5 resultados para Animal genetics
Resumo:
Abstract: Selection among broilers for performance traits is resulting in locomotion problems and bone disorders, once skeletal structure is not strong enough to support body weight in broilers with high growth rates. In this study, genetic parameters were estimated for body weight at 42 days of age (BW42), and tibia traits (length, width, and weight) in a population of broiler chickens. Quantitative trait loci (QTL) were identified for tibia traits to expand our knowledge of the genetic architecture of the broiler population. Genetic correlations ranged from 0.56 +/- 0.18 (between tibia length and BW42) to 0.89 +/- 0.06 (between tibia width and weight), suggesting that these traits are either controlled by pleiotropic genes or by genes that are in linkage disequilibrium. For QTL mapping, the genome was scanned with 127 microsatellites, representing a coverage of 2630 cM. Eight QTL were mapped on Gallus gallus chromosomes (GGA): GGA1, GGA4, GGA6, GGA13, and GGA24. The QTL regions for tibia length and weight were mapped on GGA1, between LEI0079 and MCW145 markers. The gene DACH1 is located in this region; this gene acts to form the apical ectodermal ridge, responsible for limb development. Body weight at 42 days of age was included in the model as a covariate for selection effect of bone traits. Two QTL were found for tibia weight on GGA2 and GGA4, and one for tibia width on GGA3. Information originating from these QTL will assist in the search for candidate genes for these bone traits in future studies.
Resumo:
A caprinocultura leiteira no Brasil vem se consolidando nos últimos anos, seja pelo aumento na produção no Nordeste alavancada por políticas públicas, seja pelo aumento na oferta de derivados lácteos, com alto valor agregado, observado com maior intensidade nas regiões Sul e Sudeste do País. Esse crescimento, ao exemplo do que ocorreu em outros países tropicais e subtropicais, tem sido sustentado pelo uso de material genético importado, notadamente de países da Europa, de raças como a Saanen, as Alpinas e a Toggenburg, e ainda a Anglo Nubiana. No entanto, a base de dados sobre o potencial de produção e a composição em constituintes lácteos dessas raças puras e de suas cruzas, ainda não está bem caracterizada nos países de clima tropical e subtropical, devido a tais informações não estarem disponíveis em número suficiente, ou de serem avaliadas superficialmente ou ainda não estarem devidamente sistematizadas e disponibilizadas. Baseado nisso, reuniram-se nesta Série Embrapa Documentos informações publicadas na literatura sobre o desempenho produtivo (produção de leite e de seus constituintes) das raças europeias mais difundidas mundialmente, em estado puro ou utilizadas em cruzamentos em ambientes tropical e subtropical. Espera-se que este documento subsidie a tomada de decisão quanto ao uso dos recursos genéticos disponíveis no País, bem como, seja base para disciplinas acadêmicas para técnicos e produtores de caprinos leiteiros.
Resumo:
The myogenic differentiation 1 gene (MYOD1) has a key role in skeletal muscle differentiation and composition through its regulation of the expression of several muscle-specific genes. We first used a general linear mixed model approach to evaluate the association of MYOD1 expression levels on individual beef tenderness phenotypes. MYOD1 mRNA levels measured by quantitative polymerase chain reactions in 136 Nelore steers were significantly associated (P ? 0.01) with Warner?Bratzler shear force, measured on the longissimus dorsi muscle after 7 and 14 days of beef aging. Transcript abundance for the muscle regulatory gene MYOD1 was lower in animals with more tender beef. We also performed a coexpression network analysis using whole transcriptome sequence data generated from 30 samples of longissimus muscle tissue to identify genes that are potentially regulated by MYOD1. The effect of MYOD1 gene expression on beef tenderness may emerge from its function as an activator of muscle-specific gene transcription such as for the serum response factor (C-fos serum response element-binding transcription factor) gene (SRF), which determines muscle tissue development, composition, growth and maturation.
Resumo:
2016
Resumo:
2016
