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Anne Willems - One of the best experts on this subject based on the ideXlab platform.
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Exploration of a partnership Joke Hollants
2016Co-Authors: Endophytic Bacteria Within, Anne Willems, Olivier De ClerckAbstract:the green siphonous seaweed Bryopsis
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host specificity and coevolution of flavobacteriaceae endosymbionts within the siphonous green seaweed Bryopsis
Molecular Phylogenetics and Evolution, 2013Co-Authors: Joke Hollants, Heroen Verbruggen, Anne WillemsAbstract:The siphonous green seaweed Bryopsis harbors complex intracellular bacterial communities. Previous studies demonstrated that certain species form close, obligate associations with Flavobacteriaceae. A predominant imprint of host evolutionary history on the presence of these bacteria suggests a highly specialized association. In this study we elaborate on previous results by expanding the taxon sampling and testing for host–symbiont coevolution Therefore, we optimized a PCR protocol to directly and specifically amplify Flavobacteriaceae endosymbiont 16S rRNA gene sequences, which allowed us to screen a large number of algal samples without the need for cultivation or surface sterilization. We analyzed 146 Bryopsis samples, and 92 additional samples belonging to the Bryopsidales and other orders within the class Ulvophyceae. Results indicate that the Flavobacteriaceae endosymbionts are restricted to Bryopsis, and only occur within specific, warm-temperate and tropical clades of the genus. Statistical analyses (AMOVA) demonstrate a significant non-random host–symbiont association. Comparison of bacterial 16S rRNA and Bryopsis rbcL phylogenies, however, reveal complex host–symbiont evolutionary associations, whereby closely related hosts predominantly harbor genetically similar endosymbionts. Bacterial genotypes are rarely confined to a single Bryopsis species and most Bryopsis species harbored several Flavobacteriaceae, obscuring a clear pattern of coevolution.
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Permanent residents or temporary lodgers: characterizing intracellular bacterial communities in the siphonous green alga Bryopsis
Proceedings. Biological sciences, 2013Co-Authors: Joke Hollants, Heroen Verbruggen, Anne Willems, Frederik Leliaert, Olivier De ClerckAbstract:The ecological success of giant celled, siphonous green algae in coastal habitats has repeatedly been linked to endophytic bacteria living within the cytoplasm of the hosts. Yet, very little is known about the relative importance of evolutionary and ecological factors controlling the intracellular bacterial flora of these seaweeds. Using the marine alga Bryopsis (Bryopsidales, Chlorophyta) as a model, we explore the diversity of the intracellular bacterial communities and investigate whether their composition is controlled by ecological and biogeographic factors rather than the evolutionary history of the host. Using a combination of 16S rDNA clone libraries and denaturing gradient gel electrophoresis analyses, we show that Bryopsis harbours a mixture of relatively few but phylogenetically diverse bacterial species. Variation partitioning analyses show a strong impact of local environmental factors on the presence of Rickettsia and Mycoplasma in their association with Bryopsis. The presence of Flavobacteriaceae and Bacteroidetes, on the other hand, reflects a predominant imprint of host evolutionary history, suggesting that these bacteria are more specialized in their association. The results highlight the importance of interpreting the presence of individual bacterial phylotypes in the light of ecological and evolutionary principles such as phylogenetic niche conservatism to understand complex endobiotic communities and the parameters shaping them.
