Add to ORKGIn livestock, skeletal muscle is a tissue of major economic importance for meat production and muscle mass is largely determined during the prenatal period by the number and the size of muscle fibres. The understanding of gene expression changes during prenatal pig muscle development is still limited. In this study, genes identified as differentially expressed in a previous microarray research and chosen for the function of the coded protein as putative candidate involved in myogenesis were considered to analyse their expression profile during foetal growth of Duroc and Pietrain pigs. The eleven genes were considered by real-time PCR for a time-course evaluation of the transcription level at six stages of prenatal longissimus dorsi developm...
The regulatory relationship and connectivity among genes involved in myogenesis and hypertrophy of s...
In order to determine candidate genes involved in production traits, the mRNA levels of muscle tissu...
Skeletal muscle growth is determined by the number of prenatally formed fibres and by the degree of ...
In livestock, skeletal muscle is a tissue of major economic importance for meat production and muscl...
In this study, genes identified as differentially expressed in a previous microarray research and ch...
Mammalian myogenesis is an exclusive prenatal process regulated by the muscle regulatory factor gene...
In this contribution two microarray experiments are reviewed aiming to describe (1) the differences ...
Myogenesis, the formation of muscle fibers, is a complex process. Pigs have been selected for effici...
The objective of this study was to compare purebred Duroc and Pietrain prenatal muscle tissue transc...
Using microarray technology the authors studied both the expression patterns of the genes involved i...
Pig is an important animal for meat production; this is generally associated with characteristics de...
To gain insight into the regulation mechanism associated with the rapid gain in skeletal muscle duri...
The aim of the study was to compare purebred Duroc and Pietrain prenatal muscle tissue transcriptome...
Abstract This study used qRT-PCR to examine variation in the expression of 13 myogenes during muscle...
From the perspectives of promoting individual growth and development, increasing pork yield, and imp...
The regulatory relationship and connectivity among genes involved in myogenesis and hypertrophy of s...
In order to determine candidate genes involved in production traits, the mRNA levels of muscle tissu...
Skeletal muscle growth is determined by the number of prenatally formed fibres and by the degree of ...
In livestock, skeletal muscle is a tissue of major economic importance for meat production and muscl...
In this study, genes identified as differentially expressed in a previous microarray research and ch...
Mammalian myogenesis is an exclusive prenatal process regulated by the muscle regulatory factor gene...
In this contribution two microarray experiments are reviewed aiming to describe (1) the differences ...
Myogenesis, the formation of muscle fibers, is a complex process. Pigs have been selected for effici...
The objective of this study was to compare purebred Duroc and Pietrain prenatal muscle tissue transc...
Using microarray technology the authors studied both the expression patterns of the genes involved i...
Pig is an important animal for meat production; this is generally associated with characteristics de...
To gain insight into the regulation mechanism associated with the rapid gain in skeletal muscle duri...
The aim of the study was to compare purebred Duroc and Pietrain prenatal muscle tissue transcriptome...
Abstract This study used qRT-PCR to examine variation in the expression of 13 myogenes during muscle...
From the perspectives of promoting individual growth and development, increasing pork yield, and imp...
The regulatory relationship and connectivity among genes involved in myogenesis and hypertrophy of s...
In order to determine candidate genes involved in production traits, the mRNA levels of muscle tissu...
Skeletal muscle growth is determined by the number of prenatally formed fibres and by the degree of ...