几种生理调节剂对动物生长及有关神经内分泌的影响
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摘要
本研究探讨了阶段性相继饲喂三种生理调节剂对单胃动物生长性能和复
胃动物瘤胃代谢的影响及其作用机制,同时探讨了大豆黄酮对去势仔猪生长
的影响及其作用机制。实验分两大部分。
一、阶段性相继饲喂三种生理调节剂对单胃动物生长性能和复胃动
物瘤胃代谢及有关内分泌激素的影响
实验系列一 生长期大鼠20只,第一阶段日粮内添加2mg/kg F89,饲喂
42天。第二阶段添喂剂量为14.2mg/kg·BW·d半胱胺CS87,每日饲喂,持续
25天;第三阶段添喂4mg/kg的Cimaterol(CIM),饲喂25天。与对照组相比,
第一阶段试验组大鼠日均摄食量、日增重和饲料转化率分别提高13.93%
(P<0.01),20.25%(P<0.05)和5.31%;第二阶段三者分别提高10.81%
(P<0.05)、13.00%和1.97%;第三阶段三者分别提高4.11%,-56.86%(P<0.05)
和-141.36%。相继饲喂结束时试验组大鼠腓肠肌净重和其与体重之比分别提
高33.33%(P<0.05)和26.67%(P<0.05)。血清中生长激素(GH),胰岛素样生
长因子—1(IGF-I)和游离脂肪酸(FFA)分别比对照组提高7.98%(P<0.01),
27.77%(P<0.01)和41.06%(P<0.05),脲素氮(SUN)含量下降19.48%(P<0.01)。
上述实验结果表明:动物生长期及生长肥育期相继添喂三种生理调节剂可以
明显影响动物的IGF-I、GH水平和代谢活动,从而促进动物生长,提高肌肉
比率。
实验系列二 选取五只装有永久性瘤胃瘘管的去势公山羊,以青干花生秧
+精料为基础日粮。实验采取前后自身对照的方法。第一阶段为对照期,饲养
一周后采取血样和瘤胃液样;第二阶段精料内添加15mg/kg·BW·d的CS87,
喂服10天;第三阶段精料内添加8mg/kg的F89喂服5天。第四阶段精料内
添加0.1mg/kgBW的CIM,喂服5天。与第一阶段相比,第二阶段瘤胃液中
郭留君几种生理调节剂对动物生长及有关神经内分泌的影响
总挥发性脂肪酸(TVFA人 乙酸l丙酸(AN人 NH3村和 Q-氨基氮(AAN)
分别提高17.47%0刃刀5),4.09%,13.98%(P<0.05)和!.28%,第三阶段
四者分别提高.12.82%(P—0.07),7.73%,5.38%和.32.69%(P<0.05);第四阶
段四者分别提高3.33%,o.45%,-9.68%和8.33%:潘胃微生物蛋白(MCP)
在整个过程中没有显著变化。血液中NH。N在第二阶段,第三阶段,第四阶
段分别升高.19.70%(*刃刀5),67人*%(P<o刀1),9.巴5%;AAN分别提高
0.40%,37.65%(P<0刀1),8.37%;SUN分别下降3.44%,6乃5%,15.48%·
o=0.00。实验结果表明阶段性相继饲喂在一定程度上提高瘤胃发酵和氮代
谢,促进体内对氮的吸收和利用,抑制蛋白降解代谢。’
实验系列三四只装有永久性瘤胃瘦管的山羊,采用自身对照的方法,第
一阶段为 1期,即对照期,饲喂青干草;第二阶段为*期,添加 0.3mg!kg·BWd
的Clenbuterol(CL),第三阶段为互 期,添力0二m叭g”BW、d CL十sing/kg F89,
第四阶段为 IV期,添加 0.3mg/kg”BWd的 CL+sing/kg的 F89+15mghe”BWd
CS87,以上均饲喂7天。与对照期相比,CL期瘤胃液D汗A,NH3-N,AAN
和**P分别升高-19.55%(P<0乃5),15.51%(P<0刀5),14.40WP功*匀 和
-12.08%,A/P比例显著下降。CL+F89期四者分别升高 23.00o(P<0.of),
43.94%(<0刀1),120.16o/o(P<刀1)和-I6.ZI%。Ap下降不明显。CL+F89+CS87
期四者分另升高9.95%,55.74%(卜0刀1),181人8W卜0刀1)和25.66WP<0刀5),
A/P 比例明显下降。血液中NH3-N 在后三个阶段依次升高
19二3仰P<o.05),23.巴5W*刃*1)和3且.54WP<o*5);AAN在后三个阶段依次
升高-11.29%,!3.54%(P<o.05)和5.87%;血液中*UN的含量依次升高9.68%,
32·26%(P<o.05)和4O刀0仰*仍.of);血液中生长激素(oH)在实验处理阶段
变化不显著。本实验表明:CL使发酵类型由乙酸型转化为丙酸、丁酸型发酵,
氮代谢增强;CL+F89能使瘤胃酵解有所提高,丙酸型发酵和氮代谢进一步
增强;CL+F89+CS87能加强对能量和氮的利用,使瘤胃纤维素降解和微生
物蛋白质合成均有显著性提高,氮代谢和荫留在后三阶段依次提高;三种生
理调节剂之间在一定程度上存在协同效应。
2
摘 要
二、大豆黄团对雄性大鼠和去势仔猪生长及有关内分泌的影响
实验系列四:24只断乳雄性大鼠随机分为实验组和对照组,实验组饲喂
添加 3mg八g大豆黄酮的日粮,饲喂 30大。与对照组相比,实验组大鼠日增
重,采食量,料重比分别提高 14.90%(P(.of),18.31%(P<0.05)和 1.61%;
胭体重,腰胁部脂肪重,胖肠肌重,骨骼净重分别提高
16.6%(P<0.05),11.5%,8.8%和14.5%(P<0.05);其?
