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Start Over Descriptor "fish pathogen" Publication Type Electronic Resources
10 results on '"fish pathogen"'

1. The Fish Pathogen 'Candidatus Clavichlamydia salmonicola' - A Missing Link in the Evolution of Chlamydial Pathogens of Humans

Author

Collingro, Astrid, Köstlbacher, Stephan, Siegl, Alexander, Toenshoff, Elena R., Schulz, Frederik, Mitchell, Susan O., Weinmaier, Thomas, Rattei, Thomas, Colquhoun, Duncan J., Horn, Matthias, Collingro, Astrid, Köstlbacher, Stephan, Siegl, Alexander, Toenshoff, Elena R., Schulz, Frederik, Mitchell, Susan O., Weinmaier, Thomas, Rattei, Thomas, Colquhoun, Duncan J., and Horn, Matthias

Abstract

Chlamydiae like Chlamydia trachomatis and Chlamydia psittaci are well-known human and animal pathogens. Yet, the chlamydiae are a much larger group of evolutionary ancient obligate intracellular bacteria that includes predominantly symbionts of protists and diverse animals. This makes them ideal model organisms to study evolutionary transitions from symbionts in microbial eukaryotes to pathogens of humans. To this end, comparative genome analysis has served as an important tool. Genome sequence data for many chlamydial lineages are, however, still lacking, hampering our understanding of their evolutionary history. Here, we determined the first high-quality draft genome sequence of the fish pathogen "Candidatus Clavichlamydia salmonicola", representing a separate genus within the human and animal pathogenic Chlamydiaceae. The "Ca. Clavichlamydia salmonicola"genome harbors genes that so far have been exclusively found in Chlamydia species suggesting that basic mechanisms important for the interaction with chordate hosts have evolved stepwise in the history of chlamydiae. Thus, the genome sequence of "Ca. Clavichlamydia salmonicola"allows to constrain candidate genes to further understand the evolution of chlamydial virulence mechanisms required to infect mammals.

Published
2023

4. Identification of Growth Inhibitors of the Fish Pathogen Saprolegnia parasitica Using in silico Subtractive Proteomics, Computational Modeling, and Biochemical Validation

Author

Kumar, Sanjiv, Mandal, Rahul Shubhra, Bulone, Vincent, Srivastava, Vaibhav, Kumar, Sanjiv, Mandal, Rahul Shubhra, Bulone, Vincent, and Srivastava, Vaibhav

Abstract

Many Stramenopile species belonging to oomycetes from the genus Saprolegnia infect fish, amphibians, and crustaceans in aquaculture farms and natural ecosystems. Saprolegnia parasitica is one of the most severe fish pathogens, responsible for high losses in the aquaculture industry worldwide. Most of the molecules reported to date for the control of Saprolegnia infections either are inefficient or have negative impacts on the health of the fish hosts or the environment resulting in substantial economic losses. Until now, the whole proteome of S. parasitica has not been explored for a systematic screening of novel inhibitors against the pathogen. The present study was designed to develop a consensus computational framework for the identification of potential target proteins and their inhibitors and subsequent experimental validation of selected compounds. Comparative analysis between the proteomes of Saprolegnia, humans and fish species identified proteins that are specific and essential for the survival of the pathogen. The DrugBank database was exploited to select food and drug administration (FDA)-approved inhibitors whose high binding affinity to their respective protein targets was confirmed by computational modeling. At least six of the identified compounds significantly inhibited the growth of S. parasitica in vitro. Triclosan was found to be most effective with a minimum inhibitory concentration (MIC100) of 4 mu g/ml. Optical microscopy showed that the inhibitors affect the morphology of hyphal cells, with hyper-branching being commonly observed. The inhibitory effects of the compounds identified in this study on Saprolegnia's mycelial growth indicate that they are potentially usable for disease control against this class of oomycete pathogens. Similar approaches can be easily adopted for the identification of potential inhibitors against other plant and animal pathogenic oomycete infections., QC 20201124

Published
2020
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5. Transcriptome changes in response to temperature in the fish pathogen Photobacterium damselae subsp. damselae: Clues to understand the emergence of disease outbreaks at increased seawater temperatures

Author

Universidade de Santiago de Compostela. Departamento de Microbioloxía e Parasitoloxía, Matanza Fente, José Manuel, Rodríguez Osorio, Carlos, Universidade de Santiago de Compostela. Departamento de Microbioloxía e Parasitoloxía, Matanza Fente, José Manuel, and Rodríguez Osorio, Carlos

Abstract

The marine bacterium Photobacterium damselae subsp. damselae (Pdd) is a generalist and facultative pathogen that causes disease in a wide range of marine animals including fish species of importance in aquaculture. Disease outbreaks in fish farms have been correlated with an increased water temperature during summer months. In this study, we have used RNA sequencing to analyze the transcriptome of Pdd RM-71 cultured at two different temperatures, which simulated temperature conditions experienced during free swimming lifestyle at mid latitudes in winter months (15˚C) and during outbreaks in aquaculture in warm summer months (25˚C). The enhanced bacterial growth of Pdd observed at 25˚C in comparison to 15˚C suggests that an elevated seawater temperature contributes to the build-up of a sufficient bacterial population to cause disease. In comparison to growth at 15˚C, growth at 25˚C resulted in the upregulation of genes involved in DNA synthesis, nutrient uptake, chemotaxis, flagellar motility, secretion systems and antimicrobial resistance. Plasmid-encoded virulence factors, which include a putative adhesin/invasin OmpU, a transferrin receptor and a serum resistance protein, were also upregulated. Transcription factor RpoS, genes involved in cold shock response, modulation of cell envelope and amino acid metabolism, as well as genes of yet unknown function were downregulated at 25˚C. Notably, the gene encoding damselysin cytotoxin (Dly) was among the most highly transcribed genes at the two assayed temperatures, at levels comparable to the most highly expressed housekeeping genes. This study contributes to our understanding of the regulatory networks and biology of a generalist marine bacterial pathogen, and provides evidence that temperature regulates multiple physiological and virulence-related functions in Pdd

