北草蜥和中国石龙子几种消化酶活力比较研究

应用酶学分析法测定了越冬后北草蜥和中国石龙子的胃、肠、胰组织中蛋白酶、淀粉酶、纤维素酶的活力。结果表明：不同组织中的消化酶活力差异显著;同一组织中不同消化酶的活力差异显著;不同动物的同一组织中消化酶活力也有差异。这些差异说明消化酶的活力与动物种类和器官的分化有关,并受食物组成和遗传因素的影响,产生了不同的酶活力分布。这也是生物长期适应环境,形成不同的代谢水平的结果。     

北草蜥几种消化酶活力比较

应用酶学分析法测定了越冬后北草蜥胃、肠组织中蛋白酶、淀粉酶、纤维素酶的活力。结果表明 ,不同年龄、性别的北草蜥同一组织中消化酶活力有显著差异 ;不同地理种群的北草蜥同一组织中消化酶活力有显著差异 ;不同消化酶在北草蜥同一组织中的活力有显著差异 ;在北草蜥不同的组织中同一消化酶的活力有显著差异。说明北草蜥消化酶的活力与年龄、性别、部位和地理环境等因素有关 ,受食物组成、能量需求和遗传等因素的影响 ,产生了不同的酶活力和分布。这也说明生物长期适应环境 ,形成了不同的代谢水平     

牛蛙主要消化酶的分布及pH和温度对消化酶活力的影响

研究了牛蛙消化系统蛋白酶、脂肪酶、淀粉酶和纤维素酶的分布情况以及pH和温度对这些消化酶活力的影响.结果表明:在各自生理pH值下,牛蛙消化系统不同部位蛋白酶活力大小顺序依次为胰脏>胃>中肠>食道>前肠>后肠,胃、肠和胰脏蛋白酶的最适pH值分别为2.2、7.4和9.6,最适温度分别为45℃、50℃和45℃.脂肪酶活力大小顺序依次为胰脏>后肠>中肠>前肠>胃>食道,胃、肠和胰脏脂肪酶的最适pH值分别为2.2、7.4和8.0,最适温度均为50℃.淀粉酶活力大小顺序依次为胰脏>中肠>后肠>前肠>胃>食道,胃、肠道和胰脏淀粉酶的最适pH分别为7.0、8.0和9.6,最适温度均为35℃.在牛蛙消化系统未检测到明显纤维素酶活力.     

野生与养殖许氏平鲉消化酶活力的比较

用生物化学方法测定了野生和养殖许氏平鲉胃、肠和肝胰脏的蛋白酶、淀粉酶和脂肪酶活力,并对2组个体的上述消化酶活力分别进行了比较。结果表明:在37℃和最适pH条件下,除肝胰脏淀粉酶和脂肪酶外,养殖许氏平鲉各部位3种消化酶的活力全部高于野生许氏平鲉;野生与养殖许氏平鲉胃、肠3种消化酶活力均差异显著(P0.05),肝胰脏3种消化酶活力差异均不显著(P0.05);野生与养殖许氏平鲉消化酶活力的这种差异可能与野生许氏平鲉在自然环境中无法获得稳定充足的饵料有关。     

温度和pH对洞庭鲇鱼消化酶活性的影响

采用酶学分析方法研究了温度和pH对洞庭鲇鱼蛋白酶、脂肪酶和淀粉酶活力的影响。结果表明,在设定的温度和pH范围内,鲇鱼各消化酶的活力均随着温度和pH的升高呈现先升后降的变化趋势。其中,胃蛋白酶的最适温度为40℃,肝胰脏、前肠、中肠和后肠蛋白酶的最适温度为45℃;脂肪酶的最适温度均为35℃;胃淀粉酶的最适温度为35℃,其他部位均为30℃。胃、肝胰脏、前肠、中肠和后肠蛋白酶的适宜pH分别为2.0、8.5、7.5、8.0和8.0;脂肪酶的适宜pH均为7.5;淀粉酶肝胰脏的适宜pH为7.5,其余部位均为7.0。鲇鱼各消化酶活力存在器官特异性。在最适温度下,蛋白酶活力顺序为前肠>肝胰脏>胃>中肠>后肠,脂肪酶的活力顺序均为肝胰脏>胃>前肠>中肠>后肠,淀粉酶的活力顺序为肝胰脏>前肠>中肠>后肠>胃,各部位之间差异显著(P<0.05)。     

