Molecular basis for residual feed intake in beef cattle.
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Specific microbiome-dependent mechanisms underlie the energy harvest efficiency of ruminantsLivestock metabolomics and the livestock metabolome: A systematic review.Systems biology analysis merging phenotype, metabolomic and genomic data identifies Non-SMC Condensin I Complex, Subunit G (NCAPG) and cellular maintenance processes as major contributors to genetic variability in bovine feed efficiency.Impact of feed efficiency and diet on adaptive variations in the bacterial community in the rumen fluid of cattle.Genome-wide association analysis of feed intake and residual feed intake in Nellore cattleTranscriptome analysis of mRNA and miRNA in skeletal muscle indicates an important network for differential Residual Feed Intake in pigs.Genetic parameters of feed efficiency traits in laying period of chickens.Proteomic analysis indicates that mitochondrial energy metabolism in skeletal muscle tissue is negatively correlated with feed efficiency in pigs.Invited review: improving feed efficiency in dairy production: challenges and possibilities.Stress and immunological response of heifers divergently ranked for residual feed intake following an adrenocorticotropic hormone challenge.Digestion and metabolism of low and high residual feed intake Nellore bulls.Copy number variations and genome-wide associations reveal putative genes and metabolic pathways involved with the feed conversion ratio in beef cattle.Bovine NR1I3 gene polymorphisms and its association with feed efficiency traits in Nellore cattle.Relationships among performance, residual feed intake, and temperament assessed in growing beef heifers and subsequently as 3-year-old, lactating beef cows.Candidate genes and single nucleotide polymorphisms associated with variation in residual feed intake in beef cattle.Association of SNP of neuropeptide Y, leptin, and IGF-1 genes with residual feed intake in confinement and under grazing condition in Angus cattle.Association analysis for feed efficiency traits in beef cattle using preserved haplotypes.Endocrine and hematological responses of beef heifers divergently ranked for residual feed intake following a bovine corticotropin-releasing hormone challenge.Beef steers with average dry matter intake and divergent average daily gain have altered gene expression in the jejunum.Transcriptomic analysis by RNA sequencing reveals that hepatic interferon-induced genes may be associated with feed efficiency in beef heifers.Plasma nitrogen isotopic fractionation and feed efficiency in growing beef heifers.Molecular value predictions: associations with beef quality, carcass, production, behavior, and efficiency phenotypes in Brahman cattle.RNA-Seq Meta-analysis identifies genes in skeletal muscle associated with gain and intake across a multi-season study of crossbred beef steers.
P2860
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P2860
Molecular basis for residual feed intake in beef cattle.
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
@pt
bilimsel makale
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scientific article published on 24 October 2008
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Molecular basis for residual feed intake in beef cattle.
@en
Molecular basis for residual feed intake in beef cattle.
@nl
type
label
Molecular basis for residual feed intake in beef cattle.
@en
Molecular basis for residual feed intake in beef cattle.
@nl
prefLabel
Molecular basis for residual feed intake in beef cattle.
@en
Molecular basis for residual feed intake in beef cattle.
@nl
P2093
P356
P1476
Molecular basis for residual feed intake in beef cattle.
@en
P2093
E L Sherman
F D Mujibi
P356
10.2527/JAS.2008-1418
P407
P433
P577
2008-10-24T00:00:00Z