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Life without a cell membrane: Challenging the specificity of bacterial endophytes within Bryopsis (Bryopsidales, Chlorophyta)
BMC Microbiology, 2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Anne WillemsAbstract:Background The siphonous green macroalga Bryopsis has some remarkable characteristics. Besides hosting a rich endophytic bacterial flora, Bryopsis also displays extraordinary wound repair and propagation mechanisms. This latter feature includes the formation of protoplasts which can survive in the absence of a cell membrane for several minutes before regenerating into new individuals. This transient 'life without a membrane' state, however, challenges the specificity of the endophytic bacterial communities present and raises the question whether these bacteria are generalists, which are repeatedly acquired from the environment, or if there is some specificity towards the Bryopsis host. Results To answer this question, we examined the temporal stability and the uniqueness of endobiotic bacterial communities within Bryopsis samples from the Mexican west coast after prolonged cultivation. DGGE analysis revealed that Bryopsis endophytic bacterial communities are rather stable and clearly distinct from the epiphytic and surrounding cultivation water bacterial communities. Although these endogenous communities consist of both facultative and obligate bacteria, results suggest that Bryopsis owns some intrinsic mechanisms to selectively maintain and/or attract specific bacteria after repeated wounding events in culture. Conclusions This suggests that Bryopsis algae seem to master transient stages of life without a cell membrane well as they harbor specific - and possibly ecological significant - endophytic bacteria.
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Who is in there? Exploration of endophytic bacteria within the siphonous green seaweed Bryopsis (Bryopsidales, Chlorophyta).
PloS one, 2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Olivier Leroux, Anne WillemsAbstract:Associations between marine seaweeds and bacteria are widespread, with endobiotic bacterial-algal interactions being described for over 40 years. Also within the siphonous marine green alga Bryopsis, intracellular bacteria have been visualized by electron microscopy in the early ‘70s, but were up to now never molecularly analyzed. To study this partnership, we examined the presence and phylogenetic diversity of microbial communities within the cytoplasm of two Bryopsis species by combining fluorescence in situ hybridization (FISH), denaturing gradient gel electrophoresis (DGGE) and 16S rRNA gene clone libraries. Sequencing results revealed the presence of Arcobacter, Bacteroidetes, Flavobacteriaceae, Mycoplasma, Labrenzia, Phyllobacteriaceae and Xanthomonadaceae species. Although the total diversity of the endobiotic communities was unique to each Bryopsis culture, Bacteroidetes, Mycoplasma, Phyllobacteriaceae, and in particular Flavobacteriaceae bacteria, were detected in several Bryopsis samples collected hundreds of kilometres apart. This suggests that Bryopsis closely associates with well-defined endophytic bacterial communities of which some members possibly maintain an endosymbiotic relationship with the algal host.
Joke Hollants - One of the best experts on this subject based on the ideXlab platform.
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host specificity and coevolution of flavobacteriaceae endosymbionts within the siphonous green seaweed Bryopsis
Molecular Phylogenetics and Evolution, 2013Co-Authors: Joke Hollants, Heroen Verbruggen, Anne WillemsAbstract:The siphonous green seaweed Bryopsis harbors complex intracellular bacterial communities. Previous studies demonstrated that certain species form close, obligate associations with Flavobacteriaceae. A predominant imprint of host evolutionary history on the presence of these bacteria suggests a highly specialized association. In this study we elaborate on previous results by expanding the taxon sampling and testing for host–symbiont coevolution Therefore, we optimized a PCR protocol to directly and specifically amplify Flavobacteriaceae endosymbiont 16S rRNA gene sequences, which allowed us to screen a large number of algal samples without the need for cultivation or surface sterilization. We analyzed 146 Bryopsis samples, and 92 additional samples belonging to the Bryopsidales and other orders within the class Ulvophyceae. Results indicate that the Flavobacteriaceae endosymbionts are restricted to Bryopsis, and only occur within specific, warm-temperate and tropical clades of the genus. Statistical analyses (AMOVA) demonstrate a significant non-random host–symbiont association. Comparison of bacterial 16S rRNA and Bryopsis rbcL phylogenies, however, reveal complex host–symbiont evolutionary associations, whereby closely related hosts predominantly harbor genetically similar endosymbionts. Bacterial genotypes are rarely confined to a single Bryopsis species and most Bryopsis species harbored several Flavobacteriaceae, obscuring a clear pattern of coevolution.
