Your search keyword '"Romac S"' showing total 283 results

101. Coupling between taxonomic and functional diversity in protistan coastal communities.

Author

Ramond P, Sourisseau M, Simon N, Romac S, Schmitt S, Rigaut-Jalabert F, Henry N, de Vargas C, and Siano R

Subjects

DNA Barcoding, Taxonomic, Ecology, Eukaryota genetics, Eukaryota isolation & purification, Eukaryota metabolism, Oceans and Seas, Phylogeny, RNA, Ribosomal, 18S genetics, Biodiversity, Eukaryota classification

Abstract

The study of protistan functional diversity is crucial to understand the dynamics of oceanic ecological processes. We combined the metabarcoding data of various coastal ecosystems and a newly developed trait-based approach to study the link between taxonomic and functional diversity across marine protistan communities of different size-classes. Environmental DNA was extracted and the V4 18S rDNA genomic region was amplified and sequenced. In parallel, we tried to annotate the operational taxonomic units (OTUs) from our metabarcoding dataset to 30 biological traits using published and accessible information on protists. We then developed a method to study trait correlations across protists (i.e. trade-offs) in order to build the best functional groups. Based on the annotated OTUs and our functional groups, we demonstrated that the functional diversity of marine protist communities varied in parallel with their taxonomic diversity. The coupling between functional and taxonomic diversity was conserved across different protist size classes. However, the smallest size-fraction was characterized by wider taxonomic and functional groups diversity, corroborating the idea that nanoplankton and picoplankton are part of a more stable ecological background on which larger protists and metazoans might develop., (© 2019 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2019

102. Diatom diversity through HTS-metabarcoding in coastal European seas.

Author

Piredda R, Claverie JM, Decelle J, de Vargas C, Dunthorn M, Edvardsen B, Eikrem W, Forster D, Kooistra WHCF, Logares R, Massana R, Montresor M, Not F, Ogata H, Pawlowski J, Romac S, Sarno D, Stoeck T, and Zingone A

Subjects

DNA Barcoding, Taxonomic, DNA, Protozoan chemistry, Diatoms classification, Metagenome, Oceans and Seas, Phylogeny, RNA, Ribosomal genetics, Biodiversity, DNA, Protozoan genetics, Diatoms genetics

Abstract

Diatoms constitute a diverse lineage of unicellular organisms abundant and ecologically important in aquatic ecosystems. Compared to other protists, their biology and taxonomy are well-studied, offering the opportunity to combine traditional approaches and new technologies. We examined a dataset of diatom 18S rRNA- and rDNA- (V4 region) reads from different plankton size-fractions and sediments from six European coastal marine sites, with the aim of identifying peculiarities and commonalities with respect to the whole protistan community. Almost all metabarcodes (99.6%) were assigned to known genera (121) and species (236), the most abundant of which were those already known from classic studies and coincided with those seen in light microscopy. rDNA and rRNA showed comparable patterns for the dominant taxa, but rRNA revealed a much higher diversity particularly in the sediment communities. Peculiar to diatoms is a tight bentho-pelagic coupling, with many benthic or planktonic species colonizing both water column and sediments and the dominance of planktonic species in both habitats. Overall metabarcoding results reflected the marked specificity of diatoms compared to other protistan groups in terms of morphological and ecological characteristics, at the same time confirming their great potential in the description of protist communities.

Published

2018

103. Worldwide Occurrence and Activity of the Reef-Building Coral Symbiont Symbiodinium in the Open Ocean.

Author

Decelle J, Carradec Q, Pochon X, Henry N, Romac S, Mahé F, Dunthorn M, Kourlaiev A, Voolstra CR, Wincker P, and de Vargas C

Subjects

Animals, DNA, Protozoan analysis, DNA, Protozoan genetics, Dinoflagellida classification, Dinoflagellida genetics, Gene Expression Profiling, Genetic Markers, Genetic Variation, Biodiversity, Biological Evolution, Coral Reefs, Dinoflagellida physiology, Symbiosis

Abstract

The dinoflagellate microalga Symbiodinium sustains coral reefs, one of the most diverse ecosystems of the biosphere, through mutualistic endosymbioses with a wide diversity of benthic hosts [1]. Despite its ecological and economic importance, the presence of Symbiodinium in open oceanic waters remains unknown, which represents a significant knowledge gap to fully understand the eco-evolutionary trajectory and resilience of endangered Symbiodinium-based symbioses. Here, we document the existence of Symbiodinium (i.e., now the family Symbiodiniaceae [2]) in tropical- and temperate-surface oceans using DNA and RNA metabarcoding of size-fractionated plankton samples collected at 109 stations across the globe. Symbiodinium from clades A and C were, by far, the most prevalent and widely distributed lineages (representing 0.1% of phytoplankton reads), while other lineages (clades B, D, E, F, and G) were present but rare. Concurrent metatranscriptomics analyses using the Tara Oceans gene catalog [3] revealed that Symbiodinium clades A and C were transcriptionally active in the open ocean and expressed core metabolic pathways (e.g., photosynthesis, carbon fixation, glycolysis, and ammonium uptake). Metabarcodes and expressed genes of clades A and C were detected in small and large plankton size fractions, suggesting the existence of a free-living population and a symbiotic lifestyle within planktonic hosts, respectively. However, high-resolution genetic markers and microscopy are required to confirm the life history of oceanic Symbiodinium. Overall, the previously unknown, metabolically active presence of Symbiodinium in oceanic waters opens up new avenues for investigating the potential of this oceanic reservoir to repopulate coral reefs following stress-induced bleaching., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

104. An improved primer set and amplification protocol with increased specificity and sensitivity targeting the Symbiodinium ITS2 region.

Author

Hume BCC, Ziegler M, Poulain J, Pochon X, Romac S, Boissin E, de Vargas C, Planes S, Wincker P, and Voolstra CR

Abstract

The Internal Transcribed Spacer 2 (ITS2) rRNA gene is a commonly targeted genetic marker to assess diversity of Symbiodinium , a dinoflagellate genus of algal endosymbionts that is pervasively associated with marine invertebrates, and notably reef-building corals. Here we tested three commonly used ITS2 primer pairs (SYM_VAR_5.8S2/SYM_VAR_REV, ITSintfor2/ITSReverse, and ITS-DINO/ITS2Rev2) with regard to amplification specificity and sensitivity towards Symbiodinium , as well as sub-genera taxonomic bias. We tested these primers over a range of sample types including three coral species, coral surrounding water, reef surface water, and open ocean water to assess their suitability for use in large-scale next generation sequencing projects and to develop a standardised PCR protocol. We found the SYM_VAR_5.8S2/SYM_VAR_REV primers to perform superior to the other tested ITS2 primers. We therefore used this primer pair to develop a standardised PCR protocol. To do this, we tested the effect of PCR-to-PCR variation, annealing temperature, cycle number, and different polymerase systems on the PCR efficacy. The Symbiodinium ITS2 PCR protocol developed here delivers improved specificity and sensitivity towards Symbiodinium with apparent minimal sub-genera taxonomic bias across all sample types. In particular, the protocol's ability to amplify Symbiodinium from a range of environmental sources will facilitate the study of Symbiodinium populations across biomes., Competing Interests: Xavier Pochon is an Academic Editor for PeerJ.

Published

2018

105. The epibiotic life of the cosmopolitan diatom Fragilariopsis doliolus on heterotrophic ciliates in the open ocean.

Author

Vincent FJ, Colin S, Romac S, Scalco E, Bittner L, Garcia Y, Lopes RM, Dolan JR, Zingone A, de Vargas C, and Bowler C

Subjects

Diatoms classification, Diatoms cytology, Diatoms genetics, Haplotypes, Heterotrophic Processes, Oceans and Seas, Phytoplankton cytology, Phytoplankton genetics, Phytoplankton physiology, Symbiosis, Ciliophora, Diatoms physiology

Abstract

Diatoms are a diverse and ecologically important group of phytoplankton. Although most species are considered free living, several are known to interact with other organisms within the plankton. Detailed imaging and molecular characterization of any such partnership is, however, limited, and an appraisal of the large-scale distribution and ecology of such consortia was never attempted. Here, observation of Tara Oceans samples from the Benguela Current led to the detection of an epibiotic association between a pennate diatom and a tintinnid ciliate. We identified the diatom as Fragilariopsis doliolus that possesses a unique feature to form barrel-shaped chains, associated with seven different genera of tintinnids including five previously undescribed associations. The organisms were commonly found together in the Atlantic and Pacific Ocean basins, and live observations of the interaction have been recorded for the first time. By combining confocal and scanning electron microscopy of individual consortia with the sequencing of high-resolution molecular markers, we analyzed their distribution in the global ocean, revealing morpho-genetically distinct tintinnid haplotypes and biogeographically structured diatom haplotypes. The diatom was among the most abundant in the global ocean. We show that the consortia were particularly prevalent in nutrient-replete conditions, rich in potential predators. These observations support the hypothesis of a mutualistic symbiosis, wherein diatoms acquire increased motility and tintinnids benefit from silicification through increased protection, and highlight that such associations may be more prevalent than currently appreciated.

Published

2018

106. Surface ocean metabarcoding confirms limited diversity in planktonic foraminifera but reveals unknown hyper-abundant lineages.

Author

Morard R, Garet-Delmas MJ, Mahé F, Romac S, Poulain J, Kucera M, and de Vargas C

Subjects

Atlantic Ocean, Ecosystem, Indian Ocean, Biodiversity, DNA, Ribosomal genetics, Foraminifera classification, Foraminifera genetics, High-Throughput Nucleotide Sequencing methods, Plankton classification, Plankton genetics, RNA, Ribosomal, 18S genetics

Abstract

Since the advent of DNA metabarcoding surveys, the planktonic realm is considered a treasure trove of diversity, inhabited by a small number of abundant taxa, and a hugely diverse and taxonomically uncharacterized consortium of rare species. Here we assess if the apparent underestimation of plankton diversity applies universally. We target planktonic foraminifera, a group of protists whose known morphological diversity is limited, taxonomically resolved and linked to ribosomal DNA barcodes. We generated a pyrosequencing dataset of ~100,000 partial 18S rRNA foraminiferal sequences from 32 size fractioned photic-zone plankton samples collected at 8 stations in the Indian and Atlantic Oceans during the Tara Oceans expedition (2009-2012). We identified 69 genetic types belonging to 41 morphotaxa in our metabarcoding dataset. The diversity saturated at local and regional scale as well as in the three size fractions and the two depths sampled indicating that the diversity of foraminifera is modest and finite. The large majority of the newly discovered lineages occur in the small size fraction, neglected by classical taxonomy. These unknown lineages dominate the bulk [>0.8 µm] size fraction, implying that a considerable part of the planktonic foraminifera community biomass has its origin in unknown lineages.

