A new plasmid designated pPHDP60 from a strain of the marine bacterium Photobacterium damselae su... more A new plasmid designated pPHDP60 from a strain of the marine bacterium Photobacterium damselae subsp. piscicida isolated from diseased seabream has been characterised. pPHDP60 consists of 59,731bp, has a G+C content of 37.2% and encodes 63 predicted open-reading frames (ORFs). The plasmid backbone sequence includes, among other genes, 15 ORFs homologous to proteins of type IV conjugation systems described in IncP-type plasmids. Two modules could be distinguished within pPHDP60 sequence. One module included 10 genes of a putative type II secretion system with homologues in other Photobacterium and Vibrio plasmids. A second module exhibiting a transposon structure included a functional haloalkane dehalogenase gene linB as well as a toxin/antitoxin system. Additional interesting features of pPHDP60 include its ability to be conjugally transferred to several Gram negative bacteria.
Several virulence factors of three new Photobacterium species: Photobacterium toruni, Photobacter... more Several virulence factors of three new Photobacterium species: Photobacterium toruni, Photobacterium malacitanum and Photobacterium andalusiense associated with diseases of cultured redbanded seabream (Pagrus auriga) were studied. The exoenzymatic activities, adherence and cytotoxic capabilities, and iron‐uptake mechanisms were determined both in bacterial extracellular products (ECP) and whole bacterial cells. The histopathology damages provoked on redbanded seabream by the ECP was also studied.
A new plasmid designated pAsa6 from an Aeromonas salmonicida subsp. salmonicida strain isolated f... more A new plasmid designated pAsa6 from an Aeromonas salmonicida subsp. salmonicida strain isolated from diseased turbot has been characterized. pAsa6 consists of 18536bp, has a G+C content of 53.8% and encodes 20 predicted open-reading frames (ORFs). Eight ORFs showed homology to transposases, of which six are complete and two are partial IS sequences. Two ORFs showed homology to replication proteins, and six ORFs showed homology to hypothetical proteins. Two ORFs are truncated homologs of putative A. salmonicida sulfatases. Two genes, aopH and sycH encode homologs of an effector protein for which a role in fish colonization by A. salmonicida has been previously reported, and its chaperone, respectively. The results of filter conjugation experiments suggested that pAsa6 is not mobilizable, as it failed to be conjugally-transferred to several species of marine bacteria tested. All the ORFs of pAsa6 with the exception of four copies of a IS1 transposase gene, have a counterpart in the recently sequenced 155-kb A. salmonicida plasmid pAsa5, suggesting either that pAsa6 is a derivative of pAsa5, or that pAsa5 is the result of the fusion of a pAsa6-like plasmid and a larger plasmid of ca. 135-kb. The pAsa6-encoded repA and aopH genes could be PCR-amplified from strains lacking pAsa6, suggesting presence of a large, possibly pAsa5-like plasmid that was not detected on agarose gels, or the existence of chromosome-integrated plasmid sequences. This study demonstrates that genomic locations for the aopH gene different to pAsa5 or pAsa5-like plasmids exist in A. salmonicida.
From synthetic functionalized analogues of vanchrobactin, a siderophore produced by the fish path... more From synthetic functionalized analogues of vanchrobactin, a siderophore produced by the fish pathogenic bacteria Vibrio anguillarum serotype O2, several vanchrobactin analogues-norfloxacin conjugates were obtained and their antimicrobial activities against the wild-type and mutant strains of Vibrio anguillarum serotype O2 have been determined.
This review summarizes the current knowledge about iron uptake systems in bacterial fish pathogen... more This review summarizes the current knowledge about iron uptake systems in bacterial fish pathogens and their involvement in the infective process. Like most animal pathogens, fish pathogens have evolved sophisticated iron uptake mechanisms some of which are key virulence factors for colonization of the host. Among these systems, siderophore production and heme uptake systems are the best studied in fish pathogenic bacteria. Siderophores like anguibactin or piscibactin, have been described in Vibrio and Photobacterium pathogens as key virulence factors to cause disease in fish. In many other bacterial fish pathogens production of siderophores was demonstrated but the compounds were not yet chemically characterized and their role in virulence was not determined. The role of heme uptake in virulence was not yet clearly elucidated in fish pathogens although there exist evidence that these systems are expressed in fish tissues during infection. The relationship of other systems, like Fe(II) transporters or the use of citrate as iron carrier, with virulence is also unclear. Future trends of research on all these iron uptake mechanisms in bacterial fish pathogens are also discussed.