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Permanent residents or temporary lodgers: characterizing intracellular bacterial communities in the siphonous green alga Bryopsis
Proceedings. Biological sciences, 2013Co-Authors: Joke Hollants, Heroen Verbruggen, Anne Willems, Frederik Leliaert, Olivier De ClerckAbstract:The ecological success of giant celled, siphonous green algae in coastal habitats has repeatedly been linked to endophytic bacteria living within the cytoplasm of the hosts. Yet, very little is known about the relative importance of evolutionary and ecological factors controlling the intracellular bacterial flora of these seaweeds. Using the marine alga Bryopsis (Bryopsidales, Chlorophyta) as a model, we explore the diversity of the intracellular bacterial communities and investigate whether their composition is controlled by ecological and biogeographic factors rather than the evolutionary history of the host. Using a combination of 16S rDNA clone libraries and denaturing gradient gel electrophoresis analyses, we show that Bryopsis harbours a mixture of relatively few but phylogenetically diverse bacterial species. Variation partitioning analyses show a strong impact of local environmental factors on the presence of Rickettsia and Mycoplasma in their association with Bryopsis. The presence of Flavobacteriaceae and Bacteroidetes, on the other hand, reflects a predominant imprint of host evolutionary history, suggesting that these bacteria are more specialized in their association. The results highlight the importance of interpreting the presence of individual bacterial phylotypes in the light of ecological and evolutionary principles such as phylogenetic niche conservatism to understand complex endobiotic communities and the parameters shaping them.
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Life without a cell membrane: Challenging the specificity of bacterial endophytes within Bryopsis (Bryopsidales, Chlorophyta)
BMC Microbiology, 2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Anne WillemsAbstract:Background The siphonous green macroalga Bryopsis has some remarkable characteristics. Besides hosting a rich endophytic bacterial flora, Bryopsis also displays extraordinary wound repair and propagation mechanisms. This latter feature includes the formation of protoplasts which can survive in the absence of a cell membrane for several minutes before regenerating into new individuals. This transient 'life without a membrane' state, however, challenges the specificity of the endophytic bacterial communities present and raises the question whether these bacteria are generalists, which are repeatedly acquired from the environment, or if there is some specificity towards the Bryopsis host. Results To answer this question, we examined the temporal stability and the uniqueness of endobiotic bacterial communities within Bryopsis samples from the Mexican west coast after prolonged cultivation. DGGE analysis revealed that Bryopsis endophytic bacterial communities are rather stable and clearly distinct from the epiphytic and surrounding cultivation water bacterial communities. Although these endogenous communities consist of both facultative and obligate bacteria, results suggest that Bryopsis owns some intrinsic mechanisms to selectively maintain and/or attract specific bacteria after repeated wounding events in culture. Conclusions This suggests that Bryopsis algae seem to master transient stages of life without a cell membrane well as they harbor specific - and possibly ecological significant - endophytic bacteria.
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Who is in there? Exploration of endophytic bacteria within the siphonous green seaweed Bryopsis (Bryopsidales, Chlorophyta).
PloS one, 2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Olivier Leroux, Anne WillemsAbstract:Associations between marine seaweeds and bacteria are widespread, with endobiotic bacterial-algal interactions being described for over 40 years. Also within the siphonous marine green alga Bryopsis, intracellular bacteria have been visualized by electron microscopy in the early ‘70s, but were up to now never molecularly analyzed. To study this partnership, we examined the presence and phylogenetic diversity of microbial communities within the cytoplasm of two Bryopsis species by combining fluorescence in situ hybridization (FISH), denaturing gradient gel electrophoresis (DGGE) and 16S rRNA gene clone libraries. Sequencing results revealed the presence of Arcobacter, Bacteroidetes, Flavobacteriaceae, Mycoplasma, Labrenzia, Phyllobacteriaceae and Xanthomonadaceae species. Although the total diversity of the endobiotic communities was unique to each Bryopsis culture, Bacteroidetes, Mycoplasma, Phyllobacteriaceae, and in particular Flavobacteriaceae bacteria, were detected in several Bryopsis samples collected hundreds of kilometres apart. This suggests that Bryopsis closely associates with well-defined endophytic bacterial communities of which some members possibly maintain an endosymbiotic relationship with the algal host.
