Physical properties of emulsion stabilized by kappa casein before and after treatment with chymosin

Gerung, Anita

12 April 2006

In order to determine the effect of lipid concentration on the properties of k-casein stabilized emulsions, butteroil was added to solutions that contained 0.3% k-casein to achieve milk fat concentrations of 3, 10, and 20%. These mixtures were adjusted to pH 6.5 and heated to 65°C. They were then homogenized at 20 and 100 MPa and particle size was measured; viscosity and yield stress were measured before and 30 minutes after the addition of chymosin. These experiments were repeated twice. Homogenization of the emulsions at 100 MPa produced smaller particles than homogenization at 20 MPa. Emulsions with 20% milk fat showed the largest particle size. Before treated with chymosin, these emulsions had the greatest viscosity and yield stress, however the differences with the other lipid concentrations were greater after chymosin treatment. A gel with yield stress less than 10 Pa occurred in emulsions with 3 or 10% milk fat. The emulsion with 20% milk fat after chymosin treatment provided the best possibility for the formation of a gel because it had the highest viscosity and yield stress. The effect of protein concentration on the properties of the emulsions was determined in emulsions that contained 20% milk fat and 0.5, 0.7, and 1.0%. These emulsions were prepared as previously described. Emulsions homogenized at 100 MPa had smaller particles than emulsions homogenized at 20 MPa. An increase in protein concentration caused the particle size to decrease. Emulsions homogenized at 100 MPa were more stable than emulsions homogenized at 20 MPa and the emulsion with 1.0% k-casein was the most stable emulsion. The protein load of k-casein stabilized emulsions ranged from 3 to 6 mg/m2. The viscosity and yield stress prior to chymosin treatment showed no properties of gelation. After treated with chymosin, these emulsions produced a weak gel with yield stress values that ranged from 14 to 16 Pa.

Emulsion

Kappa casein

chymosin

Genetic variation of Kappa-casein in South African goats

Scheepers, Robyn Clair

21 October 2009

Milk protein polymorphisms have a significant influence on milk quantity and composition. Kappa-casein is of special interest due to its known relationship with milk quality. In goats, a number of allelic variants have been identified, primarily classified into two groups. Group BIEF alleles (D, E, K, and M) have been shown to have a positive effect on milk yield and technological properties, while group AIEF, the remaining alleles, have a less positive influence on milk composition. The aim of this study was to investigate genetic variation in the kappa-casein genotype of South African goats. PCR-RFLP and DNA sequencing were performed on 68 and 77 samples, respectively. In addition, 84 milk samples were analyzed for milk composition. RFLP analysis revealed that the A and/or B alleles were the most frequent in the populations studied. A frequency of 0.00 was observed for the BIEF variants using DNA sequencing. In all goat types included, the B allele was the most common, with frequencies ranging from 60% in SA Boer goats to 100% in Saanens. The B’ allele had lower frequencies of 0.357 and 0.207 in SA Boer goats and local goat types, respectively. The H allele was present at low frequencies in local goat types (10.3%) and in SA Boer goats (3.6%), but was absent in Saanens. AMOVA results indicated that most of the total variation occurred within populations (80.66%) with the remainder of the variation (FST = 0.1934; p < 0.01) occurring due to genetic differences between populations. / Dissertation (MSc(Agric))--University of Pretoria, 2009. / Animal and Wildlife Sciences / unrestricted

Milk quantity

South african goats

Kappa-casein

UCTD

Variantes genéticas de kappa-caseína em vacas leiteiras e características físico-químicas e de composição do leite / Kappa-casein polimorphism in dairy cows and, physico-chemical properties and composition of milk