F89,CS87 and ~ -agonist supplemented consecutively were used to study the
effects of them on the growth performance of non-ruminant animals and the rumen
metabolism of ruminant animals, meanwhile,daidzein was used to study the effects
on growth of male rats and castrated piglets.The research includes two parts.
Part I Effect of three physiological regulators supplemented
consecutively on the growth performance of non-ruminant animals
and the rumen metabolism of ruminant animals.
Series 1
Growing rats were fed diet supplemented with 2 mg/kg F89 for 42 days, then with
14.2 mg/kg BWd CS87 for 25 days, finally with 4 mg/kg Cimaterol for 25 days.
Compared with control group, F89 increased feed intake 13 .93%(p<0.0 1) per day
BW gain 20.25% and decreased feed/gain 5.3 1%;CS87 increased significantly feed
intake 10.81% and BW gain 13.00% and decreased feed/gain 1.97%; CIM increased
feed intake 4.11% and decreased BW gain 56.86%(P -141 .36%.At the end of this experiment, the weight of gastrocnemius (right side)
and its relative percentage to the body weight were increased by 33.33%(P<0.05)
and 26.67% (P<0.05), respectively.The concentrations of GH. IGF-I and FFA in
serum were increased by 7.98%(p<0.O1 ),27.77%(p respectively; whereas that of SUN decreased by 19.48%(p<0.01).These results
55
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demonstrate that growing rats fed F89,CS87 and Cimaterol consecutively may
enhance the levels of GH .~ IGF-l in serum and affect the activity of metabolism
significantly, furthermore increase the growth of rats and the validity of lean meat.
Series 2
Five castrated male goats with permanent rumen fistulae were used to study the
effect of Cs (15 mg/kg. BW.d) supplemented for 10 days,F89(2 mg/kg) for Sdays
and Cimaterol (8 mg/kg) for 5 days consecutively on rumen metabolism. Compared
with those of control stage, at the end of CS87 experimental stage, the A/P ratio, the
concentration of TVFA, NH3-N and AAN of the rumen liquid increased by 4.09%,
l7.47%(p experimental stage, those increased by 7.73%, ?2.82%(p<0.05), 5.38% and
?2.69%; At the end of Cimaterol experimental stage, those increased by
respectively 0.45%, 3.33%, -9.68% and 8.33%: the concentration of MCP of the
rumen liquid in respective CS87, F89 and Cimaterol stages have no significant
change, but the concentration of NH3-N of the blood increased by respectively
-19.70% (p<0.0S), 67.42%(p<0.Ol) and -9.85%; Those of AAN increased by
0.4%,37.65%(P<0.01) and 8.37% , respectively. Those of SuN decreased by 3.44%,
6.05% and 1 S.48%(p=O.09), respectively. The results indicate that CS87, F89 and
Cimaterol supplemented consecutively improve rumen fermentation and nitrogen
metabolism to a certain extent; meanwhile enhance absorbability and validity of
nitrogen in vivo.