Published

2018

107. A global ocean atlas of eukaryotic genes.

Author

Carradec Q, Pelletier E, Da Silva C, Alberti A, Seeleuthner Y, Blanc-Mathieu R, Lima-Mendez G, Rocha F, Tirichine L, Labadie K, Kirilovsky A, Bertrand A, Engelen S, Madoui MA, Méheust R, Poulain J, Romac S, Richter DJ, Yoshikawa G, Dimier C, Kandels-Lewis S, Picheral M, Searson S, Jaillon O, Aury JM, Karsenti E, Sullivan MB, Sunagawa S, Bork P, Not F, Hingamp P, Raes J, Guidi L, Ogata H, de Vargas C, Iudicone D, Bowler C, and Wincker P

Subjects

Amino Acid Sequence, Animals, Atlases as Topic, Bacteria classification, Bacteria genetics, Biodiversity, Ecosystem, Eukaryota classification, Eukaryotic Cells cytology, Metagenomics methods, Oceans and Seas, Phytoplankton classification, Phytoplankton genetics, Seawater, Viruses classification, Viruses genetics, Zooplankton classification, Aquatic Organisms, Eukaryota genetics, Eukaryotic Cells metabolism, Metagenome, Phylogeny, Zooplankton genetics

Abstract

While our knowledge about the roles of microbes and viruses in the ocean has increased tremendously due to recent advances in genomics and metagenomics, research on marine microbial eukaryotes and zooplankton has benefited much less from these new technologies because of their larger genomes, their enormous diversity, and largely unexplored physiologies. Here, we use a metatranscriptomics approach to capture expressed genes in open ocean Tara Oceans stations across four organismal size fractions. The individual sequence reads cluster into 116 million unigenes representing the largest reference collection of eukaryotic transcripts from any single biome. The catalog is used to unveil functions expressed by eukaryotic marine plankton, and to assess their functional biogeography. Almost half of the sequences have no similarity with known proteins, and a great number belong to new gene families with a restricted distribution in the ocean. Overall, the resource provides the foundations for exploring the roles of marine eukaryotes in ocean ecology and biogeochemistry.

Published

2018

108. Environmental Sequencing Fills the Gap Between Parasitic Haplosporidians and Free-living Giant Amoebae.

Author

Ward GM, Neuhauser S, Groben R, Ciaghi S, Berney C, Romac S, and Bass D

Abstract

Class Ascetosporea (Rhizaria; Endomyxa) comprises many parasites of invertebrates. Within this group, recent group-specific environmental DNA (eDNA) studies have contributed to the establishment of the new order Mikrocytida, a new phylogeny and characterization of Paramyxida, and illuminated the diversity and distribution of haplosporidians. Here, we use general and lineage-specific PCR primers to investigate the phylogenetic "gap" between haplosporidians and their closest known free-living relatives, the testate amoeba Gromia and reticulate amoeba Filoreta. Within this gap are Paradinium spp. parasites of copepods, which we show to be highly diverse and widely distributed in planktonic and benthic samples. We reveal a robustly supported radiation of parasites, ENDO-3, comprised of Paradinium and three further clades (ENDO-3a, ENDO-3b and SPP). A further environmental group, ENDO-2, perhaps comprising several clades, branches between this radiation and the free-living amoebae. Early diverging haplosporidians were also amplified, often associated with bivalves or deep-sea samples. The general primer approach amplified an overlapping set of novel lineages within ENDO-3 and Haplosporida, whereas the group-specific primer strategy, targeted to amplify from the earliest known divergent haplosporidians to Gromia, generated greater sequence diversity across part of this phylogenetic range., (© 2018 The Authors Journal of Eukaryotic Microbiology published by Wiley Periodicals, Inc. on behalf of International Society of Protistologists.)

Published

2018

109. Viral to metazoan marine plankton nucleotide sequences from the Tara Oceans expedition.

Author

Alberti A, Poulain J, Engelen S, Labadie K, Romac S, Ferrera I, Albini G, Aury JM, Belser C, Bertrand A, Cruaud C, Da Silva C, Dossat C, Gavory F, Gas S, Guy J, Haquelle M, Jacoby E, Jaillon O, Lemainque A, Pelletier E, Samson G, Wessner M, Acinas SG, Royo-Llonch M, Cornejo-Castillo FM, Logares R, Fernández-Gómez B, Bowler C, Cochrane G, Amid C, Hoopen PT, De Vargas C, Grimsley N, Desgranges E, Kandels-Lewis S, Ogata H, Poulton N, Sieracki ME, Stepanauskas R, Sullivan MB, Brum JR, Duhaime MB, Poulos BT, Hurwitz BL, Pesant S, Karsenti E, and Wincker P

Subjects

Ecosystem, Genomics, Nucleotides, Oceans and Seas, Plankton, Viruses

Abstract

A unique collection of oceanic samples was gathered by the Tara Oceans expeditions (2009-2013), targeting plankton organisms ranging from viruses to metazoans, and providing rich environmental context measurements. Thanks to recent advances in the field of genomics, extensive sequencing has been performed for a deep genomic analysis of this huge collection of samples. A strategy based on different approaches, such as metabarcoding, metagenomics, single-cell genomics and metatranscriptomics, has been chosen for analysis of size-fractionated plankton communities. Here, we provide detailed procedures applied for genomic data generation, from nucleic acids extraction to sequence production, and we describe registries of genomics datasets available at the European Nucleotide Archive (ENA, www.ebi.ac.uk/ena). The association of these metadata to the experimental procedures applied for their generation will help the scientific community to access these data and facilitate their analysis. This paper complements other efforts to provide a full description of experiments and open science resources generated from the Tara Oceans project, further extending their value for the study of the world's planktonic ecosystems.

Published

2017

110. Parasites dominate hyperdiverse soil protist communities in Neotropical rainforests.

Author

Mahé F, de Vargas C, Bass D, Czech L, Stamatakis A, Lara E, Singer D, Mayor J, Bunge J, Sernaker S, Siemensmeyer T, Trautmann I, Romac S, Berney C, Kozlov A, Mitchell EAD, Seppey CVW, Egge E, Lentendu G, Wirth R, Trueba G, and Dunthorn M

Abstract

High animal and plant richness in tropical rainforest communities has long intrigued naturalists. It is unknown if similar hyperdiversity patterns are reflected at the microbial scale with unicellular eukaryotes (protists). Here we show, using environmental metabarcoding of soil samples and a phylogeny-aware cleaning step, that protist communities in Neotropical rainforests are hyperdiverse and dominated by the parasitic Apicomplexa, which infect arthropods and other animals. These host-specific parasites potentially contribute to the high animal diversity in the forests by reducing population growth in a density-dependent manner. By contrast, too few operational taxonomic units (OTUs) of Oomycota were found to broadly drive high tropical tree diversity in a host-specific manner under the Janzen-Connell model. Extremely high OTU diversity and high heterogeneity between samples within the same forests suggest that protists, not arthropods, are the most diverse eukaryotes in tropical rainforests. Our data show that protists play a large role in tropical terrestrial ecosystems long viewed as being dominated by macroorganisms.

Published

2017

111. Diversity and oceanic distribution of prasinophytes clade VII, the dominant group of green algae in oceanic waters.

Author

Lopes Dos Santos A, Gourvil P, Tragin M, Noël MH, Decelle J, Romac S, and Vaulot D

Subjects

Chlorophyta classification, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Eukaryota classification, Eukaryota isolation & purification, Mediterranean Sea, Oceans and Seas, Photosynthesis, Phylogeny, Phytoplankton classification, Phytoplankton isolation & purification, Seawater, Chlorophyta genetics, Eukaryota genetics, Genetic Variation, Phytoplankton genetics

Abstract

Prasinophytes clade VII is a group of pico/nano-planktonic green algae (division Chlorophyta) for which numerous ribosomal RNA (rRNA) sequences have been retrieved from the marine environment in the last 15 years. A large number of strains have also been isolated but have not yet received a formal taxonomic description. A phylogenetic analysis of available strains using both the nuclear 18S and plastidial 16S rRNA genes demonstrates that this group composes at least 10 different clades: A1-A7 and B1-B3. Analysis of sequences from the variable V9 region of the 18S rRNA gene collected during the Tara Oceans expedition and in the frame of the Ocean Sampling Day consortium reveal that clade VII is the dominant Chlorophyta group in oceanic waters, replacing Mamiellophyceae, which have this role in coastal waters. At some location, prasinophytes clade VII can even be the dominant photosynthetic eukaryote representing up to 80% of photosynthetic metabarcodes overall. B1 and A4 are the overall dominant clades and different clades seem to occupy distinct niches, for example, A6 is dominant in surface Mediterranean Sea waters, whereas A4 extend to high temperate latitudes. Our work demonstrates that prasinophytes clade VII constitute a highly diversified group, which is a key component of phytoplankton in open oceanic waters but has been neglected in the conceptualization of marine microbial diversity and carbon cycle.

Published

2017

112. Tryptophan Hydroxylase 1 Variant rs1800532 is Associated with Suicide Attempt in Serbian Psychiatric Patients but does not Moderate the Effect of Recent Stressful Life Events.

Author

Karanović J, Ivković M, Jovanović VM, Pantović M, Pavlović-Janković N, Damjanović A, Brajušković G, Romac S, and Savić-Pavićević D

Subjects

Adult, Female, Humans, Life Change Events, Male, Risk Factors, Serbia epidemiology, Mental Disorders epidemiology, Mental Disorders genetics, Mental Disorders psychology, Suicide, Attempted, Tryptophan Hydroxylase genetics

Abstract

Tryptophan hydroxylase 1 (TPH1) gene, coding for serotonin synthesizing enzyme, and recent stressful life events (SLEs) have been commonly associated with suicidal behavior. TPH1 has been also hypothesized to be involved in stress-response mechanisms. The aim of this study was to assess TPH1 variant rs1800532 and its possible interaction with recent SLEs as risk factors for suicide attempt (SA) in Serbian psychiatric patients, including 165 suicide attempters and 188 suicide nonattempters. rs1800532 and recent SLEs were independently associated with SA, while rs1800532 did not moderate the effect of recent SLEs on SA vulnerability among Serbian psychiatric patients., (© 2016 The American Association of Suicidology.)