Lima, Ygor Vinicius Real de

16 December 2005

Os objetivos gerais do presente estudo foram avaliar o efeito do polimorfismo genético da kappa-caseína, da raça e da estação do ano sobre as características físico-químicas (acidez, pH e crioscopia), composição (gordura, lactose, sólidos totais, contagem de células somáticas, uréia, proteína bruta, proteína verdadeira, nitrogênio não protéico e nitrogênio não caseinoso) e estabilidade do leite. Foram selecionados 11 rebanhos leiteiros comerciais, sendo cinco deles da raça Holandesa e seis da raça Girolanda, dos quais foram amostradas em média 122 vacas em lactação por rebanho, totalizando 1350 vacas amostradas em três períodos: 2 no período seco e 1 no período chuvoso. As vacas selecionadas foram analisadas quanto a composição e propriedades físico-químicas do leite, assim como para a determinação do polimorfismo de kappa-caseína. O presente trabalho foi dividido em dois estudos, no primeiro avaliou-se os efeitos da raça e estação do ano sobre características físico-químicas, composição e estabilidade do leite. Foi observado efeito de raça sobre acidez titulável, pH, lactose, uréia e estabilidade do leite. O efeito de sazonalidade mostrou-se significativo sobre pH, crioscopia, teores de lactose, uréia, proteína bruta, sólidos totais, contagem de células somáticas, proteína verdadeira, caseína, nitrogênio não protéico e estabilidade térmica do leite. Em animais da raça Girolanda, foram observados no período seco maiores teores de sólido totais. O ponto crioscópico do leite sofreu efeito do período de coleta somente em animais da raça Holandesa, onde valores mais altos foram observados durante o período seco. Os teores de lactose apresentaram maiores médias no período seco em animais da raça Holandesa. Os teores de uréia sofreram efeito de raça e período de coleta estudado. A proteína bruta do leite sofreu efeito dos fatores raça e período de coleta, sendo que vacas da raça Holandesa e Girolanda apresentam maiores teores no período seco. A concentração de caseína do leite sofreu efeito significativo do período de coleta. A estabilidade térmica do leite sofreu influência da raça, pois o leite de vacas da raça Holandesa mostraram-se mais estáveis do que os da raça Girolanda. A sazonalidade é um fator determinante para a estabilidade do leite, pois o leite mostrou-se mais estável no período chuvoso que em período seco. No segundo estudo foram avaliados o polimorfismo genético da kappa-caseína em vacas Holandesas e Girolandas e o efeito deste sobre características físico-químicas, de composição e estabilidade térmica do leite. A freqüência do alelo A foi maior do que a do alelo B no que diz respeito ao gene da kappa-caseína. Com relação às características físico-químicas do leite, não houve efeito do polimorfismo do gene da kappa-caseína sobre teores de gordura, sólidos totais, lactose, contagem de células somáticas e uréia do leite. Não foram observados efeitos do polimorfismo genético do gene para kappa-caseína sobre a composição protéica do leite, sendo que teores de proteína bruta, nitrogênio não protéico, nitrogênio não caseinoso e proteína verdadeira não sofrem influência. A estabilidade do leite frente à prova do álcool não sofreu influencia do polimorfismo genético de kappa-caseína / The objective of this study were to determine the effects of kappa-casein gene polymorphisms, breed and season on physical-chemical properties (acidity, pH and cryoscopy), composition (fat, lactose, total solids, somatic cells count, urea, crude protein, true protein, non protein nitrogen and non casein nitrogen) and stability of milk. For this aim 11 dairy herds were selected, six of them composed of Girolando cows and five from Holstein cows, in average milk samples were taken of 112 cows from each herd, collected three times: twice in dry season and once on rainy season. Each cow were analyzed for milk composition, physico-chemical properties, and to determine its kappa-casein polymorphism. This study was divided in two, the first one analyzed possible breed and season effects over milk physico-chemical characteristics, composition and stability. Breed effect was observed over acidity, pH, lactose, urea and milk stability. Season effects was significant for pH, cryoscopy, lactose, urea, CP, total solids, SCC, TP, casein, EqNPN and heat milk stability. In cows Girolando it was observed highest total solids in dry season. Milk cryoscopy had season effects only on Holstein cows, with highest results in dry season. Lactose concentration was greatest in Holstein cow in dry season. Urea concentration showed breed and season effect on this study. Crude protein was affected by breed and season, in dry season the concentration were highest for Holstein and Girolanda. Casein milk concentration demonstrated season effect. Heat milk stability showed breed stability, milk from Holstein cow were more stable that milk from Girolanda cows. Season is a determinant factor for milk stability, milk showed more stable in rainy season than during dry period. The second study analyzed: kappa-casein gene polymorphisms in Holstein and Girolando cows and its effects over milk physico-chemical characteristics, milk composition and milk heat stability. Kappa-casein allele A had a higher frequency, than allele B, in Girolando and Holstein cows in comparison with other polymorphisms. No effect of kappa-casein polymorphism was observed on milk phisico-chemical characteristics and on milk fat, total solids, lactose, SCC, and milk urea. There were no difference for milk protein composition (EqNPN, NCNC, TP, casein and EqNCN) for kappa-casein polymorphism. Milk alcohol stability did not showed effect of gene polymorphism