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Who Is in There? Exploration of Endophytic Bacteria within the Siphonous Green Seaweed Bryopsis (Bryopsidales, Chlorophyta)
2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Olivier Leroux, Anne WillemsAbstract:Associations between marine seaweeds and bacteria are widespread, with endobiotic bacterial-algal interactions being described for over 40 years. Also within the siphonous marine green alga Bryopsis, intracellular bacteria have been visualized by electron microscopy in the early ‘70s, but were up to now never molecularly analyzed. To study this partnership, we examined the presence and phylogenetic diversity of microbial communities within the cytoplasm of two Bryopsis species by combining fluorescence in situ hybridization (FISH), denaturing gradient gel electrophoresis (DGGE) and 16S rRNA gene clone libraries. Sequencing results revealed the presence of Arcobacter, Bacteroidetes, Flavobacteriaceae, Mycoplasma, Labrenzia, Phyllobacteriaceae and Xanthomonadaceae species. Although the total diversity of the endobiotic communities was unique to each Bryopsis culture, Bacteroidetes, Mycoplasma, Phyllobacteriaceae, and in particular Flavobacteriaceae bacteria, were detected in several Bryopsis samples collected hundreds of kilometres apart. This suggests that Bryopsis closely associates with well-defined endophytic bacterial communities of which some members possibly maintain a
Olivier De Clerck - One of the best experts on this subject based on the ideXlab platform.
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Exploration of a partnership Joke Hollants
2016Co-Authors: Endophytic Bacteria Within, Anne Willems, Olivier De ClerckAbstract:the green siphonous seaweed Bryopsis
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Permanent residents or temporary lodgers: characterizing intracellular bacterial communities in the siphonous green alga Bryopsis
Proceedings. Biological sciences, 2013Co-Authors: Joke Hollants, Heroen Verbruggen, Anne Willems, Frederik Leliaert, Olivier De ClerckAbstract:The ecological success of giant celled, siphonous green algae in coastal habitats has repeatedly been linked to endophytic bacteria living within the cytoplasm of the hosts. Yet, very little is known about the relative importance of evolutionary and ecological factors controlling the intracellular bacterial flora of these seaweeds. Using the marine alga Bryopsis (Bryopsidales, Chlorophyta) as a model, we explore the diversity of the intracellular bacterial communities and investigate whether their composition is controlled by ecological and biogeographic factors rather than the evolutionary history of the host. Using a combination of 16S rDNA clone libraries and denaturing gradient gel electrophoresis analyses, we show that Bryopsis harbours a mixture of relatively few but phylogenetically diverse bacterial species. Variation partitioning analyses show a strong impact of local environmental factors on the presence of Rickettsia and Mycoplasma in their association with Bryopsis. The presence of Flavobacteriaceae and Bacteroidetes, on the other hand, reflects a predominant imprint of host evolutionary history, suggesting that these bacteria are more specialized in their association. The results highlight the importance of interpreting the presence of individual bacterial phylotypes in the light of ecological and evolutionary principles such as phylogenetic niche conservatism to understand complex endobiotic communities and the parameters shaping them.
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Life without a cell membrane: Challenging the specificity of bacterial endophytes within Bryopsis (Bryopsidales, Chlorophyta)
BMC Microbiology, 2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Anne WillemsAbstract:Background The siphonous green macroalga Bryopsis has some remarkable characteristics. Besides hosting a rich endophytic bacterial flora, Bryopsis also displays extraordinary wound repair and propagation mechanisms. This latter feature includes the formation of protoplasts which can survive in the absence of a cell membrane for several minutes before regenerating into new individuals. This transient 'life without a membrane' state, however, challenges the specificity of the endophytic bacterial communities present and raises the question whether these bacteria are generalists, which are repeatedly acquired from the environment, or if there is some specificity towards the Bryopsis host. Results To answer this question, we examined the temporal stability and the uniqueness of endobiotic bacterial communities within Bryopsis samples from the Mexican west coast after prolonged cultivation. DGGE analysis revealed that Bryopsis endophytic bacterial communities are rather stable and clearly distinct from the epiphytic and surrounding cultivation water bacterial communities. Although these endogenous communities consist of both facultative and obligate bacteria, results suggest that Bryopsis owns some intrinsic mechanisms to selectively maintain and/or attract specific bacteria after repeated wounding events in culture. Conclusions This suggests that Bryopsis algae seem to master transient stages of life without a cell membrane well as they harbor specific - and possibly ecological significant - endophytic bacteria.
