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Violet Red Bile Lactose Agar | VRBLA for Coliform Enumeration | AS‑1377
$35.00 AUD
AuSaMicS Life Science • Selective & Differential Culture Media
Violet Red Bile Lactose Agar
VRBLA — Crystal Violet Neutral Red Bile Lactose Agar
The internationally recognised selective-differential agar for enumeration of coliforms and Enterobacteriaceae in food, dairy, water, and pharmaceutical products. Characteristic dark red-purple colonies surrounded by bile precipitate halos deliver unambiguous visual identification — a cornerstone of food safety and dairy microbiology worldwide.
Cat #: AS-1377
ISO 4832:2006 Compliant
✓ Australian Stock
🟣 Purple-Red Colony Detection
🚀 Same-Day Dispatch: Australian Stock
🥛 Dairy & Food Safety: ISO 4832 / IDF reference method
🌡️ Pour Plate & MF: 35–37°C / 18–24 h
🏆 Coliform Detection Specialist
🟣 Purple-Red Colonies + Halos — Unambiguous ID
🥛 Dairy Grade — ISO 4832 reference method
📋 Complete Package — COA + SDS included
⚡ Fast Supply — Ships within 24h
📞 Expert Support — Protocol optimization
Pour Plate & Overlay Method
Agar overlay essential to maintain selectivity and produce characteristic halo zones
🔬 Technical Overview & Biochemistry
Violet Red Bile Lactose Agar (VRBLA) is a selective and differential medium widely used for the enumeration of coliforms and Enterobacteriaceae in food, dairy, water, and pharmaceutical matrices. It employs a dual selectivity system — crystal violet and bile salts — combined with a pH indicator and lactose to provide both gram-positive suppression and differential coliform identification in a single medium.
Selectivity & Differential Detection Mechanism:
Crystal Violet — Triphenylmethane dye; inhibits gram-positive organisms by binding to peptidoglycan and disrupting cell wall synthesis at the concentrations used
Bile Salts (No. 3) — Selective agent that suppresses gram-positive organisms and many non-enteric gram-negatives; Enterobacteriaceae are inherently bile-resistant due to their outer membrane lipopolysaccharide structure
Neutral Red (pH Indicator) — Colour shifts from yellow (pH >8) to red (pH <6.8); incorporated into colonies that acidify the medium through lactose fermentation, producing the characteristic red-purple colouration
Lactose — Fermentable carbohydrate; coliforms that ferment lactose produce acid and gas, lowering local pH and triggering neutral red colour change in and around colonies
Bile Precipitate Halo — Acid produced by lactose fermentation causes localised precipitation of bile salts around positive colonies, forming the distinctive opaque halo that is diagnostic for coliforms
Crystal Violet — Triphenylmethane dye; inhibits gram-positive organisms by binding to peptidoglycan and disrupting cell wall synthesis at the concentrations used
Bile Salts (No. 3) — Selective agent that suppresses gram-positive organisms and many non-enteric gram-negatives; Enterobacteriaceae are inherently bile-resistant due to their outer membrane lipopolysaccharide structure
Neutral Red (pH Indicator) — Colour shifts from yellow (pH >8) to red (pH <6.8); incorporated into colonies that acidify the medium through lactose fermentation, producing the characteristic red-purple colouration
Lactose — Fermentable carbohydrate; coliforms that ferment lactose produce acid and gas, lowering local pH and triggering neutral red colour change in and around colonies
Bile Precipitate Halo — Acid produced by lactose fermentation causes localised precipitation of bile salts around positive colonies, forming the distinctive opaque halo that is diagnostic for coliforms
Colony Interpretation: Dark red to purple colonies ≥0.5 mm diameter surrounded by a zone of precipitated bile salts = confirmed coliforms (lactose-fermenting). Pink/pale colonies without halo = non-coliform lactose fermenters or non-fermenters (do not count as coliforms). Cream/colourless = inhibited or non-fermenting organisms.
⚙️ Mode of Action
Coliform bacteria — gram-negative, facultatively anaerobic rods that ferment lactose with acid and gas production at 35–37°C — survive the dual selective pressure of crystal violet and bile salts due to their outer membrane permeability barrier. Upon lactose fermentation, the localised production of organic acids (primarily lactic and acetic acid) lowers the pH of the surrounding agar below the neutral red transition point, incorporating the red dye into the colony matrix and producing the characteristic deep red-purple colouration. Simultaneously, the acid environment causes bile salts dissolved in the agar to precipitate as an insoluble white-to-opaque ring around each positive colony — a physical halo that dramatically enhances visual discrimination between true coliforms and background flora. The agar overlay step is critical: it maintains the anaerobic-like microenvironment within the pour layer that maximises gas entrapment, suppresses surface spreaders, and ensures halo formation remains localised and countable.
