Beef tenderness, a complex trait affected by many factors, is economically important to beef quality, industry, and consumer’s palatability. In this study, RNA-Seq was used in network analysis to better understand the biological processes that lead to differences in beef tenderness. Skeletal muscle transcriptional profiles from 24 Nellore steers, selected by extreme estimated breeding values (EBVs) for shear force after 14 days of aging, were analyzed and 22 differentially expressed transcripts were identified. Among these were genes encoding ribosomal proteins, glutathione transporter ATP-binding cassette, sub-family C (CFTR/MRP), member 4 (ABCC4), and synaptotagmin IV (SYT4). Complementary co-expression analyses using Partial Correlation ...
Abstract only availableFaculty Mentor: Jerry Taylor, Animal ScienceBeef tenderness is a major factor...
Background: Previous research programmes have described muscle biochemical traits and gene expressio...
Understanding the architecture of gene expression is fundamental to unravel the molecular mechanisms...
Beef tenderness, a complex trait affected by many factors, is economically important to beef quality...
Beef tenderness, a complex trait affected by many factors, is economically important to beef quality...
Beef tenderness, a complex trait affected by many factors, is economically important to beef quality...
Beef quality in Brazil is important for both consumers and the food industry due to high demand and ...
miRNAs are a class of small, single-stranded, non-coding RNAs that perform post-transcriptional repr...
Carcass traits are influenced by a complex network of gene interactions in muscle, so elucidating th...
Residual Feed Intake (RFI) is an economically relevant trait in beef cattle. Among the molecular reg...
RNA sequencing (RNA-seq) has allowed for transcriptional profiling of biological systems through the...
Background: Meat tenderness is the consumer's most preferred sensory attribute. This trait is affect...
Background: The amount of intramuscular fat can influence the sensory characteristics and nutritiona...
Meat quality is a complex trait that is influenced by genetic and environmental factors, which inclu...
Meat quality is a complex trait that is influenced by genetic and environmental factors, which inclu...
Abstract only availableFaculty Mentor: Jerry Taylor, Animal ScienceBeef tenderness is a major factor...
Background: Previous research programmes have described muscle biochemical traits and gene expressio...
Understanding the architecture of gene expression is fundamental to unravel the molecular mechanisms...
Beef tenderness, a complex trait affected by many factors, is economically important to beef quality...
Beef tenderness, a complex trait affected by many factors, is economically important to beef quality...
Beef tenderness, a complex trait affected by many factors, is economically important to beef quality...
Beef quality in Brazil is important for both consumers and the food industry due to high demand and ...
miRNAs are a class of small, single-stranded, non-coding RNAs that perform post-transcriptional repr...
Carcass traits are influenced by a complex network of gene interactions in muscle, so elucidating th...
Residual Feed Intake (RFI) is an economically relevant trait in beef cattle. Among the molecular reg...
RNA sequencing (RNA-seq) has allowed for transcriptional profiling of biological systems through the...
Background: Meat tenderness is the consumer's most preferred sensory attribute. This trait is affect...
Background: The amount of intramuscular fat can influence the sensory characteristics and nutritiona...
Meat quality is a complex trait that is influenced by genetic and environmental factors, which inclu...
Meat quality is a complex trait that is influenced by genetic and environmental factors, which inclu...
Abstract only availableFaculty Mentor: Jerry Taylor, Animal ScienceBeef tenderness is a major factor...
Background: Previous research programmes have described muscle biochemical traits and gene expressio...
Understanding the architecture of gene expression is fundamental to unravel the molecular mechanisms...