Cha-Cha-Cha: Variable Adhesive Activity of the <italic>Haemophilus</Italic> Cryptic Genospecies Trimeric Autotransporter Cha

Sheets, Amanda Joan

January 2009

<p>Disease caused by the Gram-negative <italic>Haemophilus</italic> cryptic genospecies begins with colonization of the maternal genital or neonatal respiratory tract. The primary goal of this work was to identify and characterize the molecular determinant(s) of <italic>Haemophilus<i/talic> cryptic genospecies adherence as a means to better understand the specific adaptation of this species to the urogenital tract and neonatal respiratory tract. Using transposon mutagenesis of prototype strain 1595, we identified a locus that is essential for <italic>Haemophilus</italic> cryptic genospecies adherence to a variety of epithelial cell lines of both genital and respiratory origin. This locus encodes a protein called Cha that shares homology with trimeric autotransporters. Trimeric autotransporters are composed of an N-terminal signal peptide, an internal passenger domain that harbors adhesive activity, and a short C-terminal membrane anchor domain and are classically characterized by head-stalk-anchor domain architecture. By generating chimeric proteins, we demonstrated that the C-terminus of Cha trimerizes in the bacterial outer membrane and is capable presenting a heterologous passenger domain (Hia) in a functional form, thus confirming that Cha is a trimeric autotransporter. Southern analysis revealed that <italic>cha</italic> is unique to the <italic>Haemophilus</italic> cryptic genospecies and is ubiquitous among these strains. </p><p>Similar to a number of trimeric autotransporters, the passenger domain of Cha contains scattered clusters of YadA-like head domains associated with head-to-stalk neck adaptor motifs, predicted coiled-coil stalks and a series of identical tandem coding repeats which are not required for adherence. By evaluating the adherence capacity of <italic>H. influenzae</italic> expressing Cha deletion derivatives, we established that the N-terminal 473 residues of Cha harbor the binding domains responsible for Cha-mediated adherence to epithelial cells. In additional studies, we demonstrated that this same N-terminal region mediates bacterial aggregation through inter-bacterial Cha-Cha binding. </p><p>Further analysis revealed that variable Cha-mediated adherence is linked to spontaneous changes in the number of identical tandem repeats predicted to comprise a coiled-coil stalk domain. Variation in repeat copy number has a direct effect on Cha adhesive and aggregative activity, independent of an impact on transcription of the <italic>cha</italic> locus or surface localization of Cha protein. Moreover, length of Cha surface fibers correlates with repeat copy number expansion. We propose two hypotheses to explain how repeat expansion inhibits bacterial aggregation and host cell binding: 1) Variation in the number of 28-amino acid repeats may influence the conformation of Cha, thus changing the surface accessibility of the Cha binding pocket. 2) Repeat expansion results in the formation of long, flexible Cha fibers on the bacterial cell surface that may have a greater propensity to interact with neighboring Cha trimers at the N-terminus, thereby precluding adherence to other bacteria or host epithelial cells. </p><p>In additional studies screening adherent cryptic genospecies isolates for expression of Cha protein, we identified an additional, antigenically-divergent Cha variant that we refer to as Cha2. Amino acid sequence and domain comparison of Cha2 with Cha (now Cha1) revealed that the structurally undefined N-terminal sequences (encompassing the Cha1 adhesive and aggregative domain) are strikingly divergent. Inspite of this, Cha2 mediates efficient adherence to human epithelial cells, similar to Cha1.</p><p>Identification of Cha offers insight into the apparent tissue tropism associated with the <italic>Haemophilus</italic> cryptic genospecies. We speculate that the unique regulation of Cha adhesive activity enhances the adaptive capability of this pathogenic organism in the human host.</p> / Dissertation

Biology, Microbiology

Biology, Molecular

Biology, Genetics

adhesin

bacterial pathogenesis

Cha

cryptic genospecies

Haemophilus

trimeric autotransporter

Detection Of Species Boundaries In The Rana Ridibunda Complex Of Southwestern Turkey Using Mitochondrial Nd3 Marker

