H4单倍型Placozoa sp.细胞类型多样性。

Q4 Environmental Science

Marine Biological Journal Pub Date : 2019-03-31 DOI:10.21072/mbj.2019.04.1.07

D. Y. Romanova

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引用次数: 8

摘要

Placozoa是五个基础后生动物谱系之一，对我们理解动物进化，特别是神经肌肉组织的起源至关重要。所有Placozoa都有已知最简单的动物身体结构，没有神经元和肌肉，但行为相对复杂。目前已鉴定出19个单倍型的盘虫，包括2个属(H1)和Hoilungia hongkongensis (H13)，以及一些特征较少的生态类群(H2-H19 Placozoa sp)，但显微镜解剖只鉴定了H1 (Trichoplax adhaerens)。利用扫描和共聚焦显微镜，我们描述了H4的形态组织，这是一种与Hoilungia相似的单倍型。在H4中发现了所有6种基本形态细胞类型。然而，我们认识到H1的细胞群(在形状、密度、线粒体分布和活性方面)比其他地方描述的更大的异质性。这项研究扩大了我们对这些神秘海洋生物群体的生物学知识。

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Cell types diversity of H4 haplotype Placozoa sp.

Placozoa is one of the five basal metazoan lineages critical for our understanding of animal evolution in general, and the origin of neuromuscular organization in particular. All Placozoa have the simplest known animal body plan, without neurons and muscles, but relatively complex behaviors. Totally 19 haplotypes of placozoans have been identified including two genera, Trichoplax adhaerens (H1) and Hoilungia hongkongensis (H13), plus a number of less characterized ecological groups also known as H2–H19 Placozoa sp. However, microscopic anatomy had been characterized for H1 (Trichoplax adhaerens) only. Here, using scanning and confocal microscopy, we described morphological organization of H4, the haplotype similar to Hoilungia. All six basal morphological cell types have been found in H4. Nevertheless, we recognized a greater heterogeneity of cell populations (in their shape, density, mitochondrial distribution and activity) than described elsewhere for H1. This study expands our knowledge about the biology of these enigmatic groups of marine organisms.

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来源期刊

Marine Biological Journal Environmental Science-Ecology

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

21 weeks