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Who is in there? Exploration of endophytic bacteria within the siphonous green seaweed Bryopsis (Bryopsidales, Chlorophyta).
PloS one, 2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Olivier Leroux, Anne WillemsAbstract:Associations between marine seaweeds and bacteria are widespread, with endobiotic bacterial-algal interactions being described for over 40 years. Also within the siphonous marine green alga Bryopsis, intracellular bacteria have been visualized by electron microscopy in the early ‘70s, but were up to now never molecularly analyzed. To study this partnership, we examined the presence and phylogenetic diversity of microbial communities within the cytoplasm of two Bryopsis species by combining fluorescence in situ hybridization (FISH), denaturing gradient gel electrophoresis (DGGE) and 16S rRNA gene clone libraries. Sequencing results revealed the presence of Arcobacter, Bacteroidetes, Flavobacteriaceae, Mycoplasma, Labrenzia, Phyllobacteriaceae and Xanthomonadaceae species. Although the total diversity of the endobiotic communities was unique to each Bryopsis culture, Bacteroidetes, Mycoplasma, Phyllobacteriaceae, and in particular Flavobacteriaceae bacteria, were detected in several Bryopsis samples collected hundreds of kilometres apart. This suggests that Bryopsis closely associates with well-defined endophytic bacterial communities of which some members possibly maintain an endosymbiotic relationship with the algal host.
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Who Is in There? Exploration of Endophytic Bacteria within the Siphonous Green Seaweed Bryopsis (Bryopsidales, Chlorophyta)
2011Co-Authors: Joke Hollants, Frederik Leliaert, Helen Decleyre, Olivier De Clerck, Olivier Leroux, Anne WillemsAbstract:Associations between marine seaweeds and bacteria are widespread, with endobiotic bacterial-algal interactions being described for over 40 years. Also within the siphonous marine green alga Bryopsis, intracellular bacteria have been visualized by electron microscopy in the early ‘70s, but were up to now never molecularly analyzed. To study this partnership, we examined the presence and phylogenetic diversity of microbial communities within the cytoplasm of two Bryopsis species by combining fluorescence in situ hybridization (FISH), denaturing gradient gel electrophoresis (DGGE) and 16S rRNA gene clone libraries. Sequencing results revealed the presence of Arcobacter, Bacteroidetes, Flavobacteriaceae, Mycoplasma, Labrenzia, Phyllobacteriaceae and Xanthomonadaceae species. Although the total diversity of the endobiotic communities was unique to each Bryopsis culture, Bacteroidetes, Mycoplasma, Phyllobacteriaceae, and in particular Flavobacteriaceae bacteria, were detected in several Bryopsis samples collected hundreds of kilometres apart. This suggests that Bryopsis closely associates with well-defined endophytic bacterial communities of which some members possibly maintain a
Heroen Verbruggen - One of the best experts on this subject based on the ideXlab platform.
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The Forgotten genus Pseudoderbesia (Bryopsidales, Chlorophyta)
Cryptogamie Algologie, 2014Co-Authors: Heroen Verbruggen, Sofie D'hondt, Juan M. López-bautistaAbstract:The poorly known siphonous green algal genus Pseudoderbesia was originally described from the Caribbean coast of Colombia, and the Canary Islands. Here we describe a collection of Pseudoderbesia from Rhodes, Greece, representing the first report of the genus since its original description in 1991. Cultured plants of Pseudoderbesia were characterized by upright, regularly dichotomously branched siphons, developing from long stolonoid siphons. Molecular phylogenetic analysis based on rbcL and tufA sequences confirmed the placement of Pseudoderbesia in the family Bryopsidaceae, and shows a sister relationship with Bryopsis. Although this is the first record of Pseudoderbesia from the Mediterranean Sea, it is possible that the genus is more widespread and has previously been confused with morphologically similar, but unrelated taxa, such as Pseudochlorodesmis furcellata, or that it has been erroneously attributed to juvenile stages of larger bryopsidalean algae.
