阿拉善双峰驼驼乳蛋白中氨基酸的含量变化及营养价值研究

本文研究了10峰阿拉善双峰驼第1次分娩后不同泌乳时间驼乳中氨基酸的含量。第1次所挤驼乳的蛋白质中Thr、Val、Met、Ile、Leu、Phe和Lys等必需氨基酸的含量分别为6．50、6．52、2．10、4．05、7．94、4．38和7．40g／100g，90天时驼乳蛋白质中相应的值分别为4．52、6．20、3．16、5．61、9，48、4．73和7．75g／100g。第1次所挤驼乳的蛋白质中Asp．Ser．Gly．Ala．Arg、Glu、Cys、Tyr和Pro的含量分别为8，39、6，01、3．48、3．76、4．94、17．66、0．40、4.75和7．64g／100g，90天时驼乳蛋白质中相应的值分别为7．15、4．65、1．50、2．46、4．11、21．27、1．08、3．96和7．68g／100g。驼乳蛋白质中的必需氨基酸构成和FAO／WHO的推荐值十分接近，驼乳蛋白质对人体具有很高的营养价值。     

新疆褐牛初乳中蛋白质、氨基酸和IgG测定

测定10头全舍饲新疆褐牛母牛分娩后2h、24h、48h、72h、96h、120h初乳中蛋白质、免疫球蛋白G(IgC)含量以及2h、24h、48h 17种氨基酸含量，结果：蛋白质含量分别为12．59、6．08、4．75、4．41、4．10、4．09g／100g，是常乳(3．2g／100g)的3．93、1．90、1．48、1．38、1．28、1．28倍；IgG含量分别为60．56、16．67、4．00、1．77、1．09、0．74mg／ml，是常乳的108．14、29．77、7．14、3．16、1．95、1．32倍。母牛分娩后2h、24h、48h初乳中17种氨基酸总含量分别是常乳的5．03、2．25、1．34倍。牛初乳蛋白中的氨基酸构成和FAO／WHO推荐值十分相近，尤其对幼儿具有很高的营养价值。     

多浪羊羊奶营养成分研究

文章对多浪羊初乳及常乳营养成分进行了分析。结果表明：多浪羊羊奶营养丰富,常乳中蛋白质、脂肪、乳糖、铁、锌、钙、磷、维生素B1、维生素B2、维生素E的含量分别为5．79％、6．40％、4．56％、0．36mg／100g、6．7mg／100g、195．86mg／100g、146．0mg／100g、0．043mg／100g、0．214mg／100g。初乳中蛋白质、脂肪、乳糖、铁、锌、钙、磷、维生素B1、维生素B2、维生素E的含量分别为常乳的3．6、2．0、0．4、2．6、7．0、1．1、3．0、17．9、13．5倍。氨基酸含量丰富,富含人体所需的必需氨基酸。     

牛奶中的氨基酸含量及其营养价值

乳蛋白是牛奶的主要营养成分之一，荷斯坦牛的乳蛋白率为2．8％－3．4％，其中18种主要氨基酸含量为2．500－3．000mg/100g。乳蛋白中人体必需要氨基酸的比例和FEAO／WHO推荐的氨基酸比例十分接近，乳蛋白具有很高的营养价值，奶牛分娩后72h内的初乳中氨基酸含量是常乳的1．5－6．83倍，随着泌乳时间的延长，氨基酸含量逐渐下降，但其中6种人体必需氨基酸的比例有所上升，初乳中还含有多种免疫球蛋白和生长因子，是制造功能性食品的优质原料。     