📊 Coliform & Enterobacteriaceae Detection Media Comparison
🧬 Applications
🥛 Dairy Microbiology
The ISO 4832 and IDF reference method for coliform enumeration in milk, cream, cheese, yoghurt, butter, powdered dairy products, and infant formula — critical for process hygiene monitoring and regulatory compliance in Australia's dairy industry.
🍽️ Food Safety Testing
Coliform and Enterobacteriaceae enumeration across all food categories — meat, poultry, seafood, produce, ready-to-eat foods, condiments, and ingredients — for HACCP verification, shelf-life testing, and FSANZ compliance.
💊 Pharmaceutical QC
Enumeration of Enterobacteriaceae in non-sterile pharmaceutical products, dietary supplements, herbal medicines, and medical devices per USP <61>, TGA, and BP Appendix XVI requirements.
💧 Water Quality Testing
Coliform detection and enumeration in potable water, process water, cooling towers, and food-contact surface rinse waters by membrane filtration or pour plate methodology.
Additional Laboratory Applications:
- Infant Formula: Mandatory coliform testing per Codex Alimentarius / FSANZ
- Environmental Monitoring: Food plant hygiene swab and rinse-water testing
- NATA Accredited Labs: ISO 17025 food and dairy microbiology panels
- Export Certification: AQIS dairy export compliance panels
- Veterinary & Feed: Coliform enumeration in animal feed and pet food
- Research: Coliform population dynamics and stress response studies
📋 Recommended Procedure (ISO 4832:2006 / Pour Plate)
1️⃣
Prepare Medium
Dissolve 41.5 g/L in purified water. Heat to dissolve. DO NOT autoclave. Bring to boil for 2 min then cool to 44–47°C in water bath.
2️⃣
Prepare Dilutions
Prepare decimal dilutions of sample in peptone water (0.1% w/v) or Buffered Peptone Water per ISO 6887.
3️⃣
First Pour Layer
Pipette 1 mL sample dilution into sterile Petri dish. Add 15 mL VRBLA (44–47°C). Mix by gentle rotation. Allow to solidify.
4️⃣
Overlay Layer ⚠️
Once first layer is set, pour 4–5 mL additional VRBLA as overlay. Allow to solidify completely before inverting.
5️⃣
Incubate
Invert plates and incubate at 35 ± 1°C for 18–24 h. Do not exceed 24 h — over-incubation causes halo diffusion.
6️⃣
Count & Calculate
Count all dark red-purple colonies ≥0.5 mm with a surrounding bile precipitate halo. Calculate CFU/g or CFU/mL.
🔍 Colony Interpretation Guide
✅ Count — Coliforms:
Dark red to purple colonies ≥0.5 mm diameter WITH a surrounding opaque bile precipitate halo. Both colour and halo must be present.
Dark red to purple colonies ≥0.5 mm diameter WITH a surrounding opaque bile precipitate halo. Both colour and halo must be present.
⚠️ Do Not Count:
Pink or pale colonies WITHOUT a bile halo. Small (<0.5 mm) colonies. Cream or colourless colonies — these are not coliforms.
Pink or pale colonies WITHOUT a bile halo. Small (<0.5 mm) colonies. Cream or colourless colonies — these are not coliforms.
💡 Best Practice:
Count 15–300 colonies per plate for statistically valid results. Select dilutions to achieve countable plates from at least two consecutive decimal dilutions.
Count 15–300 colonies per plate for statistically valid results. Select dilutions to achieve countable plates from at least two consecutive decimal dilutions.
⚠️ Critical — Overlay Step: The agar overlay layer is not optional — it is essential for halo formation and correct colony morphology. Without the overlay, colonies spread laterally, halos do not form properly, and counts will be unreliable. Use the same VRBLA medium at 44–47°C for both layers.
💧 Alternative Method — Membrane Filtration
VRBLA can also be used as a membrane filtration agar for water and low-turbidity liquid samples:
- Filter 100 mL (or appropriate volume) through 0.45 µm cellulose nitrate membrane.
- Transfer membrane face-down onto surface of pre-poured VRBLA plate (not overlaid).
- Incubate inverted at 35 ± 1°C for 18–24 h.
- Count dark red-purple colonies ≥0.5 mm with characteristic halo. Report as CFU/100 mL.
💡 Protocol Optimization Guidelines
Preparation:
Dissolve 41.5 g/L in purified water. Boil to dissolve — DO NOT autoclave. Overheating destroys the dye system. Cool to 44–47°C before pouring.
Dissolve 41.5 g/L in purified water. Boil to dissolve — DO NOT autoclave. Overheating destroys the dye system. Cool to 44–47°C before pouring.
pH (25°C):
7.4 ± 0.2 after preparation. Check pH with calibrated meter — deviations affect neutral red response and halo formation.