A new plasmid designated pPHDP60 from a strain of the marine bacterium Photobacterium damselae su... more A new plasmid designated pPHDP60 from a strain of the marine bacterium Photobacterium damselae subsp. piscicida isolated from diseased seabream has been characterised. pPHDP60 consists of 59,731bp, has a G+C content of 37.2% and encodes 63 predicted open-reading frames (ORFs). The plasmid backbone sequence includes, among other genes, 15 ORFs homologous to proteins of type IV conjugation systems described in IncP-type plasmids. Two modules could be distinguished within pPHDP60 sequence. One module included 10 genes of a putative type II secretion system with homologues in other Photobacterium and Vibrio plasmids. A second module exhibiting a transposon structure included a functional haloalkane dehalogenase gene linB as well as a toxin/antitoxin system. Additional interesting features of pPHDP60 include its ability to be conjugally transferred to several Gram negative bacteria.
Several virulence factors of three new Photobacterium species: Photobacterium toruni, Photobacter... more Several virulence factors of three new Photobacterium species: Photobacterium toruni, Photobacterium malacitanum and Photobacterium andalusiense associated with diseases of cultured redbanded seabream (Pagrus auriga) were studied. The exoenzymatic activities, adherence and cytotoxic capabilities, and iron‐uptake mechanisms were determined both in bacterial extracellular products (ECP) and whole bacterial cells. The histopathology damages provoked on redbanded seabream by the ECP was also studied.
A new plasmid designated pAsa6 from an Aeromonas salmonicida subsp. salmonicida strain isolated f... more A new plasmid designated pAsa6 from an Aeromonas salmonicida subsp. salmonicida strain isolated from diseased turbot has been characterized. pAsa6 consists of 18536bp, has a G+C content of 53.8% and encodes 20 predicted open-reading frames (ORFs). Eight ORFs showed homology to transposases, of which six are complete and two are partial IS sequences. Two ORFs showed homology to replication proteins, and six ORFs showed homology to hypothetical proteins. Two ORFs are truncated homologs of putative A. salmonicida sulfatases. Two genes, aopH and sycH encode homologs of an effector protein for which a role in fish colonization by A. salmonicida has been previously reported, and its chaperone, respectively. The results of filter conjugation experiments suggested that pAsa6 is not mobilizable, as it failed to be conjugally-transferred to several species of marine bacteria tested. All the ORFs of pAsa6 with the exception of four copies of a IS1 transposase gene, have a counterpart in the recently sequenced 155-kb A. salmonicida plasmid pAsa5, suggesting either that pAsa6 is a derivative of pAsa5, or that pAsa5 is the result of the fusion of a pAsa6-like plasmid and a larger plasmid of ca. 135-kb. The pAsa6-encoded repA and aopH genes could be PCR-amplified from strains lacking pAsa6, suggesting presence of a large, possibly pAsa5-like plasmid that was not detected on agarose gels, or the existence of chromosome-integrated plasmid sequences. This study demonstrates that genomic locations for the aopH gene different to pAsa5 or pAsa5-like plasmids exist in A. salmonicida.
From synthetic functionalized analogues of vanchrobactin, a siderophore produced by the fish path... more From synthetic functionalized analogues of vanchrobactin, a siderophore produced by the fish pathogenic bacteria Vibrio anguillarum serotype O2, several vanchrobactin analogues-norfloxacin conjugates were obtained and their antimicrobial activities against the wild-type and mutant strains of Vibrio anguillarum serotype O2 have been determined.
This review summarizes the current knowledge about iron uptake systems in bacterial fish pathogen... more This review summarizes the current knowledge about iron uptake systems in bacterial fish pathogens and their involvement in the infective process. Like most animal pathogens, fish pathogens have evolved sophisticated iron uptake mechanisms some of which are key virulence factors for colonization of the host. Among these systems, siderophore production and heme uptake systems are the best studied in fish pathogenic bacteria. Siderophores like anguibactin or piscibactin, have been described in Vibrio and Photobacterium pathogens as key virulence factors to cause disease in fish. In many other bacterial fish pathogens production of siderophores was demonstrated but the compounds were not yet chemically characterized and their role in virulence was not determined. The role of heme uptake in virulence was not yet clearly elucidated in fish pathogens although there exist evidence that these systems are expressed in fish tissues during infection. The relationship of other systems, like Fe(II) transporters or the use of citrate as iron carrier, with virulence is also unclear. Future trends of research on all these iron uptake mechanisms in bacterial fish pathogens are also discussed.
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Papers by Miguel Balado