饲料中不同蛋白质和淀粉水平对斜带石斑鱼生长性能和肝脏相关代谢酶活性的影响

为了探讨饲料蛋白质和碳水化合物对斜带石斑鱼的互作效应,实验采用3×3因子设计,配制蛋白质水平(P)为38%、45%和52%,淀粉水平(S)为10%、20%和30%的9种实验饲料,分别饲喂斜带石斑鱼56 d。结果显示,38%粗蛋白与10%淀粉饲料组(38P/10S饲料组)增重率显著低于其他各组,52P/10S组增重率最高,但与45P/20S、45P/30S、52P/20S组差异不显著。增加饲料蛋白质或淀粉水平显著增加饲料效率、鱼体蛋白质与脂肪含量及肝糖原肝脂含量,而降低摄食率和鱼体水分含量。增加饲料蛋白质水平降低蛋白质效率,但增加淀粉水平却增加蛋白质效率及肝体比与脏体比。饲料蛋白质水平和淀粉水平对鱼体灰分含量无明显影响。肝中肝酯酶、脂蛋白酯酶、脂肪酸合成酶、谷丙转氨酶和谷草转氨酶活性均随蛋白质或淀粉水平的升高呈显著上升趋势。增加饲料蛋白质水平显著降低肝中葡萄糖-6-磷酸酶活性,而增加肝中苹果酸酶活性,但对肝中葡萄糖激酶、丙酮酸激酶、磷酸果糖激酶、磷酸烯醇式丙酮酸羧激酶和葡萄糖-6-磷酸脱氢酶活性没有明显影响。增加饲料淀粉水平显著增加肝中葡萄糖激酶、丙酮酸激酶、磷酸果糖激酶、葡萄糖-6-磷酸脱氢酶和苹果酸酶活性,但显著降低磷酸烯醇式丙酮酸羧激酶和葡萄糖-6-磷酸酶活性。上述结果显示,斜带石斑鱼的生长和肝脏代谢明显受饲料蛋白质和淀粉水平的影响,其中,糖代谢酶活性受淀粉水平的影响较大,而受饲料蛋白质水平的影响较小,斜带石斑鱼生长适宜的饲料蛋白质和淀粉水平分别为45%和20%。     

饲料中可消化淀粉对大口黑鲈生长、体组成和非特异性免疫指标的影响

配制6种不同可消化淀粉水平(5.93%、8.71%、11.96%、15.11%、18.16%、21.74%)的等氮和等脂肪的饲料,以试验鱼的生长、饲料效率、体组成、血糖及非特异性免疫和血液学参数作指标,评定大口黑鲈饲料中可消化淀粉的适宜水平。用上述6种饲料饲喂初始体质量(28.36 ± 0.10)g 的大口黑鲈48 d,每饲料设3个重复,每重复35尾鱼。采用表观饱食投喂,每天饲喂2次(8:00和16:00)。结果显示,饲料中可消化淀粉水平为21.74%时,大口黑鲈成活率最低;可消化淀粉水平超过8.71%时,鱼体终末体质量、特定生长率和摄食量均显著下降;但饲料效率和蛋白质效率在可消化淀粉水平为11.96%时达到最高。随着饲料中可消化淀粉水平的升高,饲料的蛋白质消化率差异不显著,但脂肪和淀粉的消化率显著降低;全鱼、肌肉、内脏及肝脏的蛋白质含量均显著降低,而水分含量显著升高,脂肪含量在8.71%组达到最高后又显著降低;肝体比、脏体比、肝糖原及血清谷丙转氨酶和谷草转氨酶的活性均显著升高。饲料中可消化淀粉水平高于11.96%时,试验鱼餐后6至12 h呈现持续的高血糖症状;血清蛋白质含量和血清补体活性在可消化淀粉为8.71%时达到最高;而血清溶菌酶活性和头肾白细胞呼吸爆发活性在11.96%组达到最高。另外,红细胞数和红细胞压积未受到饲料中可消化淀粉水平增高的显著影响,但血红蛋白含量显著降低。综合大口黑鲈的生长、饲料效率、体组成、血糖和非特异性免疫指标得出,大口黑鲈对饲料中可消化淀粉的利用与耐受力有限,饲料中可消化淀粉的适宜水平为8.71% ~ 11.96%。     

