Rock snot in the age of transcriptomes : using a phylogenetic framework to identify genes involved in diatom extracellular polymeric substance-secretion pathways

Ashworth, Matt Peter

21 November 2014

We are coming to understand that the ecological importance of diatoms is not limited to primary productivity, as many diatoms produce extracellular polymeric substances (EPS), which are vital components in algal and bacterial “biofilms.” While great effort has been made to chemically identify the types of molecules and polymers used to create and modify diatom EPS there is still much about the process we do not know. Rather than studying this process chemically, we have elected to search for the genes involved in EPS production and secretion. We assembled transcriptomes from three EPS-producing diatoms (Cyclophora tenuis, Lucanicum concatenatum, Thalassionema frauenfeldii) and two diatoms which do not (Astrosyne radiata, Thalassionema sp. ‘BlueH20’). In an attempt to limit the differences to EPS-related transcripts, the taxa were selected in a phylogenetic framework (which is also discussed in this dissertation), where EPS-producing taxa were closely-related to taxa which did not produce EPS (A. radiata, C. tenuis, L. concatenatum as one set, T. frauenfeldii and T. sp. ‘BlueH20’ as the other). The resulting pool of transcripts sorted for contigs which appeared in the EPS-producing taxa but not their closely-related non EPS-producing counterparts, and those contigs were then compared to two annotated diatom genomes and sorted by function, looking specifically for genes related to secretion, polysaccharide assembly or modification and carbohydrate metabolism. In the Thalassionema clade, 41 contigs with the aforementioned annotations were found, while 22 such contigs were found in the Cyclophora/Lucanicum/Astrosyne clade. These putative EPS-related markers are identified in this dissertation for further study on their function and evolution across diatoms. / text

Diatoms

Extracellular polymeric substances

Phylogeny

Transcriptomes

Studies on the evolution of the ethylene forming enzyme : 1-aminocyclopropane-1-carboxylate (ACC) oxidase

Reynolds, Elizabeth A.

January 2001

No description available.

572

Aspects of the molecular evolution of baculoviruses and flaviviruses

Zanotto, Paolo Marinho de Andrade

January 1995

No description available.

579

Intraspecific and interspecific molecular variation in the Coelopidae

MacDonald, Catherine

January 2000

No description available.

572.8

Phylogenetics and phylogeography of the bull shark, Carcharhinus leucas (Valenciennes, 1839)

Gulak, Simon J. B.

January 2011

The bull shark, Carcharhinus leucas, is an important euryhaline predator that is exploited throughout its range for meat and fins. This species is taxonomically paired with the pigeye shark, C. amboinensis. Validity of this group has not been directly tested using molecular markers. Genetic variation and phylogeny was examined with concatenated datasets of mitochondrial genes (cytb, cox1 and 12stRNA16s) for nineteen species, from three families within the order Carcharhiniformes. Whilst there were indications of species pairings within the genus, there was no evidence to suggest that the bull and pigeye sharks should be considered a species group. Phylogenetic analysis failed to resolve Carcharhinus, but confirmed Negaprion as a sister taxon and placed Prionace glauca within Carcharhinus. It remains unclear if the family Sphyrnidae, arose from a Rhizoprionodon or Scoliodon ancestor and future revision of this complex group of sharks is required. Like other large carcharhinid species, C. leucas exhibits a low reproductive rate and long generation times. It is susceptible to localised depletions and such declines have been documented. The global stock structure was assessed by analysing the mitochondrial control region in 245 individuals sampled from eight populations in three ocean basins. The bull shark exhibits relatively high haplotype diversity (0.896 ± 0.010) when compared to other globally-distributed sharks and the nucleotide diversity was similar to others from the genus (0.00465 ± 0.00014). There was significant stock structure found among populations (ΦST=0.736, p<0.00001) and among ocean basins (ΦCT=0.527, p=0.00653). Geneflow between the US Atlantic coastline and Gulf of Mexico was sufficient to consider the area to be a single panmictic population. Coalescent analyses suggest an Indian Ocean origin with population divergences associated with warm interglacials and increased habitat with drop in sea level during the recent Wisconsin glaciation. Seven discrete stock management units for bull sharks are proposed.