Akin, Cigdem

01 January 2007

Water frogs are one of the most interesting vertebrate groups, showing great diversity and complexity in their reproductive modes, ecology and evolutionary relationships, and with many cryptic species due to high morphological similarity. For many decades, a single species, Rana ridibunda, has been suggested to exist in Turkey. However, the application of new morphometric, molecular and bioacoustic techniques has recently revealed the occurrence of several distinct water frog taxa in Turkey. In this study, 340 bp long mtDNA ND3 region in 195 specimens was sequenced and subjected to phylogenetic analyses to detect geographical structure and species boundaries. Neighbor joining tree, minimum spanning network, SAMOVA and AMOVA were used to understand relationship within and among clades. Population demography was studied through mismatch distribution and neutrality tests. Results indicated that populations in southwestern Turkey show high diversity and strong geographic structuring. In Turkey there are four major maternal lineages, each probably representing a species: Thrace lineage represents Rana ridibunda Pallas 1771 in European Turkey / Ceyhan lineage indicates an unnamed taxon in Cilicia plain / South-central lineage occurs at the Lake District, Antalya, Konya and Karaman provinces and represents Rana caralitana Arikan, 1988 / Anatoliaca lineage (occuring in Asiatic Turkey except for central southern Turkey, Rhodes &amp / Karpathos, northeastern Syria, and probably also Iraq and Transcaucasia) is designated either as Rana cerigensis Beerli, Hotz, Tunner, Heppich, and Uzzell 1994 or as a new subspecies of R. caralitana, based on the degree of reproductive isolation present between the last two lineages.

QL Zoology 1-991

The coexistence of ecologically similar species

Smith, Geneviève Kathleen

17 February 2014

The biological diversity on planet Earth is astounding. Understanding the origins of this diversity, and how it is maintained, are the twin goals of ecology and evolutionary biology. An early and oft-repeated insight in this investigation is that that similar organisms cannot coexist indefinitely. Theory predicts that individuals and species will compete for limited resources and whichever has even a slight advantage will drive all others extinct in a process known as ‘competitive exclusion’. By diversifying, species avoid competition, thereby ‘stabilizing’ their coexistence. Yet natural systems often display levels of diversity that are surprisingly high, given this theory and investigations of how the similarity of coexisting species is maintained have received much less attention. Using a combination of field studies and experiments I demonstrate that highly similar species of freshwater amphipods may compete for resources without resulting in competitive exclusion. These findings suggest that there exist a range of interactions among Hyalella amphipods, ranging from strong stabilizing effects due to ecological trade-offs, to weakly stabilizing effects, to a total lack of stabilizing effects among various pairs of species in this system. These findings demonstrate how the relative strength of stabilizing forces may vary among coexisting species. Although much effort has been dedicated to enumerating and classifying the ways in which ecological and evolutionary forces promote diversity among species, there has been far less attention paid to mechanisms such as convergent evolution, habitat filtering, competition for non-substitutable resources, and non-ecological speciation, among others. I surveyed current theory that may explain the high levels of similarity among species often found in natural systems. I describe how several ecological and evolutionary mechanisms may operate to promote the coexistence of similar species and present results from new theoretical combinations of mechanisms to demonstrate how they may further act in concert with one another. / text

Coexistence

Niche overlap

Ecological divergence

Cryptic species

Neutral theory

Hyalella azteca

Individual variation

Biophysical and Molecular Determinants in Cell Tension-Mediated Fibronectin Unfolding that Drive Fibrillogenesis

