Hexokinase 1 and 2 mediates glucose utilization to regulate the synthesis of kappa casein via ribosome protein subunit 6 kinase 1 in bovine mammary epithelial cells.

Glucose plays a vital part in milk protein synthesis through the mTOR signaling pathway in bovine mammary epithelial cells (BMEC). The objectives of this study were to determine how glucose affects hexokinase (HK) activity in BMEC and investigate the regulatory effect of HK in kappa casein (CSN3) synthesis via the mechanistic target of rapamycin complex 1 (mTORC1) signaling pathway in BMEC. For this, HK1 and HK2 were knocked out in BMEC using the CRISPR/Cas9 system. The gene and protein expression, glucose uptake, and cell proliferation were measured. We found that glucose uptake, cell proliferation, CSN3 gene expression levels, and expression of HK1 and HK2 increased with increasing glucose concentrations. Notably, glucose uptake was significantly reduced in HK2 knockout (HK2KO) BMEC treated with 17.5 mM glucose. Moreover, under the same glucose treatment conditions, the proliferative ability and abundance of CSN3 were significantly diminished in both HK1 knockout (HK1KO) and HK2KO BMEC compared with that in wild-type BEMC. We further observed that the phosphorylation levels of ribosome protein subunit 6 kinase 1 (S6K1) were reduced in HK1KO and HK2KO BMEC following treatment with 17.5 mM glucose. As expected, the levels of glucose-6-phosphate and the mRNA expression levels of glycolysis-related genes were decreased in both HK1KO and HK2KO BMEC following glucose treatment. These results indicated that the knockout of HK1 and HK2 inhibited cell proliferation and CSN3 expression in BMEC under glucose treatment, which may be associated with the inactivation of the S6K1 and inhibition of glycolysis.

Relationship between Milk Protein Polymorphism and Selected Cows' Reproductive Indices.

This research sought to determine the effect of selected milk protein polymorphisms on the reproduction parameters of 598 black and white Polish Holstein-Friesian cattle. The analyzed genes were kappa-casein (CSN3) and beta-lactoglobulin (BLG). The following reproductive indexes were selected: the age at first calving, the interpregnancy period, the calving interval, and the insemination index. The influence of the identified genotypes on the course of parturition in cows was also analyzed. Source data were collected for each cow from the beginning of the herd life and reproduction to its culling from the herd or the end of its third lactation. Data on the age at first calving, the amount of semen portions for artificial insemination (insemination index), the interpregnancy period, and the calving interval for each cow were also collected. A contingency analysis was performed through contingency tables using a Pearson's chi-squared test for each CSN3 and BLG genotype. The results show that the BB genotype of the kappa-casein gene was associated with the most favorable values of reproductive indicators. In the case of the calving interval, the values were significantly more favorable than those of other genotypes (p ≤ 0.05). No effect of beta-lactoglobulin polymorphism on the analyzed reproductive indices was observed. On the other hand, in the case of the interpregnancy period, significant statistical differences were obtained between the AA and BB genotypes. The analyzed kappa-casein and beta-lactoglobulin genotypes did not significantly influence the course of parturition in cows. To conclude, the genotype polymorphism BB CSN3 is the most favorable for the performance of the cows in the examined herd.

Evaluating the Potential of Casein Glycomacropeptide in Adult Irritable Bowel Syndrome Management: A Pilot Study.

Irritable bowel syndrome (IBS) is a common gastrointestinal disorder that affects 10-15% of the global population and presents symptoms such as abdominal discomfort, bloating and altered bowel habits. IBS is believed to be influenced by gut microbiota alterations and low-grade inflammation. Bovine kappa-casein glycomacropeptide (GMP), a bioactive dairy-derived peptide, possesses anti-adhesive, prebiotic and immunomodulatory properties that could potentially benefit IBS patients. This pilot study investigated the effects of daily supplementation with 30 g of GMP for three weeks on gut health in five people with IBS. We assessed alterations in gut microbiota composition, fecal and blood inflammatory makers, and gut-related symptoms before, during and after the GMP feeding period. The results revealed no changes in fecal microbiota, subtle effects on systemic and intestinal immune makers, and no changes in gut-related symptoms during and after the GMP supplementation. Further research is needed to assess the potential benefits of GMP in IBS patients, including the examination of dosage and form of GMP supplementation.