饲料维生素E添加量对花鲈生长、组织中维生素E积累量和免疫指标的影响

采用单因子试验设计方法,进行了饲料中添加维生素E对花鲈生长(增重率、存活率、特定生长率、饲料效率)、组织中维生素E积累量和免疫指标(血清中溶菌酶活性和总补体活性)影响的研究,设计了5个不同维生素E水平(0.6、24.7、49.0、98.8、198.2 mg/kg)的等氮等能饲料,对花鲈进行为期8周的生长实验,每个水平含3个重复,每个养殖单元放养初始体重为10.1 g左右的花鲈20尾.饲养试验在海水网箱(1.5 m×1.0 m×1.0 m)中进行.结果表明:饲料中未添加维生素E组的增重率、饲料效率、特定生长率以及存活率显著低于维生素E添加组,随着饲料中维生素E添加量由0.6提高到49.0 mg/kg时,花鲈的增重率和特定生长率显著提高,以增重率和特定生长率为指标,花鲈最佳生长性能的饲料维生素E添加量为60.5 mg/kg左右;对鱼体生物学指标的分析表明,饲料中维生素E添加量达到49 mg/kg时能显著影响鱼体的肝体比指数,鱼体水分、粗脂肪不受饲料中维生素E添加水平的影响,然而对鱼体粗蛋白含量的影响显著;随着饲料中维生素E添加量由0.6提高到49.0 mg/kg时,花鲈肌肉和肝脏中维生素E的积累量显著升高,但当维生素E添加量达到49.0 mg/kg后,肌肉和肝脏中维生素E的积累量变化不显著;饲料中未添加维生素E组的花鲈血清溶菌酶和总补体活性显著低于维生素E添加组,花鲈血清溶菌酶和总补体活性随着维生素E添加量的增加而显著升高,饲料维生素E添加量达到98.8 mg/kg时,血清溶菌酶和总补体活性较高.综上所述,花鲈生长和免疫的维生素E适宜添加量为60.5～98.8 mg/kg.     

大口黑鲈饲料中适宜的淀粉源及添加水平

以4种淀粉,蜡质玉米淀粉(L)、高直链玉米淀粉(Z)、小麦淀粉(X)和木薯淀粉(M),分别以5%和10%的添加量配制了8种等氮和等能(CP 48%,GE 18.5 MJ/kg)的饲料(L5、L10、Z5、Z10、X5、X10、M5和M10)。用上述饲料饲养初始体重为(23.46±0.19)g的大口黑鲈45 d,以评定大口黑鲈饲料的适宜淀粉源及添加水平。结果显示,饲料中淀粉的添加水平和淀粉源对大口黑鲈的生长、饲料利用、体组成和非特异性免疫指标均有显著影响。随着同一种淀粉的添加量从5%升至10%,L10、X10和M10组实验鱼的特定生长率和摄食率显著降低,但饲料效率和蛋白质效率显著升高,而Z5和Z10组间的上述指标的差异不显著;L10、X10和M10组的肝体比、脏体比和肝糖原含量均显著升高,但Z5和Z10组间的脏体比差异不显著;全鱼和肝的脂肪含量及肝的蛋白质含量均显著降低;L10组的红细胞数和红细胞压积、Z10组的血清甘油三酯及X10组的红细胞压积和血清甘油三酯水平显著降低;Z10组的血清补体活性显著降低;L5、Z5、X5和M5组的餐后3~12 h的血糖水平各自低于L10、Z10、X10和M10组。不同的淀粉源在相同的添加量的情况下,Z5组的淀粉表观消化率和肝体比显著地低于L5、X5和M5组,而脂肪沉积率显著高于L5、X5和M5组;M5组的蛋白质表观消化率显著低于L5、Z5和X5组;Z10组的淀粉表观消化率、肝体比、脏体比和肝糖原含量显著低于L10、X10和M10组,而脂肪沉积率显著高于L10、X10和M10组;M10组的蛋白质表观消化率显著低于L10、Z10和X10组。饲料中淀粉的添加水平和淀粉源对大口黑鲈的摄食率、特定生长率、蛋白质消化率、脂肪沉积率、肝体比、肝糖原含量、红细胞数、血清甘油三酯含量和血清补体活性均有显著的交互作用。本研究表明,饲料的淀粉源和水平对大口黑鲈的生长、体组成、血液学指标、餐后血糖和非特异性免疫指标均有不同程度的影响,饲料中添加5%的蜡质玉米淀粉、高直链玉米淀粉、小麦淀粉和木薯淀粉均无妨碍,但添加10%的淀粉水平唯有高直链玉米淀粉较为合适。     