额尔齐斯河野生丁(鐬)蛋白酶、淀粉酶活性的研究

目的:研究温度、pH、金属离子对新疆额尔齐斯河野生丁(鐬)消化道蛋白酶、淀粉酶活性的影响.方法:酶学和生化法.结果:丁(鐬)蛋白酶活性,后肠＞前肠＞中肠＞肝胰脏;淀粉酶活性,后肠＞中肠＞前肠＞肝胰脏.肠道、肝胰脏蛋白酶的最适温度分别为35℃、40℃,淀粉酶的最适温度均为40℃.消化道各部位蛋白酶、淀粉酶的体外最适pH为7.5.在试验的离子浓度范围,高浓度Ag 、Cu2 抑制酶活力;高浓度Fe3 、Mg2 、Ca2 促进酶活力;Pb 、Ba2 对消化道酶活力影响依浓度和部位而变.结论:消化酶最适温度均高于所处环境温度,最适pH值变化范围偏碱性;不同浓度金属离子对丁(鐬)消化道各部位蛋白酶、淀粉酶活力高低表现出不同的变化趋势.     

大熊猫胃肠道中消化酶活力的分析

为了研究大熊猫对食物的化学性消化特点和机制,测定了9只大熊猫唾液和3只大熊猫胃肠道中主要消化酶的活力,并与其他动物进行了比较.结果显示,大熊猫唾液呈碱性,蛋白酶和淀粉酶等消化酶活力低;肠道中淀粉酶活力高,而脂肪酶活力明显低于棕熊.大熊猫小肠粘膜中存在显著量的蔗糖酶、乳糖酶和麦芽糖酶活力.另外,在1只大熊猫胃和直肠液中检测到了少量纤维素酶活力.研究结果提示,大熊猫唾液直接参与食物消化的作用可能很弱;大熊猫对淀粉类食物有很好的消化能力,但对脂肪类食物消化能力相对不高.大熊猫胃肠道消化酶的活力特点适应其消化天然食物中的营养物质.     

温度对兰州鲇消化酶活性的影响

测定了兰州鲇(Silurus lanzhouensis)胃、肝胰脏、前肠、中肠、后肠在不同温度(15℃、20℃、25℃、30℃、37℃4、2℃、47℃)条件下的蛋白酶、淀粉酶和脂肪酶的活性。结果表明,随温度的升高,各种酶活性的变化均表现为先增高后下降直至不能检出。消化道各部位蛋白酶的最适温度均为42℃;淀粉酶的最适温度除胃和肝胰脏为37℃外,其他部位均为30℃;脂肪酶的最适温度除后肠为30℃外,其他部位均为25℃。消化酶的最适温度高于其生活水域的水温,反映出消化酶作为酶蛋白的耐热性。最适温度下,蛋白酶活性前肠≈中肠>后肠>肝胰脏≈胃;淀粉酶活性前肠>中肠>肝胰脏>胃>后肠;脂肪酶活性中肠>后肠>前肠≈肝胰脏>胃。研究结果还表明,前肠和中肠是兰州鲇消化蛋白的主要部位,中肠是其消化脂肪的主要部位,而前肠是其消化淀粉的主要部位。在消化酶表现出活性的温度范围内,蛋白酶活性明显高于淀粉酶活性。实验还表明脂肪酶具有活性的温度范围较蛋白酶和淀粉酶窄。     