Series 3
Four castrated male goats with permanent rumen fistulae were used to study the
effect of Clenbuterol (0.3mg/kgBWd) supplemented for 10 days, Clenbuterol (0.3
mg/kgBWd) +F89 (8 mg/kg) for 10 days, Clenbuterol (0.3 mg/kgBWd)+F89 (8
mg/kg)+Cs87 (15 mg/kgBWd) for 10 days consecutively on the rumen
fermentation and metabolism. Compared with those of control stage, the
concentration of TVFA, NH3-N, AAN and MCP, at the end of CL stage, increased
by respectively -
胃动物瘤胃代谢的影响及其作用机制,同时探讨了大豆黄酮对去势仔猪生长
的影响及其作用机制。实验分两大部分。
一、阶段性相继饲喂三种生理调节剂对单胃动物生长性能和复胃动
物瘤胃代谢及有关内分泌激素的影响
实验系列一 生长期大鼠20只,第一阶段日粮内添加2mg/kg F89,饲喂
42天。第二阶段添喂剂量为14.2mg/kg·BW·d半胱胺CS87,每日饲喂,持续
25天;第三阶段添喂4mg/kg的Cimaterol(CIM),饲喂25天。与对照组相比,
第一阶段试验组大鼠日均摄食量、日增重和饲料转化率分别提高13.93%
(P<0.01),20.25%(P<0.05)和5.31%;第二阶段三者分别提高10.81%
(P<0.05)、13.00%和1.97%;第三阶段三者分别提高4.11%,-56.86%(P<0.05)
和-141.36%。相继饲喂结束时试验组大鼠腓肠肌净重和其与体重之比分别提
高33.33%(P<0.05)和26.67%(P<0.05)。血清中生长激素(GH),胰岛素样生
长因子—1(IGF-I)和游离脂肪酸(FFA)分别比对照组提高7.98%(P<0.01),
27.77%(P<0.01)和41.06%(P<0.05),脲素氮(SUN)含量下降19.48%(P<0.01)。
上述实验结果表明:动物生长期及生长肥育期相继添喂三种生理调节剂可以
明显影响动物的IGF-I、GH水平和代谢活动,从而促进动物生长,提高肌肉
比率。
实验系列二 选取五只装有永久性瘤胃瘘管的去势公山羊,以青干花生秧
+精料为基础日粮。实验采取前后自身对照的方法。第一阶段为对照期,饲养
一周后采取血样和瘤胃液样;第二阶段精料内添加15mg/kg·BW·d的CS87,
喂服10天;第三阶段精料内添加8mg/kg的F89喂服5天。第四阶段精料内
添加0.1mg/kgBW的CIM,喂服5天。与第一阶段相比,第二阶段瘤胃液中
郭留君几种生理调节剂对动物生长及有关神经内分泌的影响
总挥发性脂肪酸(TVFA人 乙酸l丙酸(AN人 NH3村和 Q-氨基氮(AAN)
分别提高17.47%0刃刀5),4.09%,13.98%(P<0.05)和!.28%,第三阶段
四者分别提高.12.82%(P—0.07),7.73%,5.38%和.32.69%(P<0.05);第四阶
段四者分别提高3.33%,o.45%,-9.68%和8.33%:潘胃微生物蛋白(MCP)
在整个过程中没有显著变化。血液中NH。N在第二阶段,第三阶段,第四阶
段分别升高.19.70%(*刃刀5),67人*%(P<o刀1),9.巴5%;AAN分别提高
0.40%,37.65%(P<0刀1),8.37%;SUN分别下降3.44%,6乃5%,15.48%·
o=0.00。实验结果表明阶段性相继饲喂在一定程度上提高瘤胃发酵和氮代
谢,促进体内对氮的吸收和利用,抑制蛋白降解代谢。’
实验系列三四只装有永久性瘤胃瘦管的山羊,采用自身对照的方法,第
一阶段为 1期,即对照期,饲喂青干草;第二阶段为*期,添加 0.3mg!kg·BWd
的Clenbuterol(CL),第三阶段为互 期,添力0二m叭g”BW、d CL十sing/kg F89,
第四阶段为 IV期,添加 0.3mg/kg”BWd的 CL+sing/kg的 F89+15mghe”BWd
CS87,以上均饲喂7天。与对照期相比,CL期瘤胃液D汗A,NH3-N,AAN
和**P分别升高-19.55%(P<0乃5),15.51%(P<0刀5),14.40WP功*匀 和
-12.08%,A/P比例显著下降。CL+F89期四者分别升高 23.00o(P<0.of),
43.94%(<0刀1),120.16o/o(P<刀1)和-I6.ZI%。Ap下降不明显。CL+F89+CS87
期四者分另升高9.95%,55.74%(卜0刀1),181人8W卜0刀1)和25.66WP<0刀5),
A/P 比例明显下降。血液中NH3-N 在后三个阶段依次升高
19二3仰P<o.05),23.巴5W*刃*1)和3且.54WP<o*5);AAN在后三个阶段依次
升高-11.29%,!3.54%(P<o.05)和5.87%;血液中*UN的含量依次升高9.68%,
32·26%(P<o.05)和4O刀0仰*仍.of);血液中生长激素(oH)在实验处理阶段
变化不显著。本实验表明:CL使发酵类型由乙酸型转化为丙酸、丁酸型发酵,
氮代谢增强;CL+F89能使瘤胃酵解有所提高,丙酸型发酵和氮代谢进一步
增强;CL+F89+CS87能加强对能量和氮的利用,使瘤胃纤维素降解和微生
物蛋白质合成均有显著性提高,氮代谢和荫留在后三阶段依次提高;三种生
理调节剂之间在一定程度上存在协同效应。
2
摘 要
二、大豆黄团对雄性大鼠和去势仔猪生长及有关内分泌的影响
实验系列四:24只断乳雄性大鼠随机分为实验组和对照组,实验组饲喂
添加 3mg八g大豆黄酮的日粮,饲喂 30大。与对照组相比,实验组大鼠日增
重,采食量,料重比分别提高 14.90%(P(.of),18.31%(P<0.05)和 1.61%;
胭体重,腰胁部脂肪重,胖肠肌重,骨骼净重分别提高
16.6%(P<0.05),11.5%,8.8%和14.5%(P<0.05);其?