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host specificity and coevolution of flavobacteriaceae endosymbionts within the siphonous green seaweed Bryopsis
Molecular Phylogenetics and Evolution, 2013Co-Authors: Joke Hollants, Heroen Verbruggen, Anne WillemsAbstract:The siphonous green seaweed Bryopsis harbors complex intracellular bacterial communities. Previous studies demonstrated that certain species form close, obligate associations with Flavobacteriaceae. A predominant imprint of host evolutionary history on the presence of these bacteria suggests a highly specialized association. In this study we elaborate on previous results by expanding the taxon sampling and testing for host–symbiont coevolution Therefore, we optimized a PCR protocol to directly and specifically amplify Flavobacteriaceae endosymbiont 16S rRNA gene sequences, which allowed us to screen a large number of algal samples without the need for cultivation or surface sterilization. We analyzed 146 Bryopsis samples, and 92 additional samples belonging to the Bryopsidales and other orders within the class Ulvophyceae. Results indicate that the Flavobacteriaceae endosymbionts are restricted to Bryopsis, and only occur within specific, warm-temperate and tropical clades of the genus. Statistical analyses (AMOVA) demonstrate a significant non-random host–symbiont association. Comparison of bacterial 16S rRNA and Bryopsis rbcL phylogenies, however, reveal complex host–symbiont evolutionary associations, whereby closely related hosts predominantly harbor genetically similar endosymbionts. Bacterial genotypes are rarely confined to a single Bryopsis species and most Bryopsis species harbored several Flavobacteriaceae, obscuring a clear pattern of coevolution.
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Permanent residents or temporary lodgers: characterizing intracellular bacterial communities in the siphonous green alga Bryopsis
Proceedings. Biological sciences, 2013Co-Authors: Joke Hollants, Heroen Verbruggen, Anne Willems, Frederik Leliaert, Olivier De ClerckAbstract:The ecological success of giant celled, siphonous green algae in coastal habitats has repeatedly been linked to endophytic bacteria living within the cytoplasm of the hosts. Yet, very little is known about the relative importance of evolutionary and ecological factors controlling the intracellular bacterial flora of these seaweeds. Using the marine alga Bryopsis (Bryopsidales, Chlorophyta) as a model, we explore the diversity of the intracellular bacterial communities and investigate whether their composition is controlled by ecological and biogeographic factors rather than the evolutionary history of the host. Using a combination of 16S rDNA clone libraries and denaturing gradient gel electrophoresis analyses, we show that Bryopsis harbours a mixture of relatively few but phylogenetically diverse bacterial species. Variation partitioning analyses show a strong impact of local environmental factors on the presence of Rickettsia and Mycoplasma in their association with Bryopsis. The presence of Flavobacteriaceae and Bacteroidetes, on the other hand, reflects a predominant imprint of host evolutionary history, suggesting that these bacteria are more specialized in their association. The results highlight the importance of interpreting the presence of individual bacterial phylotypes in the light of ecological and evolutionary principles such as phylogenetic niche conservatism to understand complex endobiotic communities and the parameters shaping them.
