Integumentary resorption and collagen synthesis during regression of headless pedicellariae in Sphaerechinus granularis (Echinodermata: Echinoidea)

Ultrastructure of the resorption of integumentary tissues (ligaments, muscles, fibrous tissue, nerves, and skeleton) and the synthesis of collagen is described for the first time in echinoderms. Resorption is cell-mediated. Phagocytic cells are characterized by Golgi-derived putative primary lysosomes. Numerous secondary lysosomes and residual bodies occur in the bodies and processes of phagocytic cells. They engulf whole muscle cells and nerve fibres, as well as collagen fibril segments that exceed 1.5 m in length. Skeletoclastic cells resemble vertebrate osteoclasts, showing a ruffled border, lysosomes, and numerous mitochondria. They surround trabeculae with thick processes to delimit a tubular resorption site. Collagen synthesis occurs in the space formerly occupied by resorbed tissues. Synthesis is performed by fibroblastic cells containing organelles typical of vertebrate fibroblasts, namely distended cisternae of rough endoplasmic reticulum, Golgi cisternae with distended edges, and procollagen granules. Procollagen granules are apparently exocytosed directly to the extracellular matrix. Evidence indicates that resorbing (phagocytic and skeletoclastic) cells and fibroblastic cells may belong to a common phagocyte lineage. These cells share the ability to form elaborate processes and to become syncytial, and their nuclei exhibit iron-containing crystals.This project was supported by Contract 2.4527.89 from the Fonds de la Recherche Fondamentale Collective (Belgium). P.D. is a Research Associate of the National Fund for Scientific Research (Belgium). Contribution of the Centre Interuniversitaire de Biologie Marine.     

Microstructure de CladochonusMcCoy, 1847(Tabulata,Carbonifère)

The microstructure of two species of Cladochonusfrom Algerian Carboniferous, C. crassus (McCoy) and C. cf. tenuicollisMcCoy, has been studied by ultra-thin sections. Their walls consist of: 1. an external fibrous layer, 2. a median layer of undulating lamellae, 3. an internal zone of slender, elongated elements to which the name of «grundulae is given here. New data bring complements to the generic diagnosis of Cladochonus s. str. Some Permian cladochonid forms show different microstructures and should, therefore, be shifted to new generic units.     

中国鲴亚科鱼类同工酶和骨骼特征及系统演化的探讨：鲤形目：鲤科

本文对鲴亚科Xenocyprinae共4属6种鱼和鲢亚科Hypophthal michthyinae的鲢、鳙Aristichihys nobilis进行了骨骼系统的研究,并对鲴亚科的6种鱼同工酶谱型,进行了分析比较。鲢亚科虽然具有鲴亚科的共同祖征和全部离征,但因其有较多的特化性状,仍将其列为和鲴亚科并列的一个亚科。应用分支系统学原理推导出鲴亚科的系统发育图。鲴亚科6种鱼的肝、肾、心、眼的晶状体、鳍、脑,肌肉等7种组织5种同工酶(LDH,MDH,ES,ADH,G6PDH)的电泳分析表明,生化分类和经典分类结果完全一致。     

洪氏环企鹅骨骼的解剖学特点

采用解剖学方法对1只雄性洪氏环企鹅(Spheniscus,humboldti)骨骼系统进行了详细的观察、描述.结果表明:企鹅骨骼结实、沉重不充气;喙长,前端略下弯,颞部呈深凹陷状;肩胛骨及胸骨龙骨突发达;胸椎不愈合;前肢骨骼扁平,特化为鳍状,翼内关节活动性较小,第一掌骨及拇指消失;髌骨发达,跗跖骨短而宽扁.这些特征主要体现了洪氏环企鹅对海中潜水、游泳、取食以及陆地直立的适应.     

More than nervous: the emerging roles of plexins

Plexins are the receptors for semaphorins, a large family of axon guidance cues. Accordingly, the role of plexins in the development of the nervous system was the first to be acknowledged. However, the expression of plexins is not restricted to neuronal cells, and recent research has been increasingly focused on the roles of plexin-semaphorin signalling outside of the nervous system. During embryogenesis, plexins regulate the development of many organs, including the cardiovascular system, skeleton and kidney. They have also been shown to be involved in immune system functions and tumour progression. Analyses of the plexin signalling in different tissues and cell types have provided new insight to the versatility of plexin interactions with semaphorins and other cell-surface receptors. In this review we try to summarise the current understanding of the roles of plexins in non-neural development and immunity.     

