Abstract:
Ciliated protozoan are an important bioindicators for pollution and have long been used
for environmental biomonitoring, particularly in water purification plants and in activated
sludge processes. Each species of ciliates has its own physical and chemical valences and
therefore based on the indicator values of representative ciliates, degree of pollution of a
particular water body can be determined. Among ciliates Paramecium has become a privileged
model for the study of “species problem” particularly in the case of “Paramecium aurelia
complex” that has been intensely investigated. Despite extensive studies taxonomy of
Paramecium is still changing. The major problem is uneven sampling of Paramecium with
relatively few representatives of each species. Continued discovery of new species from
various origins (worldwide) are proof of the fact that the list of Paramecium species is not yet
complete. Hence, the addition of new species by more sampling is needed to resolve the
phylogeny within the Paramecium genus. For this purpose, present study was aimed at
molecular characterization of Paramecium species from water samples originating from
various regions of Punjab province of Pakistan.
Fragments of 18S rDNA, ITS1-5.8S-ITS2-5’LSU rDNA, COII, Hsp70 and Histone H4
genes were used as molecular markers for the phylogenetic analysis of ten locally isolated
strains of Paramecium species including a standing-alone FT8 strain previously isolated by
Shakoori et al. (2014). The nucleotide sequences of PCR products of different molecular
markers of various isolates (FT2.1, FT3.1, FT4.1, FT5.1, FT6.1, FT7.1, FT9.1, FT10.1 and
FT11.1) were compared with the available sequences of these markers in other Paramecium
species from GenBank. Phylogenetic trees based on all molecular markers showed that all nine
strains (FT2.1, FT3.1, FT4.1, FT5.1, FT6.1, FT7.1, FT9.1 FT10.1 and FT11.1) had very close
relationship with P. primaurelia except for FT8 strain. FT8 showed its unique position in
comparison to all other species in the phylogenetic trees, so became the main focus of our
study. Phylogeny of this strain was further carried out with PiggyMac sequence, where it again
behaved differently as compared to other species. Sexual behavior, immaturity and maturity
periods of FT8 were analyzed by performing daily reisolations that revealed three unique
characteristics of this strain; 1) autogamy as only source of the exchange of genetic material 2)
no clumps formation before conjugation that is the prerequisite of sexual process, 3) selfing
among reactive cells. Second and third characteristics of this species turned our attention
towards its mating types (“odd” 0 and “even” E). Why agglutination does not occur in this
strain like all other Paramecium species? Or maybe there are circadian rhythms of mating
xv
types? In order to resolve this mystery, an experiment following circadian rhythms of
completely light and completely dark cycles was performed multiple times during a period of
one month. However, every time no conjugation upon mixing but selfing in the original
cultures was observed. Results of this study could not prove the existence of mating types in
FT8 strain but off course detailed analyses at genetic level is required for precise knowledge.
Another important aim was to count the number of micronuclei of this unique species
with and without Spt5-GFP signals. Four number of MICs on an average were observed,
whereas two, three and five MICs were also seen in some karyonides. However, GFP signal
was found to be activated till the skein formation of conjugating pairs. No signal in micronuclei
of later stages could be observed. Finally, number of events of whole genome duplications
(WGDs) of FT8 strain were studied by counting the number of paralogs for highly expressed,
highly conserved L8 and S13 ribosomal protein genes. Total three number of genes (L8FT8-1,
L8FT8-3 and L8-FT8-4) with L8 amplifications and two genes (S13FT8-1 and S13FT8-2) with
S13 after extensive screenings were found. Number of genes obtained from amplifications
results supported that this species has not gone through any additional WGD event. However,
whole genome sequencing of this species would resolve the complete and precise information
of its number of WGDs. Finally, based on the phylogenetic trees of all molecular markers
including L8 and S13 genes, it can be concluded that despite occupying unique position in the
phylogenetic tree, FT8 was closer to P. multimicronucleatum than to P. caudatum.