新疆褐牛初乳产量及乳成分测定

测定10头全舍饲新疆褐牛母牛分娩后2h、24h、48h、72h、96h、120h的初乳产量及常规营养成分含量，结果2h(第1次)所挤初乳产量平均为4．73kg；3天(72h)内初乳平均总产量为46．6kg，占成母牛305天平均产奶量的0．9％；5天(120h)内初乳平均总产量为85．1kg，占305天平均产奶量的1，65％。母牛分娩后2h挤出的初乳其蛋白质、脂肪、乳糖、灰分的含量分别为11．59、6.5、2．87、1．11g／100g，是常乳的3．93、1．76、0．57、1．48倍。钙、磷、钠、镁、铁、锌的含量分别为186．03、167．10、89．65、23．31、0．30、2．25mg／100g，是常乳的1．66、2．01、1．81、2．05、2．14、6，43倍。随泌乳期的延长，初乳乳糖逐渐上升，其它成分则迅速下降，至第120h(第5天)，除蛋白质及矿物元素的锌以外，各种成分已和常乳相接近。新疆褐牛分娩后不同时间段初乳成分的变化规律和荷斯坦牛相似。     

不同塑粗料对牛乳中共轭亚油酸含量的影响

为研究奶牛饲喂不同粗料对乳中共轭亚油酸（CLA）含量的影响,以北方牧场饲喂4种粗饲料的81头泌乳奶牛为试验对象,测定其乳中共轭亚油酸含量。结果表明,牧草组c9,t11 CLA在脂肪酸中的含量和产量最高,其值分别为7．4g／kg和4．43g／d。结论：粗料可以影响乳中共轭亚油酸含量。     

气相色谱法检测沙咪珠利中的残留溶剂

建立了同步测定沙咪珠利中甲醇、乙醇和甲苯残留溶剂的气相色谱法。采用DB-WAX（30m×0．25mm×0．25μm）毛细管柱,程序升温,初始60℃,保持4min,50℃／min升至80℃,保持1min。再以100℃／min升至200℃。保持4min;载气为氮气,直接进样,测定残留溶剂含量。甲醇、乙醇和甲苯线性范围分别为31．68～506．8、18．96～758．4、8．64～138．7μg/mL（R^2：0．9958～0．9971）,定量限分别为2．091、1．564、0．572μg／kg,精密度RSD均小于5％,平均回收率为99．87％-100．39％。采用气相色谱方法可同时测定沙咪珠利中残留的甲醇、乙醇和甲苯的含量,方法简便准确。     

猪乳中乳成分变化的曲线拟合

以 10 0头二花脸母猪作为试验动物 ,对猪乳中蛋白质、乳糖、IGF- 、EGF和胰岛素含量在泌乳 1～ 2 1d阶段的变化进行了曲线拟合 ,并分析了这些乳成分的变化规律。结果表明 ,倒数曲线为乳蛋白、IGF- 、EGF和胰岛素随泌乳时间变化的最优拟合曲线。乳蛋白、IGF- 、EGF和胰岛素含量随时间的延续而下降 ,其拟合方程分别为 :y=33.74 4 85 .80 3÷ x(g· L- 1 ) ,y=4 2 .5 94 2 90 .0 2 3÷ x(μg· L- 1 ) ,y=132 .84 1 6 38.5 98÷ x(ng· L- 1 ) ,y=18.0 73 316 .92 3÷ x(U·m L- 1 ) ,其中 x为泌乳天数。乳糖的最优拟合曲线为对数曲线 ,乳糖含量随时间的延续而上升 ,其拟合方程为 :y=32 .2 2 3 9.6 2 6 lnx(g· L- 1 ) ,x为泌乳天数。猪乳成分变化最为剧烈的是在初乳期 ,7d后过渡到相对比较平稳的常乳期     

双峰驼乳和牛乳蛋白质氨基酸含量和组成比较分析

收集国内有关双峰驼乳和牛乳蛋白质氨基酸含量和组成的文献18篇,共得驼乳数据18组,牛乳数据32组,分别统计计算其氨基酸含量和组成.结果表明:驼乳总氨基酸(TAA)、必需氨基酸(EAA)平均含量分别为3.99g/100g和1.78g/100g,牛乳相应为3.05g/100g和1.31g/100g;驼乳EAA占TAA百分比...     

新疆驼乳粉中维生素含量测定的研究

按食品安全国家标准规定的方法测定新疆3 家驼乳加工企业生产的驼乳粉中维生素含量.结果表明,驼乳粉平均含维生素A 222.00 μg/100 g,维生素E 0.720 mg/100 g,维生素B1 0.091 mg/100 g,维生素B2 0.091 mg/100 g,维生素B12 1.60 μg/100 g,烟酸1 7...     