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Characterization of cell wall polysaccharides of the coencocytic green seaweed Bryopsis plumosa (bryopsidaceae, chlorophyta) from the argentine coast
Journal of Phycology, 2012Co-Authors: Marina Ciancia, Josefina S. Alberghina, Paula Ximena Arata, Hugo Benavides, Heroen Verbruggen, Jose Manuel EstevezAbstract:Bryopsis sp. from a restricted area of the rocky shore of Mar del Plata (Argentina) on the Atlantic coast was identified as Bryopsis plumosa (Hudson) C. Agardh (Bryopsidales, Chlorophyta) based on morphological characters and rbcL and tufA DNA barcodes. To analyze the cell wall polysaccharides of this seaweed, the major room temperature (B1) and 90°C (X1) water extracts were studied. By linkage analysis and NMR spectroscopy, the structure of a sulfated galactan was determined, and putative sulfated rhamnan structures and furanosidic nonsulfated arabinan structures were also found. By anion exchange chromatography of X1, a fraction (F4), comprising a sulfated galactan as major structure was isolated. Structural analysis showed a linear backbone constituted of 3-linked β-d-galactose units, partially sulfated on C-6 and partially substituted with pyruvic acid forming an acetal linked to O-4 and O-6. This galactan has common structural features with those of green seaweeds of the genus Codium (Bryopsidales, Chlorophyta), but some important differences were also found. This is the first report about the structure of the water-soluble polysaccharides biosynthesized by seaweeds of the genus Bryopsis. These sulfated galactans and rhamnans were in situ localized mostly in two layers, one close to the plasma membrane and the other close to the apoplast, leaving a middle amorphous, unstained cell wall zone. In addition, fibrillar polysaccharides, comprising (1→3)-β-d-xylans and cellulose, were obtained by treatment of the residue from the water extractions with an LiCl/DMSO solution at high temperature. These polymers were also localized in a bilayer arrangement.
Cláudio Alvarenga De ,oliveira - One of the best experts on this subject based on the ideXlab platform.
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Participation of non-peptide adrenergic agent on positive inotropic effect of the polar fraction of Bryopsis pennata
São Paulo, 2010Co-Authors: Oliani, Andrea Lucia Natali, Naves, Jeanete Lopes, José Carlos De ,freitas, Cláudio Alvarenga De ,oliveiraAbstract:As algas marinhas representam uma rica fonte de compostos bioativos, algumas delas precursoras de ferramentas farmacológicas e de substâncias potencialmente úteis para o desenvolvimento de novos fármacos. A macroalga Bryopsis pennata, Cloroficea pertencente à ordem Caulerpales, sin. Bryopsidales é uma espécie tropical encontrada em diversos costões rochosos. Essa espécie produz uma defesa química tóxica para organismos herbívoros e potencial de se tornar invasiva e dominante em condições ambientais favoráveis. Este trabalho é uma investigação do efeito cardiotônico da fração polar da B. pennata .O cultivo, em ambiente controlado destituído de contaminantes, foi realizado no intuito de comparar seus efeitos com os efeitos da alga coletada. O efeito cardiotônico cronotrópico positivo em tiras ventriculares de anuros ficou fortemente evidenciado nos testes com frações polares de algas coletadas e cultivadas, não apresentando diferenças significativas entre as frações. O propranolol antagonizou o efeito cardiotônico e enzimas endopeptidases não reagiram com a fração polar da B. pennata. Testes bioquímicos demonstraram que a fração com efeito cardiotônico é de caráter ácido e apresenta peso molecular menor que 10.000 daltonsMarine algae are a rich source of bioactive compounds and some of them have shown to be useful for the development of new pharmacological tools and medicines. Bryopsis pennata, (Clorofícea, Caulerpales, sin. Bryopsidales) is a marine algae that can be found in the Southeastern Brazilian coast and elsewhere. The species produces a toxic chemical defense to the herbivorous organisms and possesses a potential to become invasive and dominant in favorable environmental conditions.The present study is about the investigation of the cardiotonic effect of the polar extract of B. pennata. The cultive in laboratory without any contaminants was made to compare studies performed with the collected algae extracts and the ones cultivated effect. The cardiotonic effect in the anurou's ventricular strips was strongly unequivocal when it was tested with the polar extracts from the collected and cultivated algae. The propranolol antagonized polar effects of these algae and the endopeptidase enzyme did not change the effects of polar extracts of Bryopsis pennata. Biochemical tests showed that the polar fraction presenting the inotropic cardiac activity weighs less than 10.000 Daltons and has an acid characterCNPqCoordenacao de Aperfeicoamento de Pessoal de Nivel Superior (CAPES)FUNDAMA
