Developement of monoclonal antibodies for a multiple antigen ELISA to verify safe cooking end-point temperature in beef and pork

Hafley, Brian Scott

25 April 2007

Four proteins exhibiting different rates of denaturation or precipitation with increasing cooking temperature from 63 to 73°C for beef and 67 to 79°C for pork were selected for developing a ratio model and incorporating the results into a mathematical expression. Monoclonal antibodies (Mabs) against lactate dehydrogenase isozyme 5 (LDH-5), bovine serum albumin (BSA), porcine enolase, and bovine myoglobin were developed for use in a sandwich enzyme-linked immunosorbent assay (ELISA) to simultaneously investigate changes in protein concentration with incremental increases in temperature. Four groups of mice were immunized separately with commercially available or purified protein (LDH-5, BSA, enolase, or myoglobin). After reporting ample blood serum titers, spleen cells were harvested and fused with SP2 myeloma tumor cells using an electro fusion cell manipulator. Hybridoma containing wells were screened against their respective protein to isolate hybridomas secreting protein specific Mabs. Tissue culture flask produced Mabs were used initially in sandwich ELISA assay testing. Mabs were tested against ground beef and pork cooked to instantaneous endpoint temperatures (EPTs). A 6 g section removed from the geometric center of each sample was homogenized in phosphate buffer, centrifuged, and a 1 ml aliquot collected for analysis. Microtiter plates were coated with goat anti-mouse IgG antibody (2 mg/ml) to act as a capture antibody for the protein specific monoclonal antibody concentrated from cell culture supernatant. Serial diluted muscle (beef or pork) extract (10 ml) from each EPT was applied to a microtiter plate. A protein A/G purified polyclonal antibody (Pab) was applied, followed by a goat anti-rabbit IgG peroxidase conjugated antibody. Concentration was determined by comparison to a standard curve. After multiple cell fusions, 24, 29, 66, and 12 cell lines secreting protein specific Mabs against LDH-5, BSA, enolase, and myoglobin, respectively, were produced. Six Mabs against LDH-5 reported R2 values > 0.9 indicating high specificity and affinity for LDH-5. Sandwich ELISA assays development with Mabs against BSA, enolase, and myoglobin was not as successful. Mouse ascites produced Mabs against BSA, enolase, and myoglobin were also unsuccessful when used in a sandwich ELISA. However, preliminary data suggested a multiple antigen ratio model still remained a viable option.

End-point Temperature

Textural and Physical Properties of Fat-Free Turkey-Beef Frankfurters: Effects of Non-Meat Ingredients and End-Point Temperature

Innawong, Bhundit

10 December 1998

The effects of NaCl (1 and 2%), added-water (AW; 30 and 40%), milk protein hydrolysate (MPH; 1, 2 and 3%), and end-point cooking temperature (EPT; 71.1 and 76.7 C) were examined. Regardless of the formulation, all turkey-beef frankfurters contained less than 0.4% fat. As levels of NaCl in the formula increased, the frankfurters had lower (P< 0.05) penetration values (total energy and peak force) but higher shear stress and shear strain. In addition, higher salt levels resulted in lower cooking loss, moisture content, protein content, and darker frankfurters. Increasing AW level reduced (P<0.05) penetration values (total energy and peak force), shear stress, shear modulus, and hardness but increased cohesiveness. Higher levels of AW not only resulted in higher (P<0.05) moisture content but also resulted in higher cooking loss and purge loss. Higher AW products were lighter (P<0.05) in color and less red. Increasing the amount of MPH increased (P<0.05) shear stress and shear modulus but lowered shear strain. Higher MPH reduced cooking loss and produced (P<0.05) darker, more yellow, and less red frankfurters. Higher EPT increased (P<0.05) cooking loss, shear stress, and shear modulus but decreased penetration values (total energy and peak force), shear strain, and cohesiveness. Higher EPT produced lighter (P<0.05) colored frankfurters. There were some two and three-way independent variable interactions (P<0.05) for shear stress, shear strain, and cohesiveness. Of the four independent variables evaluated, AW and EPT most influenced textural properties. By using various combinations of these four independent variables, meat processors would have the ability to improve the quality characteristics of fat-free frankfurters. / Master of Science

salt

milk protein

fat-free frankfurter

added water

end point temperature

Using Multilayer Perceptrons asmeans to predict the end-pointtemperature in an Electric ArcFurnace

Carlsson, Leo

January 2015

No description available.

Eletric Arc Furnace

Multilayer Perceptron

ANN

Steel Temperature

End-Point Temperature

Metallurgy and Metallic Materials

Metallurgi och metalliska material