Gee, Elaine Pei-San

January 2012

Assembly of the extracellular matrix (ECM) protein fibronectin (FN) is a mechanical process that involves cell binding to FN through cell surface integrin receptors and application of tensional forces generated in the cell's contractile actin cytoskeleton. Deformation-induced exposure of cryptic sites, defined as buried molecular recognition sites, in FN has been proposed as a mechanism by which cell tension drives FN fibrillogenesis. The primary integrin attachment site on FN is the RGD loop in the 10FNIII domain. In this thesis, I set out to define the molecular biophysical mechanism by which cell tension application at the RGD site promotes unfolding and thereby induces FN-FN self-assembly leading to matrix fibril formation. Chapter 1 of this dissertation provides an overview of the current knowledge behind the biophysical and molecular basis of FN assembly in the ECM and its key role in development and disease. In Chapter 2, steered molecular dynamic simulations show that the 10FNIII domain under force applied through its N-terminus and RGD loop (N-to-RGD) unfolds to a preferred kinetic intermediate with solvent-exposed N-terminal hydrophobic residues in a manner different from past analyses in the literature where force through the N- and C- termini leads to multiple unfolding pathways. Use of single-molecule atomic force spectroscopy in Chapter 3 experimentally reveals that a mechanically stable intermediate of 10FNIII exposed by N-to-RGD pulling shows a length extension that agrees with the predicted kinetic intermediate. Results of biochemical and cellular studies using synthetic peptides with sequences from the 10FNIII intermediate show in Chapter 4 that the twenty-three amino acid sequence that spans the unraveled N-terminus of the predicted intermediate mediates FN multimerization and contains a minimal seven amino acid sequence we call the multimerization motif that is sufficient to induce FN-FN multimer assembly. Finally, Chapter 5 summarizes the new insights supported by this work regarding the role that mechanical forces applied at the cell binding site in 10FNIII plays in the physiological unfolding of FN with respect to FN fibrillogenesis and ECM assembly.

10FNIII

cell tension

cryptic sites

fibronectin fibrillogenesis

mechanical unfolding

RGD loop

biophysics

The genetic diversity of brook lampreys genus Lampetra (Petromyzontidae) along the Pacific coast of North America

Boguski, David Andrew

14 September 2009

The number of non-parasitic (brook) lamprey species in the genus Lampetra is underestimated since isolated populations are generally considered one species due to their relatively conserved body form. The phylogeographic and phylogenetic structure was estimated among and within Lampetra species along the Pacific coast of North America (presumed to represent Lampetra richardsoni; L. pacifica – which is currently regarded as a junior synonym of L. richardsoni; L. ayresii; and L. hubbsi) using up to three mitochondrial and three nuclear genetic markers. These data show that L. richardsoni as currently recognized is polyphyletic when lampreys (some of which show up to 8 K2P% sequence divergence) from Siuslaw River and Fourmile Creek (Oregon) and Mark West, Paynes, and Kelsey creeks (California) are included; Lampetra pacifica is a valid species; the population from Kelsey Creek almost certainly represents a new species; and those from Siuslaw, Fourmile, and Mark West may also be distinct species.

phylogeny

phylogeography

cryptic species

mitochondrial

nuclear DNA

paired species

cytochrome b

microsatellites

conservation

Ejaculate traits and ovarian fluid as a potential mechanism for cryptic female choice in chinook salmon (Oncorhynchus tshawytscha)