Published

2016

113. Benthic protists: the under-charted majority.

Author

Forster D, Dunthorn M, Mahé F, Dolan JR, Audic S, Bass D, Bittner L, Boutte C, Christen R, Claverie JM, Decelle J, Edvardsen B, Egge E, Eikrem W, Gobet A, Kooistra WH, Logares R, Massana R, Montresor M, Not F, Ogata H, Pawlowski J, Pernice MC, Romac S, Shalchian-Tabrizi K, Simon N, Richards TA, Santini S, Sarno D, Siano R, Vaulot D, Wincker P, Zingone A, de Vargas C, and Stoeck T

Subjects

Base Sequence, Biodiversity, DNA genetics, Diatoms classification, Diatoms isolation & purification, Ecosystem, Foraminifera classification, Foraminifera isolation & purification, Phylogeny, Plankton genetics, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Aquatic Organisms classification, Aquatic Organisms isolation & purification, Geologic Sediments microbiology, Geologic Sediments parasitology, Hydrothermal Vents microbiology, Hydrothermal Vents parasitology, Plankton classification, Plankton isolation & purification

Abstract

Marine protist diversity inventories have largely focused on planktonic environments, while benthic protists have received relatively little attention. We therefore hypothesize that current diversity surveys have only skimmed the surface of protist diversity in marine sediments, which may harbor greater diversity than planktonic environments. We tested this by analyzing sequences of the hypervariable V4 18S rRNA from benthic and planktonic protist communities sampled in European coastal regions. Despite a similar number of OTUs in both realms, richness estimations indicated that we recovered at least 70% of the diversity in planktonic protist communities, but only 33% in benthic communities. There was also little overlap of OTUs between planktonic and benthic communities, as well as between separate benthic communities. We argue that these patterns reflect the heterogeneity and diversity of benthic habitats. A comparison of all OTUs against the Protist Ribosomal Reference database showed that a higher proportion of benthic than planktonic protist diversity is missing from public databases; similar results were obtained by comparing all OTUs against environmental references from NCBI's Short Read Archive. We suggest that the benthic realm may therefore be the world's largest reservoir of marine protist diversity, with most taxa at present undescribed., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

114. Environmental Sequencing Provides Reasonable Estimates of the Relative Abundance of Specific Picoeukaryotes.

Author

Giner CR, Forn I, Romac S, Logares R, de Vargas C, and Massana R

Subjects

Biodiversity, Eukaryota classification, Eukaryota genetics, In Situ Hybridization, Fluorescence, Eukaryota isolation & purification, High-Throughput Nucleotide Sequencing methods, Seawater parasitology

Abstract

Unlabelled: High-throughput sequencing (HTS) is revolutionizing environmental surveys of microbial diversity in the three domains of life by providing detailed information on which taxa are present in microbial assemblages. However, it is still unclear how the relative abundance of specific taxa gathered by HTS correlates with cell abundances. Here, we quantified the relative cell abundance of 6 picoeukaryotic taxa in 13 planktonic samples from 6 European coastal sites using epifluorescence microscopy on tyramide signal amplification-fluorescence in situ hybridization preparations. These relative abundance values were then compared with HTS data obtained in three separate molecular surveys: 454 sequencing of the V4 region of the 18S ribosomal DNA (rDNA) using DNA and RNA extracts (DNA-V4 and cDNA-V4) and Illumina sequencing of the V9 region (cDNA-V9). The microscopic and molecular signals were generally correlated, indicating that a relative increase in specific 18S rDNA was the result of a large proportion of cells in the given taxa. Despite these positive correlations, the slopes often deviated from 1, precluding a direct translation of sequences to cells. Our data highlighted clear differences depending on the nucleic acid template or the 18S rDNA region targeted. Thus, the molecular signal obtained using cDNA templates was always closer to relative cell abundances, while the V4 and V9 regions gave better results depending on the taxa. Our data support the quantitative use of HTS data but warn about considering it as a direct proxy of cell abundances., Importance: Direct studies on marine picoeukaryotes by epifluorescence microscopy are problematic due to the lack of morphological features and due to the limited number and poor resolution of specific phylogenetic probes used in fluorescence in situ hybridization (FISH) routines. As a consequence, there is an increasing use of molecular methods, including high-throughput sequencing (HTS), to study marine microbial diversity. HTS can provide a detailed picture of the taxa present in a community and can reveal diversity not evident using other methods, but it is still unclear what the meaning of the sequence abundance in a given taxon is. Our aim is to investigate the correspondence between the relative HTS signal and relative cell abundances in selected picoeukaryotic taxa. Environmental sequencing provides reasonable estimates of the relative abundance of specific taxa. Better results are obtained when using RNA extracts as the templates, while the region of 18S ribosomal DNA had different influences depending on the taxa assayed., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2016

115. The symbiotic life of Symbiodinium in the open ocean within a new species of calcifying ciliate (Tiarina sp.).

Author

Mordret S, Romac S, Henry N, Colin S, Carmichael M, Berney C, Audic S, Richter DJ, Pochon X, de Vargas C, and Decelle J

Subjects

Animals, Biological Evolution, Ciliophora physiology, DNA Barcoding, Taxonomic, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Dinoflagellida physiology, Ecology, Ecosystem, Genotype, Geography, Haplotypes, Metagenomics, Oceans and Seas, Phylogeny, Biodiversity, Ciliophora genetics, Dinoflagellida genetics, Symbiosis

Abstract

Symbiotic partnerships between heterotrophic hosts and intracellular microalgae are common in tropical and subtropical oligotrophic waters of benthic and pelagic marine habitats. The iconic example is the photosynthetic dinoflagellate genus Symbiodinium that establishes mutualistic symbioses with a wide diversity of benthic hosts, sustaining highly biodiverse reef ecosystems worldwide. Paradoxically, although various species of photosynthetic dinoflagellates are prevalent eukaryotic symbionts in pelagic waters, Symbiodinium has not yet been reported in symbiosis within oceanic plankton, despite its high propensity for the symbiotic lifestyle. Here we report a new pelagic photosymbiosis between a calcifying ciliate host and the microalga Symbiodinium in surface ocean waters. Confocal and scanning electron microscopy, together with an 18S rDNA-based phylogeny, showed that the host is a new ciliate species closely related to Tiarina fusus (Colepidae). Phylogenetic analyses of the endosymbionts based on the 28S rDNA gene revealed multiple novel closely related Symbiodinium clade A genotypes. A haplotype network using the high-resolution internal transcribed spacer-2 marker showed that these genotypes form eight divergent, biogeographically structured, subclade types that do not seem to associate with any benthic hosts. Ecological analyses using the Tara Oceans metabarcoding data set (V9 region of the 18S rDNA) and contextual oceanographic parameters showed a global distribution of the symbiotic partnership in nutrient-poor surface waters. The discovery of the symbiotic life of Symbiodinium in the open ocean provides new insights into the ecology and evolution of this pivotal microalga and raises new hypotheses about coastal pelagic connectivity.

Published

2016

116. Analysis of PMP22 duplication and deletion using a panel of six dinucleotide tandem repeats.

Author

Gagic M, Markovic MK, Kecmanovic M, Keckarevic D, Mladenovic J, Dackovic J, Milic-Rasic V, and Romac S

Subjects

Arthrogryposis diagnosis, Charcot-Marie-Tooth Disease diagnosis, Hereditary Sensory and Motor Neuropathy diagnosis, Humans, Arthrogryposis genetics, Charcot-Marie-Tooth Disease genetics, Gene Deletion, Gene Duplication genetics, Hereditary Sensory and Motor Neuropathy genetics, Myelin Proteins genetics, Tandem Repeat Sequences genetics

Abstract

Background: Charcot-Marie-Tooth type 1A (CMT1A) is the most common type of hereditary motor and sensory neuropathies (HMSN), caused by the duplication of the 17p11.2 region that includes the PMP22 gene. Reciprocal deletion of the same region is the main cause of hereditary neuropathy with liability to pressure palsies (HNPP). CMT1A accounts for approximately 50% of HMSN patients. Diagnostics of CMT1A and HNPP are based on quantitative analysis of the affected region or RFLP detection of breakage points. The aim of this study was to improve the sensitivity and efficiency of CMT1A and HNPP genetic diagnostics by introducing analysis of six STR markers (D17S261-D17S122-D17S839-D17S1358-D17S955-D17S921) spanning the duplicated region., Methods: Forty-six CMT1A and seven HNPP patients, all genetically diagnosed by RFLP analysis, were tested for duplication or deletion using six STR markers., Results: In all CMT1A and HNPP patients, microsatellite analysis comprising six STR markers confirmed the existence of a duplication or deletion. In 89% (41/46) CMT1A patients the confirmation was based on detecting three alleles on at least one locus. In the remaining 11% (5) CMT1A patients, duplication was also confirmed based on two peaks with clear dosage difference for at least two different markers. All HNPP patients (7/7) displayed only one allele for each analyzed locus., Conclusions: Microsatellite analysis using six selected STR loci showed a high level of sensitivity and specificity for genetic diagnostics of CMT1A and HNPP. The results here strongly suggest STR marker analysis as a method of choice in PMP22 duplication/deletion testing.

Published

2016

117. Reverse transcriptase genes are highly abundant and transcriptionally active in marine plankton assemblages.

Author

Lescot M, Hingamp P, Kojima KK, Villar E, Romac S, Veluchamy A, Boccara M, Jaillon O, Iudicone D, Bowler C, Wincker P, Claverie JM, and Ogata H

Subjects

Eukaryota enzymology, Eukaryota genetics, Eukaryota isolation & purification, Phylogeny, Plankton metabolism, Prokaryotic Cells enzymology, Prokaryotic Cells metabolism, RNA-Directed DNA Polymerase metabolism, Retroelements, Seawater virology, Transcription, Genetic, Metagenome, Plankton enzymology, Plankton genetics, RNA-Directed DNA Polymerase genetics, Seawater microbiology

Abstract

Genes encoding reverse transcriptases (RTs) are found in most eukaryotes, often as a component of retrotransposons, as well as in retroviruses and in prokaryotic retroelements. We investigated the abundance, classification and transcriptional status of RTs based on Tara Oceans marine metagenomes and metatranscriptomes encompassing a wide organism size range. Our analyses revealed that RTs predominate large-size fraction metagenomes (>5 μm), where they reached a maximum of 13.5% of the total gene abundance. Metagenomic RTs were widely distributed across the phylogeny of known RTs, but many belonged to previously uncharacterized clades. Metatranscriptomic RTs showed distinct abundance patterns across samples compared with metagenomic RTs. The relative abundances of viral and bacterial RTs among identified RT sequences were higher in metatranscriptomes than in metagenomes and these sequences were detected in all metatranscriptome size fractions. Overall, these observations suggest an active proliferation of various RT-assisted elements, which could be involved in genome evolution or adaptive processes of plankton assemblage.

Published

2016

118. Deep sequencing of amplified Prasinovirus and host green algal genes from an Indian Ocean transect reveals interacting trophic dependencies and new genotypes.

