量显著增加;同时,外核层细胞核与神经节细胞的比值增大,网络会聚程度提高;相关数据表明,20-31d是视网膜结构和视觉特性发生明显变化的过渡时期,这是与半滑舌鳎从浮游生活到底栖生活生态环境的变化相适应的;(3)半滑舌鳎内核层结构特殊,50mm时只有1层水平细胞,属感光系统不发达类型,双极细胞和无长突细胞共4-5层,但不可分辨;内核层细胞层数的减少,基本上没有分化的水平细胞、双极细胞和无长突细胞,说明半滑舌鳎视网膜的光敏感性不高;(4)半滑舌鳎仔鱼浮游生活阶段视敏度较高,视觉在捕食行为中具有重要意义;底栖生活后,视敏度和光敏感性都较差,视觉在捕食行为中不可能具有重要作用     

河川沙塘鳢视觉器官的发育及其与摄食的关系

利用光学显微镜观察了河川沙塘鳢(Odontobutis potamophila)视觉器官的发育,并对其发育与摄食的关系进行了研究。河川沙塘鳢的眼囊起源于神经外胚层。当胚胎发育至心跳期时,眼囊内陷形成视杯;之后,视杯内表面的外胚层形成晶状体而与视杯分离,视杯进一步发育形成视网膜。随着胚胎的进一步发育,晶状体的直径增加,结构逐步发育完善。胚胎发育至眼黑色素出现期时,视网膜分化为6层,其中,外核层、内核层和神经节细胞层3个核层明显;胚胎发育至孵化前期时,视网膜已分化为10层。孵出后1d的仔鱼,其视网膜已能行使功能,仔鱼逐渐开口摄食。随着稚、幼鱼的发育,视网膜厚度进一步增加,结构发育完善。视网膜的结构和视觉特性显示河川沙塘鳢是要求光照条件好、白昼活动并具有较好视觉功能的鱼类。     

根田鼠视网膜的胚后发育

视觉对动物的生活习性尤其是取食具有重要意义。本文对根田鼠视网膜的胚后发育进行了研究,结果表明:出生3d内根田鼠视网膜分化程度较低,神经节母细胞层尚未分化,占据了视网膜层的一半以上;5日龄时,外网层开始出现;6日龄时,外网层开始清晰,外核层与内核层更加清晰;18日龄时,视网膜结构与成年根田鼠结构相似,各层结构清晰可见。测量了神经节细胞层和外核层的细胞密度以及核层厚度,结果表明:随着个体发育,外核层细胞层厚度及细胞密度不断增加;而神经节细胞层厚度及细胞密度不断减少。与褐家鼠、黑线姬鼠、大仓鼠、棕色田鼠、甘肃鼢鼠、达乌尔黄鼠、岩松鼠视网膜相比,根田鼠视网膜结构介于夜行性与昼行性鼠类之间[动物学报52(2):376-382,2006]。     

褐菖鲉的视觉器官发育

为研究褐菖鲉（Sebastiscus marmoratus）视觉器官发育与生态习性及摄食行为之间的关系,用组织学方法对人工培育条件下的褐菖鲉仔、稚鱼的视觉器官发育特征进行了详细观察。结果表明,褐菖鲉为卵胎生鱼类,其视觉器官的分化速度较一般鱼类快,从母体产出时,仔鱼视网膜神经细胞层和原始晶状体已形成;1日龄仔鱼的视网膜分化为6层,晶状体出现纤维化,直径约72 μm,仔鱼开始具有一定趋光性;2日龄仔鱼视网膜分化完成,可见10层结构,巩膜出现,与仔鱼开口摄食相适应,游泳能力增强;5 ~ 7日龄晶状体直径达99 μm,晶状囊形成;17日龄,仔鱼角膜结构分化完成,脉络膜趋于完善;37日龄稚鱼的视觉器官各部分已经发育完全。     

模式生物海洋青鳉鱼的视觉结构与功能发育

目的通过对海洋青鳉鱼视觉器官的结构与发育情况进行组织观察,为进一步研究其行为学提供理论依据,同时也可为研究其他相关物种提供实验方法。方法将组织进行石蜡包埋切片处理,显微观察。结果海洋青鳉鱼的视觉器官发育快速,胚胎时期就已分化出眼球的色素层,有明显的眼球区域;刚出膜时,视网膜发育不完整,未分化出外核层和外网状层;出膜1 d,视网膜结构分化基本完成;6 d,已有明暗视觉功能;14 d,观察到明显的视网膜运动现象;23 d,视网膜结构发生较大变化,与该阶段海洋青鳉鱼的生活习性转变有密切联系;9~14月龄,视网膜各层的厚度均有所减小,表明视觉有一定程度退化。同时,内核层分化明显,感光细胞层的视椎细胞与视杆细胞呈紧密镶嵌的结构。结论海洋青鳉鱼视觉器官的发育过程阶段性明显,且有较好的光敏感性和视敏度强的特点。     