Rosengrave, Patrice Christina

January 2010

Marine and freshwater environments support numerous species of teleost fish with a wide and diverse range of reproductive strategies. Despite the considerable interest in fish reproduction, our knowledge regarding ejaculate traits and factors affecting them is limited. Using computer-assisted sperm analysis (CASA) I measured ejaculate traits (sperm swimming speed, motility, path trajectory, longevity and concentration) from sexually mature chinook salmon (Oncorhynchus tshawytscha) activated in freshwater and ovarian fluid. I also looked at these ejaculate traits in relation to measures of male quality (body condition) and investment into reproduction (relative testes mass). Furthermore, I determined the chemical composition of seminal and ovarian fluid and looked at the effect these fluids have on sperm behaviour. A considerable amount of intraspecific variation existed in all ejaculate traits measured, and investment into reproduction (relative testes mass) was dependent on male body condition, as males in better condition had relatively larger testes. However, these males did not have superior quality ejaculates or ejaculates with a higher density of spermatozoa; hence the potential reproductive advantage of having larger relative testes in this species remains unknown and requires further investigation. In addition, a positive relation between sperm longevity and sperm swimming speed was observed defying the expected trade-off between ejaculate traits according to theory. There was also a weak negative trend in our data between body condition and sperm swimming speed, linearity, and longevity. All sperm traits measured were greatly enhanced when activated in a solution containing ovarian fluid (a viscous fluid which is excreted with the egg batch during spawning) from female chinook salmon. Interestingly, sperm swimming speed activated in fresh water only accounted for < 12% of the observed variation in mean sperm swimming speed in ovarian fluid. This result suggests the sperm traits measured in fresh water are not relevant to those same traits measured in ovarian fluid, so caution should be applied when comparing the potential for individual males to fertilize ova when sperm traits are activated in water, especially in studies of sperm competition in an externally fertilising species. Sperm competition between males is known to strongly influence sperm and ejaculate traits, but less is known about female sperm choice after copulation via a process called cryptic female choice (CFC). In CFC, females may have the ability to favour the sperm of one male over another and bias fertilisation accordingly. To test whether ovarian fluid could act as a mechanism of CFC in an externally fertilising fish species, I measured sperm traits from each male activated in the ovarian fluids from different females. I found that mean sperm swimming speed, longevity, and path trajectory differed significantly among males, but most importantly, the pattern of within-male variation in these traits also varied significantly among males in response to different females’ ovarian fluids. This result suggests that ovarian fluid may be a potential mechanism of CFC whereby females differentially enhance the swimming speed of sperm from different males. In addition, I found that sperm longevity was negatively correlated with variation in [Ca²⁺] and [Mg²⁺] concentration in the ovarian fluid, while percent motility increased with increasing concentration of [Mg²⁺]. These observations provide a possible chemical basis for cryptic female choice whereby female ovarian fluid differentially influences the behaviour of sperm from different males and thus their fertilisation success. This finding is particularly exciting, as we may have uncovered a potential mechanism of CFC in an externally fertilising species, which is poorly understood. In addition, results from this study suggest new directions for genetic studies to provide direct evidence for CFC. For example, does sperm selection via ovarian fluid promote favoured genetic combinations that enhance male reproductive success?

chinook salmon

cryptic female choice

ejaculate traits

sperm competition

ovarian fluid

The genetic diversity of brook lampreys genus Lampetra (Petromyzontidae) along the Pacific coast of North America

Boguski, David Andrew

14 September 2009

The number of non-parasitic (brook) lamprey species in the genus Lampetra is underestimated since isolated populations are generally considered one species due to their relatively conserved body form. The phylogeographic and phylogenetic structure was estimated among and within Lampetra species along the Pacific coast of North America (presumed to represent Lampetra richardsoni; L. pacifica – which is currently regarded as a junior synonym of L. richardsoni; L. ayresii; and L. hubbsi) using up to three mitochondrial and three nuclear genetic markers. These data show that L. richardsoni as currently recognized is polyphyletic when lampreys (some of which show up to 8 K2P% sequence divergence) from Siuslaw River and Fourmile Creek (Oregon) and Mark West, Paynes, and Kelsey creeks (California) are included; Lampetra pacifica is a valid species; the population from Kelsey Creek almost certainly represents a new species; and those from Siuslaw, Fourmile, and Mark West may also be distinct species.

phylogeny

phylogeography

cryptic species

mitochondrial

nuclear DNA

paired species

cytochrome b

microsatellites

conservation

Diversity Underfoot : Systematics and Biogeography of the Dictyostelid Social Amoebae