Author

Clerissi C, Desdevises Y, Romac S, Audic S, de Vargas C, Acinas SG, Casotti R, Poulain J, Wincker P, Hingamp P, Ogata H, and Grimsley N

Subjects

Biodiversity, DNA, Viral, Environment, Indian Ocean, Phycodnaviridae isolation & purification, Chlorophyta genetics, Chlorophyta virology, Genotype, High-Throughput Nucleotide Sequencing, Phycodnaviridae classification, Phycodnaviridae genetics

Abstract

High-throughput sequencing of Prasinovirus DNA polymerase and host green algal (Mamiellophyceae) ribosomal RNA genes was used to analyse the diversity and distribution of these taxa over a ∼10 000 km latitudinal section of the Indian Ocean. New viral and host groups were identified among the different trophic conditions observed, and highlighted that although unknown prasinoviruses are diverse, the cosmopolitan algal genera Bathycoccus, Micromonas and Ostreococcus represent a large proportion of the host diversity. While Prasinovirus communities were correlated to both the geography and the environment, host communities were not, perhaps because the genetic marker used lacked sufficient resolution. Nevertheless, analysis of single environmental variables showed that eutrophic conditions strongly influence the distributions of both hosts and viruses. Moreover, these communities were not correlated, in their composition or specific richness. These observations could result from antagonistic dynamics, such as that illustrated in a prey-predator model, and/or because hosts might be under a complex set of selective pressures. Both of these reasons must be considered to interpret environmental surveys of viruses and hosts, because covariation does not always imply interaction., (© 2015 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2015

119. Molecular diversity and distribution of marine fungi across 130 European environmental samples.

Author

Richards TA, Leonard G, Mahé F, Del Campo J, Romac S, Jones MD, Maguire F, Dunthorn M, De Vargas C, Massana R, and Chambouvet A

Subjects

DNA, Fungal genetics, Europe, Microscopy, Fluorescence, Molecular Sequence Data, Phylogeny, RNA, Fungal genetics, Sequence Analysis, DNA, Fungi classification, Fungi genetics, Genetic Variation, Geologic Sediments microbiology, Microbiota, Seawater microbiology

Abstract

Environmental DNA and culture-based analyses have suggested that fungi are present in low diversity and in low abundance in many marine environments, especially in the upper water column. Here, we use a dual approach involving high-throughput diversity tag sequencing from both DNA and RNA templates and fluorescent cell counts to evaluate the diversity and relative abundance of fungi across marine samples taken from six European near-shore sites. We removed very rare fungal operational taxonomic units (OTUs) selecting only OTUs recovered from multiple samples for a detailed analysis. This approach identified a set of 71 fungal 'OTU clusters' that account for 66% of all the sequences assigned to the Fungi. Phylogenetic analyses demonstrated that this diversity includes a significant number of chytrid-like lineages that had not been previously described, indicating that the marine environment encompasses a number of zoosporic fungi that are new to taxonomic inventories. Using the sequence datasets, we identified cases where fungal OTUs were sampled across multiple geographical sites and between different sampling depths. This was especially clear in one relatively abundant and diverse phylogroup tentatively named Novel Chytrid-Like-Clade 1 (NCLC1). For comparison, a subset of the water column samples was also investigated using fluorescent microscopy to examine the abundance of eukaryotes with chitin cell walls. Comparisons of relative abundance of RNA-derived fungal tag sequences and chitin cell-wall counts demonstrate that fungi constitute a low fraction of the eukaryotic community in these water column samples. Taken together, these results demonstrate the phylogenetic position and environmental distribution of 71 lineages, improving our understanding of the diversity and abundance of fungi in marine environments., (© 2015 The Authors.)

Published

2015

120. Joint effect of the SMN2 and SERF1A genes on childhood-onset types of spinal muscular atrophy in Serbian patients.

Author

Brkušanin M, Kosać A, Jovanović V, Pešović J, Brajušković G, Dimitrijević N, Todorović S, Romac S, Milić Rašić V, and Savić-Pavićević D

Subjects

Age of Onset, Child, Chromosomes, Human, Pair 5 genetics, DNA Copy Number Variations, Female, Gene Rearrangement, Humans, Male, Models, Genetic, Neuronal Apoptosis-Inhibitory Protein genetics, Phenotype, Serbia, Survival of Motor Neuron 2 Protein genetics, Nerve Tissue Proteins genetics, Spinal Muscular Atrophies of Childhood genetics

Abstract

Spinal muscular atrophy (SMA) is caused by functional loss of the survival of motor neuron 1 (SMN1) gene. Despite genetic homogeneity, phenotypic variability indicates the involvement of disease modifiers. SMN1 is located in 5q13.2 segmental duplication, enriched in genes and prone to unequal rearrangements, which results in copy number polymorphism (CNP). We examined the influence of CNP of 5q13.2 genes and their joint effect on childhood-onset SMA phenotype. Multiplex ligation-dependent probe amplification (MLPA) was used to construct 5q13.2 alleles and assess copy number of the SMN2, small EDRK-rich factor 1A (SERF1A) and NLR family apoptosis inhibitory protein (NAIP) genes in 99 Serbian patients with SMN1 homozygous absence (23-type I, 37-type II and 39-mild type III) and 122 patients' parents. Spearman rank test was performed to test correlation of individual genes and SMA type. Generalized linear models and backward selection were performed to obtain a model explaining phenotypic variation with the smallest set of variables. 5q13.2 alleles most commonly associated with type I harbored large-scale deletions, while those detected in types II and III originated from conversion of SMN1 to SMN2. Inverse correlation was observed between SMN2, SERF1A and NAIP CNP and SMA type (P=2.2e-16, P=4.264e-10, P=2.722e-8, respectively). The best minimal model describing phenotypic variability included SMN2 (P<2e-16), SERF1A (P<2e-16) and their interaction (P=0.02628). SMN2 and SERF1A have a joint modifying effect on childhood-onset SMA phenotype.

Published

2015

121. PhytoREF: a reference database of the plastidial 16S rRNA gene of photosynthetic eukaryotes with curated taxonomy.

Author

Decelle J, Romac S, Stern RF, Bendif el M, Zingone A, Audic S, Guiry MD, Guillou L, Tessier D, Le Gall F, Gourvil P, Dos Santos AL, Probert I, Vaulot D, de Vargas C, and Christen R

Subjects

Cluster Analysis, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Molecular Sequence Data, Phylogeny, Sequence Analysis, DNA, Databases, Nucleic Acid, Eukaryota, Genes, rRNA, Plastids genetics, RNA, Ribosomal, 16S genetics

Abstract

Photosynthetic eukaryotes have a critical role as the main producers in most ecosystems of the biosphere. The ongoing environmental metabarcoding revolution opens the perspective for holistic ecosystems biological studies of these organisms, in particular the unicellular microalgae that often lack distinctive morphological characters and have complex life cycles. To interpret environmental sequences, metabarcoding necessarily relies on taxonomically curated databases containing reference sequences of the targeted gene (or barcode) from identified organisms. To date, no such reference framework exists for photosynthetic eukaryotes. In this study, we built the PhytoREF database that contains 6490 plastidial 16S rDNA reference sequences that originate from a large diversity of eukaryotes representing all known major photosynthetic lineages. We compiled 3333 amplicon sequences available from public databases and 879 sequences extracted from plastidial genomes, and generated 411 novel sequences from cultured marine microalgal strains belonging to different eukaryotic lineages. A total of 1867 environmental Sanger 16S rDNA sequences were also included in the database. Stringent quality filtering and a phylogeny-based taxonomic classification were applied for each 16S rDNA sequence. The database mainly focuses on marine microalgae, but sequences from land plants (representing half of the PhytoREF sequences) and freshwater taxa were also included to broaden the applicability of PhytoREF to different aquatic and terrestrial habitats. PhytoREF, accessible via a web interface (http://phytoref.fr), is a new resource in molecular ecology to foster the discovery, assessment and monitoring of the diversity of photosynthetic eukaryotes using high-throughput sequencing., (© 2015 John Wiley & Sons Ltd.)

Published

2015

122. Marine protist diversity in European coastal waters and sediments as revealed by high-throughput sequencing.

Author

Massana R, Gobet A, Audic S, Bass D, Bittner L, Boutte C, Chambouvet A, Christen R, Claverie JM, Decelle J, Dolan JR, Dunthorn M, Edvardsen B, Forn I, Forster D, Guillou L, Jaillon O, Kooistra WH, Logares R, Mahé F, Not F, Ogata H, Pawlowski J, Pernice MC, Probert I, Romac S, Richards T, Santini S, Shalchian-Tabrizi K, Siano R, Simon N, Stoeck T, Vaulot D, Zingone A, and de Vargas C

Subjects

Base Sequence, Biodiversity, Ecosystem, Europe, Fungi genetics, High-Throughput Nucleotide Sequencing, Phylogeny, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Alveolata genetics, Geologic Sediments microbiology, Plankton classification, Plankton genetics, Seawater microbiology, Stramenopiles genetics

Abstract

Although protists are critical components of marine ecosystems, they are still poorly characterized. Here we analysed the taxonomic diversity of planktonic and benthic protist communities collected in six distant European coastal sites. Environmental deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) from three size fractions (pico-, nano- and micro/mesoplankton), as well as from dissolved DNA and surface sediments were used as templates for tag pyrosequencing of the V4 region of the 18S ribosomal DNA. Beta-diversity analyses split the protist community structure into three main clusters: picoplankton-nanoplankton-dissolved DNA, micro/mesoplankton and sediments. Within each cluster, protist communities from the same site and time clustered together, while communities from the same site but different seasons were unrelated. Both DNA and RNA-based surveys provided similar relative abundances for most class-level taxonomic groups. Yet, particular groups were overrepresented in one of the two templates, such as marine alveolates (MALV)-I and MALV-II that were much more abundant in DNA surveys. Overall, the groups displaying the highest relative contribution were Dinophyceae, Diatomea, Ciliophora and Acantharia. Also, well represented were Mamiellophyceae, Cryptomonadales, marine alveolates and marine stramenopiles in the picoplankton, and Monadofilosa and basal Fungi in sediments. Our extensive and systematic sequencing of geographically separated sites provides the most comprehensive molecular description of coastal marine protist diversity to date., (© 2015 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2015

123. Joint effect of ADARB1 gene, HTR2C gene and stressful life events on suicide attempt risk in patients with major psychiatric disorders.

Author

Karanović J, Šviković S, Pantović M, Durica S, Brajušković G, Damjanović A, Jovanović V, Ivković M, Romac S, and Savić Pavićević D

Subjects

Adult, Bipolar Disorder complications, Female, Genotype, Humans, Logistic Models, Male, Middle Aged, Polymorphism, Single Nucleotide, RNA Editing, Risk Factors, Schizophrenia complications, Tomography, X-Ray Computed, Adenosine Deaminase genetics, Depressive Disorder, Major complications, Life Change Events, RNA-Binding Proteins genetics, Receptor, Serotonin, 5-HT2C genetics, Suicide, Attempted psychology

Abstract

Objectives: Adenosine to inosine RNA editing, serotonin 2C receptor (HTR2C), and stressful life events (SLEs) have all been implicated in suicidal behaviour. We examined the main and moderating effects of RNA editing (ADAR, ADARB1) and HTR2C genes, childhood trauma (CT), recent SLEs and psychiatric disorders as contributors to suicide attempt (SA) vulnerability., Methods: Study included 165 suicide attempters and 188 suicide non-attempters, all diagnosed with one of major psychiatric disorders. CT and recent SLEs were assessed using Early Trauma Inventory-Self Report and List of Threatening Experiences Questionnaire, respectively. Selected ADAR and ADARB1 tag-variants, and HTR2C rs6318 were pre-screened for association with SA, while generalized linear models and backward selection were applied to identify individual and interacting SA risk factors., Results: ADARB1 rs9983925 and rs4819035 and HTR2C rs6318 were associated with SA. The best minimal model found emotional abuse, recent SLEs, rs9983925 and rs6318 as independent SA risk factors, and general traumas as a factor moderating the effect of psychiatric disorders and emotional abuse., Conclusions: SA vulnerability in psychiatric patients is related to the joint effect of ADARB1 and HTR2C variants, the existing mood disorder and the cumulative exposures to a various childhood and recent stressful experiences.