饲料锌对团头鲂幼鱼生长性能、血清生化指标和抗氧化功能的影响

以酪蛋白和明胶为蛋白源,七水硫酸锌(Zn SO4·7H2O)为Zn源,分别配制成7种Zn含量(7.4 mg/kg、20.3 mg/kg、32.1 mg/kg、51.0 mg/kg、84.4 mg/kg、169.7 mg/kg、332.4 mg/kg)的半纯化饲料,投喂初始体重为(3.6±0.1)g团头鲂(Megalobrama amblycephala)12周,考察Zn对团头鲂幼鱼生长性能、血清生化指标和抗氧化功能的影响,确定团头鲂幼鱼对饲料Zn的需要量。结果表明,随着饲料Zn含量增加,团头鲂增重率、特定生长率和全鱼Zn含量呈先增加后稳定的趋势;全鱼水分含量显著降低(P0.05),粗蛋白含量显著增加。饲料Zn含量对团头鲂饲料系数无显著影响。饲料中添加Zn显著影响血清总蛋白、尿素氮、高密度脂蛋白胆固醇、总胆固醇以及甘油三酯含量,而对血清白蛋白含量和碱性磷酸酶活性无显著影响。随着饲料中Zn含量的增加,团头鲂肝丙二醛含量显著降低(P0.05),而肝过氧化氢酶和超氧化物歧化酶活性在各处理间均无显著差异。折线回归分析表明,团头鲂幼鱼(体重3.6~26.7 g)获得最佳生长时对饲料Zn需要量为32.6 mg/kg,获得最大鱼体Zn含量时Zn的需要量为47.6 mg/kg。本研究旨在确定团头鲂幼鱼对饲料中Zn的需要量,为配制团头鲂高效环保饲料提供科学依据。     

微生态制剂对异育银鲫消化酶活性的影响

在基础饲料的基础上，分别添加0.1%、0.2%、0.4%芽孢杆菌，0.3%、0.6%、1.2%硒酵母，混合添加0.2%芽孢杆菌和0.3%、0.6%、1.2%硒酵母，制成9种微生态制剂饲料，以基础饲料为对照，在水泥地中饲养异育银鲫60d。然后，对异育银鲫肠道和肝胰脏的蛋白酶、淀粉酶进行了测定。结果表明，添加0.2%芽孢杆菌，异育银鲫肠道、肝胰脏蛋白酶活性分别比对照组提高466.2%和85.4%，添加0.1%芽孢杆菌，肠道肝胰脏淀粉酶活性分别比对照组提高83.7%和129.5%；添加硒酵母对肠道蛋白酶活性无显著影响，但添加0.6%硒酵母能使肝胰脏蛋白酶性比对照组提高43.7%，添加0.3%硒酵母能使肠道、肝胰脏淀粉酶活性分别比对照组提高84.2%和163.9%；同时添加0.2%芽孢杆菌和0.3%硒酵母能使肠道蛋白酶淀粉酶活性分别比对照组提高395.5%和95.4%，同时添加0.2%芽孢杆菌和0.3%、0.6%、1.2％硒酵母对肠、肝胰脏蛋白酶淀粉酶活性无显著影响。与单独添加0.2%芽孢杆菌相比，同时添加0.2%芽孢杆菌和硒酵母肠道、肝胰脏蛋白酶活性随硒酵母添加量的增加而显著降低，但淀粉酶活性两者之间差异不显著；与单独添加硒酵母相比，0.2%芽孢杆菌和硒酵母同时添加对肠道、肝胰脏蛋白酶、淀粉酶活性促进作用并不显著。     

