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Vibrio bacteria research studies
Research Guide
What is Vibrio bacteria research studies?
Vibrio bacteria research studies are investigations into the dynamics, pathogenesis, and epidemiology of Vibrio cholerae, the cholera-causing bacterium, encompassing topics such as the Type VI Secretion System, viable but non-culturable state, climate influence on disease spread, bacterial transmission, environmental reservoirs, and global cholera impact.
This field includes 78,038 published works on Vibrio cholerae and related bacteria. Studies address bacterial identification, biofilms, gene transfer, and immune responses central to pathogenesis. Research highlights environmental and clinical factors in cholera transmission and spread.
Topic Hierarchy
Research Sub-Topics
Vibrio cholerae Pathogenesis Mechanisms
This sub-topic dissects cholera toxin secretion, intestinal colonization, and host immune evasion by V. cholerae. Researchers study toxin-coregulated pilus and quorum sensing in infection models.
Type VI Secretion System in Vibrio
This sub-topic characterizes T6SS-mediated interbacterial competition and host cell manipulation in Vibrio species. Structural and genetic studies reveal nano-syringe delivery of effectors.
Viable but Non-Culturable Vibrio States
This sub-topic investigates VBNC induction in Vibrio under stress, resuscitation triggers, and public health risks from non-detectable reservoirs. Flow cytometry detects metabolically active cells.
Climate Influence on Cholera Epidemiology
This sub-topic models El Niño, temperature, and rainfall effects on V. cholerae blooms in aquatic reservoirs and human outbreaks. Climate-cholera forecasting integrates remote sensing data.
Vibrio cholerae Environmental Reservoirs
This sub-topic traces plankton-associated V. cholerae persistence in brackish waters and copepod vectors. Metagenomics identifies survival genes in natural habitats.
Why It Matters
Vibrio bacteria research studies inform cholera control by elucidating bacterial pathogenesis and epidemiology, with applications in identifying environmental reservoirs and transmission pathways. Hall‐Stoodley et al. (2004) in "Bacterial biofilms: from the Natural environment to infectious diseases" explain how biofilms contribute to persistent infections, affecting treatment of Vibrio-related diseases. Fleischmann-Struzek et al. (2015) in "Assessment of Global Incidence and Mortality of Hospital-treated Sepsis. Current Estimates and Limitations" report scarce population-level data on sepsis, including from Vibrio, emphasizing needs in low- and middle-income countries where cholera burdens healthcare systems.
Reading Guide
Where to Start
"Bacterial biofilms: from the Natural environment to infectious diseases" by Hall‐Stoodley et al. (2004), as it provides foundational understanding of biofilms relevant to Vibrio persistence and infection dynamics with 6896 citations.
Key Papers Explained
Bergey et al. (1975) in "Bergey's Manual of Determinative Bacteriology" establishes bacterial taxonomy basics, including Vibrio classification (11397 citations). Hall‐Stoodley et al. (2004) in "Bacterial biofilms: from the Natural environment to infectious diseases" builds on this by detailing biofilm roles in Vibrio pathogenesis (6896 citations). Ochman et al. (2000) in "Lateral gene transfer and the nature of bacterial innovation" extends to genetic mechanisms driving Vibrio evolution (3807 citations), while Hayashi et al. (2001) in "The innate immune response to bacterial flagellin is mediated by Toll-like receptor 5" connects to host responses (3529 citations).
Paper Timeline
Most-cited paper highlighted in red. Papers ordered chronologically.
Advanced Directions
Current Vibrio research frontiers include Type VI Secretion System functions and climate-driven epidemiology, as no recent preprints are available. Global sepsis data limitations from Fleischmann-Struzek et al. (2015) highlight ongoing needs for incidence tracking in cholera-endemic regions.