Published

2015

124. Ocean plankton. Eukaryotic plankton diversity in the sunlit ocean.

Author

de Vargas C, Audic S, Henry N, Decelle J, Mahé F, Logares R, Lara E, Berney C, Le Bescot N, Probert I, Carmichael M, Poulain J, Romac S, Colin S, Aury JM, Bittner L, Chaffron S, Dunthorn M, Engelen S, Flegontova O, Guidi L, Horák A, Jaillon O, Lima-Mendez G, Lukeš J, Malviya S, Morard R, Mulot M, Scalco E, Siano R, Vincent F, Zingone A, Dimier C, Picheral M, Searson S, Kandels-Lewis S, Acinas SG, Bork P, Bowler C, Gorsky G, Grimsley N, Hingamp P, Iudicone D, Not F, Ogata H, Pesant S, Raes J, Sieracki ME, Speich S, Stemmann L, Sunagawa S, Weissenbach J, Wincker P, and Karsenti E

Subjects

Animals, DNA Barcoding, Taxonomic, DNA, Ribosomal genetics, Eukaryota genetics, Oceans and Seas, Phylogeny, Plankton genetics, Ribosomes genetics, Sequence Analysis, DNA, Sunlight, Biodiversity, Eukaryota classification, Plankton classification

Abstract

Marine plankton support global biological and geochemical processes. Surveys of their biodiversity have hitherto been geographically restricted and have not accounted for the full range of plankton size. We assessed eukaryotic diversity from 334 size-fractionated photic-zone plankton communities collected across tropical and temperate oceans during the circumglobal Tara Oceans expedition. We analyzed 18S ribosomal DNA sequences across the intermediate plankton-size spectrum from the smallest unicellular eukaryotes (protists, >0.8 micrometers) to small animals of a few millimeters. Eukaryotic ribosomal diversity saturated at ~150,000 operational taxonomic units, about one-third of which could not be assigned to known eukaryotic groups. Diversity emerged at all taxonomic levels, both within the groups comprising the ~11,200 cataloged morphospecies of eukaryotic plankton and among twice as many other deep-branching lineages of unappreciated importance in plankton ecology studies. Most eukaryotic plankton biodiversity belonged to heterotrophic protistan groups, particularly those known to be parasites or symbiotic hosts., (Copyright © 2015, American Association for the Advancement of Science.)

Published

2015

125. Intellectual ability in the duchenne muscular dystrophy and dystrophin gene mutation location.

Author

Milic Rasic V, Vojinovic D, Pesovic J, Mijalkovic G, Lukic V, Mladenovic J, Kosac A, Novakovic I, Maksimovic N, Romac S, Todorovic S, and Savic Pavicevic D

Abstract

Duchenne muscular dystrophy (DMD) is the most common form of muscular dystrophy during childhood. Mutations in dystrophin (DMD) gene are also recognized as a cause of cognitive impairment. We aimed to determine the association between intelligence level and mutation location in DMD genes in Serbian patients with DMD. Forty-one male patients with DMD, aged 3 to 16 years, were recruited at the Clinic for Neurology and Psychiatry for Children and Youth in Belgrade, Serbia. All patients had defined DMD gene deletions or duplications [multiplex ligation-dependent probe amplification (MLPA), polymerase chain reaction (PCR)] and cognitive status assessment (Wechsler Intelligence Scale for Children, Brunet-Lezine scale, Vineland-Doll scale). In 37 patients with an estimated full scale intelligence quotient (FSIQ), six (16.22%) had borderline intelligence (70

Published

2015

126. Testing ecological theories with sequence similarity networks: marine ciliates exhibit similar geographic dispersal patterns as multicellular organisms.

Author

Forster D, Bittner L, Karkar S, Dunthorn M, Romac S, Audic S, Lopez P, Stoeck T, and Bapteste E

Subjects

Animals, Base Sequence, Ciliophora physiology, DNA, Complementary genetics, Databases, Genetic, Genetic Variation, Animal Migration physiology, Ciliophora genetics, Ecosystem, Gene Regulatory Networks, Geography, Models, Biological, Sequence Homology, Nucleic Acid

Abstract

Background: High-throughput sequencing technologies are lifting major limitations to molecular-based ecological studies of eukaryotic microbial diversity, but analyses of the resulting millions of short sequences remain a major bottleneck for these approaches. Here, we introduce the analytical and statistical framework of sequence similarity networks, increasingly used in evolutionary studies and graph theory, into the field of ecology to analyze novel pyrosequenced V4 small subunit rDNA (SSU-rDNA) sequence data sets in the context of previous studies, including SSU-rDNA Sanger sequence data from cultured ciliates and from previous environmental diversity inventories., Results: Our broadly applicable protocol quantified the progress in the description of genetic diversity of ciliates by environmental SSU-rDNA surveys, detected a fundamental historical bias in the tendency to recover already known groups in these surveys, and revealed substantial amounts of hidden microbial diversity. Moreover, network measures demonstrated that ciliates are not globally dispersed, but are structured by habitat and geographical location at intermediate geographical scale, as observed for bacteria, plants, and animals., Conclusions: Currently available 'universal' primers used for local in-depth sequencing surveys provide little hope to exhaust the significantly higher ciliate (and most likely microbial) diversity than previously thought. Network analyses such as presented in this study offer a promising way to guide the design of novel primers and to further explore this vast and structured microbial diversity.

Published

2015

127. Assessment of species diversity and distribution of an ancient diatom lineage using a DNA metabarcoding approach.

Author

Nanjappa D, Audic S, Romac S, Kooistra WH, and Zingone A

Subjects

DNA Barcoding, Taxonomic, DNA, Ribosomal genetics, Diatoms classification, Genetic Variation, High-Throughput Nucleotide Sequencing, Phylogeny, Seawater, Diatoms genetics

Abstract

Background: Continuous efforts to estimate actual diversity and to trace the species distribution and ranges in the natural environments have gone in equal pace with advancements of the technologies in the study of microbial species diversity from microscopic observations to DNA-based barcoding. DNA metabarcoding based on Next Generation Sequencing (NGS) constitutes the latest advancement in these efforts. Here we use NGS data from different sites to investigate the geographic range of six species of the diatom family Leptocylindraceae and to identify possible new taxa within the family., Methodology/principal Findings: We analysed the V4 and V9 regions of the nuclear-encoded SSU rDNA gene region in the NGS database of the European ERA-Biodiversa project BioMarKs, collected in plankton and sediments at six coastal sites in European coastal waters, as well as environmental sequences from the NCBI database. All species known in the family Leptocylindraceae were detected in both datasets, but the much larger Illumina V9 dataset showed a higher species coverage at the various sites than the 454 V4 dataset. Sequences identical or similar to the references of Leptocylindrus aporus, L. convexus, L. danicus/hargravesii and Tenuicylindrus belgicus were found in the Mediterranean Sea, North Atlantic Ocean and Black Sea as well as at locations outside Europe. Instead, sequences identical or close to that of L. minimus were found in the North Atlantic Ocean and the Black Sea but not in the Mediterranean Sea, while sequences belonging to a yet undescribed taxon were encountered only in Oslo Fjord and Baffin Bay., Conclusions/significance: Identification of Leptocylindraceae species in NGS datasets has expanded our knowledge of the species biogeographic distribution and of the overall diversity of this diatom family. Individual species appear to be widespread, but not all of them are found everywhere. Despite the sequencing depth allowed by NGS and the wide geographic area covered by this study, the diversity of this ancient diatom family appears to be low, at least at the level of the marker used in this study.

Published

2014

128. Intracellular diversity of the V4 and V9 regions of the 18S rRNA in marine protists (radiolarians) assessed by high-throughput sequencing.

Author

Decelle J, Romac S, Sasaki E, Not F, and Mahé F

Subjects

Biodiversity, DNA genetics, Phylogeny, Polymerase Chain Reaction standards, Sequence Analysis, DNA, Aquatic Organisms genetics, High-Throughput Nucleotide Sequencing, RNA, Ribosomal, 18S genetics, Rhizaria genetics

Abstract

Metabarcoding is a powerful tool for exploring microbial diversity in the environment, but its accurate interpretation is impeded by diverse technical (e.g. PCR and sequencing errors) and biological biases (e.g. intra-individual polymorphism) that remain poorly understood. To help interpret environmental metabarcoding datasets, we investigated the intracellular diversity of the V4 and V9 regions of the 18S rRNA gene from Acantharia and Nassellaria (radiolarians) using 454 pyrosequencing. Individual cells of radiolarians were isolated, and PCRs were performed with generalist primers to amplify the V4 and V9 regions. Different denoising procedures were employed to filter the pyrosequenced raw amplicons (Acacia, AmpliconNoise, Linkage method). For each of the six isolated cells, an average of 541 V4 and 562 V9 amplicons assigned to radiolarians were obtained, from which one numerically dominant sequence and several minor variants were found. At the 97% identity, a diversity metrics commonly used in environmental surveys, up to 5 distinct OTUs were detected in a single cell. However, most amplicons grouped within a single OTU whereas other OTUs contained very few amplicons. Different analytical methods provided evidence that most minor variants forming different OTUs correspond to PCR and sequencing artifacts. Duplicate PCR and sequencing from the same DNA extract of a single cell had only 9 to 16% of unique amplicons in common, and alignment visualization of V4 and V9 amplicons showed that most minor variants contained substitutions in highly-conserved regions. We conclude that intracellular variability of the 18S rRNA in radiolarians is very limited despite its multi-copy nature and the existence of multiple nuclei in these protists. Our study recommends some technical guidelines to conservatively discard artificial amplicons from metabarcoding datasets, and thus properly assess the diversity and richness of protists in the environment.

Published

2014

129. Diverse molecular signatures for ribosomally 'active' Perkinsea in marine sediments.

Author

Chambouvet A, Berney C, Romac S, Audic S, Maguire F, De Vargas C, and Richards TA

Subjects

Alveolata genetics, Animals, Cluster Analysis, DNA, Helminth chemistry, DNA, Helminth genetics, DNA, Protozoan chemistry, DNA, Protozoan genetics, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Molecular Sequence Data, Phylogeny, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Alveolata classification, Alveolata isolation & purification, Genetic Variation, Geologic Sediments microbiology

Abstract

Background: Perkinsea are a parasitic lineage within the eukaryotic superphylum Alveolata. Recent studies making use of environmental small sub-unit ribosomal RNA gene (SSU rDNA) sequencing methodologies have detected a significant diversity and abundance of Perkinsea-like phylotypes in freshwater environments. In contrast only a few Perkinsea environmental sequences have been retrieved from marine samples and only two groups of Perkinsea have been cultured and morphologically described and these are parasites of marine molluscs or marine protists. These two marine groups form separate and distantly related phylogenetic clusters, composed of closely related lineages on SSU rDNA trees. Here, we test the hypothesis that Perkinsea are a hitherto under-sampled group in marine environments. Using 454 diversity 'tag' sequencing we investigate the diversity and distribution of these protists in marine sediments and water column samples taken from the Deep Chlorophyll Maximum (DCM) and sub-surface using both DNA and RNA as the source template and sampling four European offshore locations., Results: We detected the presence of 265 sequences branching with known Perkinsea, the majority of them recovered from marine sediments. Moreover, 27% of these sequences were sampled from RNA derived cDNA libraries. Phylogenetic analyses classify a large proportion of these sequences into 38 cluster groups (including 30 novel marine cluster groups), which share less than 97% sequence similarity suggesting this diversity encompasses a range of biologically and ecologically distinct organisms., Conclusions: These results demonstrate that the Perkinsea lineage is considerably more diverse than previously detected in marine environments. This wide diversity of Perkinsea-like protists is largely retrieved in marine sediment with a significant proportion detected in RNA derived libraries suggesting this diversity represents ribosomally 'active' and intact cells. Given the phylogenetic range of hosts infected by known Perkinsea parasites, these data suggest that Perkinsea either play a significant but hitherto unrecognized role as parasites in marine sediments and/or members of this group are present in the marine sediment possibly as part of the 'seed bank' microbial community.