597.34

Foamy-like endogenous retroviruses are extensive and abundant in teleosts

Ruboyianes, Ryan, Worobey, Michael

30 December 2016

Recent discoveries indicate that the foamy virus (FV) (Spumavirus) ancestor may have been among the first retroviruses to appear during the evolution of vertebrates, demonstrated by foamy endogenous retroviruses present within deeply divergent hosts including mammals, coelacanth, and ray-finned fish. If they indeed existed in ancient marine environments hundreds of millions of years ago, significant undiscovered diversity of foamy-like endogenous retroviruses might be present in fish genomes. By screening published genomes and by applying PCR-based assays of preserved tissues, we discovered 23 novel foamy-like elements in teleost hosts. These viruses form a robust, reciprocally monophyletic sister clade with sarcopterygian host FV, with class III mammal endogenous retroviruses being the sister group to both clades. Some of these foamy-like retroviruses have larger genomes than any known retrovirus, exogenous or endogenous, due to unusually long gag-like genes and numerous accessory genes. The presence of genetic features conserved between mammalian FV and these novel retroviruses attests to a foamy-like replication biology conserved for hundreds of millions of years. We estimate that some of these viruses integrated recently into host genomes; exogenous forms of these viruses may still circulate.

paleovirology

endogenous retrovirus

foamy virus

fish

phylogeny

Phylogenetics And Molecular Evolution Of Highly Eusocial Wasps

Lopez-Osorio, Federico

01 January 2016

Societies where workers sacrifice their own reproduction and cooperatively nurture the offspring of a reproductive queen caste have originated repeatedly across the Tree of Life. The attainment of such reproductive division of labor enabled the evolution of remarkable diversity in development, behavior, and social organization in the Hymenoptera (ants, bees, and wasps). Wasps of the family Vespidae exhibit a gamut of social levels, ranging from solitary to highly social behavior. The highly social yellowjackets and hornets (Vespinae) have well developed differences in form and function between queens and workers, large colony sizes, and intricate nest architecture. Moreover, certain socially parasitic species in the Vespinae have secondarily lost the worker caste and rely entirely on the workers of a host species to ensure the survival of parasitic offspring. Understanding the evolution of behavioral traits in the Vespinae over long periods of time would be greatly enhanced by a robust hypothesis of historical relationships. In this study, I analyze targeted genes and transcriptomes to address three goals. First, infer phylogenetic relationships within yellowjackets (Vespula and Dolichovespula) and hornets (Vespa and Provespa). Second, test the hypothesis that social parasites are more closely related to their hosts than to any other species (Emery's rule). Third, test the protein evolution hypothesis, which states that accelerated evolution of protein coding genes and positive selection operated in the transition to highly eusocial behavior. The findings of this study challenge the predominant understanding of evolutionary relationships in the Vespinae. I show that yellowjacket genera are not sister lineages, instead recovering Dolichovespula as more closely related to the hornets, and placing Vespula as sister to all other vespine genera. This implies that traits such as large colony size and high paternity are mostly restricted to a particular evolutionary trajectory (Vespula) from an early split in the Vespinae. I demonstrate that obligate and facultative social parasites do not share immediate common ancestry with their hosts, indicating that socially parasitic behavior likely evolved independently of host species. Moreover, obligate social parasites share a unique evolutionary history, suggesting that their parasitic behavior might have a genetic component. Lastly, I analyze transcriptomic data to infer a phylogeny of vespid wasps and use this phylogeny to discover lineage-specific signatures of positive selection. I identify more than two hundred genes showing signatures of positive selection on the branch leading to the highly eusocial yellowjackets and hornets. These positively selected genes involve functions related mainly to carbohydrate metabolism and mitochondrial activity, in agreement with insights from studies of bees and ants. Parallels of functional categories for genes under positive selection suggests that at the molecular level the evolution of highly eusocial behavior across the Hymenoptera might have followed similar and narrow paths.

Hymenoptera

Phylogenomics

Phylogeny

Sociality

Transcriptome

Wasp

Biology

Evoluce skupiny Retortamonadida (Eukaryota: Excavata: Fornicata) / Evolution of Retortamonadida (Eukaryota: Excavata: Fornicata)

Smejkalová, Pavla

January 2010

Retortamonads (Retortamonadida; genera Chilomastix and Retortamonas) are a small group of protists comprising intestinal commensals of both vertebrates and invertebrates and one free-living species of the genus Chilomastix. Molecular phylogenetic studies showed that retortamonads are closely related to diplomonads, Carpediemonas, Dysnectes, Hicanonectes, Kipferlia and two undescribed lineages of free-living Carpediemonas-like organisms, together forming the monophyletic excavate group Fornicata. For a long time Retortamonadida have been assumed to be a monophyletic group. However, first molecular phylogenetic study including sequence data from both Retortamonas and Chilomastix suggested that Retortamonadida are paraphyletic and that diplomonads branch within Retortamonadida. Retortamonads still remain poorly studied protist group and their phylogeny is unclear. We sequenced and analysed SSU rDNA of ten Retortamonas and four Chilomastix SSU rDNA sequences. In addition, we sequenced SSU rDNA of an undescribed enteromonad lineage. The phylogenetic tree of Fornicata was largely unresolved and the phylogenetic position of the genus Chilomastix remained unclear. On the other hand, the genus Retortamonas and diplomonads formed a robust clade. Retortamonas sequences split into three host-specific lineages. The...

