FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3186643764> ?p ?o ?g. }

• W3186643764 endingPage "737255" @default.
• W3186643764 startingPage "737255" @default.
• W3186643764 abstract "Vibrio-related diseases cause significant economic impact on global shrimp production. Although toxin expression is a well-established mechanism of Vibrio-related disease in humans, the role of toxin expression in Vibrio disease in aquaculture generally is not well defined. The current study investigated a sustained, rapid onset, mass mortality at a commercial tiger prawn, Penaeus monodon , hatchery. Affected shrimp were between mysis-2 and post-larvae-15. Disease outbreaks were prevented through prophylactic treatment with oxytetracycline, suggesting a bacterial-related causative agent. Conversely, mortality was not reduced with erythromycin treatment. Whole genome sequencing (WGS) using the Illumina Nextera XT protocol performed on mixed microbial cultures from erythromycin and non-erythromycin infused thiosulphate-citrate-bile salts-sucrose (TCBS) TCBS agar on a MiSeq, and postlarval samples on a HiSeq. The WGS revealed several Vibrio-related sequences dominated by reads with highest homology to Vibrio harveyi and Vibrio alginolyticus . In addition, a range of putative virulence genes encoding for antibiotic resistance and toxin production were identified. Taqman qPCR assays were designed to specifically quantify four of the putative toxin-genes found, namely the Zonula occludens toxin ( ZOT ), hemolysin d toxin (HylD), YaFO toxin-antitoxin and Repeats–in-Toxin ( RTX ) genes. The qPCR assays confirmed the presence of the toxin target genes with low cycle threshold value (Ct) in the bacterial cultures and postlarval samples. Specifically, the ZOT and HylD genes were detected in high copy number in the non-erythromycin and erythromycin-treated cultures. Although the detection of toxin-genes does not demonstrate causation of mortality, the application of WGS combined with qPCR analysis has revealed the presence of a range of virulence factors within the hatchery system and allowed a rapid implementation of management protocols to prevent entry of genetically toxin-armed Vibrio spp. until more conclusive studies into disease mechanisms could be conducted. • High throughput sequencing was applied to a bacterial lawn cultured from tiger prawn post-larval tanks experiencing rapid onset mass mortality. • HTS indicated bacterial diversity was skewed towards a dominance of Vibrio bacteria in post larval samples experiencing mass mortality. • HTS indicated the presence of bacterial toxin genes associated with tanks experiencing mass mortality. • Taqman qPCR analysis confirmed high detection of the Zon occludens toxin gene (ZOT), Repeats in toxin-gene (RTX), hemolysin D toxin gene (HylD)." @default.
• W3186643764 created "2021-08-02" @default.
• W3186643764 creator A5002647891 @default.
• W3186643764 creator A5011305538 @default.
• W3186643764 creator A5030500092 @default.
• W3186643764 creator A5044195596 @default.
• W3186643764 creator A5071934858 @default.
• W3186643764 creator A5086167655 @default.
• W3186643764 date "2022-01-01" @default.
• W3186643764 modified "2023-09-27" @default.
• W3186643764 title "Using bacterial whole genome sequencing to identify toxin genes associated with disease outbreaks in black tiger shrimp (Penaeus monodon) aquaculture production" @default.
• W3186643764 cites W1538023096 @default.
• W3186643764 cites W1997195261 @default.
• W3186643764 cites W2001284214 @default.
• W3186643764 cites W2042220177 @default.
• W3186643764 cites W2055043387 @default.
• W3186643764 cites W2090412782 @default.
• W3186643764 cites W2096093282 @default.
• W3186643764 cites W2107772251 @default.
• W3186643764 cites W2120902911 @default.
• W3186643764 cites W2128880918 @default.
• W3186643764 cites W2129016044 @default.
• W3186643764 cites W2142678478 @default.
• W3186643764 cites W2172154503 @default.
• W3186643764 cites W2513596760 @default.
• W3186643764 cites W2558587449 @default.