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Participation of non-peptide adrenergic agent on positive inotropic effect of the polar fraction of Bryopsis pennata
2010Co-Authors: Oliani, Andrea Lucia Natali, Naves, Jeanete Lopes, José Carlos De ,freitas, Cláudio Alvarenga De ,oliveiraAbstract:As algas marinhas representam uma rica fonte de compostos bioativos, algumas delas precursoras de ferramentas farmacológicas e de substâncias potencialmente úteis para o desenvolvimento de novos fármacos. A macroalga Bryopsis pennata, Cloroficea pertencente à ordem Caulerpales, sin. Bryopsidales é uma espécie tropical encontrada em diversos costões rochosos. Essa espécie produz uma defesa química tóxica para organismos herbívoros e potencial de se tornar invasiva e dominante em condições ambientais favoráveis. Este trabalho é uma investigação do efeito cardiotônico da fração polar da B. pennata .O cultivo, em ambiente controlado destituído de contaminantes, foi realizado no intuito de comparar seus efeitos com os efeitos da alga coletada. O efeito cardiotônico cronotrópico positivo em tiras ventriculares de anuros ficou fortemente evidenciado nos testes com frações polares de algas coletadas e cultivadas, não apresentando diferenças significativas entre as frações. O propranolol antagonizou o efeito cardiotônico e enzimas endopeptidases não reagiram com a fração polar da B. pennata. Testes bioquímicos demonstraram que a fração com efeito cardiotônico é de caráter ácido e apresenta peso molecular menor que 10.000 daltonsMarine algae are a rich source of bioactive compounds and some of them have shown to be useful for the development of new pharmacological tools and medicines. Bryopsis pennata, (Clorofícea, Caulerpales, sin. Bryopsidales) is a marine algae that can be found in the Southeastern Brazilian coast and elsewhere. The species produces a toxic chemical defense to the herbivorous organisms and possesses a potential to become invasive and dominant in favorable environmental conditions.The present study is about the investigation of the cardiotonic effect of the polar extract of B. pennata. The cultive in laboratory without any contaminants was made to compare studies performed with the collected algae extracts and the ones cultivated effect. The cardiotonic effect in the anurou's ventricular strips was strongly unequivocal when it was tested with the polar extracts from the collected and cultivated algae. The propranolol antagonized polar effects of these algae and the endopeptidase enzyme did not change the effects of polar extracts of Bryopsis pennata. Biochemical tests showed that the polar fraction presenting the inotropic cardiac activity weighs less than 10.000 Daltons and has an acid characte
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Participação de um agente adrenérgico não peptídico na ação inotrópica positiva da fração polar da Bryopsis pennata
Universidade de São Paulo, 2010Co-Authors: Andrea Lucia Natali Oliani, José Carlos De ,freitas, Jeanete Lopes Naves, Cláudio Alvarenga De ,oliveiraAbstract:As algas marinhas representam uma rica fonte de compostos bioativos, algumas delas precursoras de ferramentas farmacológicas e de substâncias potencialmente úteis para o desenvolvimento de novos fármacos. A macroalga Bryopsis pennata, Cloroficea pertencente à ordem Caulerpales, sin. Bryopsidales é uma espécie tropical encontrada em diversos costões rochosos. Essa espécie produz uma defesa química tóxica para organismos herbívoros e potencial de se tornar invasiva e dominante em condições ambientais favoráveis. Este trabalho é uma investigação do efeito cardiotônico da fração polar da B. pennata .O cultivo, em ambiente controlado destituído de contaminantes, foi realizado no intuito de comparar seus efeitos com os efeitos da alga coletada. O efeito cardiotônico cronotrópico positivo em tiras ventriculares de anuros ficou fortemente evidenciado nos testes com frações polares de algas coletadas e cultivadas, não apresentando diferenças significativas entre as frações. O propranolol antagonizou o efeito cardiotônico e enzimas endopeptidases não reagiram com a fração polar da B. pennata. Testes bioquímicos demonstraram que a fração com efeito cardiotônico é de caráter ácido e apresenta peso molecular menor que 10.000 daltons
