McCuistion K C, Titgemeyer E C, Awawdeh M S, Gnad D P
Department of Animal Sciences and Industry, Kansas State University, Manhattan 66506-1600, USA.
J Anim Sci. 2004 Mar;82(3):759-69. doi: 10.2527/2004.823759x.
Two experiments were conducted with ruminally cannulated Holstein steers to determine effects of N supply on histidine (His) utilization. All steers received 2.5 kg DM/d of a diet based on soybean hulls; abomasal infusion of 250 g/d amino acids, which supplied adequate amounts of all essential amino acids except His; abomasal infusion of 300 g/d glucose; and ruminal infusion of 180 g/d acetate, 180 g/d propionate, and 45 g/d butyrate. Both experiments were 6 x 6 Latin squares with treatments arranged as 3 x 2 factorials. No significant (P < 0.05) interactions between main effects were noted for N balance criteria in either Exp. 1 or 2. For Exp. 1, steers (146 +/- 7 kg) received 0, 1.5, or 3 g/d of L-His infused abomasally in combination with 0 or 80 g/d urea infused ruminally to supply a metabolic ammonia load. Urea infusions increased (P < 0.05) ruminal ammonia concentration from 8.6 to 19.7 mM and plasma urea from 2.7 to 5.1 mM. No change in N retention occurred in response to urea (35.1 and 37.1 g/d for 0 and 80 g/d urea, respectively, P = 0.16). Retained N increased linearly (P < 0.01) with His (31.5, 37.8, and 39.0 g/d for 0, 1.5, and 3 g/d L-His, respectively). Efficiency of deposition of supplemental His between 0 and 1.5 g/d averaged 65%. In Exp. 2, steers (150 +/- 6 kg) were infused abomasally with 0 or 1 g/d of L-His in combination with no additional amino acids (Control), 100 g/d of essential + 100 g/d of nonessential amino acids (NEAA+EAA), or 200 g/d of essential amino acids (EAA). Retained N increased (P = 0.02) from 34.2 to 38.3 g/d in response to His supplementation. Supplementation with NEAA+EAA increased (P < 0.05) N retention (33.9, 39.3, and 35.6 g/d for Control, NEAA+EAA, and EAA, respectively), likely in response to increased energy supply. Plasma urea concentrations of steers receiving NEAA+EAA (3.8 mM) and EAA (3.8 mM) were greater (P < 0.05) than those of Control steers (2.7 mM). The average efficiency of His utilization was 63%, a value similar to the value of 65% observed in Exp. 1, as well as the 71% value predicted by the Cornell net carbohydrate and protein system model. Under our experimental conditions, increases in N supply above requirements, as either ammonia or amino acids, did not demonstrate a metabolic cost in terms of His utilization for whole-body protein deposition by growing steers.
进行了两项试验,用瘤胃插管的荷斯坦公牛来确定氮供应对组氨酸(His)利用的影响。所有公牛每天采食2.5千克基于大豆皮的日粮;皱胃灌注250克/天的氨基酸,提供除His外的所有必需氨基酸的充足量;皱胃灌注300克/天的葡萄糖;瘤胃灌注180克/天的乙酸盐、180克/天的丙酸盐和45克/天的丁酸盐。两项试验均采用6×6拉丁方设计,处理按3×2析因排列。在试验1或试验2中,对于氮平衡标准,主效应之间均未观察到显著(P<0.05)的交互作用。试验1中,公牛(146±7千克)皱胃灌注0、1.5或3克/天的L-His,并结合瘤胃灌注0或80克/天的尿素以提供代谢性氨负荷。尿素灌注使瘤胃氨浓度从8.6毫摩尔/升增加到19.7毫摩尔/升(P<0.05),血浆尿素从2.7毫摩尔/升增加到5.1毫摩尔/升。对尿素的反应,氮潴留未发生变化(分别为0和80克/天尿素时,氮潴留量为35.1和37.1克/天,P=0.16)。随着His的增加,潴留氮呈线性增加(P<0.01)(分别为0、1.5和3克/天L-His时,氮潴留量为31.5、37.8和39.0克/天)。0至1.5克/天补充His的沉积效率平均为65%。试验2中,公牛(150±6千克)皱胃灌注0或1克/天的L-His,并结合不补充额外氨基酸(对照)、100克/天必需氨基酸+100克/天非必需氨基酸(NEAA+EAA)或200克/天必需氨基酸(EAA)。补充His使氮潴留量从34.2克/天增加到38.3克/天(P=0.02)。补充NEAA+EAA增加了氮潴留(对照、NEAA+EAA和EAA组分别为33.9、39.3和35.6克/天,P<0.05),可能是对能量供应增加的反应。接受NEAA+EAA(3.8毫摩尔/升)和EAA(3.8毫摩尔/升)的公牛血浆尿素浓度高于对照公牛(2,7毫摩尔/升)(P<0.05)。His利用的平均效率为63%,该值与试验1中观察到的65%以及康奈尔净碳水化合物和蛋白质系统模型预测的71%的值相似。在我们的试验条件下,超过需求的氮供应增加,无论是以氨还是氨基酸的形式,对于生长公牛全身蛋白质沉积的His利用而言,均未表现出代谢成本。
