著者
Ryuji Yanase Yukinori Nishigami Masatoshi Ichikawa Tohru Yoshihisa Seiji Sonobe
出版者
Japan Society of Protistology
雑誌
Journal of Protistology (ISSN:2433412X)
巻号頁・発行日
vol.51, pp.1-6, 2018-03-05 (Released:2018-03-08)
参考文献数
24

The free-living ciliate protist Lacrymaria olor has an extendable neck, which extends up to 8 times longer than its cell body. Previous papers assessed several ultrastructural features of L. olor; however, dynamic features of the extension and contraction cycle of the neck have been unclear. As a first step to understand the mechanism of such dynamic processes, we tried to characterize the neck deformation of living L. olor using a high-speed camera and image processing. These analyses defined the four different cell states, namely, active, resting, activation and inactivation, and highlighted the features of the neck deformation of L. olor depending upon the cell states. Our analyses will make it possible to elucidate further details of the L. olor neck deformation mechanism.
著者
Liudmyla Gaponova Toshinobu Suzaki Md Shafiqul Islam Andrii Kolosiuk
出版者
Japan Society of Protistology
雑誌
Journal of Protistology (ISSN:2433412X)
巻号頁・発行日
vol.53, pp.e004, 2021-12-23 (Released:2021-12-23)
参考文献数
22

Actinophryid and centrohelid heliozoans often share the same habitat; however, field studies have shown that they preferentially exist separately than together, suggesting the existence of a mechanism that does not allow them to co-exist. Therefore, to clarify the interactions between these heliozoans, co-culturing experiments, involving two organisms, an actinophryid and a centrohelid, were performed. For the experiments in the brackish water environment, Actinophrys sol (actinophryid) and Raphidocystis contractilis (centrohelid) were used, and for those in the freshwater environment, a combination of Actinosphaerium eichhornii (actinophryid) and one of three centrohelid species (Choanocystis pantopoda, Raphidocystis ambigua, or Raphidocystis marginata) were used. In all the experiments involving the co-culture environments, the centrohelids grew intensively within the first 3-5 days, after which their cell numbers remained constant. Conversely, the number of actinophryid heliozoans decreased significantly and their disappearance was recorded after 2 days and after 5-11 days for the experiments in the brackish water and freshwater environments, respectively. Further, in some experiments, several centrohelid cells fused together to form a giant multinucleated cell, which jointly, captured and consumed larger organisms, such as Actinophrys sol. Furthermore, Actinosphaerium eichhornii (actinophryid) exhibited an avoidance response against Choanocystis pantopoda (centrohelid) attack. Thus, our experimental results showed that in mixed co-culture environments, centrohelids inhibit the growth of actinophryids. This possibly explains the exclusive mode of existence of these two groups of heliozoans in the natural environment.
著者
Akinori Yabuki Masaru Kawato Yuriko Nagano Shinji Tsuchida Takao Yoshida Yoshihiro Fujiwara
出版者
Japan Society of Protistology
雑誌
Journal of Protistology (ISSN:2433412X)
巻号頁・発行日
vol.52, pp.1-5, 2020-07-27 (Released:2020-07-27)
参考文献数
19

Diplonemea is one of the most abundant and species-rich protist groups in marine environments. However, many lineages are still undescribed. Particularly, little is understood about members of the ‘deep-sea and pelagic diplonemids (DSPD)’ clade. The environmental DNA (eDNA) studies conducted with universal eukaryotic primers have shown that DSPDs were also abundantly distributed in natural environments, but their cultures have not yet been established. For future studies such as mitochondrial genome sequencing, culture establishment is needed. For establishing cultures, it is important to select samples containing a high quantity of diplonemids. In this study, we designed new diplonemid primers for eDNA analysis using a next-generation sequencer, testing its efficiency using eDNA that was extracted from two deep-sea water samples. Out of a total of 58,154 assembled reads, 57,633 reads (i.e. 99.1%) were affiliated with diplonemids by BLAST and reconstructed into 160 representative sequences. Phylogenetic analyses showed that many of the representative sequences (137 sequences, 85.6%) were branched within the DSPD clade and family Hemistasiidae. These findings indicate that the new primers are useful in monitoring diplonemid diversity and acquiring information for the establishment of DSPD cultures.