The Role of Bovine Kappa-Casein Glycomacropeptide in Modulating the Microbiome and Inflammatory Responses of Irritable Bowel Syndrome.

Irritable bowel syndrome (IBS) is a common gastrointestinal disorder marked by chronic abdominal pain, bloating, and irregular bowel habits. Effective treatments are still actively sought. Kappa-casein glycomacropeptide (GMP), a milk-derived peptide, holds promise because it can modulate the gut microbiome, immune responses, gut motility, and barrier functions, as well as binding toxins. These properties align with the recognized pathophysiological aspects of IBS, including gut microbiota imbalances, immune system dysregulation, and altered gut barrier functions. This review delves into GMP's role in regulating the gut microbiome, accentuating its influence on bacterial populations and its potential to promote beneficial bacteria while inhibiting pathogenic varieties. It further investigates the gut microbial shifts observed in IBS patients and contemplates GMP's potential for restoring microbial equilibrium and overall gut health. The anti-inflammatory attributes of GMP, especially its impact on vital inflammatory markers and capacity to temper the low-grade inflammation present in IBS are also discussed. In addition, this review delves into current research on GMP's effects on gut motility and barrier integrity and examines the changes in gut motility and barrier function observed in IBS sufferers. The overarching goal is to assess the potential clinical utility of GMP in IBS management.

Probing of alpha, beta and kappa-caseins polymorphic variants in Gangatiri cow milk with the use of polyacrylamide gel electrophoresis and HRAMS.

This research communication aimed to probe the genetic polymorphisms of alpha, beta, and kappa caseins in Gangatiri cows (an indigenous Indian cattle). Detection of variants has received considerable research interest in the dairy industry and animal breeding in recent years as a source of good quality protein, but also of bioactive peptides that may be linked to health implications. The polymorphic nature of casein fractions and their association with milk production traits, composition, and quality also attracted several efforts in evaluating the allelic distribution of different casein locus as a potential dairy trait marker. Molecular techniques of polyacrylamide gel electrophoresis and high-resolution accurate mass-spectrometry have been applied to this probe. Sequence analysis of different casein types in the cows showed the presence of four specific variants.

Comparison of Solid-Phase Extraction Sorbents for Monitoring the In Vivo Intestinal Survival and Digestion of Kappa-Casein-Derived Caseinomacropeptide.

Kappa-casein-derived caseinomacropeptide (CMP)-a 64-amino-acid peptide-is released from kappa-casein after rennet treatment and is one of the major peptides in whey protein isolate (WPI). CMP has anti-inflammatory and antibacterial activities. It also has two major amino acid sequences with different modifications, including glycosylation, phosphorylation, and oxidation. To understand the potential biological role of CMP within the human body, there is a need to examine the extent to which CMP and CMP-derived fragments survive across the digestive tract, where they can exert these functions. In this study, three solid-phase extraction (SPE) methods-porous graphitized carbon (PGC), hydrophilic interaction liquid chromatography (HILIC), and C18 chromatography-were evaluated to determine which SPE sorbent is the most efficient to extract intact CMP and CMP-derived peptides from WPI and intestinal digestive samples prior to LC-MS/MS acquisition. The C18 SPE sorbent was the most efficient in extracting intact CMP and CMP-derived peptides from WPI, whereas the PGC SPE sorbent was the most efficient in extracting CMP-derived peptides from intestinal digesta samples.

Kappa and beta-casein alleles in dairy zebu cattle.

The kappa (CSN3) and beta-casein (CSN2) genes are intensively genotyped in dairy cattle for selection purposes. This information is also generated and disseminated for Zebu breeds adapted to tropical climates. The objective of this work was to gather information on the genotypes for the CSN3 and CSN2 genes in three breeds (Gyr, Guzerat and Sindhi), and to verify the genotypic frequencies in the populations. The genotype AA and allele A frequencies are high for the CSN3 gene, without changes in values over the years, possibly indicating a small gene participation in traits under selection. In addition, the A2A2 frequencies are high for the CSN2 gene (<∼0.80). It is recommended to verify the association and contribution of CSN3 genotypes in productive traits for these breeds. The potential of A2 milk production by these genetic groups is also confirmed.