猫视网膜年龄相关的形态学变化

取老年猫(12龄,3～3．5kg)和青年猫(1～3龄,2～2．5kg)各4只的视网膜,经4％多聚甲醛处理后,用H．E．染色以显示视网膜结构,Nissl染色显示神经节细胞,免疫组织化学ABC法染色以显示星形胶质细胞特征性标志物胶质纤维酸性蛋白(GFAP)的阳性反应细胞的分布。显微镜下观察测量视网膜厚度,计数神经节细胞、GFAP免疫反应阳性细胞数。与青年猫比较,老年猫视网膜总厚度以及外核层、外网状层、内核层和内网状层厚度均显著减小;神经节细胞层的细胞密度显著下降;GFAP免疫反应阳性细胞显著增加,GFAP阳性细胞阳性反应强,胞体明显膨胀,突起稠密粗大。推测在衰老过程中视网膜细胞有神经元丢失现象,可能是造成视觉功能衰退的重要原因之一;视网膜星形胶质细胞的功能增强可能会延缓衰老。     

施氏鲟仔鱼发育及异速生长模型

施氏鲟仔鱼的生长发育可分为两个时期:卵黄囊期(或称为自由胚期),即从刚出膜(0日龄,10.17±0.63 mm)到初次开口(9日龄,18.93±0.74 mm);晚期,从开口摄食至器官发育基本完全(38日龄,41.89±5.09 mm).卵黄囊期仔鱼的感觉、摄食、呼吸、游泳等器官快速分化;晚期仔鱼各骨板分化并发育,在形态上逐渐完成向成鱼的转变.对施氏鲟仔鱼异速生长进行的研究表明,仔鱼许多关键器官均存在异速生长现象,如眼径、口宽、尾鳍长、胸鳍长分别在2日龄、8～9日龄、10日龄、11日龄出现生长拐点,拐点之前器官快速生长,拐点之后生长速度减慢甚至近似等速生长.施氏鲟仔鱼各器官呈现出协调和快速发育的特征,随着重要的感觉、摄食、呼吸、游泳等器官的发育和完善,仔鱼快速地具备了躲避敌害和摄食的能力,其生存能力大大提高.     

施氏鲟仔鱼发育圾异速生长模型

施氏鲟仔鱼的生长发育可分为两个时期:卵黄囊期(或称为自由胚期),即从刚出膜(0日龄,10.17±0.63 mm)到初次开口(9日龄,18.93±0.74 mm);晚期,从开口摄食至器官发育基本完全(38日龄,41.89±5.09 mm).卵黄囊期仔鱼的感觉、摄食、呼吸、游泳等器官快速分化;晚期仔鱼各骨板分化并发育,在形态上逐渐完成向成鱼的转变.对施氏鲟仔鱼异速生长进行的研究表明,仔鱼许多关键器官均存在异速生长现象,如眼径、口宽、尾鳍长、胸鳍长分别在2日龄、8~9日龄、10日龄、11日龄出现生长拐点,拐点之前器官快速生长,拐点之后生长速度减慢甚至近似等速生长.施氏鲟仔鱼各器官呈现出协调和快速发育的特征,随着重要的感觉、摄食、呼吸、游泳等器官的发育和完善,仔鱼快速地具备了躲避敌害和摄食的能力,其生存能力大大提高.     

哲罗鱼仔鱼饥饿实验及不可逆生长点的确定

在水温10-12℃条件下,研究了哲罗鱼Hucho taimen仔鱼饥饿对其生长、形态和行为的影响,确定其初次摄食饥饿不可逆点(PNR)和最佳初次摄食时间.结果表明:饥饿状况下哲罗鱼仔鱼全长基本维持恒定,但肥满度不断降低,在第24日龄后体重出现负增长,其卵黄囊吸收与生长变化密切相关;饥饿后的仔鱼身体发黑、头大身瘦、后脑部下陷;集群性、初次摄食力与饥饿时间呈负相关;25日龄出现自残现象,30日龄自残率达到最大值14.5%.哲罗鱼仔鱼初次摄食时间在21日龄,当29日龄摄食率达到最高值100%,PNR期为39-40日龄;初次摄食仔鱼最佳投喂时间在25日龄,也就是仔鱼上浮后第4天.     