不同植物蛋白的日粮对山羊胃肠道食糜氨基酸和肽的影响

选择3只徐淮白山羊,采用4×3拉丁方设计研究不同植物性蛋白源日粮(A:豆粕、B:棉籽粕、C:菜籽粕、D:玉米酒糟)对瘤胃和十二指肠内氨基酸和肽的影响。结果表明:各处理组瘤胃内的游离氨基酸、肽氨基酸浓度分别为8.55、5.38、7.37和7.74mg/L和41.76、36.89、33.65、29.59mg/L;游离氨基酸组成以Glu、Pro所占比例相对较大,Gly、Thr、Leu和Phe所占比例相对较小。肽氨基酸组成以Asp、Glu、Ser、Pro、Val含量相对较高,而Arg、Phe含量相对较低。十二指肠食糜游离氨基酸、肽氨基酸浓度分别为48.71、32.26、35.72、51.23mg/L和11.28、8.54、9.95、12.54g、100gDM;其中游离氨基酸中以Tyr、Ala、Val、Leu、Phe含量相对较高,His、Cys含量相对较低。各组中总氨基酸含量以Ala、Val、Leu、Phe含量相对较高,His、Cys含量相对较低;进入十二指肠的菌体蛋白氨基酸含量,以豆粕组最高,进入十二指肠的饲料氨基酸含量,以玉米酒糟组最高。     

黄河滩区２种豆科牧草不同生育期氨基酸瘤胃降解特性的研究

 以６头装有永久瘤胃瘘管的小尾寒羊为试验动物,用尼龙袋法测定了２种不同生育期豆科牧草苜蓿和白三叶在绵羊瘤胃降解前后氨基酸的变化差异。结果表明,１）２种豆科牧草总氨基酸含量总体上随生育期呈下降趋势,即在分蘖期最高,成熟期最低。总氨基酸／粗蛋白的高峰值都出现在开花期;２）２种豆科牧草的天冬氨酸、谷氨酸、甘氨酸、脯氨酸、酪氨酸、丝氨酸、精氨酸、苏氨酸、赖氨酸和苯丙氨酸在瘤胃中较易降解（犘＜０．０５或犘＜０．０１）;丙氨酸、缬氨酸、蛋氨酸、胱氨酸、异亮氨酸、亮氨酸在瘤胃中有比较好的抗降解作用（犘＞０．０５）;３）随着生育期的推进,成熟牧草中的各种氨基酸在瘤胃中越不易降解。     

Utilization of milk amino acids by the suckling Iberian piglet

Sixteen pure-bred Iberian (IB) sows were used in two trials to determine the efficiency of utilization of milk protein and amino acid (AA) for growth in suckling piglets. It was hypothesized that there may be one or more strongly limiting essential AA (EAA) responsible for the slow rate of growth of the IB piglet. This AA will show the highest fractional retention. Daily milk yield and composition were determined weekly over a 34-day lactation period. Within each litter, one piglet at birth and four piglets on d 35 of life were slaughtered. The protein content of the IB sow milk was similar to that reported for conventional breeds. However, branched-chain AA, Thr, Pro, Asp and Ala were in concentrations somewhat below the range of literature values and Arg and Met, substantially above it. Milk intake per piglet tended to be greater in Trial 2 (832 vs. 893 g/day respectively; p = 0.066). However, the IB piglets grew at 168 ± 3.3 g/day, irrespective of the trial. The whole-body protein of piglets at weaning and the protein deposited in their body during the lactating period showed very close AA pattern. Among EAA, His and Arg show the highest fractional retentions (g AA retained/g AA ingested) in whole-body tissues (1.019 ± 0.025 and 0.913 ± 0.017 respectively) and also the highest body to milk ratios (1.50 and 1.41 respectively). Gly and Ala presented, among non essential AA, the highest efficiencies of utilization for tissue deposition (1.803 ± 0.057 and 1.375 ± 0.026 respectively) and body to milk ratios (2.75 and 2.12 respectively). These results suggest that the low efficiency of utilization of milk protein and the low rate of gain of the IB suckling piglet can be explained by a marked shortage in His supply, in addition to the suboptimal milk provision of Arg, Gly and Ala.     