消化酶在条石鲷成鱼体内的分布及pH对消化酶活力的影响

采用酶学分析方法研究了消化酶在条石鲷(Oplegnathus fasciatus)成鱼体内不同消化器官中的分布和pH对其消化酶活力的影响。结果表明,(1)蛋白酶活力为胃>后肠>中肠>前肠>肝,淀粉酶活力为前肠>中肠>后肠>胃>肝,脂肪酶活力为前肠>中肠>胃>后肠>肝,表明胃是消化蛋白类物质的主要场所,肠道在各种营养物质的消化中起重要作用,而肝中3种酶活力很低,可能在食物的消化中作用较小。(2)条石鲷胃的蛋白酶和淀粉酶的最适宜pH值分别为3.2和5.6,胃蛋白酶在强酸性条件下活力较高,而胃淀粉酶在弱酸性条件下活力较高;肝的蛋白酶和淀粉酶的最适pH是7.6,在中性条件下活性较高;肠的蛋白酶和淀粉酶的最适pH为6.6,在弱酸性条件下活力较高。     

盐度对花鳗鲡和太平洋双色鳗鲡幼鳗生长性能及消化酶活力的影响

文章研究了不同盐度对花鳗鲡(Anguilla marmorata)幼鳗和太平洋双色鳗鲡(A. bicolor pacifica)幼鳗生长性能及消化酶活力的影响。将花鳗鲡幼鳗(9.760.36) g和太平洋双色鳗鲡幼鳗(11.820.04) g分别在淡水(盐度0)与盐度5、10、18水体中养殖30d, 测量每组实验鱼总重后检测胃、肠道和肝脏蛋白酶、淀粉酶和脂肪酶的活力。结果表明, 花鳗鲡和太平洋双色鳗鲡在各盐度处理中存活率均为100%, 未出现死亡。两种鳗鲡在淡水中生长良好, 特定生长率最高, 而饵料系数最低。盐度对花鳗鲡幼鳗和太平洋双色鳗鲡幼鳗消化酶活力的影响存在差异, 其中花鳗鲡胃、肠道和肝脏蛋白酶活力在各盐度处理中均无显著变化(P0.05), 淀粉酶和脂肪酶活力均随盐度的增加而下降; 太平洋双色鳗鲡胃蛋白酶活力在盐度10时最大, 肝蛋白酶活力在盐度18时最大, 而淀粉酶和脂肪酶活力在各盐度处理组无显著变化(P0.05)。这表明盐度对花鳗鲡胃、肠道和肝脏的淀粉酶和脂肪酶活力具有抑制作用, 对太平洋双色鳗鲡的蛋白酶活力有一定的激活作用。在相同盐度条件下, 不同消化器官中同种消化酶活力存在差异, 各盐度的两种鳗鲡肠道中淀粉酶和脂肪酶的活力均显著高于肝脏和胃(P0.05), 胃中蛋白酶活力高于肝脏和肠道, 但不显著(P0.05)。研究发现两种鳗鲡体内脂肪酶活力相对较高, 表明其对脂肪具有较强的消化能力。建议在配制花鳗鲡幼鳗和太平洋双色鳗鲡幼鳗饲料时, 适当提高粗脂肪比例, 有助于促进对营养物质的消化吸收, 提高养殖效益。       

