01854naa a2200337 a 450000100080000000500110000800800410001902400300006010000190009024500780010926000090018752009390019665000280113565000140116365000210117765000140119865000120121265000300122465000100125465000150126465000150127965000210129465000110131565000220132665000160134865000160136465000150138065300190139565300200141477300820143415201672023-07-13       1983    bl uuuu     u00u1 u    #d7 a10.1079/pns19830020.2DOI1 aBUTTERY, P. J.  aHormonal control of protein deposition in animals.h[electronic resource]  c1983  aThere is unlikely to be one hormone which is clearly responsible for protein deposition and all muscles may not behave identically. Growth (protein deposition). Table 3. The effect of trenbolone acetate (TBA) or aeranol(2) on muscle protein synthetic rates, muscle cathepsin D activity and plasma oestradiol concentration in entire female lambs; is more likely to be a response to the hormonal balance favouring anabolism, rather than catabolism. Although only referred to briefly here, it is important that when considering protein deposition, attention must not be confined to proteinaceous tissues. The partition between amino acids and carbohydrates (the influence of glucagon is of importance here) obviously has a significant role to play. Bone growth may also be important if the length of the bones is increased (e.g. by the action of somatomedins), then the muscles which move the bones must be longer and most likely bigger.  aAdrenal cortex hormones  aAndrogens  aBody composition  aEstrogens  aFemales  aGastrointestinal hormones  aMales  aMetabolism  aPhysiology  aThyroid hormones  aAnimal  aControle Hormonal  aCrescimento  aMetabolismo  aNutrição  aGrowth Hormone  aMuscle Proteins  tThe Proceedings of the Nutrition Societygv. 42, n. 2, p. 137-148, Jun. 1983.