Nutrition processed proteins

Use of soy protein products in brine injected or absorbed whole muscle meat products such as beef, poultry, and seafood is reviewed. The importance of functionality on brine performance and within muscle tissue is stressed. Major considerations are selection of the proper soy protein, accompanying functionalities such as water-binding, gelling and viscosity, the specific meat system and requirements pertaining to nutrition, processing and marketing. 

Given specific goals or guidelines, soy protein products offer versatility and superior functional characteristics for use in a variety of processed meats. When properly selected, soy protein products help reduce finished product costs, maintain quality and create new product opportunities Exact formulations are determined by muscle product type, cost, quality, nutrition, process, legal and marketing considerations (J -9) Specifically, soy proteins ... 

Castro et al. (2008) suggested that high-pressure processing (100-200 MPa, 10-20 min) could be used as a pretreatment in place of blanching to produce frozen pepper with better nutritional (soluble protein and ascorbic acid) and texture (firmness) characteristics. 

D-Amino Acids in Processed Proteins Their Nutritional Consequences... 

Harsh treatments used during food processing can have deleterious effects on the nutritional quality of the processed protein. Decreases in digestibility (enzymatic hydrolysis) (8 10 ... 

Miscellaneous Grain Processes Nutritive Values Protein Quality of Grains Enriched or Fortified Cereals New and Improved Varieties of Grains Sprouted Grains... 

Ingredients used in pet foods are usually high in nutritional quaHty but generally not desirable as human foods primarily because they do not conform to human taste or processing expectations. By-products such as rendered proteins and fat converted into pet foods may have a derivation unappealing to humans, yet after processing may actually be more free of microorganisms and toxins than foods consumed by humans. 

The sacroplasmic proteins myoglobin and hemoglobin are responsible for much of the color in meat. Species vary tremendously in the amount of sacroplasmic proteins within skeletal muscle with catde, sheep, pigs, and poultry Hsted in declining order of sarcoplasmic protein content. Fat is also an important component of meat products. The amount of fat in a portion of meat varies depending on the species, anatomy, and state of nutrition of the animal. The properties of processed meat products are greatiy dependent on the properties of the fat included. Certain species, such as sheep, have a relatively higher proportion of saturated fat, whereas other species, such as poultry, have a relatively lower proportion of saturated fat. It is well known that the characteristic davors of meat from different species are in part determined by their fat composition. 

Amino acids are the main components of proteins. Approximately twenty amino acids are common constituents of proteins (1) and are called protein amino acids, or primary protein amino acids because they are found in proteins as they emerge from the ribosome in the translation process of protein synthesis (2), or natural amino acids. In 1820 the simplest amino acid, glycine, was isolated from gelatin (3) the most recendy isolated, of nutritional importance, is L-threonine which was found (4) in 1935 to be a growth factor of rats. The history of the discoveries of the amino acids has been reviewed... 

Wool, as a keratin, is a highly cross-linked, insoluble proteinaceous fiber, and few animals have developed the specialized digestive systems that aUow them to derive nutrition from the potential protein resource. In nature, these few keratin-digesting animals, principally the larvae of clothes moths and carpet beetles, perform a useful function in scavenging the keratinous parts of dead animals and animal debris (fur, skin, beak, claw, feathers) that ate inaccessible to other animals. It is only when these keratin-digesting animals attack processed wool goods that they are classified as pests. Very often they enter domestic or industrial huildings from natural habitats such as birds nests. 

Nutritional Requirements. The nutrient requirements of mammalian cells are many, varied, and complex. In addition to typical metaboHc requirements such as sugars, amino acids (qv), vitamins (qv), and minerals, cells also need growth factors and other proteins. Some of the proteins are not consumed, but play a catalytic role in the cell growth process. Historically, fetal calf semm of 1—20 vol % of the medium has been used as a rich source of all these complex protein requirements. However, the composition of semm varies from lot to lot, introducing significant variabiUty in manufacture of products from the mammalian cells. 

Formulas tend to contain isolates as the protein source to eliminate or reduce the presence of carbohydrates that ate the cause of flatulence and abnormal stools. Care is taken to provide adequate nutrition and to use proteins processed in such a way as to minimize or eliminate any antinutritional factors. The formulation of a typical soy-based infant formula is also given in Table 17. 

Other than a nutritional role linked to mineralization processes, humic compounds have been hypothesized to directly affect plant nutrition, since it has been suggested that roots may take up low-molecular-weight humic molecules (21). Interestingly, plants have been ob.served to express carriers for amino acids (22) and small peptides (23) at the root level. Certain components of the humic fraction have been found inside root cells and were, moreover, translocated to the shoots (24,25). Recent experiments performed on rice cells in suspension culture seem to suggest that they may use carbon skeletons from humic molecules to synthesize proteins and DNA (26). 

The protein content of milk is primarily influenced by the breed of cow, the stage of lactation, type of diet being fed and the health status of the cow, and is important in processing because the protein (and specifically casein) content of milk determines its cheese yield. Milk provides a highly digestible source of protein for a large proportion of the world s population, either as raw milk or processed into dairy products. In addition to this basic nutrition, milk... 

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