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1.
Eukaryot Cell ; 12(4): 545-50, 2013 Apr.
Article in English | MEDLINE | ID: mdl-23376945

ABSTRACT

Among the best-known examples of mutualistic symbioses is that between lower termites and the cellulolytic flagellate protists in their hindguts. Although the symbiosis in worker termites has attracted much attention, there have been only a few studies of protists in other castes. We have performed the first examination of protist population dynamics in queens and kings during termite colony foundation. Protist numbers, as well as measurements of hindgut and reproductive tissue sizes, were undertaken at five time points over 400 days in incipient colonies of Reticulitermes speratus, as well as in other castes of mature colonies of this species. We found that protist numbers increased dramatically in both queens and kings during the first 50 days of colony foundation but began to decrease by day 100, eventually disappearing by day 400. Hindgut width followed a pattern similar to that of protist numbers, while ovary and testis widths increased significantly only at day 400. Kings were found to contain higher numbers of protists than queens in incipient colonies, which may be linked to higher levels of nutrient transfer from kings to queens than vice versa, as is known in some other termite species. Protists were found to be abundant in soldiers from mature colonies but absent in neotenics. This probably reflects feeding of soldiers by workers via proctodeal trophallaxis and of reproductives via stomodeal trophallaxis. The results reveal the dynamic nature of protist numbers during colony foundation and highlight the trade-offs that exist between reproduction and parental care during this critical phase of the termite life cycle.


Subject(s)
Gastrointestinal Tract/physiology , Hypermastigia/physiology , Isoptera/physiology , Population Dynamics , Symbiosis/physiology , Animals , Female , Male , Organ Size , Population Density , Reproduction , Seasons
2.
J Eukaryot Microbiol ; 60(3): 313-6, 2013.
Article in English | MEDLINE | ID: mdl-23384430

ABSTRACT

An important and undervalued challenge in characterizing symbiotic protists is the accurate identification of their host species. Here, we use DNA barcoding to resolve one confusing case involving parabasalian symbionts in the hindgut of the Hawaiian lowland tree termite, Incisitermes immigrans, which is host to several parabasalians, including the type species for the genus Coronympha, C. clevelandii. We collected I. immigrans from its type locality (Hawaii), confirmed its identity by DNA barcoding, and characterized the phylogenetic position of two symbionts, C. clevelandii and Trichonympha subquasilla. These data show that previous molecular surveys of "I. immigrans" are, in fact, mainly derived from the Caribbean termite I. schwarzi, and perhaps also another related species. These results emphasize the need for host barcoding, clarify the relationship between morphologically distinct Coronympha species, and also suggest some interesting distribution patterns of nonendemic termite species and their symbionts.


Subject(s)
Hypermastigia/physiology , Isoptera/parasitology , Parabasalidea/physiology , Animals , Hypermastigia/classification , Hypermastigia/genetics , Parabasalidea/classification , Parabasalidea/genetics , Phylogeny , RNA, Ribosomal/genetics , Symbiosis
3.
Environ Microbiol ; 14(12): 3259-70, 2012 Dec.
Article in English | MEDLINE | ID: mdl-23116209

ABSTRACT

Termite gut flagellates are colonized by host-specific lineages of ectosymbiotic and endosymbiotic bacteria. Previous studies have shown that flagellates of the genus Trichonympha may harbour more than one type of symbiont. Using a comprehensive approach that combined cloning of SSU rRNA genes with fluorescence in situ hybridization and electron microscopy, we investigated the phylogeny and subcellular locations of the symbionts in a variety of Trichonympha species from different termites. The flagellates in Trichonympha Cluster I were the only species associated with 'Endomicrobia', which were located in the posterior part of the cell, confirming previous results. Trichonympha species of Cluster II from the termite genus Incisitermes (family Kalotermitidae) lacked 'Endomicrobia' and were associated with endosymbiotic Actinobacteria, which is highly unusual. The endosymbionts, for which we suggest the name 'Candidatus Ancillula trichonymphae', represent a novel, deep-branching lineage in the Micrococcineae that consists exclusively of clones from termite guts. They preferentially colonized the anterior part of the flagellate host and were highly abundant in all species of Trichonympha Cluster II except Trichonympha globulosa. Here, they were outnumbered by a Desulfovibrio species associated with the cytoplasmic lamellae at the anterior cell pole. Such symbionts are present in both Trichonympha clusters, but not in all species. Unlike the intracellular location reported for the Desulfovibrio symbionts of Trichonympha agilis (Cluster I), the Desulfovibrio symbionts of T. globulosa (Cluster II) were situated in deep invaginations of the plasma membrane that were clearly connected to the exterior of the host cell.


Subject(s)
Actinobacteria/classification , Desulfovibrio/classification , Gastrointestinal Tract/microbiology , Hypermastigia/classification , Isoptera/microbiology , Symbiosis , Actinobacteria/genetics , Actinobacteria/isolation & purification , Actinobacteria/ultrastructure , Animals , Cloning, Molecular , Desulfovibrio/genetics , Desulfovibrio/isolation & purification , Desulfovibrio/ultrastructure , Genes, rRNA , Hypermastigia/isolation & purification , Hypermastigia/physiology , Hypermastigia/ultrastructure , Phylogeny , Species Specificity , Symbiosis/genetics
4.
ISME J ; 11(3): 766-776, 2017 03.
Article in English | MEDLINE | ID: mdl-27801909

ABSTRACT

The cellulolytic protist Trichonympha agilis in the termite gut permanently hosts two symbiotic bacteria, 'Candidatus Endomicrobium trichonymphae' and 'Candidatus Desulfovibrio trichonymphae'. The former is an intracellular symbiont, and the latter is almost intracellular but still connected to the outside via a small pore. The complete genome of 'Ca. Endomicrobium trichonymphae' has previously been reported, and we here present the complete genome of 'Ca. Desulfovibrio trichonymphae'. The genome is small (1 410 056 bp), has many pseudogenes, and retains biosynthetic pathways for various amino acids and cofactors, which are partially complementary to those of 'Ca. Endomicrobium trichonymphae'. An amino acid permease gene has apparently been transferred between the ancestors of these two symbionts; a lateral gene transfer has affected their metabolic capacity. Notably, 'Ca. Desulfovibrio trichonymphae' retains the complex system to oxidize hydrogen by sulfate and/or fumarate, while genes for utilizing other substrates common in desulfovibrios are pseudogenized or missing. Thus, 'Ca. Desulfovibrio trichonymphae' is specialized to consume hydrogen that may otherwise inhibit fermentation processes in both T. agilis and 'Ca. Endomicrobium trichonymphae'. The small pore may be necessary to take up sulfate. This study depicts a genome-based model of a multipartite symbiotic system within a cellulolytic protist cell in the termite gut.


Subject(s)
Desulfovibrio/genetics , Genome, Bacterial , Hypermastigia/microbiology , Isoptera/microbiology , Symbiosis/physiology , Animals , Desulfovibrio/physiology , Gene Expression Regulation, Bacterial , Hypermastigia/physiology , Molecular Sequence Data , Phylogeny
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