Estimating the Effect of the Kappa Casein Genotype on Milk Coagulation Properties in Israeli Holstein Cows.

In Israel, about 26% of produced milk is used to produce hard cheeses and 29% for soft cheeses. Milk with preferred coagulation properties requires a shorter coagulation time and yields a higher curd firmness than milk with inferior coagulation properties. Studies have shown that milk from cows with the B allele of kappa casein (κ-CN) produces more cheese than milk from those with A and E alleles. There is evidence that milk from AE or EE genotype cows is unsuitable for cheese production. In the early 1990s, the proportion of the B allele in Israeli Holstein cattle was about 17%, similar to its prevalence in the Holstein population worldwide. In recent years, however, its proportion has increased to about 40%. We analyzed milk coagulation properties as a function of the cow's κ-CN genotype, including time in minutes until the beginning of coagulation and curd firmness after 60 min-measured in volts via an optigraph device and scored on a scale of 0-4 by a laboratory technician. Cow selection was based on their sire's genotype, so that there would be sufficient genotypes that include the rare E allele. A total of 359 cows were sampled from 15 farms: 64 with genotype AA, 142 with AB, 41 with AE, 65 with BB, and 47 with BE. Data were analyzed via the general linear model procedure of SAS. We found the following: (a) There were significant differences between genotypes for optigraph-measured curd firmness. In a multi-comparison test, the BB genotype gave the highest curd firmness, and AB and BE showed a significant advantage compared to AA and AE (9.4, 8.6, 8.4, 6.9, 6.8 V, respectively). Assuming a frequency of about 55% for the A allele, about 30% of the milk delivered to dairy plants comes from AA cows. (b) There was a significant difference between the genotypes in technician-observed curd firmness, with BB scoring significantly higher than AA and AE. (c) The optigraph-measured curd firmness was significantly higher for milk from primiparous cows as compared to milk from second, third, or fourth lactation cows (8.9, 7.8, 7.9, 7.7 V, respectively). The technician-observed curd firmness was significantly higher for primiparous vs. multiparous cows. There was a clear advantage in curd firmness for genotypes that included the B allele compared to those with AA and AE genotypes. We can increase the proportion of the B allele in the population by insemination of cows using bulls with the genotypes AB and BB. This factor should therefore be included in the selection index.

Estructura, propiedades y genética de las caseínas de la leche: una revisión / Structure, properties and genetic of milk caseins: a review / Estrutura, propriedades e genética das caseínas do leite: uma revisão

Resumen La leche es un alimento esencial para los humanos y una de sus importancias radica en el contenido de proteínas lácteas. Las proteínas más frecuentes en este preciado líquido son las caseínas (αS1-caseína, αS2-caseína, β-caseína y κ-caseína), las cuales son fuente de aminoácidos para la dieta de los mamíferos en sus primeros días de vida. En la leche, las caseínas, están formadas por agregados moleculares de proteínas de tamaños variables denominados micelas. El objetivo de esta revisión es presentar un panorama general de la estructura, propiedades y genética de las caseínas lácteas y su relación con la salud humana. A partir de esta revisión, se pudo establecer, que las αs1 y αs2 caseínas se encuentran en conjunto con la β-caseína, formando el núcleo micelar, interactuando con los iones de calcio, para formar y mantener la micela estable. Animales caracterizados genéticamente con algunas variantes de estas proteínas, se asocian con un rendimiento en el volumen de leche. La κ-caseína, por su parte, está asociada con un aumento en el rendimiento y calidad de los quesos, de ahí su importancia económica, mientras que las formas más comunes de β-caseína en razas de ganado lechero son A1 y A2. La β-caseína A2 no presenta efectos negativos a la salud humana, por el contrario, ha sido asociada con propiedades reductoras de colesterol y triacilglicéridos. Sin embargo, la variante A1 de la β-caseína produce un péptido bioactivo denominado β-casomorfina-7 (BCM-7), que puede desempeñar un papel etiológico poco claro en el desarrollo de algunas enfermedades en humanos, tales como: enfermedad isquémica del corazón, diabetes mellitus tipo 1, síndrome de muerte súbita infantil (SIDS), desórdenes neurológicos, como autismo y esquizofrenia.

