Acta Protozool. (2003) 42: 31-39
Bacterial Endocytobionts within Endosymbiotic Ciliates
in Dreissena polymorpha (Lamellibranchia: Mollusca)
Sergei I. FOKIN1, Laure
GIAMBERINI2, Daniel P. MOLLOY3 and Abraham bij de VAATE4
lBiological
Institute, St. Petersburg State University, Russia; 2UPRES Ecotoxicité, Biodiversité et Santé
Environnementale, Université
de Metz, France; 3Division of Research & Collections,
New York State Museum, Albany, NY USA; 41nstitute for Inland Water
Management & Waste Water Treatment, Lelystad,
Netherlands
Summary. This
paper documents a multi-level microcosm system: Dreissena-ciliates-bacteria-viruses.
In the first comprehensive investigation of endocytobionts present in the
cytoplasm of endosymbiotic ciliates from mussels, bacteria are described from Conchophthirus acuminatus and an undescribed Ophryoglena sp. species which
are, respectively, commensal and parasitic in the freshwater bivalve Dreissena polymorpha. Light microscopy, electron microscopy, Feulgen staining, and in situ observation indicated
that in some populations of C. acuminatus
practically all individuals were
infected with cytoplasmic bacteria. Some of these bacteria were in the α-subgroup
of proteobacteria. In situ hybridization indicated that some other eubacteria with
a very similar morphology were also present in the cytoplasm of C. acuminatus. Using
in situ hybridization with appropriate oligonucleotide probes,
a large amount of bacteria, most of which were also in the α
-subgroup, were observed in the cytoplasm of each specimen of Ophryoglena sp.
examined. Some bacteria with virus particles were also observed in a population
of the Ophryoglena sp. The bacteria in C. acuminatus were
not likely the same as in the Ophryoglena
sp. The presence of α -subgroup
proteobacteria in the cytoplasm of both endosymbiotic ciliates, in conjunction
with previous reports of these bacteria in free-living species, indicates that
they are widely established endocytobionts in these protists.
Key words: bacteria, Conchophthirus acuminatus, Dreissena polymorpha, in situ hybridization, Ophryoglena
sp.