根据超微结构和分子证据对斯米尔诺夫等人（2011 年）的 Pellitida 目（变形虫门，盘状目）进行修订，描述了新种结晶内体 Endostelium crystalliferum。

A revision of the order Pellitida Smirnov et al., 2011 (Amoebozoa, Discosea) based on ultrastructural and molecular evidence, with description of Endostelium crystalliferum n. sp.

机构信息

Department of Invertebrate Zoology, Faculty of Biology, St. Petersburg State University, Universitetskaja nab., 7/9 199034 Saint-Petersburg, Russia; Department of Genetics and Evolution, University of Geneva, Sciences III, 1211 Geneva, Switzerland.

Department of Biological Sciences, Mississippi State University, Mississippi State, MS, 39762, USA.

出版信息

Protist. 2014 Mar;165(2):208-29. doi: 10.1016/j.protis.2014.02.003. Epub 2014 Feb 28.

DOI:10.1016/j.protis.2014.02.003

PMID:24704663

Abstract

We present the results of an ultrastructural re-investigation of two amoebae strains that can be identified morphologically as previously described species of the genus Pellita, as well as the first molecular phylogenetic analysis of these amoebae based on SSU rRNA and actin gene sequences. The results obtained show close relationships between the genera Pellita, Gocevia, and Endostelium. These relationships are further supported by the description of Endostelium crystalliferum n. sp., which shares morphological characters simultaneously with Pellita spp. and Endostelium zonatum. The three genera form a robust clade that branches deeply within Amoebozoa, among either Flabellinia, or Longamoebia, depending on taxon sampling. The results suggest that Gocevia and Endostelium should not be included in the Himatismenida; therefore, we transfer the family Goceviidae into Pellitida. The type of cell organisation that was considered to be typical of Himatismenida (a lens-shaped cell covered dorsally with a flexible layer of organic material) has most probably evolved in some of these amoebae independently of Cochliopodiidae and Parvamoebidae. The robustness of the Pellitida clade in the molecular trees is consistent with the fine structure cytoplasmic evidence for these taxa, in particular, the presence of a centrosphere (a dictyosome-associated lamellar MTOC) in all these genera.

摘要

我们呈现了两项研究结果，第一项是对两种变形虫菌株进行超微结构再研究，这两种变形虫菌株在形态上可以被鉴定为先前描述的 Pellita 属物种，第二项是基于 SSU rRNA 和肌动蛋白基因序列对这些变形虫进行的首次分子系统发育分析。研究结果表明，Pellita、Gocevia 和 Endostelium 这三个属之间存在密切的亲缘关系。这种关系还得到了 Endostelium crystalliferum n. sp. 的描述的支持，该物种同时具有 Pellita spp. 和 Endostelium zonatum 的形态特征。这三个属形成了一个强有力的分支，在 Amoebozoa 中，与 Flabellinia 或 Longamoebia 分支很深，具体取决于分类群的采样。研究结果表明，Gocevia 和 Endostelium 不应归入 Himatismenida；因此，我们将 Goceviidae 家族转移到 Pellitida 中。被认为是 Himatismenida 典型的细胞组织类型（一个背侧覆盖有柔性有机物质层的透镜形细胞）很可能在这些变形虫中的一些中独立于 Cochliopodiidae 和 Parvamoebidae 进化而来。在分子树中 Pellitida 分支的稳健性与这些分类群的细胞质精细结构证据一致，特别是在所有这些属中都存在中心球体（与网质体相关的板层 MTOC）。

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根据超微结构和分子证据对斯米尔诺夫等人（2011 年）的 Pellitida 目（变形虫门，盘状目）进行修订，描述了新种结晶内体 Endostelium crystalliferum。

A revision of the order Pellitida Smirnov et al., 2011 (Amoebozoa, Discosea) based on ultrastructural and molecular evidence, with description of Endostelium crystalliferum n. sp.

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