不同精粗饲料对泌乳中期山羊氨基酸的代谢流向及乳蛋白含量的影响

 通过检测泌乳中期山羊血浆及乳中游离氨基酸含量的变化,探讨不同精粗比饲料对机体中氨基酸（ａｍｉｎｏａｃｉｄｓ,ＡＡ）的代谢流向及乳蛋白的影响。选用泌乳中期山羊７只,随机分为２组,分别饲喂精粗比４∶６（低精料组）和６∶４（高精料组）日粮,颈静脉血管瘘采血,手工挤奶取奶样。Ｂｒａｄｆｏｒｄ法测定乳中总蛋白质浓度,ＲＰ－ＨＰＬＣ检测山羊血浆和乳中游离氨基酸的含量。结果表明,２组山羊血浆中均分离出１４种游离氨基酸,乳中分离出８种游离氨基酸,不同精粗比饲料对血液或乳中游离氨基酸谱无明显影响。不同精粗比日粮情况下,除丙氨酸外,血液中游离氨基酸的含量均高于乳中同种氨基酸的含量;且血液中生酮氨基酸（Ｌｅｕ,Ｌｙｓ）、兼性氨基酸（Ｐｈｅ,Ｉｌｅ）和支链氨基酸（Ｌｅｕ,Ｉｌｅ和Ｖａｌ）含量显著或极显著高于乳中。高精料组除Ｇｌｙ和Ａｌａ外,其余氨基酸含量均低于低精料组;乳中总蛋白浓度略高于低精料组,但无统计学差异。表明血液中游离氨基酸为乳蛋白的合成提供了原料和能量保证。饲喂高精料日粮,血液中游离氨基酸含量较低,不利于乳蛋白含量和产量的提高。     

The Content of Amino Acids in Pasture Vegetation and Their Apparent Digestibility in 2-year-old Horses

Ten samples of plant vegetation and 10 samples of fresh excrement were taken from the same pasture area. The excrement were collected from 10 2-year-old Old Kladruber horses that received the pasture vegetation daily. The apparent digestibility of nitrogen and amino acids in pasture vegetation was determined by using the acid-insoluble ash marker method. In comparison with excrement, the pasture vegetation contained higher levels of Ser, Ala, Leu, and His and higher levels of Pro (P ≤ .01), Met (P ≤ .01), and Arg (P ≤ .05). The mean level of Ile in pasture vegetation was lower than in excrement (P ≤ .05). The apparent digestibility of amino acids from pasture vegetation was high for Pro and Met (86.75 and 89.39%), moderate for Ser, Ala, Leu, His, and Arg (68.61%-76%), and low for Asp, Thr, Glu, Gly, Val, Leu, Tyr, Phe, and Lys (56.15%-66.03%). The digestibility of lysine and Ile was relatively low (56.39% and 56.15%, respectively). The total content of nitrogen per dry matter was 10.98 ± 2.46 g/kg for pasture vegetation and 12.12 ± 2.38 g/kg for excrement, whereas the content of protein nitrogen was 7.20 ± 0.25 g/kg and 6.89 ± 0.21 g/kg of dry matter in pasture vegetation and excrement, respectively. This means that only 65.55% and 56.90% of N is bound in proteins in pasture vegetation and excrement, respectively. Non-protein nitrogen accounts for 34.45% in pasture vegetation and for 43.10% in excrement.     