• W3186643764 cites W2762715417 @default.
• W3186643764 cites W2791486388 @default.
• W3186643764 cites W2855287449 @default.
• W3186643764 cites W2887605086 @default.
• W3186643764 cites W2924836608 @default.
• W3186643764 cites W2948877761 @default.
• W3186643764 cites W2951084549 @default.
• W3186643764 cites W2951160681 @default.
• W3186643764 cites W2994516839 @default.
• W3186643764 cites W2996092635 @default.
• W3186643764 cites W3017196106 @default.
• W3186643764 cites W3021580921 @default.
• W3186643764 cites W3084316558 @default.
• W3186643764 cites W3108854332 @default.
• W3186643764 cites W3134069698 @default.
• W3186643764 cites W320028249 @default.
• W3186643764 doi "https://doi.org/10.1016/j.aquaculture.2021.737255" @default.
• W3186643764 hasPublicationYear "2022" @default.
• W3186643764 type Work @default.
• W3186643764 sameAs 3186643764 @default.
• W3186643764 citedByCount "0" @default.
• W3186643764 crossrefType "journal-article" @default.
• W3186643764 hasAuthorship W3186643764A5002647891 @default.
• W3186643764 hasAuthorship W3186643764A5011305538 @default.
• W3186643764 hasAuthorship W3186643764A5030500092 @default.
• W3186643764 hasAuthorship W3186643764A5044195596 @default.
• W3186643764 hasAuthorship W3186643764A5071934858 @default.
• W3186643764 hasAuthorship W3186643764A5086167655 @default.
• W3186643764 hasConcept C2776154503 @default.
• W3186643764 hasConcept C2776841996 @default.
• W3186643764 hasConcept C2777367657 @default.
• W3186643764 hasConcept C2778160301 @default.
• W3186643764 hasConcept C2778968793 @default.
• W3186643764 hasConcept C3020794230 @default.
• W3186643764 hasConcept C505870484 @default.
• W3186643764 hasConcept C523546767 @default.
• W3186643764 hasConcept C54355233 @default.
• W3186643764 hasConcept C86803240 @default.
• W3186643764 hasConcept C89423630 @default.
• W3186643764 hasConceptScore W3186643764C2776154503 @default.
• W3186643764 hasConceptScore W3186643764C2776841996 @default.
• W3186643764 hasConceptScore W3186643764C2777367657 @default.
• W3186643764 hasConceptScore W3186643764C2778160301 @default.
• W3186643764 hasConceptScore W3186643764C2778968793 @default.
• W3186643764 hasConceptScore W3186643764C3020794230 @default.
• W3186643764 hasConceptScore W3186643764C505870484 @default.
• W3186643764 hasConceptScore W3186643764C523546767 @default.
• W3186643764 hasConceptScore W3186643764C54355233 @default.
• W3186643764 hasConceptScore W3186643764C86803240 @default.
• W3186643764 hasConceptScore W3186643764C89423630 @default.
• W3186643764 hasLocation W31866437641 @default.
• W3186643764 hasOpenAccess W3186643764 @default.
• W3186643764 hasPrimaryLocation W31866437641 @default.
• W3186643764 hasRelatedWork W1989613406 @default.
• W3186643764 hasRelatedWork W2039442853 @default.
• W3186643764 hasRelatedWork W2111347404 @default.
• W3186643764 hasRelatedWork W2232040924 @default.
• W3186643764 hasRelatedWork W2330437136 @default.
• W3186643764 hasRelatedWork W2341880892 @default.
• W3186643764 hasRelatedWork W2773767150 @default.
• W3186643764 hasRelatedWork W3046467122 @default.
• W3186643764 hasRelatedWork W1863640734 @default.
• W3186643764 hasRelatedWork W2592962272 @default.
• W3186643764 hasVolume "546" @default.
• W3186643764 isParatext "false" @default.
• W3186643764 isRetracted "false" @default.
• W3186643764 magId "3186643764" @default.
• W3186643764 workType "article" @default.