俄罗斯鲟仔鱼初次摄食时间对生长及存活的影响

以人工繁育的俄罗斯鲟仔鱼为对象,采用实验生态学方法,研究了初次摄食时间对生长及存活的影响。结果表明：在水温17.4 ℃下,仔鱼在9～10日龄初次摄食,初次摄食前投喂对俄罗斯鲟仔鱼的生长和存活无显著性影响,延迟2 d以上初次摄食对生长影响明显,存活率在18日龄初次摄食时显著下降,24日龄时饥饿仔鱼全部死亡;23～24日龄时仔鱼如不能建立外源营养即达到饥饿不可逆点（PNR）。人工养殖条件下,俄罗斯鲟仔鱼必须在初次摄食后14 d内建立起主动摄食能力才能保证其仔鱼的正常发育、生长和存活。     

胭脂鱼眼早期形态发生研究

采用组织学方法观察了胭脂鱼(Myxocyprinus asiaticus) 眼的发生过程, 结果显示: 胭脂鱼眼的发育经历了眼原基形成期、眼囊形成期、视杯形成期、晶体板形成期、晶体囊形成期、角膜原基形成期、角膜上皮形成期、视网膜细胞增殖期、晶状体成熟期、眼色素形成期以及眼成型期等11个时期。视网膜发育最早, 起始于眼原基的形成, 直至眼成型期分化完成, 形成了厚度不一的8层细胞, 由内向外依次为神经纤维层、神经细胞层、内网层、内核层、外网层、外核层、视杆视锥层和色素上皮层, 且发育历时最长, 约264h。晶状体的发育在视网膜之后, 始于晶体板的形成, 于出膜前期成熟, 发育历时最短, 约74h。角膜发育最晚, 始于角膜原基的形成, 出膜1 d分化为透明的成熟角膜, 发育历时约96h。出膜4 d仔鱼眼色素沉积明显, 视网膜各层分化明显, 晶状体内部完全纤维化, 眼的形态结构基本发育完全。     

Pax-6 expression during retinal regeneration in the adult newt

The present study examined the expression of Pax-6 during retinal regeneration in adult newts using in situ hybridization. In a normal retina, Pax-6 is expressed in the ciliary marginal zone, the inner part of the inner nuclear layer, and the ganglion cell layer. After surgical removal of the neural retina, retinal pigment epithelial cells proliferate into retinal precursor cells and regenerate a fully functional retina. At the beginning of retinal regeneration, Pax-6 was expressed in all retinal precursor cells. As regeneration proceeded, differentiating cells appeared at the scleral and vitreal margins of the regenerating retina, which had no distinct plexiform layers. In this stage, the expression of Pax-6 was localized in a strip of cells along the vitreal margin of the regenerating retina. In the late stage of regeneration, when the layer structure was completed, the expression pattern of Pax-6 became similar to that of a normal retina. It was found that Pax-6 is expressed in the retinal precursor cells in the early regenerating retina and that the expression pattern of Pax-6 changed as cell differentiation proceeded during retinal regeneration.     

Retinal development and the expression profiles of opsin genes during larval development in Takifugu rubripes

The light-sensitive capacity of fish larvae is determined by the structure of the retina and the opsins expressed in the retinal and nonretinal photoreceptors. In this study, the retinal structure and expression of opsin genes during the early developmental stage of Takifugu rubripes larvae were investigated. Histological examination showed that at 1 days after hatching (dah), seven layers were observed in the retina of T. rubripes larva, including the pigment epithelial layer [retinal pigment epithelium layer (RPE)], photoreceptor layer (PRos/is), outer nuclear layer (ONL), outer plexiform layer (OPL), inner nuclear layer (INL), inner plexiform layer (IPL) and ganglion cell layer (GCL). At 2 dah, optic fibre layer (OFL) can be observed, and all eight layers were visible in the retina. By measuring the thickness of each layer, opposing developmental trends were found in the thickness of ONL, OPL, INL, IPL, GCL and OFL. The nuclear density of ONL, INL and GCL and the ratios of ONL/INL, ONL/GCL and INL/GCL were also measured and the ratio of ONL/GCL ranged from 1.9 at 2 dah to 3.4 at 8 dah and no significant difference was observed between the different developmental stages (P > 0.05). No significant difference was observed for the INL/GCL ratio between the different developmental stages, which ranged from 1.2 at 2 dah to 2.0 at 18 dah (P > 0.05). The results of quantitative real-time polymerase chain reaction (PCR) showed that the expression of RH1, LWS, RH2-1, RH2-2, SWS2, rod opsin, opsin3 and opsin5 could be detected from 1 dah. These results suggest that the well-developed retina and early expression of the opsins of T. rubripes during the period of transition from endogenous to mixed feeding might be critical for vision-based survival skills during the early life stages after hatching.     