Composição

Composition

Dairy cow

Kappa-casein

Kappa-caseína

Leite

Milk

Polimorfismo

Polymorphism

Vaca leiteira

Genotyping Of Beta-casein, Kappa-casein And Beta-lactoglobulin Genes In Turkish Native Cattle Breeds And Efforts To Delineate Bcm-7 On Human Pbmc

Dinc, Havva

01 September 2009

The main aim of this study is to determine genetic diversity of milk protein genes associated with milk traits, namely beta-casein, kappa-casein and betalactoglobulin, in native Turkish cattle breeds (Turkish Grey, Eastern Anatolian Red, Anatolian Black, and Southern Anatolian Red) and Turkish Holstein. Only 11% deviation from the Hardy-Weinberg equilibrium and insignificant Fis values for the populations were observed, indicating that samples are free of inbreeding. B alleles of these genes, which are positively related with cheese yield and quality, seem to be relatively high in native Turkish breeds. Therefore, the results suggest that milk of Turkish native breeds is advantageous for producing high-quality and -yield cheese. A1 allele of beta-casein, which releases a bioactive peptide called BCM-7 after successive gastrointestinal proteolytic digestions, has been claimed to have adverse health effects on humans. Another aim of this study is to develop a protocol and assess the potential detrimental effects of BCM-7 on human peripheral blood cells. Despite the fact that the results are inconclusive, the optimized experimental protocol will guide further researchers while judging the effect of BCM-7 on human health. Even though A1 beta-casein, which has a low frequency in native Turkish breeds, and hence BCM-7 have no adverse health effects on humans, this probability should be enough to keep its frequency low in native cattle breeds. Bulls must be screened for A1 allele of beta-casein as well as E allele of kappa-casein, which is absent in native breeds and known to have detrimental effects on cheese quality.

QH Genetics 426-470

Variantes genéticas de kappa-caseína em vacas leiteiras e características físico-químicas e de composição do leite / Kappa-casein polimorphism in dairy cows and, physico-chemical properties and composition of milk