Diverzita rodu Frustulia v severní Evropě / Diversity of the genus Frustulia in northern Europe

Scharfen, Vojtěch

January 2014

Genus Frustulia was chosen for this work due to the continuity of the previous research of our phycological group. Using molecular techniques, it was found that a number of morphologically defined species of diatoms is cryptic species complex, which may have limited dispersal. The aim of this study was to: 1) evaluate the diversity of the genus Frustulia in northern Europe by molecular methods and classify found species in the phylogenetic context of related species; 2) find out if it possible to identify the isolated species in natural samples by using morphological characters. There have been analyzed 234 strains by molecular methods. Isolated ones were in four clades. 86 % of the strains belonged to a generic complex F. crassinervia-saxonica. Two strains were identified as species F. gaertnerae and F. septentrionalis. The last line was not described yet so it was labeled as F. sp. This line is closely related to the species F. maoriana, which is considered to be endemic in New Zealand. Phylogeny of the genus was created based on a dataset of four molecular markers. Published morphometric data were then compared with 264 cells photos taken by scanning electron microscope. There was done surveillance comparison of the results of the analysis of quantitative and qualitative characters with...

Origin and diversification of hornbills (Bucerotidae)

Gonzales, Juan-Carlos Tecson

January 2012

Hornbills (Aves: family Bucerotidae) are a charismatic group of Palaeotropical birds recognised for their distinctive morphology (casque) and behaviour (nest-sealing). Hornbill diet, habitat use, distribution and social system display pronounced interspecific variation, and their mutualistic interactions with tropical fruits provide vital ecosystem services. A wide range of species of hornbills across the Afrotropics, Indo-Malaya and Melanesia are of conservation concern. However, the evolutionary history of hornbills remains unclear and there are conflicting hypotheses about their origin, tempo of diversification and biogeography. Despite a comprehensive cladistic analysis of phenotypic data, there are unresolved taxonomic uncertainties within the family, and although a gradual accumulation of molecular data has revealed interesting phylogenetic relationships, methodological limitations, and incomplete sampling, has left gaps and produced incongruent results. Hence the evolutionary framework against which to interpret the diversity of this group is incomplete. The aim of this thesis was to construct a well-resolved molecular phylogeny of hornbills, and to use it to address longstanding questions about the evolution and diversification of these remarkable birds. This thesis presents a broad phylogenetic and biogeographic analysis of the family Bucerotidae, based on a coalescence of molecular methods and comparative analyses, largely using historical samples and recently-developed bioinformatic approaches. I provide the first complete species-level molecular phylogeny of hornbills, derived from nuclear adenylate kinase 1 intron 5 and mitochondrial (mtDNA) cytochrome b genes, and also a comprehensive mtDNA phylogeny covering 98% of the taxa, with extensive sampling of Asian geo-isolates. Using these two phylogenetic trees, I sought to determine the tempo of divergence, trace the evolution of traits, identify ancestral areas and colonisation routes, and also calculate genetic divergence. In this part of the work, I stress the importance of (1) using historical samples, (2) calibrating time-trees with fossil and molecular anchor-points, and (3) the use of a complete tree to test models of diversification and reconstruct ancestral states. My findings confirm the monophyly of Bucerotidae, showing nearly distinct African and Asian lineages, with relatively congruent topologies across different phylogenetic methods and genes. In turn, these gene trees were comparable with previous cladistic analysis based on phenotypic data. As a result, I was able to resolve some taxonomic issues and propose generic changes. Comparative analyses of social behaviour revealed that cooperative breeding is an ancestral trait, and its evolution in hornbills (in contrast with some other taxa) is associated with stable environments in combination with frugivory, territoriality and reduced body size. Analysis of the evolution of diet with diversification showed that the shift to frugivory from faunivorous African ancestors influenced the rapid diversification of Afro-Asian forest hornbills, facilitated by their preference for humid forests and mutualistic interactions with , hornbill-dispersed fruits (HDF). This dispersal of frugivorous lineages via the Palaeotropical Biotic Interchange promoted colonisation of Asia, with Sundaland being the centre of radiation for continental and insular Asian species. The gradual eastward colonisation from India to Melanesia matches palaeo-tectonic events that allowed dispersal across Huxley's, Wallace's and Lydekker's lines, and was congruent with historical biogeography of some HDFs. Finally, I used a combined analysis of genetic divergence and a standard scoring system for phenotypic data of Asian geo-isolates to provide evidence for quantitative delineation of species and propose changes in conservation status. My findings reveal the evolutionary history of horn bills from their emergence in the Late Oligocene from African origins, with a switch to frugivory influencing successful colonisation of hornbills and HDFs in Asian forests, which combined to promote sociality. Overall, this thesis demonstrates that access to novel environments and innovations to ecological niche facilitate rapid diversification in an avian lineage, and that this process is further promoted by the interplay of these birds in complex mutualistic interactions with their food, as well as palaeo-climatic and palaeo-tectonic changes.

598.78