Secondary-tail formation during stolonization in the Japanese green syllid, Megasyllis nipponica

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Daisuke S. Sato, Mayuko Nakamura, María Teresa Aguado, Toru Miura
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Abstract

Benthic annelids belonging to the family Syllidae show a distinctive sexual reproduction mode called “stolonization,” in which posterior segments are transformed into a reproductive individual-like unit called a “stolon.” Megasyllis nipponica forms a stolon head and a secondary tail in the middle of the trunk before a stolon detaches, while, in the case of posterior amputation, posterior regeneration initiates at the wound after amputation. To understand the difference between posterior regeneration and secondary-tail formation during stolonization, detailed comparisons between the developmental processes of these two tail-formation types were performed in this study. Morphological and inner structural observations (i.e., cell proliferation and muscular/nervous development) showed that some processes of posterior regeneration, such as blastema formation and muscular/nervous regeneration at the amputation site, are missing during secondary-tail formation. In contrast, the secondary tail showed some unique features, such as the formation of ventrolateral half-tail buds that later fused in the middle and muscle/nerve branches formed before the detachment of the stolon. These novel features in the process of stolonization are suggested to be adaptive since the animals need to recover a posterior end quickly to stolonize again.

Abstract Image

日本绿萼梅在匍匐茎形成过程中的副尾形成。
茜草科底栖环带动物表现出一种独特的有性生殖模式,即 "匍匐茎化",在这种模式下,后节转变成一个类似生殖个体的单位,称为 "匍匐茎"。Megasyllis nipponica 在匍匐茎分离前,会在树干中部形成匍匐茎头和副尾,而在后截肢的情况下,后部再生会在截肢后的伤口处开始。为了了解匍匐茎形成过程中后部再生和次生尾形成的区别,本研究对这两种尾形成类型的发育过程进行了详细比较。形态学和内部结构观察(即细胞增殖和肌肉/神经发育)表明,后部再生的一些过程,如截肢部位的胚泡形成和肌肉/神经再生,在次生尾形成过程中缺失。与此相反,次生尾表现出一些独特的特征,如形成腹外侧半尾芽,随后在中间融合,以及在匍匐茎分离前形成肌肉/神经分支。匍匐茎形成过程中的这些新特征被认为是适应性的,因为动物需要快速恢复后端以再次形成匍匐茎。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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