OBSERVATION ON THE DEVELOPMENT OF THE LATERAL LINE NEUROMAST OF SIBERIAN STURGEON(ACIPENSER BAERII)

C. Qian
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Abstract

Acipenseriformes fish is a kind of the ancient chondrichthyes fish,and Siberian sturgeon(Acipenser baerii) plays an important part in the evolutionary history of vertebrates.Lateral line neuromast is the key part of the lateral line system-a very important sense organ of fish.Therefore,it is necessary to pay attention to the development of the lat-eral line neuromast of the Siberian sturgeon.In order to observing the morphology and tracking the development of lateral line neuromast of the Siberian sturgeon larvae in the different development periods after hatching.The 5μm of the paraffin sections of the adult fish of the Siberian sturgeon were prepared and then stained with HE.Meanwhile,the Siberian sturgeon larvae in different periods after hatching stained with 10μmol/L DiA [4-(4-Diethylaminostyryl)-1-methylpyridinium iodide] which can be used as the neuromast specific markers.The results showed morphology of the neuromast in the lateral line canal: The hair cells erected and arranged closely.Compared to Hammerhead shark(Sphyma lewini),Japanese eel(Lyncozymba nystromi) and Tongue sole(Cynoglossus semilaevis),all of these species had many common characteristics: The neuromast included epithelial cells,hair cells and supporting cells.However,each of these species had special characteristics: The Siberian sturgeon had smaller amount of the hair cells;the Ham-merhead shark had larger amount of the epithelial cells;the Japanese eel had many vacuoles in the supporting cells and the neuromast of the Tongue sole exposed to the skin surface.At the same time,the development of the lateral line neuromast of the Siberian sturgeon had been tracked: 3 days after hatching,the ganglia had dramatic differentiation and development in the region of the ear;10 days after hatching,the ganglia in the region of the ear had differentiation and formed lateral line neuromast above and below the orbital and also began formatting the lateral line neuromast on the opercular;15 days after hatching,the lateral line neuromast above and below the orbital became more obvious,and the lateral line neuromast on the trunk had basically developed;Finally,it is observed that the lateral line neuromast of the Siberian sturgeon larvae had developed completely in 22 days after hatching.Compared to Zebrafish(Danio rerio) and Catshark(Scyliorhinuscanicula),the development process of the lateral line neuromast of all these species were nearly the same.This study may lay morphologic foundation for the further researching on the related genes which express in the development of the lateral line neuromast of the Siberian sturgeon as well as provide useful information for the fur-ther studying on the migration of cells in the development of the lateral line neuromast of the Siberian sturgeon.
西伯利亚鲟侧线神经肥大发育的观察
鲟目鱼类是一种古老的软骨鱼类鱼类,西伯利亚鲟在脊椎动物进化史上占有重要地位。侧线神经杆是鱼类重要的感觉器官侧线系统的关键部分。因此,有必要重视西伯利亚鲟鱼侧线神经肥大的发育。为了观察西伯利亚鲟鱼幼鱼在孵化后不同发育时期的侧线神经肥大形态和发育情况。制作西伯利亚鲟鱼成鱼的5μm石蜡切片,用HE染色。同时,用10μmol/L的DiA[4-(4-二乙基氨基苯乙烯基)-1-甲基碘化吡啶]染色,可作为神经肥大特异性标记物。结果显示:侧线管神经肥大形态:毛细胞竖立,排列紧密。与锤头鲨(Sphyma lewini)、日本鳗鲡(Lyncozymba nystromi)和舌鳎(Cynoglossus semilaevis)相比,这些物种都具有许多共同的特征:神经肥大包括上皮细胞、毛细胞和支持细胞。然而,这些物种中的每一个都有自己的特点:西伯利亚鲟鱼的毛细胞数量较少;锤头鲨的上皮细胞数量较多;日本鳗鱼的支持细胞中有许多液泡,舌底的神经肥大暴露在皮肤表面。与此同时,对西伯利亚鲟鱼侧线神经肥大的发育进行了跟踪:孵化后第3天,耳区神经节分化发育明显;孵化后第10天,耳区神经节分化形成眶上、眶下侧线神经杆,并开始形成眼上侧线神经杆;孵化后第15天,眶上、眶下侧线神经杆更加明显,躯干侧线神经杆基本发育观察到西伯利亚鲟鱼幼鱼的侧线神经肥大在孵化后22天发育完全。与斑马鱼(Danio rerio)和猫鲨(Scyliorhinuscanicula)相比,这些物种的侧线神经肥大的发育过程几乎相同。本研究可为进一步研究西伯利亚鲟鱼侧线神经肥大发育过程中表达的相关基因奠定形态学基础,并为进一步研究西伯利亚鲟鱼侧线神经肥大发育过程中细胞的迁移提供有用信息。
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