F89,CS87 and ~ -agonist supplemented consecutively were used to study the
effects of them on the growth performance of non-ruminant animals and the rumen
metabolism of ruminant animals, meanwhile,daidzein was used to study the effects
on growth of male rats and castrated piglets.The research includes two parts.
Part I Effect of three physiological regulators supplemented
consecutively on the growth performance of non-ruminant animals
and the rumen metabolism of ruminant animals.
Series 1
Growing rats were fed diet supplemented with 2 mg/kg F89 for 42 days, then with
14.2 mg/kg BWd CS87 for 25 days, finally with 4 mg/kg Cimaterol for 25 days.
Compared with control group, F89 increased feed intake 13 .93%(p<0.0 1) per day
BW gain 20.25% and decreased feed/gain 5.3 1%;CS87 increased significantly feed
intake 10.81% and BW gain 13.00% and decreased feed/gain 1.97%; CIM increased
feed intake 4.11% and decreased BW gain 56.86%(P
and its relative percentage to the body weight were increased by 33.33%(P<0.05)
and 26.67% (P<0.05), respectively.The concentrations of GH. IGF-I and FFA in
serum were increased by 7.98%(p<0.O1 ),27.77%(p
55
$~
demonstrate that growing rats fed F89,CS87 and Cimaterol consecutively may
enhance the levels of GH .~ IGF-l in serum and affect the activity of metabolism
significantly, furthermore increase the growth of rats and the validity of lean meat.
Series 2
Five castrated male goats with permanent rumen fistulae were used to study the
effect of Cs (15 mg/kg. BW.d) supplemented for 10 days,F89(2 mg/kg) for Sdays
and Cimaterol (8 mg/kg) for 5 days consecutively on rumen metabolism. Compared
with those of control stage, at the end of CS87 experimental stage, the A/P ratio, the
concentration of TVFA, NH3-N and AAN of the rumen liquid increased by 4.09%,
l7.47%(p
?2.69%; At the end of Cimaterol experimental stage, those increased by
respectively 0.45%, 3.33%, -9.68% and 8.33%: the concentration of MCP of the
rumen liquid in respective CS87, F89 and Cimaterol stages have no significant
change, but the concentration of NH3-N of the blood increased by respectively
-19.70% (p<0.0S), 67.42%(p<0.Ol) and -9.85%; Those of AAN increased by
0.4%,37.65%(P<0.01) and 8.37% , respectively. Those of SuN decreased by 3.44%,
6.05% and 1 S.48%(p=O.09), respectively. The results indicate that CS87, F89 and
Cimaterol supplemented consecutively improve rumen fermentation and nitrogen
metabolism to a certain extent; meanwhile enhance absorbability and validity of
nitrogen in vivo.
Series 3
Four castrated male goats with permanent rumen fistulae were used to study the
effect of Clenbuterol (0.3mg/kgBWd) supplemented for 10 days, Clenbuterol (0.3
mg/kgBWd) +F89 (8 mg/kg) for 10 days, Clenbuterol (0.3 mg/kgBWd)+F89 (8
mg/kg)+Cs87 (15 mg/kgBWd) for 10 days consecutively on the rumen
fermentation and metabolism. Compared with those of control stage, the
concentration of TVFA, NH3-N, AAN and MCP, at the end of CL stage, increased
by respectively -
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