Aasima Rafiq scite author profile

Broiler production at mass level has already been achieved and now emphasis is being laid on increasing meat quality by altering various characteristics of broiler meat. Appearance, texture, juiciness, wateriness, firmness, tenderness, odor and flavor are the most important and perceptible meat features that influence the initial and final quality judgment by consumers before and after purchasing a meat product. The quantifiable properties of meat such as water holding capacity, shear force, drip loss, cook loss, pH, shelf life, collagen content, protein solubility, cohesiveness, and fat binding capacity are indispensable for processors involved in the manufacture of value added meat products. Nutrition of birds has a significant impact on poultry meat quality and safety. It is well known that dietary fatty acid profiles are reflected in tissue fatty acid. Management of poultry meat production is reflected mostly on consumption features (juiciness, tenderness, flavour) of meat. After slaughter, biochemical changes, causing the conversion of muscle to meat, determine final meat quality. Postmortem carcass temperature has profound effect on rigor mortis and the physicochemical changes observed in PSE muscles are attributed to postmortem glycolysis, temperature, and pH. Primary processing and further processing have become a matter of concern with respect to nutritional quality of broiler meat. Genetic variation among birds could contribute to large differences in the rate of rigor mortis completion and meat quality. Heritability estimates for meat quality traits in broilers are amazingly high (0.35-0.81), making genetic selection a best tool for improvement of broiler meat quality.

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Protein engineering and its applications in food industry

Kapoor

Rafiq

Sharma

2015

Critical Reviews in Food Science and Nutrition

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Protein engineering is a young discipline that has been branched out from the field of genetic engineering. Protein engineering is based on the available knowledge about the proteins structure/function(s), tools/instruments, software, bioinformatics database, available cloned gene, knowledge about available protein, vectors, recombinant strains and other materials that could lead to change in the protein backbone. Protein produced properly from genetic engineering process means a protein that is able to fold correctly and to do particular function(s) efficiently even after being subjected to engineering practices. Protein is modified through its gene or chemically. However, modification of protein through gene is easier. There is no specific limitation of Protein Engineering tools; any technique that can lead to change the protein constituent of amino acid and result in the modification of protein structure/function is in the frame of Protein Engineering. Meanwhile, there are some common tools used to reach a specific target. More active industrial and pharmaceutical based proteins have been invented by the field of Protein Engineering to introduce new function as well as to change its interaction with surrounding environment. A variety of protein engineering applications have been reported in the literature. These applications range from biocatalysis for food and industry to environmental, medical and nanobiotechnology applications. Successful combinations of various protein engineering methods had led to successful results in food industries and have created a scope to maintain the quality of finished product after processing.

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Regression Analysis of Gluten-Free Pasta from Brown Rice for Characterization andIn vitroDigestibility

Rafiq

Sharma

Singh

2016

Journal of Food Processing and Preservation

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The paper explores the possibility of utilizing brown rice for preparation of gluten-free pasta using twin screw extruder. Response surface methodology was used to analyse the effect of feed moisture (28-34%), barrel temperature (70-110C) and screw speed(120-220 rpm) on quality responses (degree of gelatinization, minimum cooking time, water absorption, volume expansion, and gruel solid loss) and regression analysis was carried out to fit mathematical models to the experimental data. The selected pasta samples were examined further for pasting properties, color, texture, in vitro starch, and protein digestibility. Higher feed moisture exhibited dominant effect on cooking quality of pasta. The degree of gelatinization showed a positive correlation with feed moisture and barrel temperature. Luminosity enhanced with increasing screw speed and feed moisture. Firmness of cooked pasta elevated with an increase in the barrel temperature. Extrusion cooking significantly increased in vitro protein and starch digestibility, however, higher feed moisture favored protein and starch digestibility. PRACTICAL APPLICATIONSPasta products are normally produced using cold extrusion process 40-50C temperature. Generally single screw extruder is used for pasta manufacture. In the present scenario of convenience and newer products, we explored the possibility of using brown rice along with twin screw extruder for preparation of gluten-free pasta. Effect of feed moisture, barrel temperature, and screw speed on the quality parameters of pasta were studied. Pasta produced at higher feed moisture and screw speed showed higher in vitro starch and protein digestibility.

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In vitro starch digestibility, degree of gelatinization and functional properties of twin screw prepared cereal-legume pasta

Rafiq

Sharma

Singh

2017

Journal of Cereal Science

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Temperature dependence on hydration kinetic model parameters during rehydration of parboiled rice

et al. 2015

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A study was carried out to relate the hydration behaviour with processing conditions of low amylose content parboiled rice which was dried at various temperatures (40, 50 and 60°C). The rehydration characteristics of the parboiled rice (dehusked only) was then studied at various soaking temperatures (30, 40 and 50°C) and time ( upto 3 h at every 30 min interval) and equilibrium moisture content of rehydration (EMC) was determined. The data were tested on three hydration equations viz., Peleg's, Exponential and Weibull equations. The experimental data were used to determine the model parameters. The goodness of fit for the models were evaluated by coefficient of determination (R 2 ) and sum of square error (SSE). The results were indicated that the Weibull model fits better than the exponential model and Peleg's equation. Also, water transfer to paddy, was described by applying the Fick's diffusion model and the moisture diffusivity (D) was calculated. The Diffusivity values varied between 1.06 and 4×10 −11 m 2 /s.

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Aasima Rafiq

Determinants of broiler chicken meat quality and factors affecting them: a review

Protein engineering and its applications in food industry

Regression Analysis of Gluten-Free Pasta from Brown Rice for Characterization andIn vitroDigestibility

In vitro starch digestibility, degree of gelatinization and functional properties of twin screw prepared cereal-legume pasta

Temperature dependence on hydration kinetic model parameters during rehydration of parboiled rice

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