A NEW TECHNOLOGY FOR THE RAPID DETECTION AND QUANTIFICATION OF MICROORGANISMS IN FOOD

• Sponsoring Institution: National Institute of Food and Agriculture
• Project Status: COMPLETE
• Funding Source: SMALL BUSINESS GRANT
• Reporting Frequency: Annual
• Accession No.: 0199506
• Grant No.: 2004-33610-14315
• Cumulative Award Amt.: $79,965.00
• Proposal No.: 2004-00346
• Project Start Date: May 15, 2004
• Project End Date: Dec 31, 2004
• Grant Year: 2004
• Program Code: [8.5]- (N/A)

Recipient Organization
Ibis Therapeutics
(N/A)
Carlsbad,CA 92009

Performing Department
(N/A)

Non Technical Summary
A rapid, efficient method for determining the presence of a wide range of microorganisms in food is needed by the food industry. Knowing the identities of most of the organisms in the microbial population in a food would be helpful in prediction of the shelf-life and for clarification of safety issues. The technology described will allow suppliers to characterize, monitor, and quantify microorganisms in ready-to-eat foods and will provide critical information concerning spoilage and contamination. We envision deployment of this technology for widespread use by major food manufacturers and testing agencies to provide cost-effective services.

Animal Health Component

100%

Research Effort Categories

Basic

(N/A)

Applied

100%

Developmental

(N/A)

Classification

Knowledge Area (KA)	Subject of Investigation (SOI)	Field of Science (FOS)	Percent
712	4010	1100	100%

Knowledge Area
712 - Protect Food from Contamination by Pathogenic Microorganisms, Parasites, and Naturally Occurring Toxins;

Subject Of Investigation
4010 - Bacteria;

Field Of Science
1100 - Bacteriology;

Keywords

identification

new technology

food safety

food spoilage

polymerase chain reaction

shelf life

quality maintenance

food microbiology

bacteria

detection

food contamination

quantification

bacterial diseases

disease prevention

disease transmission

haccp

risk assessment

milk

vegetables

bacterial genetics

dna sequences

gene amplification

process development

engineering

Goals / Objectives
High-throughput technology for identifying the presence of microorganisms that may lead to spoilage or illness would be of great value to the food industry. Such a system would reduce financial loss by allowing processors to design adequate early intervention measures including microbiological risk assessment and HACCP plans. The overall objective of this project is to demonstrate that our bacterial detection system can rapidly and effectively detect bacteria present in processed food items such as milk and vegetable salads without extensive cultivation. At the end of Phase I, we will deliver: 1) Universal PCR primers for discrimination of bacteria in food. 2) Procedures for efficiently extracting bacterial genomic DNA from food samples and reliable protocols for rapid gene amplification and sensitive MS analysis. 3) Procedures for preliminary quantification of bacteria detected. 4) A fully integrated system that generates robust, reproducible and interpretable results with actual food products. The research efforts on a pilot scale are designated as the four separate but interrelated tasks detailed in the Phase I work plan below.

Project Methods
Task 1. Design six PCR primer pairs for simultaneous detection and discrimination of food related pathogenic and commensal bacteria. Task 2. Test each primer pair and optimize the detection of several major bacteria groups singly in a food matrix (milk or fruit juice) by spiking with known amounts of bacteria. Task 3. Test each primer pair and optimize the detection of a spiked mixture of five bacteria in a complex food matrix (vegetable salads). Task 4. Develop a plasmid-based DNA calibrant molecule for the quantification of bacteria in food samples. Demonstrate the ability to use this calibrant to quantify the presence of Pseudomonas in fluid milk products by the ESI-FTICR-MS coupled PCR system.