Published

2014

130. Patterns of rare and abundant marine microbial eukaryotes.

Author

Logares R, Audic S, Bass D, Bittner L, Boutte C, Christen R, Claverie JM, Decelle J, Dolan JR, Dunthorn M, Edvardsen B, Gobet A, Kooistra WH, Mahé F, Not F, Ogata H, Pawlowski J, Pernice MC, Romac S, Shalchian-Tabrizi K, Simon N, Stoeck T, Santini S, Siano R, Wincker P, Zingone A, Richards TA, de Vargas C, and Massana R

Subjects

Atlantic Ocean, Base Sequence, Cluster Analysis, Europe, High-Throughput Nucleotide Sequencing, Mediterranean Sea, Molecular Sequence Data, North Sea, Population Density, RNA, Ribosomal, 18S genetics, Species Specificity, Biodiversity, Eukaryota genetics, Eukaryota physiology, Marine Biology statistics & numerical data, Microbiota genetics, Phylogeny

Abstract

Background: Biological communities are normally composed of a few abundant and many rare species. This pattern is particularly prominent in microbial communities, in which most constituent taxa are usually extremely rare. Although abundant and rare subcommunities may present intrinsic characteristics that could be crucial for understanding community dynamics and ecosystem functioning, microbiologists normally do not differentiate between them. Here, we investigate abundant and rare subcommunities of marine microbial eukaryotes, a crucial group of organisms that remains among the least-explored biodiversity components of the biosphere. We surveyed surface waters of six separate coastal locations in Europe, independently considering the picoplankton, nanoplankton, and microplankton/mesoplankton organismal size fractions., Results: Deep Illumina sequencing of the 18S rRNA indicated that the abundant regional community was mostly structured by organismal size fraction, whereas the rare regional community was mainly structured by geographic origin. However, some abundant and rare taxa presented similar biogeography, pointing to spatiotemporal structure in the rare microeukaryote biosphere. Abundant and rare subcommunities presented regular proportions across samples, indicating similar species-abundance distributions despite taxonomic compositional variation. Several taxa were abundant in one location and rare in other locations, suggesting large oscillations in abundance. The substantial amount of metabolically active lineages found in the rare biosphere suggests that this subcommunity constitutes a diversity reservoir that can respond rapidly to environmental change., Conclusions: We propose that marine planktonic microeukaryote assemblages incorporate dynamic and metabolically active abundant and rare subcommunities, with contrasting structuring patterns but fairly regular proportions, across space and time., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

131. Placing environmental next-generation sequencing amplicons from microbial eukaryotes into a phylogenetic context.

Author

Dunthorn M, Otto J, Berger SA, Stamatakis A, Mahé F, Romac S, de Vargas C, Audic S, Stock A, Kauff F, and Stoeck T

Subjects

Bayes Theorem, DNA, Ribosomal Spacer genetics, Evolution, Molecular, Fresh Water microbiology, Genes, Protozoan, Genetic Speciation, Genetic Variation, High-Throughput Nucleotide Sequencing, Models, Genetic, Phylogeny, Ribosome Subunits, Small genetics, Seawater microbiology, Sequence Analysis, DNA, Ciliophora genetics, Water Microbiology

Abstract

Nucleotide positions in the hypervariable V4 and V9 regions of the small subunit (SSU)-rDNA locus are normally difficult to align and are usually removed before standard phylogenetic analyses. Yet, with next-generation sequencing data, amplicons of these regions are all that are available to answer ecological and evolutionary questions that rely on phylogenetic inferences. With ciliates, we asked how inclusion of the V4 or V9 regions, regardless of alignment quality, affects tree topologies using distinct phylogenetic methods (including PairDist that is introduced here). Results show that the best approach is to place V4 amplicons into an alignment of full-length Sanger SSU-rDNA sequences and to infer the phylogenetic tree with RAxML. A sliding window algorithm as implemented in RAxML shows, though, that not all nucleotide positions in the V4 region are better than V9 at inferring the ciliate tree. With this approach and an ancestral-state reconstruction, we use V4 amplicons from European nearshore sampling sites to infer that rather than being primarily terrestrial and freshwater, colpodean ciliates may have repeatedly transitioned from terrestrial/freshwater to marine environments.

Published

2014

132. Genetic delineation between and within the widespread coccolithophore morpho-species Emiliania huxleyi and Gephyrocapsa oceanica (Haptophyta).

Author

Bendif el M, Probert I, Carmichael M, Romac S, Hagino K, and de Vargas C

Abstract

Emiliania huxleyi and Gephyrocapsa oceanica are abundant coccolithophore morpho-species that play key roles in ocean carbon cycling due to their importance as both primary producers and cal-cifiers. Global change processes such as ocean acidification impact these key calcifying species. The physiology of E. huxleyi, a developing model species, has been widely studied, but its genetic delineation from G. oceanica remains unclear due to a lack of resolution in classical genetic markers. Using nuclear (18S rDNA and 28S rDNA), mitochondrial (cox1, cox2, cox3, rpl16, and dam), and plastidial (16S rDNA, rbcL, tufA, and petA) DNA markers from 99 E. huxleyi and 44 G. oceanica strains, we conducted a multigene/multistrain survey to compare the suitability of different markers for resolving phylogenetic patterns within and between these two morpho-species. The nuclear genes tested did not provide sufficient resolution to discriminate between the two morpho-species that diverged only 291Kya. Typical patterns of incomplete lineage sorting were generated in phylogenetic analyses using plastidial genes. In contrast, full morpho-species delineation was achieved with mitochondrial markers and common intra-morpho-species phylogenetic patterns were observed despite differing rates of DNA substitution. Mitochondrial genes are thus promising barcodes for distinguishing these coccolithophore morpho-species, in particular in the context of environmental monitoring., (© 2013 Phycological Society of America.)

Published

2014

133. A shared haplotype indicates a founder event in Unverricht-Lundborg disease patients from Serbia.

Author

Kecmanović M, Ristić AJ, Ercegovac M, Keckarević-Marković M, Keckarević D, Sokić D, and Romac S

Subjects

Adolescent, Child, DNA Repeat Expansion genetics, Female, Genetic Predisposition to Disease genetics, Humans, Male, Phylogeography, Serbia, Cystatin B genetics, Founder Effect, Haplotypes genetics, Unverricht-Lundborg Syndrome genetics

Abstract

Unverricht-Lundborg disease (ULD) is an autosomal recessive disorder caused by dodecamer repeat expansion in the promoter region of the cystatin B (CSTB) gene in approximately 90% of the disease alleles worldwide. This study presents results of genetic findings in four Serbian unrelated patients with clinical and molecular diagnosis of ULD. Using newly established PCR protocol with betaine, we detected a homozygous expansion of dodecamer repeats in the CSTB gene in four patients with clinical diagnosis of ULD. Our results are in agreement with previous studies showing that dodecamer repeats expansion is the most common mutation associated with ULD. Haplotype analysis of eight unrelated ULD chromosomes was performed using seven markers flanking CSTB gene and one intragenic variant. We demonstrated the existence of a founder effect, strongly supported by LD calculations. Size of the minimal common haplotype implies that the most recent common ancestor of the Serbian ULD patients lived about 110 generations ago. We showed that Serbian ULD patients share the same common ancestor with patients from Baltic countries and North Africa. In the light of our data, we proposed extended minimal common haplotype, which could be considered as initial haplotype of the founder event common for Serbian, Baltic, and North African ULD patients.

Published

2014

134. Vampires in the oceans: predatory cercozoan amoebae in marine habitats.

Author

Berney C, Romac S, Mahé F, Santini S, Siano R, and Bass D

Subjects

Amoeba genetics, Aquatic Organisms genetics, DNA, Protozoan genetics, DNA, Ribosomal genetics, Genetic Variation, Geologic Sediments parasitology, Oceans and Seas, Amoeba classification, Amoeba physiology, Aquatic Organisms classification, Aquatic Organisms physiology, Biodiversity, Ecosystem, Phylogeny

Abstract

Vampire amoebae (vampyrellids) are predators of algae, fungi, protozoa and small metazoans known primarily from soils and in freshwater habitats. They are among the very few heterotrophic naked, filose and reticulose protists that have received some attention from a morphological and ecological point of view over the last few decades, because of the peculiar mode of feeding of known species. Yet, the true extent of their biodiversity remains largely unknown. Here we use a complementary approach of culturing and sequence database mining to address this issue, focusing our efforts on marine environments, where vampyrellids are very poorly known. We present 10 new vampyrellid isolates, 8 from marine or brackish sediments, and 2 from soil or freshwater sediment. Two of the former correspond to the genera Thalassomyxa Grell and Penardia Cash for which sequence data were previously unavailable. Small-subunit ribosomal DNA analysis confirms they are all related to previously sequenced vampyrellids. An exhaustive screening of the NCBI GenBank database and of 454 sequence data generated by the European BioMarKs consortium revealed hundreds of distinct environmental vampyrellid sequences. We show that vampyrellids are much more diverse than previously thought, especially in marine habitats. Our new isolates, which cover almost the full phylogenetic range of vampyrellid sequences revealed in this study, offer a rare opportunity to integrate data from environmental DNA surveys with phenotypic information. However, the very large genetic diversity we highlight within vampyrellids (especially in marine sediments and soils) contrasts with the paradoxically low morphological distinctiveness we observed across our isolates.