Muscle growth and plasma concentrations of amino acids, insulin-like growth factor-I, and insulin in growing pigs fed reduced-protein diets

Twenty barrows were used to determine if partial replacement of protein-bound AA with crystalline AA (CAA) reduces AA use for muscle tissue and whole-body growth. Barrows (44.2 +/- 1.3 kg of BW) were assigned to 4 diets in a randomized complete block design. Diets consisted of 16.1% CP with no CAA, and 12.8, 10.1, and 7.8% CP containing CAA. As the CP concentration decreased, CAA were gradually increased to meet requirements on a true ileal digestibility basis. Barrows were weighed on d 0 and 13. Blood samples were collected before the morning feeding on d 0, 6, and 12 (prefeeding), and 2 h after the morning feeding on d 13 (postfeeding). Pigs were euthanized on d 13, and liver and right LM were removed and weighed. The reduction in the dietary CP concentration linearly decreased (P < 0.01) ADG, G:F, LM weight, and the CP content of LM. Reducing the CP concentration decreased pre- and postfeeding plasma concentrations of IGF-I (linear, P < 0.01) and insulin (linear, P < 0.10). The reduction in the dietary CP concentration increased prefeeding plasma concentrations of Ala, Gln, Gly, and total AA but decreased Arg, Asn, His, Ile, Phe, Trp, and Tyr (linear, P < 0.05). Plasma concentration of total indispensable AA decreased initially and increased thereafter as the dietary CP concentration decreased from 16.1 to 7.8% (quadratic, P < 0.01). The reduction in the dietary CP concentration increased postfeeding plasma concentrations of Ala, Lys, Met (linear, P < 0.01), and Gly (linear, P = 0.073) and decreased Asn, Ser, Tyr, Arg, His, and Leu (linear, P < 0.05). Plasma concentrations of Ile, Phe, Thr, Trp, and Val decreased initially and increased thereafter as the dietary CP concentration decreased from 16.1 to 7.8% (quadratic, P < 0.05). In muscle tissue, concentrations of free Ala, Asp, Glu, Gln, Gly, and Lys increased (linear, P < 0.05) as the dietary CP concentration decreased. Concentrations of free His, Ile, Phe, Thr, Trp, and Val in muscle tissue decreased initially and increased thereafter as the dietary CP concentration decreased from 16.1 to 7.8% (quadratic, P < 0.05). In summary, the reduction in the dietary protein-bound AA decreased whole-body and LM growth, altered the free AA pool profile in muscle tissue, and decreased plasma insulin and IGF-I. As the replacement of protein-bound AA with CAA increased, 1) free Ala and Gln in muscle tissue increased, indicating an increase of muscle tissue protein breakdown; and 2) utilization of indispensable AA in muscle tissue decreased.     

Milk protein responses to balanced amino acid and removal of Leucine and Arginine supplied from jugular‐infused amino acid mixture in lactating dairy cows

This study was undertaken to evaluate the milk protein response when cows were supplied a balanced AA profile and to determine whether a deficiency of Leucine (Leu) or Arginine (Arg) had a negative effect on milk protein. Eight mid‐lactation Holstein cows were randomly assigned to 5‐day continuous jugular infusions of saline (CTL), EAA mixture prepared on the profile of casein and supplied (in % of lysine (Lys)) 100% of Lys, 33.3% of methionine (Met), 110.2% of Leu, 43.6% of Arg, 50.8% of threonine (Thr), 81.6% of valine (Val), 69.7% of isoleucine (Ile), 61.4% of phenylalanine (Phe) and 34.2% of histidine (His) (Casein, 160 g/d), EAA mixture excluding Leu (?Leu, 163 g/d) or EAA mixture excluding Arg (?Arg, 158 g/d) in a duplicated 4 × 4 Latin square design with four infusion periods separated by 7‐day interval period. The basal diet supplied 1.6 Mcal NE_L and 94.4 g MP per 1 kg DM to meet requirements for lactation. The Casein treatment provided a balanced supply (in % of MP) of 10.3% Leu and 5.3% Arg, whereas in the two subsequent ?Leu and ?Arg treatments, the concentration of Leu and Arg was reduced to 8.4 and 4.6% respectively. Dry matter intake (15.4 kg/day) was not affected by treatments. The Casein treatment increased milk yield (14.9%, p < 0.001), milk protein yield (120 g, p < 0.001) and milk protein efficiency (0.03, p = 0.099) than CTL treatment. However, the ?Leu treatment decreased the responses of above‐measured parameters by 6.25%, 70 g, 0.05 (p < 0.06) (compared with Casein). These effects of Leu were related to decreased Leu concentration and improved concentration of Ile and Val in plasma. The ?Arg treatment decreased the plasma Arg concentration than the Casein treatment, whereby resulted in the decrease of milk yield (5.7%, p = 0.073), milk protein yield (60 g, p = 0.011) and milk protein efficiency (0.04, p = 0.037). In conclusion, supply of EAA profile of casein can increase the lactation production in dairy cows, and 8.6% of Leu in MP partly limits the milk protein response when the requirements of Lys, Met and His were met. The level of Arg at 4.6% MP is not deemed to an ideal profile, as evidenced by decreased milk protein efficiency.     