7.4 ± 0.2 after preparation. Check pH with calibrated meter — deviations affect neutral red response and halo formation.
Temperature Control:
Keep VRBLA at exactly 44–47°C for pouring. Above 50°C causes dye degradation; below 44°C risks premature setting before inoculation mixing.
Keep VRBLA at exactly 44–47°C for pouring. Above 50°C causes dye degradation; below 44°C risks premature setting before inoculation mixing.
Storage (prepared plates):
2–8°C, use within 2 weeks. Protect from light — crystal violet and neutral red are photosensitive. Dehydrated powder: below 25°C, dry and dark.
2–8°C, use within 2 weeks. Protect from light — crystal violet and neutral red are photosensitive. Dehydrated powder: below 25°C, dry and dark.
📋 Technical Specifications
| Catalogue Number | AS-1377 |
| Abbreviation | VRBLA / VRBL / VRBA |
| Format | Dehydrated powder |
| Reconstitution | 41.5 g/L in purified water |
| pH (25°C) | 7.4 ± 0.2 |
| Incubation Temp | 35 ± 1°C |
| Incubation Time | 18–24 hours |
| Positive Result | Dark red-purple colonies ≥0.5 mm + bile precipitate halo |
| Negative Result | Cream / colourless / no halo |
| Selective Agents | Crystal violet, bile salts No. 3 |
| pH Indicator | Neutral red |
| Sterilisation | Boil to dissolve — DO NOT autoclave |
| Overlay Required | Yes — essential for halo formation |
| HS Code | 3821.00.00 |
✅ Quality Control Performance
| Test Organism | ATCC | Expected Result | CFU Spec |
|---|---|---|---|
| Escherichia coli | 25922 | Dark purple-red colonies + halo | ≤100 CFU |
| Klebsiella pneumoniae | 13883 | Dark pink-red mucoid colonies + halo | ≤100 CFU |
| Enterococcus faecalis | 19433 | Inhibited / small cream colonies | ≤100 CFU |
| Staphylococcus aureus | 25923 | Inhibited / no growth | ≤100 CFU |
🧪 Typical Formulation (per litre)
| Peptone | 7.0 g |
| Yeast Extract | 3.0 g |
| Lactose | 10.0 g |
| Bile Salts No. 3 | 1.5 g |
| Sodium Chloride | 5.0 g |
| Neutral Red | 0.03 g |
| Crystal Violet | 0.002 g |
| Agar | 15.0 g |
* Formulation may vary slightly between lot numbers. Refer to the current COA for exact composition.
📜 Standards & Regulatory Compliance
- ✓ ISO 4832:2006 — Horizontal method for coliform enumeration — pour plate technique
- ✓ ISO 21528-2:2017 — Enterobacteriaceae enumeration (colony count technique)
- ✓ IDF Standard 73C — Dairy: coliform enumeration in milk and dairy products
- ✓ USP <61> / TGA — Pharmaceutical microbial enumeration tests
- ✓ FSANZ Food Standards — Australian/NZ food safety regulatory compliance
- ✓ APHA Standard Methods — Water coliform enumeration
- ✓ NATA Accreditation — Suitable for ISO 17025-accredited food and dairy labs
📝 Alternative Names
Violet Red Bile Lactose Agar (VRBLA)
Violet Red Bile Agar (VRBA)
Crystal Violet Neutral Red Bile Lactose Agar
VRB Lactose Agar / VRBL Agar
Coliform Detection Agar (Violet Red)
Bile Lactose Agar (Crystal Violet)
🔄 Cross-Reference / Equivalent Products
Cross-references are provided for convenience. Catalogue numbers are trademarks of their respective owners. AuSaMicS products are manufactured and quality-tested independently.
🧬 Complete Coliform & Enterobacteriaceae Detection System
Complementary Selective & Differential Media
Water & Dairy Microbiology Panel
Need Coliform Enumeration Method Support?
Our food safety and dairy microbiologists can assist with ISO 4832, ISO 21528, IDF coliform testing workflows, pour plate technique optimisation, NATA and TGA compliance documentation, and inter-laboratory proficiency preparation.
For laboratory, research, and industrial use only. Not for food, feed, household, cosmetic, therapeutic, or personal use. The agar overlay step is required for valid results — do not omit. Results should be interpreted by qualified laboratory personnel in accordance with applicable standard methods.
AuSaMicS Pty Ltd | ABN: 56 676 640 467 | 31 Longview CT, Thomastown VIC 3074, Australia
www.ausamics.com.au | support@ausamics.com.au | +61 412 520 598
Same-day dispatch • Australian stock • Full documentation included