Abstract Milk is an essential food for humans and one of the reasons of its importance lies in the content of milk proteins. The most frequent proteins in this precious liquid are caseins (αS1-casein, αS2-casein, β-casein and κ-casein), which are a source of amino acids for the diet of mammals in their first days of life. In milk, caseins are made up of molecular aggregates of proteins of varying sizes called micelles. The objective of this review is to present an overview of the structure, properties and genetics of dairy caseins and their relation with human health. From this review, it was established that αs1 and αs2 caseins are found together with β-casein, forming the micellar nucleus and interacting with calcium ions, to form and maintain stable the micelle. Animals genetically characterized with some variants of these proteins are associated with a yield in milk volume. For its part, κ-casein is associated with an increase in the yield and quality of cheeses, hence its economic importance, while the most common forms of β-casein in dairy cattle are A1 and A2. β-casein A2 does not have negative effects on human health; on the contrary, it has been associated with lowering properties of cholesterol and triacylglycerides. However, the A1 variant of β-casein produces a bioactive peptide called β-casomorphin-7 (BCM-7), which may play an unclear etiological role in the development of some diseases in humans, such as: ischemic heart disease, type 1 diabetes mellitus, sudden infant death syndrome (SIDS), neurological disorders, such as autism and schizophrenia.

Resumo O leite é um alimento essencial para o ser humano e uma de suas principais característica é o teor de proteínas do leite. As proteínas mais frequentes neste líquido são as caseínas (αS1-caseína, αS2-caseína, β-caseína e κ-caseína), que são uma fonte de aminoácidos para a dieta dos mamíferos nos primeiros dias de vida. As caseínas no leite são constituídas por agregados moleculares de proteínas de variados tamanhos, chamados micelas. O objetivo desta revisão é apresentar uma visão geral da estrutura, propriedades e genética das caseínas lácteas e sua relação com a saúde humana. A partir desta revisão, foi estabelecido que as caseínas αs1 e αs2 são encontradas em conjunto com a β-caseína, formando o núcleo micelar, interagindo com os íons cálcio, para formar e manter a micela estável. Animais geneticamente caracterizados com algumas variantes dessas proteínas estão associados com o rendimento da produção de leite. Por sua vez, a κ-caseína está associada ao aumento do rendimento da produção e da qualidade dos queijos, por isso sua importância econômica, enquanto as formas mais comuns de β-caseína em bovinos leiteiros são A1 e A2. A Β-caseína A2 não tem efeitos negativos na saúde humana, pelo contrário, tem sido associada a propriedades redutoras do colesterol e dos triacilglicéridos. No entanto, a variante A1 da β-caseína produz um peptídeo bioativo denominado β-casomorfina-7 (BCM-7), que pode desempenhar uma função etiológico ainda desconhecida no desenvolvimento de algumas doenças em humanos, tais como: doença isquêmica do coração, diabetes mellitus tipo 1, síndrome da morte súbita infantil (SMSL), distúrbios neurológicos, como autismo e esquizofrenia.

Análisis genético de cinco polimorfismos de nucleótido simple de caseínas lácteas obtenidos con chips genómicos en ganado Holstein de Antioquia, Colombia / Genetic analysis of five single nucleotide polymorphisms of dairy caseins obtained with genomic chips in Holstein cattle from Antioquia, Colombia