Papers at a Glance
| # | Paper | Year | Venue | Citations | Open Access |
|---|---|---|---|---|---|
| 1 | Bergey's Manual of Determinative Bacteriology | 1975 | Taxon | 11.4K | ✕ |
| 2 | Bacterial biofilms: from the Natural environment to infectious... | 2004 | Nature Reviews Microbi... | 6.9K | ✕ |
| 3 | Manual for the identification of medical bacteria. | 1965 | — | 4.9K | ✕ |
| 4 | Lateral gene transfer and the nature of bacterial innovation | 2000 | Nature | 3.8K | ✕ |
| 5 | The innate immune response to bacterial flagellin is mediated ... | 2001 | Nature | 3.5K | ✕ |
| 6 | Assessment of Global Incidence and Mortality of Hospital-treat... | 2015 | American Journal of Re... | 3.4K | ✕ |
| 7 | Extended-Spectrum β-Lactamases: a Clinical Update | 2005 | Clinical Microbiology ... | 3.3K | ✓ |
| 8 | <i>Acinetobacter baumannii</i> : Emergence of a Successful Pat... | 2008 | Clinical Microbiology ... | 3.2K | ✓ |
| 9 | Cowan and Steel's Manual for the Identification of Medical Bac... | 1993 | Cambridge University P... | 3.1K | ✕ |
| 10 | Chemical inhibitor of nonapoptotic cell death with therapeutic... | 2005 | Nature Chemical Biology | 2.9K | ✕ |
Frequently Asked Questions
What role do bacterial biofilms play in Vibrio infections?
Bacterial biofilms enable Vibrio cholerae persistence in natural environments and during infections. Hall‐Stoodley et al. (2004) in "Bacterial biofilms: from the Natural environment to infectious diseases" describe how biofilms protect bacteria from antibiotics and host defenses. This state complicates Vibrio disease management.
How is Vibrio cholerae identified in medical settings?
Manuals provide standardized methods for Vibrio identification based on morphology, biochemistry, and growth characteristics. Cowan and Steel (1965) in "Manual for the identification of medical bacteria" outline protocols for accurate bacterial differentiation. Cowan and Feltham (1993) in "Cowan and Steel's Manual for the Identification of Medical Bacteria" update these for laboratory use.
What is the viable but non-culturable state in Vibrio research?
The viable but non-culturable state allows Vibrio cholerae to survive without forming colonies on media, persisting in environments. This state contributes to cholera reservoirs and outbreaks. Vibrio studies emphasize its role in epidemiology.
How does lateral gene transfer affect Vibrio innovation?
Lateral gene transfer introduces new traits to Vibrio cholerae, enhancing pathogenesis and antibiotic resistance. Ochman et al. (2000) in "Lateral gene transfer and the nature of bacterial innovation" detail its prevalence in bacterial evolution. This drives Vibrio adaptability.
What immune response targets Vibrio flagellin?
Toll-like receptor 5 mediates innate immunity to bacterial flagellin, including from Vibrio. Hayashi et al. (2001) in "The innate immune response to bacterial flagellin is mediated by Toll-like receptor 5" identify this pathway. It influences host defense against Vibrio infections.
What are key topics in Vibrio epidemiology?
Vibrio epidemiology covers climate influence, transmission, and global cholera impact. Research totals 78,038 works on these dynamics. Type VI Secretion System and environmental reservoirs are focal areas.
Open Research Questions
- ? How does climate variability precisely modulate Vibrio cholerae transmission from environmental reservoirs to human outbreaks?
- ? What mechanisms sustain the viable but non-culturable state in Vibrio cholerae under stress conditions?
- ? How does the Type VI Secretion System contribute to Vibrio cholerae competition and pathogenesis in diverse hosts?
- ? What genetic factors via lateral transfer confer novel antibiotic resistance in Vibrio populations?
- ? How do biofilms formed by Vibrio cholerae evade host immune responses during chronic infections?
Recent Trends
Vibrio bacteria research studies maintain a corpus of 78,038 works with no specified 5-year growth rate.
Highly cited papers like "Bacterial biofilms: from the Natural environment to infectious diseases" (Hall‐Stoodley et al., 2004, 6896 citations) and "Assessment of Global Incidence and Mortality of Hospital-treated Sepsis.
Current Estimates and Limitations" (Fleischmann-Struzek et al., 2015, 3436 citations) reflect sustained focus on pathogenesis and epidemiology.
No recent preprints or news coverage indicate steady rather than accelerating activity.
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