颈静脉灌注不同模式的氨基酸混合物对泌乳奶牛乳蛋白合成的影响

本试验旨在比较颈静脉灌注酪蛋白模式和理想模式的氨基酸混合物对泌乳中期荷斯坦奶牛乳产量、乳成分以及乳腺对氨基酸摄取利用的影响。选择8头泌乳中期[泌乳天数:(82±11)d]荷斯坦奶牛作为试验动物,试验采用随机区组设计,将试验牛随机分为2组,分别颈静脉灌注160g/d酪蛋白模式(Casein组)和理想模式的氨基酸混合物(R组)。2个试验组分别以各自灌注前作为空白对照组(C1组为Casein组的空白对照组,C2组为R组的空白对照组)。预试期14d,灌注期5d。试验采用全混合日粮(TMR)饲喂,以玉米、豆粕、棉籽粕、玉米青贮、苜蓿干草和羊草为主要原料,参照NRC(2001)奶牛饲养标准配制。结果表明:灌注酪蛋白模式的氨基酸混合物后,乳蛋白产量和含量较灌注前呈上升趋势(乳蛋白产量上升7.14%,P=0.078;乳蛋白含量上升3.27%,P=0.072);并且,奶牛动脉血浆中异亮氨酸(Ile)、亮氨酸(Leu)、赖氨酸(Lys)和组氨酸(His)的浓度较灌注前有不同程度的上升(Ile的浓度提高31.5%,P=0.097;Leu的浓度提高65.9%,P=0.041;Lys的浓度提高36.9%,P=0.088;His的浓度提高40.1%,P=0.010),而苏氨酸(Thr)、缬氨酸(Val)、蛋氨酸(Met)、苯丙氨酸(Phe)和精氨酸(Arg)的浓度在数值上虽较灌注前高但无显著差异(P0.05)。灌注酪蛋白模式的氨基酸混合物后,奶牛乳腺对天冬氨酸(Asp)和半胱氨酸(Cys)的摄取率显著升高(Asp的摄取率提高95.2%,P=0.031;Cys的摄取率提高49.6%,P=0.031),而奶牛乳腺对甘氨酸(Gly)的摄取率显著降低(降低158.3%,P=0.041)。灌注理想模式的氨基酸混合物后,乳蛋白含量比灌注前有上升趋势(提高5.78%,P=0.064),而乳脂产量显著低于灌注前(降低8.57%,P=0.015);并且,奶牛动脉血浆中Arg的浓度有上升趋势(提高18.0%,P=0.093),而酪氨酸(Tyr)的浓度呈下降趋势(降低47.8%,P=0.074)。灌注理想模式的氨基酸混合物后,奶牛乳腺对谷氨酸(Glu)、Cys和Ile的摄取率显著上升(Glu的摄取率提高118.7%,P=0.015;Cys的摄取率提高77.4%,P=0.032;Ile的摄取率提高46.0%,P=0.012),而奶牛乳腺对Ser的摄取率呈下降趋势(降低56.2%,P=0.052)。灌注氨基酸混合物后,Casein组乳脂产量增量显著高于R组(P=0.012),且Casein组的乳产量增量(P=0.095)和乳糖产量增量(P=0.091)较R组有升高的趋势,而2组间其他指标增量无显著差异(P0.05)。由此得出,在本试验条件下,颈静脉灌注酪蛋白模式和理想模式的氨基酸混合物均可提高泌乳奶牛的乳蛋白含量,而灌注酪蛋白模式氨基酸混合物同时可以促进乳蛋白产量的升高,因此,颈静脉灌注酪蛋白模式氨基酸混合物的效果优于灌注理想模式氨基酸混合物。     