不同生态环境中铜绿丽金龟幼虫肠道细菌 产消化酶活性比较

目的测定不同生态环境中铜绿丽金龟幼虫肠道细菌产消化酶活性。方法采用平板透明圈法和分光光度计法。结果平板透明圈法测得废弃菜园和花生田中铜绿丽金龟幼虫肠道细菌产蛋白酶和淀粉酶活性差异无统计学意义(F=1.089、0.4963,P0.05),而细菌的产纤维素酶活性有显著差异,其中花生田铜绿丽金龟幼虫肠道中分离到的粘质沙雷菌产酶活性显著高于其他菌株;分光光度计测得的不同生态环境中铜绿丽金龟幼虫肠道细菌的产蛋白酶、淀粉酶和纤维素酶活性差异均有统计学意义(F=461.565、42.349、18.7673,P0.05)。从变异系数来看,分光光度计法测得的蛋白酶、淀粉酶和纤维素酶的变异程度较低,而脂肪酶测定时平板透明圈法的变异系数较低。结论平板透明圈法和分光光度计法均可用于铜绿丽金龟幼虫肠道细菌产消化酶活性测定。通过分析研究比较,分光光度计法适于测定细菌的产蛋白酶、淀粉酶和纤维素酶活性,平板透明圈法适于测定细菌的产脂肪酶活性。     

pH值对中国龙虾消化酶活力的影响

采用酶学分析方法研究了pH对中国龙虾胃蛋白酶、类胰蛋白酶、淀粉酶、纤维素酶和脂肪酶活力的影响。结果表明,在设定的pH范围内,中国龙虾各消化酶的活力均随着pH的升高呈现先升后降的变化趋势。其中,胃、肠、肝胰腺内胃蛋白酶最适pH均为2.2,类胰蛋白酶最适pH分别为8.8-9.2、8.4、8.8,淀粉酶最适pH分别为7.0、7.0、7.4,纤维素酶最适pH分别为4.2、4.2-4.6、5.4,脂肪酶最适pH分别为7.2-7.6、7.2、6.8-7.2。同时测得中国龙虾胃、肠、肝胰腺内的生理pH分别为5.33、6.93、6.60。中国龙虾的消化酶活力存在器官特异性。在最适pH下,胃蛋白酶活力顺序为胃>肠>肝胰腺,类胰蛋白酶、纤维素酶、脂肪酶的活力顺序均为肝胰腺>肠>胃,淀粉酶的活力顺序为肠>肝胰腺>胃。     

Postprandial changes in pH and enzyme activity from the stomach and intestines of Tilapia rendalli (Boulenger, 1897), Oreochromis mossambicus (Peters, 1852) and Clarias gariepinus (Burchell, 1822)

The ability to utilise dietary components differs among fish species. Digestive enzymes may be used to determine the efficiency of the digestive process. In this study, the activities of the digestive enzymes in Tilapia rendalli, Oreochromis mossambicus and Clarias gariepinus were explored. Protease, amylase, lipase and cellulase activities were measured in different parts of the digestive tract of the three fish species. The pH dynamics along the digestive tract were monitored. In all fish species, the presence of food led to a reduction in stomach pH, whereby pH values of 1.54, 1.58 and 2.01 were recorded 12 h after feeding in O. mossambicus, T. rendalli and C. gariepinus, respectively. Protease and amylase activities were significantly higher (P < 0.05, anova ) in the tilapias than in C. gariepinus. The tilapias may be pre‐adapted to produce more protease and amylase to digest plant material, which is more difficult to digest than animal matter. In all species amylase activity was significantly higher in the proximal intestine than in the other parts of the digestive tract (P < 0.05, anova ). The highest protease activity was recorded in the distal intestines. This is because of the alkaline pH recorded in the proximal and distal intestines, which favours amylase and protease activity, respectively. Lipase activities were significantly higher (P > 0.05) in C. gariepinus than in both tilapias. Marginal cellulase activities were recorded in all species. It is inferred here that phylogeny and not diet may be the main factor influencing enzyme activities, as all fish were fed a similar diet.     