RESUMEN Los polimorfismos genéticos asociados con las caseínas de la leche son de gran importancia, ya que pueden ser usados como marcadores genéticos para mejorar el rendimiento productivo en los hatos lecheros. El objetivo de este estudio fue evaluar la diversidad y estructura genética de 5 SNP de caseínas de la leche, obtenidos con chips genómicos en vacas y toros de raza Holstein en Antioquia (Colombia). Fueron muestreados 113 animales de raza Holstein en 3 regiones del departamento de Antioquia (norte, centro y oriente) y un cuarto grupo de sementales comerciales. Los animales fueron genotipificados con chips genómicos de alta densidad (Illumina BovineHD e Illumina SNP50 v2), a partir de los cuales se identificaron 5 SNP (ARS-BFGL-NGS-8140, BTA-77380-no-rs, BTA-32346-no-rs, BTB-00821654 y ARS-BFGL-NGS-15809). Para cada SNP se realizó un análisis genético mediante un análisis de varianza molecular (amova) usando el software GenAIEx 6.501. Los SNP con mayor heterocigosidad total (HT) fueron ARS-BFGL-NGS-8140 y BTA-32346-no-rs, con resultados cercanos al 45%; sin embargo, la Ht para ARS-BFGL-NGS-15809, BTA-77380-no-rs y BTB-00821654 estuvo por debajo del 15%. El SNP con mayor diversidad genética fue BTA-32346-no-rs (Ho-He = 0,06; p < 0,05). En esta investigación se evaluó una subpoblación de toros comerciales extranjeros, en la cual se obtuvieron frecuencias alélicas y genotípicas similares a las obtenidas para las subpoblaciones locales, sugiriendo que los alelos de los toros muy posiblemente están fijados en dichas subpoblaciones, por lo que la estructura y diversidad genética tienden a ser bajas en la muestra de estudio.

ABSTRACT Genetic polymorphisms associated with milk caseins have a great importance since they can be used as genetic markers to improve productive performance in dairy herds. The main goal of the present study was to evaluate the diversity and genetic structure of 5 SNPs of milk caseins, obtained with genomic chip in Holstein cows and bulls from Antioquia (Colombia). 113 Holstein animals were sampled in 3 regions of Antioquia (north, center, and east), and a fourth group of commercial sires. Animals were geno-typed with high-density SNP chips (Illumina BovineHD and Illumina SNP50 v2), from which 5 SNPs were identified (ARS-BFGL-NGS-8140, BTA-77380-no-rs, BTA-32346-no-rs, BTB-00821654 and ARS-BFGL-NGS-15809). For each SNP, a genetic analysis was performed by means of an analysis of molecular variance (AMOVA) using the GenAIEx 6.501 software. The SNPs with the highest total heterozygosity (Ht) were ARS-BFGL-NGS-8140 and BTA-32346-no-rs, with results close to 45%; however, the HT for ARS-BFGL-NGS-15809, BTA-77380-no-rs, and BTB-00821654 were below 15%. The SNP with the highest genetic diversity was BTA-32346-no-rs (Ho-He = 0,06; p < 0,05). In this research a subpopulation of foreign commercial bulls was evaluated, in which similar allelic and genotypic frequencies to those for local subpopulations were obtained, suggesting that the alleles of the bulls are very possibly fixed in these subpopulations, so that the structure and genetic diversity tend to be low in the study sample.

Influence of the kappa casein genotype on the technological properties of cow milk of Simmental and Alatau breeds.

The main objective of dairy farming is to obtain highly productive animals that produce milk with high protein content and have good technological properties. Currently, with the development of molecular genetics and molecular biology, it is possible to identify genes directly or indirectly associated with the milk production of animals. The identification of variants of such genes that are preferable from the standpoint of selection will allow, apart from the conventional selection of animals, to perform selection at the level of deoxyribonucleic acid technologies, i.e. according to genotype. The paper includes the study of milk productivity indicators and physicochemical quality indicators of milk from cows of Simmental and Alatau breeds by loci of the kappa casein gene, and also determines the cheese suitability and technological properties of milk of cows of Simmental and Alatau breeds with different genotypic affiliations for kappa casein for the production of semi-hard cheeses. The determination of polymorphism by the kappa casein gene was carried out with the use of the polymerase chain reaction method for genotyping of the major milk proteins of kappa casein gene. In a comparative aspect, the interrelation of genotypes with milk productivity was studied, the frequencies of allelic polymorphism of cows of Simmental and Alatau breeds in the Republic of Kazakhstan were identified, the nature of milk productivity was determined for each genotype. Scientifically based data on the assessment of biological value, technological properties, cheese suitability of milk of cows of Simmental and Alatau breeds are obtained.

Investigation on the suitability of milk-derived primary bovine mammary epithelial cells grown on permeable membrane supports as an in vitro model for lactation.