圈养大熊猫主食竹的氨基酸分析

拟通过对大熊猫主食竹中氨基酸含量及其相互间比例的分析,为圈养大熊猫的饲料配方中平衡氨基酸提供理论参考依据。采集了大熊猫喜食的3个产地4种竹叶和竹杆样品各1 7个,共34个样品,并测定了其中1 7种氨基酸的含量。结果表明,竹样品中谷氨酸(Glu)含量最高,其中竹叶中为1 .37%±0 .1 8% ,竹杆中为0 .2 8%±0 .0 6% ;其次为天冬氨酸(Asp)、亮氨酸(Leu)、丙氨酸(Ala)、缬氨酸(Val)、赖氨酸(Lys)、脯氨酸(Pro)、甘氨酸(Gly)、苯丙氨酸(Phe)、酪氨酸(Thr)、丝氨酸(Ser)、精氨酸(Arg) ;半胱氨酸(Cys)含量最低,竹叶中为0 .0 7%±0 .0 4% ,竹杆中为0 .0 4%±0 .0 5 %。竹叶中除Cys含量显著(P <0 .0 5 )高于竹杆外,其余所有氨基酸含量都极显著(P <0 .0 1 )高于竹杆。竹叶中总非必需氨基酸(NEAA)的平均含量为6.2 8%±0 .79% ,竹杆中为4.32 %±2 .5 8% ;竹叶总必需氨基酸(EAA)平均含量为4.66%±0 .5 9% ,竹杆中为3.2 0 %±1 .98%。竹叶和竹杆中NEAA/EAA平均比值分别为1 .35±0 .0 8和1 .2 2±0 .47。     

虫草粉联合酵母硒对蛋鸡产蛋高峰中期产蛋性能、蛋品质、抗氧化性和免疫功能的影响

为了研究虫草粉（古尼虫草地顶孢霉培养物）联合酵母硒对蛋鸡产蛋性能、蛋品质、抗氧化功能和免疫功能的影响,试验选用450羽24周龄海兰褐壳蛋鸡,随机分为5组,每组6个重复,每个重复15羽。对照组饲喂基础饲粮,试验Ⅰ~Ⅳ组饲喂添加0.1 mg/kg酵母硒联合不同剂量虫草粉（0、0.2%、0.3%和0.4%）的基础饲粮,试验期27周;选取产蛋高峰中期（第40周龄）蛋鸡进行产蛋性能、鸡蛋品质、免疫功能和抗氧化功能分析。结果显示,与对照组相比,产蛋高峰中期试验Ⅲ组蛋鸡的产蛋率、平均蛋重均显著提高,料蛋比显著降低（P<0.05）;鸡蛋哈夫单位、蛋壳颜色、蛋壳强度、蛋黄颜色、蛋清粗蛋白质含量、蛋黄粗蛋白质和粗脂肪含量均显著升高（P<0.05）,蛋清中必需氨基酸Leu、Lys、Met、Trp、Phe、Thr、Val和His及非必需氨基酸Ala、Asp、Glu、Pro和Tyr水平也显著增加（P<0.05）;试验Ⅳ组蛋鸡的蛋壳颜色、蛋壳强度、哈夫单位和蛋清粗蛋白质含量均显著提高（P<0.05）,蛋清中必需氨基酸Ile、Gly、Arg和非必需氨基酸Cys、Ser水平均显著增加（P<0.05）;试验Ⅰ~Ⅳ组蛋鸡蛋黄、蛋清中硒含量均显著增加（P<0.05）。同时,与对照组相比,产蛋高峰中期试验Ⅲ组蛋鸡血清MDA含量显著下降（P<0.05）,WBC数量、血清IFN-γ和IL-2水平及T-AOC和T-SOD活性均显著升高（P<0.05）。结果表明,饲粮中联合添加酵母硒和适量的虫草粉能明显提高产蛋高峰中期蛋鸡的产蛋性能和鸡蛋品质,增强机体免疫力和抗氧化能力,以0.1 mg/kg酵母硒联合添加0.3%虫草粉的效果最佳。