Digestive enzymes during ontogeny of the sturgeon Acipenser naccarii: intestine and pancreas development

The present work examines the temporal appearance and degree of activity of digestive enzymes of pancreatic and intestinal origin (amylase as well as neutral and alkaline proteases) together with the evolution of the ontogenic development of the intestine and pancreas during the first month of free‐living (30 days post‐hatch–[dph]) of the sturgeon Acipenser naccarii. In addition, the influence of exogenous live feeding with Artemia salina on the detection of digestive enzymes was studied. Shown are that in the first life stages of the A. naccarii, from the time of fertilisation to the juvenile stage, the following events related to its digestive physiology occurred: digestive enzymes were detected in the embryo stage within the egg, presumably related to the hatching gland; in the free‐living embryo stage, opening of the mouth was at 10 dpf and protease and amylase digestive activities occurred due to an early differentiation of the pancreas and intestine (12–13 dpf). At this stage, digestive enzymatic activities are partly owing to the live feed offered before disappearance of the yolk reserves (14 dpf); the expulsion of the melanin plug and the appearance of a continuity of the digestion tract (16 dpf) together with the disappearance of the yolk reserves (17 dpf) mark the passage from the free‐living embryo phase to the juvenile stage; finally, from the first month after hatching in this sturgeon species, there is a stabilisation in digestive amylase and protease activities together with a fully developed digestive structure. The contribution of enzymes from prey in the detection of enzymatic activities determined in the fish was beyond doubt; therefore these exogenous enzymes must also have a certain physiological importance. Subsequent work will be needed to clarify the importance of digestive processes of the exogenous enzyme pool from live feed as well as to assess the possibility of shortening the weaning period.     

Enzyme-forming function of digestive glands after administration of polypeptide C, copepsidyl and panintestine

Polypeptide C (molecular weight 2640 Dalton) extracted from artificial gastric juice), copepsidyl (containing high dosage of pepsin) and panintestine (polyenzyme drug) are studied for their effect on the activity of digestive enzymes of glandular gastric element pancreas and small intestine of rats. It is established that all mentioned drugs stimulate enzymogenesis in the analyzed organs. The activity of pepsin increases in homogenates of gastric mucosa, the activity of trypsin, total proteinases, carboxypeptidase and amylase grows in pancreas homogenates, and that of leucineaminopeptidase--in small intestine.     

云斑尖塘鳢消化酶活力的研究

本文采用酶学分析方法研究了云斑尖塘鳢在正常摄食状态与饥饿的状态下胃、肠及肝胰脏组织中蛋白酶、淀粉酶和脂肪酶的活性。结果显示,在30℃的条件下,正常摄食组样本在酸性条件下的蛋白酶活力表现为:胃后肠肝胰脏前肠,中性和碱性条件下:后肠肝胰脏前肠及胃;饥饿组样本仅有胃表现出较高的酸性蛋白酶活性,其他器官的蛋白酶活性均很低。在正常和饥饿实验组中肝胰脏的淀粉酶活性均高于其他器官,胃肠的淀粉酶活性均较低。正常摄食组中脂肪酶活力后肠肝胰脏;而在饥饿组中仅有肝胰脏检测到脂肪酶活性。结果表明,云斑尖塘鳢适度饥饿组较正常摄食组消化酶活性大幅降低;其高蛋白酶活力及中等脂肪酶活力与其肉食性相一致;此外云斑尖塘鳢也具备少量的淀粉消化能力。     

4株羊瘤胃功能性细菌的筛选

通过DNS法测定羊瘤胃源功能性细菌产生的纤维素酶和淀粉酶的活力,福林酚法测定产生的蛋白酶的活力,检测细菌产生酶的特性。同时检测菌株的发酵液对大肠埃希菌(ATCC25922)、副溶血弧菌(ATCC17802)、藤黄八叠球菌(HY78)和产气杆菌(AS1489)等指示菌的抑制能力,分析它们的抑菌活性。结果表明,羊瘤胃源细菌C13产生的纤维素酶活力最高,产酶量也最高;而细菌C5产淀粉酶活力和蛋白酶活力最高,产生淀粉酶和蛋白酶的能力也最高。抑菌活性检测发现,细菌C9对副溶血弧菌(ATCC17802)有很高的抑制作用,而细菌C12对大肠埃希菌(ATCC25922)的抑制能力最明显。