This study aimed to establish an in vitro model for lipid synthesis in primary bovine mammary epithelial cells (pbMECs) extracted from milk and cultured on Transwell permeable supports (TW culture). The suitability of these cells as a functional model for lactation was assessed by measuring κ-casein (CSN3) and diacylglycerol acyl transferase 1 (DGAT1) gene expression, the presence of intracellular lipid droplets, and the concentration of triacylglycerol in the cell lysates. The functionality of the milk-derived pbMECs cultured under lactogenic conditions, with and without oleic acid supplementation, was evaluated by comparing the cells grown on Transwell supports to cells grown on an extracellular matrix (ECM) gel (3D culture) or a plastic surface (2D culture). Furthermore, the functionality of milk-derived cells was compared to pbMECs obtained from bovine mammary tissue. Here, we show that in both tissue and milk-derived pbMECs, 3D culture offered the most suitable in vitro environment and led to increased levels of CSN3 and DGAT1 gene expression along with increased intracellular triacylglycerol content. The TW culture conditions also resulted in increased DGAT1 gene expression compared to the 2D conditions and milk-derived pbMECs cultured on TW inserts showed the highest viability compared to cells grown under 2D or 3D treatments. However, this was not observed for tissue-derived pbMECs, suggesting that TW culture may offer a beneficial environment specifically for milk-derived cells. We suggest that with further optimization of the culture conditions, TW culture may present a suitable model for the study of milk lipid synthesis in pbMECs.

Bovine κ-Casein Fragment Induces Hypo-Responsive M2-Like Macrophage Phenotype.

Immunomodulatory nutraceuticals have garnered special attention due to their therapeutic potential for the amelioration of many chronic inflammatory conditions. Macrophages are key players in the induction, propagation and resolution of inflammation, actively contributing to the pathogenesis and resolution of inflammatory disorders. As such, this study aimed to investigate the possible therapeutic effects bovine casein derived nutraceuticals exert on macrophage immunological function. Initial studies demonstrated that sodium caseinate induced a M2-like macrophage phenotype that was attributed to the kappa-casein subunit. Kappa-casein primed macrophages acquired a M2-like phenotype that expressed CD206, CD54, OX40L, CD40 on the cell surface and gene expression of Arg-1, RELM-α and YM1, archetypical M2 markers. Macrophages stimulated with kappa-casein secreted significantly reduced TNF-α and IL-10 in response to TLR stimulation through a mechanism that targeted the nuclear factor-κB signal transduction pathway. Macrophage proteolytic processing of kappa-casein was required to elicit these suppressive effects, indicating that a fragment other than C-terminal fragment, glycomacropeptide, induced these modulatory effects. Kappa-casein treated macrophages also impaired T-cell responses. Given the powerful immuno-modulatory effects exhibited by kappa-casein and our understanding of immunopathology associated with inflammatory diseases, this fragment has the potential as an oral nutraceutical and therefore warrants further investigation.

Association of HindIII-polymorphism in kappa-casein gene with milk, fat and protein yield in holstein cattle.

The aim of this paper was to evaluate the effect of genetic polymorphism of kappa-casein on milk production in Holstein cattle. Two hundred and ten Holstein cows were used in this study. We established genotype structure of cattle population and calculated allelic frequencies based on PCR-RFLP analyses. The three genotypes: AA (69.52%), AB (27.62%), and BB (2.86%) were detected. Frequency of allele A was 83.33%, and of allele B 16.67%. The Holstein cattle kept in Slovak Republic exhibit a high value of homozygosity (0.7222) and low values of polymorphism information content (0.2392), effective number of alleles (1.3847) and level of possible variability realization (27.91%). The effect of polymorphism of CSN3 gene on average breeding values for milk production traits, such as yield of milk, fat and protein expressed in kilograms, as well as percentage content of fat and protein in milk, has been assessed. In our assessment of the observed traits' variability's dependence on CSN3 gene polymorphism, we detected a statistically significant difference between genotypes only in case of the average breeding value for the percentage of protein in milk.

Genetic identification of endangered North African ungulates using noninvasive sampling.