Published

2013

135. Endothelial nitric oxide synthase gene polymorphisms and prostate cancer risk in Serbian population.

Author

Branković A, Brajušković G, Nikolić Z, Vukotić V, Cerović S, Savić-Pavićević D, and Romac S

Subjects

Adult, Aged, Aged, 80 and over, Alleles, Case-Control Studies, Disease Progression, Genotype, Humans, Male, Middle Aged, Prognosis, Risk Factors, Serbia epidemiology, Genetic Predisposition to Disease genetics, Nitric Oxide Synthase Type III genetics, Polymorphism, Single Nucleotide genetics, Prostatic Neoplasms epidemiology, Prostatic Neoplasms genetics

Abstract

Genome-wide association studies (GWAS) have identified over 46 SNPs associated with human prostate cancer (PCa). Some studies have shown correlation of the nitric oxide synthase (NOS) NOS3 gene polymorphisms with the risk and/or progression of PCa. This study aimed to evaluate the association of NOS3 gene polymorphisms (-786T>C, -764A>G, -714G>T, -690C>T, -649G>A and 894G>T) with PCa risk and progression. 150 patients with PCa, 150 patients with BPH and 100 age-matched healthy controls were recruited in this study. Genotyping of promoter polymorphisms was performed by bi-directional DNA sequencing, and for 894G>T by RFLP analysis. There was no significant association between the alleles and genotypes of these genetic variants and PCa risk. For -786T>C polymorphism, we found that C allele is associated with absence of metastases, assuming dominant genetic model (P = 0.049; OR, 0.50; 95% CI, 0.25-1.00). It was found that, compared with NOS3 -690C>T variant CC genotype, CT and TT genotypes confer decreased risk of developing metastases (dominant model, P = 0.015, OR, 0.24; 95% CI, 0.07-0.88) and show association with low clinical tumour stage, compared with stages T3 and T4 (dominant model, P = 0.046, OR, 0.20; 95% CI, 0.04-1.02). Genetic variants -764A>G, -714G>T, -649G>A were not detected in our study group. There is evidence of an inverse correlation of the NOS3 894G>T minor allele with high serum PSA (>20 ng/ml) (dominant model, P = 0.013, OR, 0.37; 95% CI, 0.17-0.82). Our results suggest that NOS3 gene polymorphisms are genetic susceptibility factors for the progression of PCa and patient outcome., (© 2013 The Authors. International Journal of Experimental Pathology © 2013 International Journal of Experimental Pathology.)

Published

2013

136. The 60th anniversary of the discovery of DNA secondary structure.

Author

Brajusković G, Pavicćević DS, and Romac S

Subjects

History, 20th Century, Humans, DNA history, Genomics history, Molecular Biology history

Published

2013

137. The coexistence of myasthenia gravis and myotonic dystrophy type 2 in a single patient.

Author

Nikolic A, Rakocevic Stojanovic V, Romac S, Savic D, Basta I, and Lavrnic D

Abstract

Background: Myasthenia gravis (MG) and myotonic dystrophy type 2 (DM2) are rare disorders individually, and their coexistence in the same patient is very rare. We present a patient in which these two diseases coexisted., Case Report: The patient complained of diplopia, fluctuating limb weakness, and difficulties in swallowing and speaking. A neurological examination revealed diplopia, facial, weakness of the neck and proximal limb muscles, dysphagia, dysphonia, and myotonia. The patient's mother had DM2 and her maternal grandfather had cataracts. MG was confirmed in our patient by positive results for neostigmine and a repetitive nerve stimulation test, and elevated serum anti-acetylcholine-receptor antibodies, while DM2 was confirmed by electromyography and genetic testing. The patient improved remarkably after treatment with anticholinesterases, corticosteroids, and azathioprine., Conclusions: This is the second reported case of the coexistence of DM2 and MG in the same patient. Since the symptoms of these two diseases overlap it is very important to keep in mind the possibility of their coexistence, so that MG is not overlooked in patients with a family history of myotonic dystrophy.

Published

2013

138. Lafora disease: severe phenotype associated with homozygous deletion of the NHLRC1 gene.

Author

Kecmanović M, Jović N, Cukić M, Keckarević-Marković M, Keckarević D, Stevanović G, and Romac S

Subjects

Female, Humans, Ubiquitin-Protein Ligases, Young Adult, Carrier Proteins genetics, Homozygote, Lafora Disease diagnosis, Lafora Disease genetics, Phenotype, Sequence Deletion genetics, Severity of Illness Index

Abstract

Lafora disease (LD) is a severe, autosomal recessive, latechildhood- to teenage-onset, progressive myoclonic epilepsy. It is due to either EPM2A or NHLRC1 mutations. We describe a patient with homozygous deletion encompassing the entire NHLRC1 gene, not previously reported, and with clinical course more progressive than in the most patients with NHLRC1 mutations. The diagnosis of LD in our patient was based on the typical clinic, neurophysiological presentation, as well as skin biopsy followed by molecular genetics findings. She developed normally until the age of 15, when she had her first occipital and generalized seizures. Four years after the first seizure the patient became bedridden, demented and presented with severe clinical condition. She died of pneumonia at age 20. This report is the first case of homozygosity for NHLRC1 deletion and thus adds to mutational heterogeneity of LD. Besides, it widens the spectrum of LD patients with severe phenotype and NHLRC1 mutations., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

139. An algorithm for genetic testing of Serbian patients with demyelinating Charcot-Marie-Tooth.

Author

Keckarevic Markovic MP, Dackovic J, Mladenovic J, Milic-Rasic V, Kecmanovic M, Keckarevic D, and Romac S

Subjects

Case-Control Studies, Charcot-Marie-Tooth Disease diagnosis, Charcot-Marie-Tooth Disease ethnology, Demyelinating Diseases ethnology, Demyelinating Diseases genetics, Ethnicity, Genetic Association Studies, Genetic Testing, Humans, Male, Mutation, Serbia, Algorithms, Charcot-Marie-Tooth Disease genetics, Demyelinating Diseases diagnosis, White People

Abstract

Charcot-Marie Tooth (CMT) is a clinically and genetically heterogeneous group of diseases with rough genotype-phenotype correlation, so the final diagnosis requires extensive clinical and electrophysiological examination, family data, and gene mutation analysis. Although there is a common pattern of genetic basis of CMT, there could be some population differences that should be taken into account to facilitate analyses. Here we present the algorithm for genetic testing in Serbian patients with demyelinating CMT, based on their genetic specificities: in cases of no PMP22 duplication, and if -X-linked CMT (CMTX) is not contraindicated by pattern of inheritance (male-to-male transmission), one should test for c.94A>G GJB founder mutation, first. Also, when a patient is of Romani ethnicity, or if there is an autosomal recessive inheritance in a family and unclear ethnicity, c.442C>T mutation in NDRG1 should be tested.

Published

2013

140. Diversity patterns of uncultured Haptophytes unravelled by pyrosequencing in Naples Bay.

Author

Bittner L, Gobet A, Audic S, Romac S, Egge ES, Santini S, Ogata H, Probert I, Edvardsen B, and de Vargas C

Subjects

Bays, DNA Primers genetics, DNA, Ribosomal genetics, Haptophyta classification, Italy, Mediterranean Sea, Phylogeny, Plankton classification, Plankton genetics, Sequence Analysis, DNA, Genetic Variation, Genetics, Population, Haptophyta genetics

Abstract

Haptophytes are a key phylum of marine protists, including ~300 described morphospecies and 80 morphogenera. We used 454 pyrosequencing on large subunit ribosomal DNA (LSU rDNA) fragments to assess the diversity from size-fractioned plankton samples collected in the Bay of Naples. One group-specific primer set targeting the LSU rDNA D1/D2 region was designed to amplify Haptophyte sequences from nucleic acid extracts (total DNA or RNA) of two size fractions (0.8-3 or 3-20 μm) and two sampling depths [subsurface, at 1 m, or deep chlorophyll maximum (DCM) at 23 m]. 454 reads were identified using a database covering the entire Haptophyta diversity currently sequenced. Our data set revealed several hundreds of Haptophyte clusters. However, most of these clusters could not be linked to taxonomically known sequences: considering OTUs(97%) (clusters build at a sequence identity level of 97%) on our global data set, less than 1% of the reads clustered with sequences from cultures, and less than 12% clustered with reference sequences obtained previously from cloning and Sanger sequencing of environmental samples. Thus, we highlighted a large uncharacterized environmental genetic diversity, which clearly shows that currently cultivated species poorly reflect the actual diversity present in the natural environment. Haptophyte community appeared to be significantly structured according to the depth. The highest diversity and evenness were obtained in samples from the DCM, and samples from the large size fraction (3-20 μm) taken at the DCM shared a lower proportion of common OTUs(97%) with the other samples. Reads from the species Chrysoculter romboideus were notably found at the DCM, while they could be detected at the subsurface. The highest proportion of totally unknown OTUs(97%) was collected at the DCM in the smallest size fraction (0.8-3 μm). Overall, this study emphasized several technical and theoretical barriers inherent to the exploration of the large and largely unknown diversity of unicellular eukaryotes., (© 2012 Blackwell Publishing Ltd.)

Published

2013

141. Molecular genetics and genetic testing in myotonic dystrophy type 1.

Author

Savić Pavićević D, Miladinović J, Brkušanin M, Šviković S, Djurica S, Brajušković G, and Romac S

Subjects

3' Untranslated Regions genetics, Age of Onset, Humans, Mutation, Myotonic Dystrophy therapy, Pedigree, Phenotype, Trinucleotide Repeats genetics, Genetic Testing, Myotonic Dystrophy diagnosis, Myotonic Dystrophy genetics, Trinucleotide Repeat Expansion genetics

Abstract

Myotonic dystrophy type 1 (DM1) is the most common adult onset muscular dystrophy, presenting as a multisystemic disorder with extremely variable clinical manifestation, from asymptomatic adults to severely affected neonates. A striking anticipation and parental-gender effect upon transmission are distinguishing genetic features in DM1 pedigrees. It is an autosomal dominant hereditary disease associated with an unstable expansion of CTG repeats in the 3'-UTR of the DMPK gene, with the number of repeats ranging from 50 to several thousand. The number of CTG repeats broadly correlates with both the age-at-onset and overall severity of the disease. Expanded DM1 alleles are characterized by a remarkable expansion-biased and gender-specific germline instability, and tissue-specific, expansion-biased, age-dependent, and individual-specific somatic instability. Mutational dynamics in male and female germline account for observed anticipation and parental-gender effect in DM1 pedigrees, while mutational dynamics in somatic tissues contribute toward the tissue-specificity and progressive nature of the disease. Genetic test is routinely used in diagnostic procedure for DM1 for symptomatic, asymptomatic, and prenatal testing, accompanied with appropriate genetic counseling and, as recommended, without predictive information about the disease course. We review molecular genetics of DM1 with focus on those issues important for genetic testing and counseling.

Published

2013

142. Low evolutionary diversification in a widespread and abundant uncultured protist (MAST-4).

Author

Rodríguez-Martínez R, Rocap G, Logares R, Romac S, and Massana R

Subjects

Alveolata classification, Base Sequence, DNA, Intergenic genetics, DNA, Ribosomal genetics, Diatoms classification, Molecular Sequence Data, Nucleic Acid Conformation, Phytoplankton classification, Alveolata genetics, Diatoms genetics, Evolution, Molecular, Genetic Variation, Phytoplankton genetics

Abstract

Recent culture-independent studies of marine planktonic protists have unveiled a large diversity at all phylogenetic scales and the existence of novel groups. MAST-4 represents one of these novel uncultured lineages, and it is composed of small (~2 μm) bacterivorous eukaryotes that are widely distributed in marine systems. MAST-4 accounts for a significant fraction of the marine heterotrophic flagellates at the global level, playing key roles in the marine ecological network. In this study, we investigated the diversity of MAST-4, aiming to assess its limits and structure. Using ribosomal DNA (rDNA) sequences obtained in this study (both pyrosequencing reads and clones with large rDNA operon coverage), complemented with GenBank sequences, we show that MAST-4 is composed of only five main clades, which are well supported by small subunit and large subunit phylogenies. The differences in the conserved regions of the internal transcribed spacers 1 and 2 (ITS1 and ITS2) secondary structures strongly suggest that these five clades are different biological species. Based on intraclade divergence, ITS secondary structures and comparisons of ITS1 and ITS2 trees, we did not find evidence of more than one species within clade A, whereas as many as three species might be present within other clades. Overall, the genetic divergence of MAST-4 was surprisingly low for an organism with a global population size estimated to be around 10(24), indicating a very low evolutionary diversification within the group.