Ygor Vinicius Real de Lima

16 December 2005

Os objetivos gerais do presente estudo foram avaliar o efeito do polimorfismo genético da kappa-caseína, da raça e da estação do ano sobre as características físico-químicas (acidez, pH e crioscopia), composição (gordura, lactose, sólidos totais, contagem de células somáticas, uréia, proteína bruta, proteína verdadeira, nitrogênio não protéico e nitrogênio não caseinoso) e estabilidade do leite. Foram selecionados 11 rebanhos leiteiros comerciais, sendo cinco deles da raça Holandesa e seis da raça Girolanda, dos quais foram amostradas em média 122 vacas em lactação por rebanho, totalizando 1350 vacas amostradas em três períodos: 2 no período seco e 1 no período chuvoso. As vacas selecionadas foram analisadas quanto a composição e propriedades físico-químicas do leite, assim como para a determinação do polimorfismo de kappa-caseína. O presente trabalho foi dividido em dois estudos, no primeiro avaliou-se os efeitos da raça e estação do ano sobre características físico-químicas, composição e estabilidade do leite. Foi observado efeito de raça sobre acidez titulável, pH, lactose, uréia e estabilidade do leite. O efeito de sazonalidade mostrou-se significativo sobre pH, crioscopia, teores de lactose, uréia, proteína bruta, sólidos totais, contagem de células somáticas, proteína verdadeira, caseína, nitrogênio não protéico e estabilidade térmica do leite. Em animais da raça Girolanda, foram observados no período seco maiores teores de sólido totais. O ponto crioscópico do leite sofreu efeito do período de coleta somente em animais da raça Holandesa, onde valores mais altos foram observados durante o período seco. Os teores de lactose apresentaram maiores médias no período seco em animais da raça Holandesa. Os teores de uréia sofreram efeito de raça e período de coleta estudado. A proteína bruta do leite sofreu efeito dos fatores raça e período de coleta, sendo que vacas da raça Holandesa e Girolanda apresentam maiores teores no período seco. A concentração de caseína do leite sofreu efeito significativo do período de coleta. A estabilidade térmica do leite sofreu influência da raça, pois o leite de vacas da raça Holandesa mostraram-se mais estáveis do que os da raça Girolanda. A sazonalidade é um fator determinante para a estabilidade do leite, pois o leite mostrou-se mais estável no período chuvoso que em período seco. No segundo estudo foram avaliados o polimorfismo genético da kappa-caseína em vacas Holandesas e Girolandas e o efeito deste sobre características físico-químicas, de composição e estabilidade térmica do leite. A freqüência do alelo A foi maior do que a do alelo B no que diz respeito ao gene da kappa-caseína. Com relação às características físico-químicas do leite, não houve efeito do polimorfismo do gene da kappa-caseína sobre teores de gordura, sólidos totais, lactose, contagem de células somáticas e uréia do leite. Não foram observados efeitos do polimorfismo genético do gene para kappa-caseína sobre a composição protéica do leite, sendo que teores de proteína bruta, nitrogênio não protéico, nitrogênio não caseinoso e proteína verdadeira não sofrem influência. A estabilidade do leite frente à prova do álcool não sofreu influencia do polimorfismo genético de kappa-caseína / The objective of this study were to determine the effects of kappa-casein gene polymorphisms, breed and season on physical-chemical properties (acidity, pH and cryoscopy), composition (fat, lactose, total solids, somatic cells count, urea, crude protein, true protein, non protein nitrogen and non casein nitrogen) and stability of milk. For this aim 11 dairy herds were selected, six of them composed of Girolando cows and five from Holstein cows, in average milk samples were taken of 112 cows from each herd, collected three times: twice in dry season and once on rainy season. Each cow were analyzed for milk composition, physico-chemical properties, and to determine its kappa-casein polymorphism. This study was divided in two, the first one analyzed possible breed and season effects over milk physico-chemical characteristics, composition and stability. Breed effect was observed over acidity, pH, lactose, urea and milk stability. Season effects was significant for pH, cryoscopy, lactose, urea, CP, total solids, SCC, TP, casein, EqNPN and heat milk stability. In cows Girolando it was observed highest total solids in dry season. Milk cryoscopy had season effects only on Holstein cows, with highest results in dry season. Lactose concentration was greatest in Holstein cow in dry season. Urea concentration showed breed and season effect on this study. Crude protein was affected by breed and season, in dry season the concentration were highest for Holstein and Girolanda. Casein milk concentration demonstrated season effect. Heat milk stability showed breed stability, milk from Holstein cow were more stable that milk from Girolanda cows. Season is a determinant factor for milk stability, milk showed more stable in rainy season than during dry period. The second study analyzed: kappa-casein gene polymorphisms in Holstein and Girolando cows and its effects over milk physico-chemical characteristics, milk composition and milk heat stability. Kappa-casein allele A had a higher frequency, than allele B, in Girolando and Holstein cows in comparison with other polymorphisms. No effect of kappa-casein polymorphism was observed on milk phisico-chemical characteristics and on milk fat, total solids, lactose, SCC, and milk urea. There were no difference for milk protein composition (EqNPN, NCNC, TP, casein and EqNCN) for kappa-casein polymorphism. Milk alcohol stability did not showed effect of gene polymorphism

Composição

Kappa-caseína

Leite

Polimorfismo

Vaca leiteira

Composition

Dairy cow

Kappa-casein

Milk

Polymorphism