North African ungulates include several threatened and emblematic species, yet are poorly studied mainly due to their remoteness and elusiveness. Noninvasive sampling provides a useful approach to obtain ecological and genetic information essential to guide conservation actions. The very first and most important step in conservation planning is to accurately identify species, and molecular genetics has been proved to be a useful tool. Several molecular genetics protocols are available for species identification, even for samples with poor quality DNA, such as faeces, hairs or bones. Most of these protocols use mitochondrial DNA for barcoding despite this marker being especially prone to problems, including mtDNA introgression, nuclear insert copies, high intraspecific diversity or heteroplasmy. In this work, we developed a molecular method based on polymorphisms in small fragments of the mitochondrial cytochrome b (cytb, mtDNA) and the nuclear kappa casein genes (KCAS, nDNA) for identifying endangered North African ungulates. These fragments revealed polymorphisms, including species-specific variation, which allowed species identification of nine ungulate species that co-occur in North Africa. The method was validated across more than 400 samples, including different types of noninvasive samples collected in the field. The simplicity, high reliability and relative low cost of the described method make it a promising tool to improve ecological studies of the North African ungulates and consequently, the implementation of more efficient management and conservation plans for these endangered ungulates.

Analysis of genetic variations across regulatory and coding regions of kappa-casein gene of Indian native cattle (Bos indicus) and buffalo (Bubalus bubalis).

The promoter region of kappa-casein (κ-CN) gene in Indian native cattle and buffalo breeds was sequenced and analyzed for nucleotide variations. Sequence comparison across breeds of Indian cattle revealed a total of 7 variations in the promoter region, of which - 515 G/T, - 427 C/T, - 385 C/T, - 283 A/G and - 251 C/T were located within consensus binding sites for octamer-binding protein (OCT1)/pregnancy specific mammary nuclear factor (PMF), activator protein-2 (AP2), hepatocyte nuclear factor (HNF-1) and GAL4 transcription factors (TFs), respectively. These variations might be involved in gain or loss of potential transcription factor binding sites (TFBSs). Unlike the other 4 variants, the - 283 (A/G) variant located within HNF-1 TFBS was specific to Indian cattle as this change has not been observed in the Bos taurus sequence. Other TFBSs viz., MGF, TBP, NF-1, milk box and C/EBP were conserved across species. For the Indian native buffalo breeds, only 3 changes were identified in the promoter region; - 305 (A/C), - 160 (T/C) and - 141 (A/G) and most of the TFBSs were found to be conserved. However, deletion of two adjacent nucleotides located in and around binding site for C/EBP TF was identified in buffalo when compared with promoter sequence of bovine κ-CN. For κ-CN of Indian native cattle, a strong linkage disequilibrium (LD) was observed for variations 515 G/T, - 427 C/T and - 385 C/T in the promoter region; and for variations at codons 136 and 148 of exon-IV. Further, among intragenic haplotypes, variation - 427 C/T was found to be in LD with variations at codons 136 and 148. The information generated in the present work provides comprehensive characterization of κ-CN gene promoter and coding regions in Indian cattle and buffaloes and reported variations could become important candidates for carrying out further research in dairy traits.

Genetic polymorphism and association of kappa-casein gene with milk production traits among Frieswal (HF × Sahiwal) cross breed of Indian origin.

The aim of the present study was to screen the genotype profile of bovine kappa-casein gene among Frieswal (HF × Sahiwal) crossbred cattle developed in India. A total number of two hundred Frieswal cows were evaluated for HinfI RFLP based genotyping of kappa-casein gene. We observed that only two genotypes (AA and AB) exist among the studied population with the genotype frequency of 0.58 (n=117) and 0.42 (n=83), respectively. The calculated allele frequency for A and B was 0.79 and 0.21, respectively. Association of genotypes with certain milk production traits revealed that AB had significant (P<0.05) effect on total milk yield, peak yield, yield at 300 days and SNF% as compared to AA.

Gallic acid is the major component of grape seed extract that inhibits amyloid fibril formation.

