The chemical composition of carcasses can be predicted from proxy traits in finishing male beef cattle: A meta-analysis

Management practices can contribute to improving carcass quality if carcass quality could be simply evaluated under a wide range of conditions. The objective of this study was to derive quantitative relationships between the most accurate (but laborious) measurements of carcass chemical composition and proxy traits easily obtainable at slaughter (yield grade, subcutaneous fat thickness, marbling, ribeye area and hot carcass weight) by meta-analysis. Data from 34 publications using male beef cattle were used to develop and validate the models. The breeds were characterized according to origin, rate of maturity, production purpose and frame size. The results indicated that the changes in carcass fat and protein can be predicted from the yield grade or subcutaneous fat thickness, and hot carcass weight, with prediction errors ranging between 9 and 12%. Including the breed characteristics in the models did not improve the fit. The relationships are applicable to group values of male beef cattle having light and fatty carcasses from early-maturing British breeds.

Growth performance and carcass quality of crossbreds pigs from two Pietrain sire lines fed isoproteic diets varying in energy concentration

The effects of net energy (NE) content of isoproteic diets on growth performance and carcass and meat quality traits were studied in crossbreds from Landrace×Large White females and two Pietrain sire lines (PIC L62 vs. German Pietrain). Feed intake (FI) decreased (Lineal, P<0.001) and feed efficiency improved (Lineal, P<0.001) as the NE content of the diet increased. Crossbreds from PIC L62 had greater (P<0.001) FI and average daily gain (ADG) but were less efficient (P<0.01) than crossbreds from German Pietrain. German Pietrain crossbreds were leaner (P<0.001) and had higher shoulder yield (P<0.01) and less fat at m. Gluteus medius (P<0.001) than carcasses from PIC L62 crossbreds. In summary, an increase in the NE concentration of the diet improved feed efficiency but did not affect ADG. Crossbreeds from PIC L62 sires grew faster and had fatter carcasses than crossbreds from German Pietrain.

Evidence that leptin-induced weight loss requires activation of both forebrain and hindbrain receptors

Previous studies with chronic decerebrate rats and rats infused with leptin into the 4th ventricle suggest that hindbrain leptin receptors attenuate the catabolic effect of forebrain leptin receptor activation. To test this further, rats were fitted with both 3rd and 4th ventricle cannulae. They were infused for 12 days with different combinations of saline, low dose leptin or leptin receptor antagonist (leptin mutein protein). Infusion of 0.1 μg leptin/day into the 3rd ventricle or 0.6 μg leptin/day into the 4th ventricle had no significant effect on food intake, energy expenditure or body composition. Infusion of 2 μg mutein/day into either ventricle caused a small, but significant weight gain. When mutein was infused into one ventricle and leptin into the other, the rats lost weight irrespective of which combination was applied. Surprisingly, rats that received leptin infusions into both ventricles showed an initial hypophagia, no change in energy expenditure, but a 75% loss of carcass fat after 12 days. These data suggest that neuronal pathways activated by leptin receptors in either the forebrain or hindbrain modulate each other's effects. In normal conditions hindbrain leptin may attenuate the catabolic effect of forebrain leptin, but if activity in one area is blocked with mutein, then the catabolic response to leptin in the other ventricle is exaggerated. When receptors in both areas are activated there is an integration of response to produce negative energy balance. This may ensure that leptin causes a loss of fat only when leptin is elevated in both the CSF and periphery.