Perrigo, Allison L

January 2013

Dictyostelids (Amoebozoa) are a group of social amoebae consisting of approximately 150 species, which are found in terrestrial habitats worldwide. They are divided into eight major clades based on molecular phylogeny, and within these clades are many species complexes. Some species are seemingly cosmopolitan in distribution, while others are geographically restricted. In this thesis dictyostelids were recovered from high latitude habitats (soils in Sweden and Iceland) as well as from the soles of shoes. Morphological characters and DNA sequence analyses were used to identify isolates that were recovered and delimit new species, as well as to investigate the monophyly of Dictyostelium aureostipes. Nine species were reported from Northern Sweden and four from Iceland. Among the isolates recorded in Sweden were two new species, described as D. barbibulus and Polysphondylium fuscans. P. fuscans was among the four species recovered from footwear, contributing evidence for anthropogenic transport of dictyostelids. Ecological patterns were assessed using linear regression and generalized linear models. The ecological analyses of dictyostelids recovered from Iceland indicate that these organisms are most frequently found in soils of near-neutral pH, but also exhibit a species richness peak in moderately acidic soils. These analyses indicate that in Iceland dictyostelid species richness decreases with altitude, and in the northern hemisphere the species richness increases with decreasing latitude. A three-region analysis of the D. aureostipes species complex indicated that this species is in fact made up of at least five phylogenetically distinct clades, and in light of this the group is in need of taxonomic revision. These results indicate that the dictyostelid species richness is higher than previously known, especially in high-latitude regions, and that even seemingly well-defined species may harbour cryptic diversity. Presently, species ranges may be expanding via anthropogenic dispersal but despite this, the dictyostelids are found to exhibit biogeographic trends well known from macroorganisms, such as a latitudinal gradient of species richness.

Amoeba

biogeography

cryptic species

dictyostelid

latitudinal gradient

multicellularity

protist

social amoeba

phylogenetics

systematics

new species

Delimitação de espécies em Cubozoa : morfologia e molecular do gênero Tamoya /

Gimenes, Kethely Fernandes Brasil

January 2017

Orientador: Sérgio Nascimento Stampar / Resumo: Existe uma considerável abundância de espécies de cnidários no litoral do Brasil e uma das espécies mais intrigantes e pouco conhecidas é a Tamoya haplonema, a qual dentre suas características mais interessantes se destaca a presença de um padrão de bandas nos tentáculos, o que não é comum nos cubozoários, classe à qual pertence. Essa espécie é conhecida desde meados do século XIX, sendo uma das poucas espécies no Atlântico Sul capaz de causar acidentes graves em humanos. Em 2011 alguns registros de espécimes do mesmo gênero para o Mar do Caribe resultaram na descrição de uma nova espécie, Tamoya ohboya. Essa espécie foi delimitada, principalmente, por dados moleculares e devido à disponibilidade de poucos indivíduos a definição é dúbia em vários trechos. Já foi constatado que o cenário taxonômico do gênero Tamoya no Atlântico Ocidental não é consistente. Desta maneira, o principal objetivo deste estudo foi a comparação taxonômica do gênero Tamoya no Atlântico Sul e Mar do Caribe.Para tal, indivíduos do gênero Tamoya do Atlântico Sul foram analisados e comparados com T.ohboya, utilizando dados morfológicos/morfométricos e moleculares, incluindo o estudo da composição dos nematocistos através das medidas e análises comparativas. Os resultados morfológicos, bem como a análise do cnidoma e os resultados moleculares deixam claro que T.haplonema e T.ohboya são na realidade a mesma espécie. / Abstract: There is a considerable abundance of cnidarian species along the Brazilian coast and one of the most intriguing and little known species is the medusa Tamoya haplonema, which among its most interesting characteristics stands out the presence of a pattern of bands in the tentacles, which is not common in the Cubozoa, the class to which it belongs. This species has been known since the mid-nineteenth century, being one of the few species in the Southern Atlantic capable of causing serious stings to humans. In 2011 specimens of the same genus the Caribbean Sea resulting in the description of a new species, Tamoya ohboya. This species was delimited, mainly, by molecular data and due to the availability of few individuals the definition is dubious in several parts. It has already been verified that the taxonomic scenario of the genus Tamoya in the Western Atlantic is not consistent. Thus, the main objective of this study was the taxonomic comparison of the genus Tamoya in the South Atlantic and the Caribbean Sea. Thus individuals of the genus from the South Atlantic were analyzed and compared with T.ohboya, using morphological / morphometric and molecular data, including the study of the nematocysts composition through measurements and comparative analyzes. The morphological results as well as the analysis of the cnidome and molecular results make it clear that T.haplonema and T.ohboya are actually the same species. / Mestre