Many protein misfolding diseases, for example, Alzheimer's, Parkinson's and Huntington's, are characterised by the accumulation of protein aggregates in an amyloid fibrillar form. Natural products which inhibit fibril formation are a promising avenue to explore as therapeutics for the treatment of these diseases. In this study we have shown, using in vitro thioflavin T assays and transmission electron microscopy, that grape seed extract inhibits fibril formation of kappa-casein (κ-CN), a milk protein which forms amyloid fibrils spontaneously under physiological conditions. Among the components of grape seed extract, gallic acid was the most active component at inhibiting κ-CN fibril formation, by stabilizing κ-CN to prevent its aggregation. Concomitantly, gallic acid significantly reduced the toxicity of κ-CN to pheochromocytoma12 cells. Furthermore, gallic acid effectively inhibited fibril formation by the amyloid-beta peptide, the putative causative agent in Alzheimer's disease. It is concluded that the gallate moiety has the fibril-inhibitory activity.

Anti-inflammatory mechanisms of bioactive milk proteins in the intestine of newborns.

The human newborn infant is susceptible to gut inflammatory disorders. In particular, growth-restricted infants or infants born prematurely may develop a severe form of intestinal inflammation known as necrotizing enterocolitis (NEC), which has a high mortality. Milk provides a multitude of proteins with anti-inflammatory properties and in this review we gather together some recent significant advances regarding the isolation and proteomic identification of these minor constituents of both human and bovine milk. We introduce the process of inflammation, with a focus on the immature gut, and describe how a multitude of milk proteins act against the inflammatory process according to both in vitro and in vivo studies. We highlight the effects of milk proteins such as caseins, and of whey proteins such as alpha-lactalbumin, beta-lactoglobulin, lactoferrin, osteopontin, immunoglobulins, trefoil factors, lactoperoxidase, superoxide dismutase, platelet-activating factor acetylhydrolase, alkaline phosphatase, and growth factors (TGF-ß, IGF-I and IGF-II, EGF, HB-EGF). The effects of milk fat globule proteins, such as TLR-2, TLR-4, sCD14 and MFG-E8/lactadherin, are also discussed. Finally, we indicate how milk proteins could be useful for the prophylaxis and therapy of intestinal inflammation in infants and children.

Análise de polimorfismos do gene da kapa-caseína em fêmeas da raça Nelore e efeito sobre o peso à desmama de suas progênies

Data from a Nelore herd were used after adjustment of the weaning weight for 205 days of age, sex, age of dam, sire and month of weaning resulting two groups of cows that differed in weaning weight of their calves. The least square means (LSM) and standard error (SE) were 163.21±2.18kg and 134.44±2.18kg, for heavy (H) and light (L) groups, with 41 animals each one. These animals were genotyped for DNA polymorphisms of kappa-casein gene, using PCR-RFLP (polymerase chain reaction-restriction fragment length polymorphism). The segment analysis of kappa-casein IV exon identified the genotypes 71AA, 10AB and 1BB, with frequencies of 0.92 and 0.08 for A and B alleles, respectively. The LSM±SE for weaning weight were 147.73±2.38kg and 156.76± 6.35kg for calves of AA and AB genotype cows. Heavy and light groups were similar for the allelic frequencies for this gene. The dam’s genotype did not affect the weaning weight of the calves. This suggests the existence of another genetic or non-genetic factors with major magnitude.

Informações sobre peso à desmama de um rebanho Nelore, após ajuste para idade padrão de 205 dias, sexo da cria, idade da mãe, touro e mês de desmama, foram utilizadas para separar as reprodutrizes em dois grupos, cujos produtos diferiam em peso. As médias ajustadas pelo método dos quadrados mínimos e erros-padrão para os grupos pesado (P) e leve (L) foram 163,21±2,18kg e 134,44±2,18kg, respectivamente, com 41 animais em cada grupo. Colheram-se amostras de sangue das reprodutrizes para o estudo de polimorfismos do gene da kapa-caseína, pela técnica de polymerase chain reaction-restriction fragment length polymorphism. A análise de um segmento do éxon IV do gene da kapa-caseína identificou os genótipos 71AA, 10AB e 1BB, com as freqüências de 0,92 e 0,08 para os alelos A e B, respectivamente. Os pesos à desmama dos produtos dos genótipos AA e AB foram, respectivamente, 147,73±2,38kg e 156,76±6,35kg. Os grupos P e L não diferiram entre si quanto às freqüências alélicas apresentadas para esse gene. O genótipo das reprodutrizes não afetou o peso à desmama de suas crias, existindo, portanto, outros efeitos genéticos e não genéticos de maior magnitude.