Eraqi R. Khannoon , Bartosz Borczyk , Bassam A. Alahmadi , Abdulhadi Aloufi , Tomasz Skawiński
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引用次数: 0
Abstract
Squamates exhibit evident diversity in their limb morphology. Gekkotans are a particularly diverse group in this respect. The appearance of toepads in gekkotans usually cooccurs with the reduction or loss of claws. The gecko Tarentola (Phyllodactylidae) shows a unique combination of features among geckos, with toepads, hyperphalangy, and dimorphism of claw expression (claws are retained on digits III and IV, but lost (manus) or strongly reduced (pes) on the remaining digits). Despite being a candidate model for studying embryonic skeletal development of the autopodium, no studies have investigated the autopodial development of the gecko Tarentola in detail. Here, we aim to follow up the development of the autopodial skeleton in T. annularis and T. mauritanica using acid-free double staining. The results indicate that the terminal phalanges of claw-bearing digits III and IV ossify earlier than in the remaining digits. This confirms the differential ossification as a result of claw regression in Tarentola. The strongly reduced second phalanges of digits IV in both the fore- and hindlimbs are the last ossifying phalanges. Such late ossification may precede the evolutionary loss of this phalanx. If this is correct, the autopodia of Tarentola would be an interesting example of both the hyperphalangy in digit I and the process of phalanx loss in digit IV. Delay in ossification of the miniaturised phalanx probably represents an example of paedomorphosis.
有鳞类动物的肢体形态具有明显的多样性。在这方面,壁虎是一个特别多样化的类群。壁虎趾垫的出现通常与爪的减少或丧失同时发生。壁虎 Tarentola(Phyllodactylidae)在壁虎中表现出独特的特征组合,具有趾垫、超头足和爪的二态性(爪保留在第三和第四指上,但在其余指上失去(芒)或强烈减少(趾))。尽管壁虎Tarentola是研究自足体胚胎骨骼发育的候选模型,但目前还没有研究对其自足体的发育进行详细调查。在这里,我们旨在利用无酸双染色法跟踪环纹壁虎和毛利坦壁虎的自足骨骼发育情况。结果表明,带爪第 III 和第 IV 指节末端指骨的骨化早于其余指节。这证实了Tarentola的不同骨化是爪退化的结果。在前肢和后肢中,第四节指骨的第二节指骨强烈退化,是最后骨化的指骨。这种晚期骨化可能发生在该趾骨进化消失之前。如果这种说法是正确的,那么 Tarentola 的自足趾将是一个有趣的例子,既说明了第 I 趾的超骨化过程,也说明了第 IV 趾的趾骨缺失过程。小型化的趾骨骨化延迟可能是趾骨变形的一个例子。
期刊介绍:
Zoology is a journal devoted to experimental and comparative animal science. It presents a common forum for all scientists who take an explicitly organism oriented and integrative approach to the study of animal form, function, development and evolution.
The journal invites papers that take a comparative or experimental approach to behavior and neurobiology, functional morphology, evolution and development, ecological physiology, and cell biology. Due to the increasing realization that animals exist only within a partnership with symbionts, Zoology encourages submissions of papers focused on the analysis of holobionts or metaorganisms as associations of the macroscopic host in synergistic interdependence with numerous microbial and eukaryotic species.
The editors and the editorial board are committed to presenting science at its best. The editorial team is regularly adjusting editorial practice to the ever changing field of animal biology.