Taxonomia

Tamoya haplonema

Tamoya ohboya

Espécies crípticas

DNA barcoding

Taxonomy

Cryptic species

O Complexo Cliona celata Grant, 1826 (Porifera, Demospongiae) na América do Sul: uma abordagem molecular e morfológica / The Cliona celata Grant, 1826 (Porifera, Demospongiae) complex in South America: a molecular and morphologic approach.

Thiago Silva de Paula

18 February 2009

Este trabalho visou a averiguação do status taxonômico das esponjas bioerosivas do complexo Cliona celata da América do Sul por meio de técnicas moleculares, utilizando como marcadores a subunidade I da Citocromo c oxidase (cox1) e os Espaçadores Internos Transcritos do RNAr nuclear (ITS1 e ITS2), além de testar outros marcadores. Igualmente, avaliou o grau de variabilidade morfológica encontrado nessas espécies, principalmente por meio da morfometria dos tilóstilos, a fim de estabelecer uma diagnose para elas. Ainda, tentou determinar as relações filogenéticas dessas espécies com as demais esponjas bioerosivas utilizando o gene 28S do RNAr nuclear. Foi possível determinar a existência de cinco clados de esponjas bioerosivas do complexo Cliona celata para a América do Sul, e dois outros clados não-sulamericanos, por meio dos marcadores moleculares utilizados. Embora seja discutida a validade desses clados como espécies distintas, continua impossível, por meio de caracteres morfológicos, distingui-los, e dessa forma, a proposição formal de novas espécies é evitada. Através da reconstrução filogenética do grupo, é possível verificar que as esponjas bioerosivas analisadas se apresentaram como um grupo monofilético, e se separa em três principais clados: Pione, Spirastrellidae, e Clionaidae. Por meio desta, é sugerida a alocação das espécies do complexo C. viridis e C. schimidti dentro de Spirastrella, além de ser necessária a criação de um novo gênero para alocar as espécies do novo complexo identificado aqui, o complexo C. delitrix. / This work intended the validation of the taxonomic status of boring sponges from the Cliona celata complex of South America by molecular techniques, using Cytochrome coxidase, subunit I (cox1), and Internal Transcribed Spacers (ITS) of rRNA nuclear genes as molecular markers. Additionally, the degree of morphological variation necessary to establisha correct diagnosis for the studied species was evaluated, and additional markers were tested. Finally, a phylogenetic analysis comparing this species with other boring sponges, using the 28S rRNA nuclear gene was carried out. It was possible to point out the existence of five clades of boring sponges from the C. celata complex in South America, and two more from Mexico and Australia. Although these clades can comprise new valide species, no morphological evidence was found to separate them, and thus, no formal species descriptions were presented. Through out phylogenetic analyses it was possible to conclude that boring sponges form a monophyletic group, which can be separated in three clades: Pione, Spirastrellidae, and Clionaidae. This work suggests to allocate C. viridis and C. schimidti species complexes inside Spirastrella, and to create a new genus for the new C. delitrix species complex.

Biogeografia

Espécies crípticas

Filogenia

Porifera

Esponjas bioerosivas

Biogeography

Cryptic species

Phylogeny

Porifera

Boring sponges

ZOOLOGIA