Early patterns of neuronal degeneration in the retina of the goldfish after optic nerve sectioning

The early patterns of retinal degeneration were studied in the goldfish after optic nerve sectioning by l.m. and e.m. Beginning on the 2nd postsurgical day there was an initial degeneration of neurons in the ganglion cell and inner nuclear layers of the central retina. Massive ganglion cell degeneration in the whole retina (60%) as well as degeneration of neurons in inner and outer nuclear layer of the peripheral retina was evident around the 7th postsurgical day. The early degenerating cells appeared to be cones and cone bipolars.     

RCS大鼠和Wistar大鼠视网膜酸性磷酸酶活性的动态观察

本实验观察了不同年龄组ＲＣＳ大鼠和Ｗｉｓｔａｒ大鼠视网膜中酸性磷酸酶的动态变化及其与ＲＰＥ细胞消化功能的关系。运用偶氮偶联法显示１２ｄ、２１ｄ、２ｍ的ＲＣＳ大鼠和７ｄ、２ｍ的Ｗｉｓｔａｒ大鼠视网膜中的酸性磷酸酶;通过图像分析仪测定ＲＰＥ细胞层和光感受器外节部分的酸性磷酸酶含量,并进行统计学分析。结果：酸性磷酸酶阳性反应呈暗红色,主要位于ＲＰＥ细胞层,视网膜外核层、内核层,节细胞层亦有少量阳性反应颗粒。２ｍ的ＲＣＳ大鼠视细胞内、外节的酸性磷酸酶含量则明显高于其它组（Ｐ＜０．０１）,其余结构的酸性酶各组间无显著性差异（Ｐ＞０．０５）。结论：ＲＣＳ大鼠和Ｗｉｓｔａｒ大鼠的视网膜色素上皮细胞可能具有相同的消化功能。     

Comparative immunolocalization of the plasma membrane calcium pump and calbindin D28K in chicken retina during embryonic development

The immunolocalization of the plasma membrane calcium pump (PMCA) was studied in 4-week-old chick retina in comparison with calbindin D28K (CaBP) immunostaining. We have demonstrated that the monoclonal anti-PMCA antibody SF10 from human erythrocyte plasma membrane cross-reacts with a Ca2+ pump epitope of the cells from the neural retina. The immunolocalization of both proteins was also studied during the embryonic development of the chicken retina. At age 4.5 days, the cells of the retina were faintly immunoreactive to PMCA and CaBP antibodies, but the lack of cellular aggregation and differentiation did not allow discrimination between the two proteins. A clear difference in the localization was seen from the tenth day of development through post-hatching with slight variation. PMCA localized mainly in the outer and inner plexiform layers, in some cells in the ganglion layer, in the nerve fiber layer and slightly in the photoreceptor cells. CaBP was intensely stained in cones, cone pedicles and some amacrine cells. The number of CaBP positive amacrine cells declined after hatching. A few ganglion cells and several nerve fibers were CaBP immunoreactive. The role of these proteins in the early stages of retinal development is unknown, but the results suggest that Ca2+ homeostasis in the retina is well regulated, probably to avoid excessive accumulation of Ca2+, which often leads to neurodegeneration.     

Temporal and mosaic distribution of large ganglion cells in the retina of a daggertooth aulopiform deep-sea fish (Anotopterus pharao)

The daggertooth Anotopterus pharao (Aulopiformes: Anotopteridae) is a large, piscivorous predator that lives within the epipelagic zone at night. In this species, the distribution of retinal ganglion cells has been examined. An isodensity contour map of ganglion cells shows that the cells concentrate in a slightly ventral region of the temporal retina. The region of high ganglion cell density contains 4.07 x 10(3) cells mm(-2), and the resulting visual acuity is 3.5 cycles deg(-1). Outside the area centralis, conspicuously large ganglion cells (LGCs) are observed in the temporal margin of the retina. The LGCs are regularly arrayed, and displaced into the inner plexiform layer. Thick dendrites extend into the outer part (sublamina a) of the inner plexiform layer. In the retinal whole mount, the total number of LGCs is 1590 (90.7 cm specimen), and the mean size of the LGCs is about four times larger than that of the ordinary ganglion cells. The morphological appearance of the LGCs was similar to the off-type alpha cells of the cat retina. The function of these distinctive LGCs is discussed in relation to specific head-up feeding behaviour.