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中华鳋属一新种(粘体动物门:两极科)感染中国长吻鮠的脑(鲶形目:鮠科)。

Myxobolus dumerilii sp. n. (Myxozoa: Myxobolidae) infecting the brain of Chinese longsnout catfish Tachysurus dumerili (Bleeker) in China.

机构信息

Hunan Engineering Research Center for Utilization of Characteristics of Aquatic Resources, Fisheries College, Hunan Agricultural University, Changsha, 410128, China.

Key Laboratory of South China Sea Fishery Resources Exploitation & Utilization, Ministry of Agriculture and Rural Affairs, South China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou, 510300, China.

出版信息

Syst Parasitol. 2023 Dec;100(6):715-723. doi: 10.1007/s11230-023-10119-y. Epub 2023 Oct 18.

DOI:10.1007/s11230-023-10119-y
PMID:37853231
Abstract

During an investigation of Myxobolus diversity in the Chinese longsnout catfish Tachysurus dumerili (Bleeker), a new species infecting the intracranial epidermis of the host was discovered. Upon opening the cranial cavity, several round whitish plasmodia measuring 0.55-0.80 mm in diameter were observed. Fresh spores (n= 50) were pyriform in the frontal view and fusiform in the sutural view, with a length of 15.4±0.6 (13.9-16.5) μm, width of 9.1±0.4 (8.3-9.8) μm, and thickness of 7.0±0.4 (6.3-7.9) μm. The spores had smooth shell surfaces and transparent membrane sheaths in the posterior. No folds, intercapsular appendix, and caudal appendages were observed. Two equal polar capsules were pyriform and measured 7.5±0.5 (6.7-8.7) μm in length and 3.2±0.3 (2.5-3.6) μm in width. The polar filaments were coiled with five to six turns and perpendicular to the polar capsule length. A BLAST search indicated M. dumerilii sp. n. was closely related to five Myxobolus species (with sequences similarities ranging from 90.54% to 96.52%) found in different organs of yellow catfish Tachysurus fulvidraco (Richardson), rather than the T. dumerili-infecting species M. branchiola Dong and Zhao, 2014 (with 90.5% sequence similarity). Phylogenetic analysis showed that M. dumerilii sp. n. didn't form sister clade with brain-infecting Myxobolus spp, but clustered with M. jianlinensis Gao et Zhao, 2020 and M. voremkhai Akhmerov, 1960 within the Siluriformes-clade with highly supported values, indicating that the host specificity may play a stronger signal than site infections during the evolution of Myxobolus species. Based on the morphological, ecological, and molecular differences observed between the newly discovered species and other available Myxobolus species, M. dumerilii sp. n., is proposed and described in this study.

摘要

在对中国长吻鮠(Tachysurus dumerilii (Bleeker))中的粘孢子虫多样性进行调查时,发现了一种新的物种,该物种感染宿主的颅内表皮。打开颅腔后,观察到几个直径为 0.55-0.80 毫米的圆形白色 plasmodia。新鲜孢子(n=50)在额视图中呈梨形,在缝合视图中呈梭形,长 15.4±0.6(13.9-16.5)μm,宽 9.1±0.4(8.3-9.8)μm,厚 7.0±0.4(6.3-7.9)μm。孢子壳面光滑,后端透明膜鞘。未观察到褶皱、囊间附属物和尾附属物。两个相等的极囊呈梨形,长 7.5±0.5(6.7-8.7)μm,宽 3.2±0.3(2.5-3.6)μm。极丝卷曲五至六圈,与极囊长度垂直。BLAST 搜索表明,M. dumerilii sp. n. 与在黄颡鱼(Tachysurus fulvidraco (Richardson))不同器官中发现的五种粘孢子虫(序列相似性范围为 90.54% 至 96.52%)密切相关,而不是感染 T. dumerilii 的 M. branchiola Dong 和 Zhao, 2014(序列相似性 90.5%)。系统发育分析表明,M. dumerilii sp. n. 与感染脑部的粘孢子虫没有形成姐妹群,但与 Siluriformes 分支中的 M. jianlinensis Gao 等人聚集在一起。2020 年和 M. voremkhai Akhmerov, 1960,支持值很高,这表明在粘孢子虫物种的进化过程中,宿主特异性可能比部位感染更能发出信号。基于新发现的物种与其他可用的粘孢子虫物种之间观察到的形态、生态和分子差异,提出并描述了 M. dumerilii sp. n.。

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