¿Qué es el cow comfort?

En la última década, el bienestar de los animales, en general, ha cobrado una extraordinaria importancia, habiéndose publicado numerosas normativas que fijan las condiciones en que han de ser alojados y manejados para no causarles sufrimientos innecesarios y estrés (http://www.mapya.es/es/ganaderia/pags/bienestar/granja.htm). Los consumidores de los países desarrollos cada vez son más conscientes de este hecho y su demanda de productos de origen animal obtenidos en condiciones de producción éticamente correctas está aumentando. De hecho, la mayoría de los programas y modelos de certificación de producto (la leche, en este caso) tienen en cuenta los aspectos de bienestar animal entre sus requisitos. Definir el bienestar animal no siempre resulta fácil. Al fin y al cabo, lo interpretamos desde una perspectiva humana. No obstante, no resulta tan complicado rectificar aquello que provoca dolor, miedo, hambre, sed, calor, frío, etc., o evitarlo cuando construimos algo nuevo. También es importante conseguir un mantenimiento correcto de las instalaciones y un manejo del animal que evite los malos tratos.

The major allergens of birch pollen and cow milk, Bet v 1 and Bos d 5, are structurally related to human licocalin 2, enabling them to manipulate T-helper cells depending on their load with siderophore-bound iron

We conclude that Bet v 1 and Bos d 5 not only structurally mimic human LCN2, but also functionally by their ability to bind iron via siderophores. The apo-forms promote Th2 cells, whereas the holo-forms appear to be immunosuppressive. These results provide for the first time a functional understanding on the principle of allergenicity of major allergens from entirely independent sources, like birch and milk.

Genome-Wiide estimates of coancestry, in breeding and effective population size in the Spanish Holstein population

Estimates of effective population size in the Holstein cattle breed have usually been low despite the large number of animals that constitute this breed. Effective population size is inversely related to the rates at which coancestry and inbreeding increase and these rates have been high as a consequence of intense and accurate selection. Traditionally, coancestry and inbreeding coefficients have been calculated from pedigree data. However, the development of genome-wide single nucleotide polymorphisms has increased the interest of calculating these coefficients from molecular data in order to improve their accuracy. In this study, genomic estimates of coancestry, inbreeding and effective population size were obtained in the Spanish Holstein population and then compared with pedigree-based estimates. A total of 11,135 animals genotyped with the Illumina BovineSNP50 BeadChip were available for the study. After applying filtering criteria, the final genomic dataset included 36,693 autosomal SNPs and 10,569 animals. Pedigree data from those genotyped animals included 31,203 animals. These individuals represented only the last five generations in order to homogenise the amount of pedigree information across animals. Genomic estimates of coancestry and inbreeding were obtained from identity by descent segments (coancestry) or runs of homozygosity (inbreeding). The results indicate that the percentage of variance of pedigree-based coancestry estimates explained by genomic coancestry estimates was higher than that for inbreeding. Estimates of effective population size obtained from genome-wide and pedigree information were consistent and ranged from about 66 to 79. These low values emphasize the need of controlling the rate of increase of coancestry and inbreeding in Holstein selection programmes.