Published

2012

143. A novel P66S mutation in exon 3 of the SOD1 gene with early onset and rapid progression.

Author

Keckarević D, Stević Z, Keckarević-Marković M, Kecmanović M, and Romac S

Subjects

Age of Onset, DNA Mutational Analysis, Fatal Outcome, Humans, Male, Superoxide Dismutase-1, Young Adult, Amyotrophic Lateral Sclerosis genetics, Amyotrophic Lateral Sclerosis physiopathology, Disease Progression, Exons, Mutation, Superoxide Dismutase genetics

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal motor neuron disease in adults of unknown origin in most cases. Here we report a novel P66S mutation in exon 3 of the SOD1 gene in an apparently sporadic ALS patient with unusual early onset and rapid disease progression. Our data widen the spectrum of SOD1 mutations and clinical presentations of ALS.

Published

2012

144. Reticulamoeba is a long-branched Granofilosean (Cercozoa) that is missing from sequence databases.

Author

Bass D, Yabuki A, Santini S, Romac S, and Berney C

Subjects

Animals, Base Sequence, Cercozoa classification, DNA Primers, Information Storage and Retrieval, Likelihood Functions, Phylogeny, Cercozoa genetics, Databases, Genetic

Abstract

We sequenced the 18S ribosomal RNA gene of seven isolates of the enigmatic marine amoeboflagellate Reticulamoeba Grell, which resolved into four genetically distinct Reticulamoeba lineages, two of which correspond to R. gemmipara Grell and R. minor Grell, another with a relatively large cell body forming lacunae, and another that has similarities to both R. minor and R. gemmipara but with a greater propensity to form cell clusters. These lineages together form a long-branched clade that branches within the cercozoan class Granofilosea (phylum Cercozoa), showing phylogenetic affinities with the genus Mesofila. The basic morphology of Reticulamoeba is a roundish or ovoid cell with a more or less irregular outline. Long and branched reticulopodia radiate from the cell. The reticulopodia bear granules that are bidirectionally motile. There is also a biflagellate dispersal stage. Reticulamoeba is frequently observed in coastal marine environmental samples. PCR primers specific to the Reticulamoeba clade confirm that it is a frequent member of benthic marine microbial communities, and is also found in brackish water sediments and freshwater biofilm. However, so far it has not been found in large molecular datasets such as the nucleotide database in NCBI GenBank, metagenomic datasets in Camera, and the marine microbial eukaryote sampling and sequencing consortium BioMarKs, although closely related lineages can be found in some of these datasets using a highly targeted approach. Therefore, although such datasets are very powerful tools in microbial ecology, they may, for several methodological reasons, fail to detect ecologically and evolutionary key lineages.

Published

2012

145. Retinoic acid induced 1 gene and clinical subtypes of schizophrenia: an association study.

Author

Ivković M, Zamurović L, Jovanović A, Dobričić V, Damjanović A, Savić-Pavićević D, and Romac S

Subjects

Adult, Chi-Square Distribution, Female, Genome-Wide Association Study, Humans, Male, Middle Aged, Schizophrenia classification, Trans-Activators, Genetic Predisposition to Disease genetics, Schizophrenia genetics, Transcription Factors genetics

Published

2011

146. Whole-genome amplification (WGA) of marine photosynthetic eukaryote populations.

Author

Lepere C, Demura M, Kawachi M, Romac S, Probert I, and Vaulot D

Subjects

DNA, Plant genetics, Flow Cytometry, Genes, rRNA, Phylogeny, Polymerase Chain Reaction, Reproducibility of Results, Seawater microbiology, Metagenomics methods, Microalgae genetics, Nucleic Acid Amplification Techniques methods, Photosynthesis, Water Microbiology

Abstract

Metagenomics approaches have been developing rapidly in marine sciences. However, the application of these approaches to marine eukaryotes, and in particular to the smallest ones, is challenging because marine microbial communities are dominated by prokaryotes. One way to circumvent this problem is to separate eukaryotic cells using techniques such as single-cell pipetting or flow cytometry sorting. However, the number of cells that can be recovered by such techniques remains low and genetic material needs to be amplified before metagenomic sequencing can be undertaken. In this methodological study, we tested the application of whole-genome amplification (WGA) to photosynthetic eukaryotes. We performed various optimization steps both on a mixture of known microalgal strains and on natural photosynthetic eukaryote populations sorted by flow cytometry. rRNA genes were used as markers for assessing the efficiency of different protocols. Our data indicate that WGA is suitable for the amplification of photosynthetic eukaryote genomes, but that biases are induced, reducing the diversity of the initial population. Nonetheless, this approach appears to be suitable for obtaining metagenomics data on microbial eukaryotic communities., (© 2011 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved.)

Published

2011

147. Schizophrenia and apolipoprotein E gene polymorphism in Serbian population.

Author

Kecmanović M, Dobricić V, Dimitrijević R, Keckarević D, Savić-Pavićević D, Keckarević-Marković M, Ivkovic M, and Romac S

Subjects

Adult, Alleles, Antipsychotic Agents pharmacology, Apolipoprotein E3 genetics, Apolipoprotein E4 genetics, Drug Resistance genetics, Female, Genotype, Humans, Male, Risk Factors, Schizophrenia drug therapy, Serbia ethnology, Young Adult, Apolipoproteins E genetics, Genetic Predisposition to Disease ethnology, Genetic Predisposition to Disease genetics, Polymorphism, Genetic genetics, Schizophrenia ethnology, Schizophrenia genetics

Abstract

Apolipoprotein E (APOE) gene variants are associated with alterations in brain function and increased risk of Alzheimer's disease (AD) and conflicting results have been reported in schizophrenia. Our results showed no significant differences in APOE allele or genotype frequencies between the Serbian schizophrenic patients and control individuals. However, we observed a possible association between particular subtypes of schizophrenia and APOE epsilon3/epsilon3 genotype (p = .01221) and epsilon4 allele showed a tendency toward positive association with responding to typical neuroleptics. APOE genotypes have no major influence on risk of schizophrenia, treatment and response to conventional antipsychotics, and age of onset in schizophrenia.

Published

2010

148. Polymorphisms of the prion protein gene (PRNP) in a Serbian population.

Author

Dimitrijević R, Cadez I, Keckarević-Marković M, Keckarević D, Kecmanović M, Dobricić V, Savić-Pavićević D, Brajusković G, and Romac S

Subjects

Amino Acid Substitution genetics, Female, Genetic Predisposition to Disease ethnology, Genetic Predisposition to Disease genetics, Genetic Testing, Glutamic Acid genetics, Humans, Lysine genetics, Male, Mutagenesis, Insertional, Oligopeptides genetics, Prion Diseases ethnology, Prion Diseases genetics, Prion Proteins, Repetitive Sequences, Amino Acid genetics, Sequence Deletion genetics, Serbia ethnology, Polymorphism, Genetic genetics, Prions genetics

Abstract

Prion diseases are a group of etiologically heterogeneous neurodegenerative disorders. We have analyzed the coding region of PRNP gene in 121 healthy citizens of Serbia to determine whether the frequencies of M129V, E219K, and octapeptide repeat number polymorphism. For Serbian population, polymorphism of PRNP gene at codon 129 does not differ from healthy European populations. Also codon 219 is monomorphic for the Glu allele both in Serbian population and other European populations. On the contrary, in Serbian population we did not detect any deletions or insertions in octapeptide repeat region, whereas deletions were detected in other European populations.

Published

2010

149. Copper stress proteomics highlights local adaptation of two strains of the model brown alga Ectocarpus siliculosus.

Author

Ritter A, Ubertini M, Romac S, Gaillard F, Delage L, Mann A, Cock JM, Tonon T, Correa JA, and Potin P

Subjects

Adaptation, Physiological, Gene Expression Profiling, Gene Expression Regulation drug effects, Copper toxicity, Phaeophyceae drug effects, Phaeophyceae metabolism, Proteomics methods

Abstract

Ectocarpus siliculosus is a cosmopolitan brown alga with capacity to thrive in copper enriched environments. Analysis of copper toxicity was conducted in two strains of E. siliculosus isolated from (i) an uncontaminated coast in southern Peru (Es32) and (ii) a copper polluted rocky beach in northern Chile (Es524). Es32 was more sensitive than Es524, with toxicity detected at 50 microg/L Cu, whereas Es524 displayed negative effects only when exposed to 250 microg/L Cu. Differential soluble proteome profiling for each strain exposed to sub-lethal copper levels allowed to identify the induction of proteins related to processes such as energy production, glutathione metabolism as well as accumulation of HSPs. In addition, the inter-strain comparison of stress-related proteomes led to identify features related to copper tolerance in Es524, such as striking expression of a PSII Mn-stabilizing protein and a Fucoxanthine chlorophyll a-c binding protein. Es524 also expressed specific stress-related enzymes such as RNA helicases from the DEAD box families and a vanadium-dependent bromoperoxidase. These observations were supported by RT-qPCR for some of the identified genes and an enzyme activity assay for vanadium-dependent bromoperoxidase. Therefore, the occurrence of two different phenotypes within two distinct E. siliculosus strains studied at the physiological and proteomic levels strongly suggest that persistent copper stress may represent a selective force leading to the development of strains genetically adapted to copper contaminated sites.

Published

2010

150. Mutational analysis of GJB1, MPZ, PMP22, EGR2, and LITAF/SIMPLE in Serbian Charcot-Marie-Tooth patients.

Author

Keckarevic-Markovic M, Milic-Rasic V, Mladenovic J, Dackovic J, Kecmanovic M, Keckarevic D, Savic-Pavicevic D, and Romac S

Subjects

Adolescent, Adult, Child, Child, Preschool, Connexins genetics, DNA Mutational Analysis, Early Growth Response Protein 2 genetics, Female, Haplotypes, Humans, Male, Middle Aged, Mutation, Myelin P0 Protein genetics, Myelin Proteins genetics, Nuclear Proteins genetics, Serbia, Transcription Factors genetics, Young Adult, Gap Junction beta-1 Protein, Charcot-Marie-Tooth Disease genetics

Abstract

We report the results of mutational analysis in the following genes: GJB1, MPZ, PMP22, EGR2, and LITAF/SIMPLE in 57 Charcot-Marie-Tooth (CMT) patients of Serbian origin without the PMP22 duplication. We found 10 different mutations in 14 CMT patients: 6 mutations in GJB1, 3 in MPZ, and 1 in PMP22. Five of six GJB1 mutations are reported for the first time, and the most frequent one appears to be a founder mutation in the Serbian population. No mutations were found in EGR2 or LITAF. Thus, GJB1 mutation analysis should be done in patients without the PMP22 duplication and male-to-male transmission of CMT.

Published

2009