Polykristalliner Calcit bei Seeigeln (Echinodermata,Echinoidea)

Zusammenfassung Es wurde erstmals für Echinodermen primär polykristalliner Calcit nachgewiesen, und zwar im Cortex der Primärstacheln der Cidaridae, dem sekundären Zahnskelet von Clypeaster und in den akzessorischen Kalkstrukturen, die im Kauabschnitt die Furche der Diadematiden-Zähne ausfüllen. Es gibt bei anderen Seeigelfamilien keine Bildungen, die dem Cidariden-Cortex oder den akzessorischen Kalkstrukturen der Diadematiden homolog sind. Das polykristalline sekundäre Zahnskelet von Clypeaster ist dagegen dem monokristallinen sekundären Zahnskelet anderer Seeigel homolog.Der Mg-Gehalt des Calcits liegt in den feinkristallinen Zonen (mit Ausnahme des Cortex) im allgemeinen höher; die höchsten Werte finden sich in den Steinteilen der Zähne, gleichgültig ob das sekundäre Zahnskelet mono- oder polykristallin ist.Polykristalline Teile sind im allgemeinen härter als monokristalline Teile. Die Steinteile der Seeigelzähne sind die härtesten Skeletteile von Echinodermen überhaupt; ihre VickersHärte übertrifft weit diejenige von solidem Calcit. Im Steinteil ist das feinkristalline Gefüge von Calcit eng mit organischer Matrix verbunden, und es wird vermutet, daß darauf die besonders hohe Härte der Steinteile beruht.

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Polycristalline calcite in sea urchins

Summary For the first time primary polycrystalline calcite in Echinoderms is shown in the cortex of primary spines of Cidaridae, in the secondary tooth skeleton of Clypeaster and in the accessory calcareous structures filling the crevice fold in the chewing areas of Diadematoidae teeth. Other Echinoid families lack formations homologous to the cortex of Cidaridae and accessory calcareous structures of Diadematoidae. On the other hand the polycrystalline secondary tooth skeleton of Clypeaster is homologous to the monocrystalline one of the other sea urchins.With the exception of cortex the Mg-content in calcite—analyzed by microprobe and X-ray powder method—is generally greater in macrocrystalline parts. The highest Mg-contents are found in the stone parts of teeth irrespective of whether the secondary tooth skeleton is monocrystalline or polycrystalline.Polycrystalline parts are usually harder than monocrystalline ones. The stone parts of Echinoid teeth are the hardest skeleton parts of Echinoderms on the whole; their hardness is much greater than that of solid calcite. It is supposed that the strong interlacing of the microcrystalline calcite and organic matter causes the enormous hardness of the stone part.

Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

高原鼢鼠和高原鼠兔骨骼中非必需微量元素的测定

铅、镉、砷、汞、锑和铋等元素是人与动物生命活动非必需且有害的微量元素[1] 。哺乳类动物体内的这些微量元素主要由食物链传递所产生[2 ,3] 。本文对高原鼢鼠 (Ｍｙｏｓｐａｌａｘｂａｉｌｅｙｉ)和高原鼠兔(Ｏｃｈｏｔｏｎａｃｕｒｚｏｎｉａｅ)骨骼中非必需微量元素砷、锑、汞、铋、铅、镉的分布、种间含量差异及其相关性进行了分析和讨论 ,为高寒草甸生态系统研究小哺乳动物的营养生态学、化学生态学以及生态系统的物质循环[4 ,5] 等提供基础资料。1　材料与方法1 1　样品预处理1994年 5～ 6月在中国科学院海北高寒草甸生态系统定位站…     

MSCT-3D技术在动物与人骨骼形态比较研究中的应用

目的应用MSCT-3D显示技术比较正常贵州香猪、Marshall比格犬、恒河猴与人上肢带骨及躯干骨的形态学差异。方法采用MSCT分别对贵州香猪、比格犬和恒河猴进行CT全身扫描并进行图像重建,观察其上肢带骨、躯干骨形态结构与人的异同。结果比格犬、恒河猴、贵州香猪脊椎骨和肋的基本组成与人相同,脊椎骨由椎体和附件组成,肋骨包括真肋、假肋和浮肋。而脊柱曲度、各段椎骨数目、胸骨结构、肋的数目、胸肋连接、上肢带骨的组成与人不同,恒河猴的脊柱曲度和上肢带骨连接与人相同,有颈、胸、腰、骶四个生理性弯曲并由锁骨和肩胛骨共同连接自由上肢骨,比格犬和贵州香猪只有颈、胸腰、骶三个生理性弯曲,仅由肩胛骨连接自由上肢骨。结论恒河猴躯干骨和上肢带骨与人有良好的相似性,而比格犬和贵州香猪与人差别较大。MSCT-3D技术为实验动物形态学比较研究提供了一种相对无创、快速、可以在体研究并动态连续观察的科学有效方法。