Published
2018

6. The Complete Genome Sequence of the Fish Pathogen Tenacibaculum maritimum Provides Insights into Virulence Mechanisms

Author

Perez-pascual, David, Lunazzi, Aurelie, Magdelenat, Ghislaine, Rouy, Zoe, Roulet, Alain, Lopez-roques, Celine, Larocque, Robert, Barbeyron, Tristan, Gobet, Angelique, Michel, Gurvan, Bernardet, Jean-francois, Duchaud, Eric, Perez-pascual, David, Lunazzi, Aurelie, Magdelenat, Ghislaine, Rouy, Zoe, Roulet, Alain, Lopez-roques, Celine, Larocque, Robert, Barbeyron, Tristan, Gobet, Angelique, Michel, Gurvan, Bernardet, Jean-francois, and Duchaud, Eric

Abstract

Tenacibaculum maritimum is a devastating bacterial pathogen of wild and farmed marine fish with a broad host range and a worldwide distribution. We report here the complete genome sequence of the T. maritimum type strain NCIMB 2154(T). The genome consists of a 3,435,971-base pair circular chromosome with 2,866 predicted protein-coding genes. Genes encoding the biosynthesis of exopolysaccharides, the type IX secretion system, iron uptake systems, adhesins, hemolysins, proteases, and glycoside hydrolases were identified. They are likely involved in the virulence process including immune escape, invasion, colonization, destruction of host tissues, and nutrient scavenging. Among the predicted virulence factors, type IX secretion-mediated and cell-surface exposed proteins were identified including an atypical sialidase, a sphingomyelinase and a chondroitin AC lyase which activities were demonstrated in vitro.

Published
2017
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7. Comparative Genomic Analysis of Two Vibrio toranzoniae Strains with Different Virulence Capacity Reveals Clues on Its Pathogenicity for Fish

Author

Universidade de Santiago de Compostela. Departamento de Microbioloxía e Parasitoloxía, Lasa González, Aide, Gibas, Cynthia J., López Romalde, Jesús Ángel, Universidade de Santiago de Compostela. Departamento de Microbioloxía e Parasitoloxía, Lasa González, Aide, Gibas, Cynthia J., and López Romalde, Jesús Ángel

Abstract

Vibrio toranzoniae is a Gram-negative bacterium of the Splendidus clade within the Vibrio genus. V. toranzoniae was first isolated from healthy clams in Galicia (Spain) but recently was also identified associated to disease outbreaks of red conger eel in Chile. Experimental challenges showed that the Chilean isolates were able to produce fish mortalities but not the strains isolated from clams. The aim of the present study was to determine the differences at the genomic level between the type strain of the species (CECT 7225T) and the strain R17, isolated from red conger eel in Chile, which could explain their different virulent capacity. The genome-based comparison showed high homology between both strains but differences were observed in certain gene clusters that include some virulence factors. Among these, we found that iron acquisition systems and capsule synthesis genes were the main differential features between both genomes that could explain the differences in the pathogenicity of the strains. Besides, the studied genomes presented genomic islands and toxins, and the R17 strain presented CRISPR sequences that are absent on the type strain. Taken together, this analysis provided important insights into virulence factors of V. toranzoniae that will lead to a better understanding of the pathogenic process

Published
2017

8. Complete genome sequence of Vibrio anguillarum strain NB10, a virulent isolate from the Gulf of Bothnia

Author

Holm, Kare Olav, Nilsson, Kristina, Hjerde, Erik, Willassen, Nils-Peder, Milton, Debra L., Holm, Kare Olav, Nilsson, Kristina, Hjerde, Erik, Willassen, Nils-Peder, and Milton, Debra L.

Abstract

Vibrio anguillarum causes a fatal hemorrhagic septicemia in marine fish that leads to great economical losses in aquaculture world-wide. Vibrio anguillarum strain NB10 serotype O1 is a Gram-negative, motile, curved rod-shaped bacterium, isolated from a diseased fish on the Swedish coast of the Gulf of Bothnia, and is slightly halophilic. Strain NB10 is a virulent isolate that readily colonizes fish skin and intestinal tissues. Here, the features of this bacterium are described and the annotation and analysis of its complete genome sequence is presented. The genome is 4,373,835 bp in size, consists of two circular chromosomes and one plasmid, and contains 3,783 protein-coding genes and 129 RNA genes.

Published
2015
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10. Disinfection of Water for Aquaculture

Author

Kasai, Hisae, Yoshimizu, Mamoru, Ezura, Yoshio, Kasai, Hisae, Yoshimizu, Mamoru, and Ezura, Yoshio

Abstract

Disinfection of water for aquaculture is critical for preventing the introduction and spread of infectious disease. A pathogen-free water source is essential for success in aquaculture. Typical treatment systems make use of high efficiency sand filters to clarify the water before treatment with ultraviolet (UV) light or ozonization. Fish pathogens are divided into two groups based on their sensitivity to UV and total residual oxidants (TROs) produced by ozonization of seawater. Hypochlorite produced by electrolysis of seawater (salt water) showed bactericidal and viricidal effects. This method can easily treat large volumes of water, and is suitable for disinfecting wastewater before discharging., International Commemorative Symposium, 70th Anniversary of The Japanese Society of Fisheries Science. 1-5 October 2001. Yokohama, Japan.

Published
2002

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