甘草次酸对团头鲂生长、脂肪沉积与抗氧化功能的影响

为探讨甘草次酸对团头鲂生长、脂肪沉积和抗氧化功能的影响,选取均体质量为(15.63±0.04)g的团头鲂幼鱼420尾,随机分在15个网箱中,分别以甘草次酸水平为0、0.15、0.30、0.45和0.60 g/kg的5种饲料投喂8周。结果发现,饲料添加甘草次酸对团头鲂增重率、特定生长率、饵料系数没有显著影响(P0.05)。甘草次酸可以显著降低实验鱼脏体比、肝体比、腹脂率及肝脏脂肪含量(P0.05),但对全鱼体组成和肌肉脂肪含量无显著影响(P0.05)。比对血浆脂肪代谢酶可见,0.30~0.60 g/kg甘草次酸添加组血浆总胆固醇含量较对照组显著下降(P0.05);而甘油三酯、游离脂肪酸和高密度脂蛋白胆固醇含量无显著变化(P0.05)。肝脏中脂蛋白酯酶、肝酯酶和总酯酶活性在添加甘草次酸后显著降低(P0.05);0.30~0.60 g/kg甘草次酸添加组脂肪酶活性显著高于其他各组(P0.05)。饲料添加甘草次酸可以显著提高肝脏超氧化物歧化酶活性和还原型谷胱甘肽含量,降低丙二醛含量(P0.05)。研究表明,饲料中添加0.30~0.45 g/kg甘草次酸时,显著降低了团头鲂内脏团的脂肪沉积,改善了鱼体脂肪分布,这可能是由于甘草次酸加强脂解作用,提高脂肪代谢酶活性导致的;饲料中添加甘草次酸也可显著提高团头鲂的抗氧化能力。     

饲料维生素E添加量对花鲈生长、组织中维生素E积累量

采用单因子试验设计方法,进行了饲料中添加维生素E对花鲈生长（增重率、存活率、特定生长率、饲料效率）、组织中维生素E积累量和免疫指标（血清中溶菌酶活性和总补体活性）影响的研究,设计了5个不同维生素E水平（0.6、24.7、49.0、98.8、198.2 mg•kg-1）的等氮等能饲料,对花鲈进行为期8周的生长实验,每个水平含3个重复,每个养殖单元放养初始体重为10.1g左右的花鲈20尾。饲养试验在海水网箱（1.5×1.0×1.0 m)中进行。结果表明：饲料中未添加维生素E组的增重率、饲料效率、特定生长率以及存活率显著低于维生素E添加组,随着饲料中维生素E添加量由0.6提高到49.0 mg•kg-1时,花鲈的增重率和特定生长率显著提高,以增重率和特定生长率为指标,花鲈最佳生长性能的饲料维生素E添加量为60.5 mg•kg-1左右;对鱼体生物学指标的分析表明,饲料中维生素E添加量达到49 mg•kg-1时能显著影响鱼体的肝体比指数,鱼体水分、粗脂肪不受饲料中维生素E添加水平的影响,然而对鱼体粗蛋白含量的影响显著;随着饲料中维生素E添加量由0.6提高到49.0 mg•kg-1时,花鲈肌肉和肝脏中维生素E的积累量显著升高,但当维生素E添加量达到49.0 mg•kg-1后,肌肉和肝脏中维生素E的积累量变化不显著;饲料中未添加维生素E组的花鲈血清溶菌酶和总补体活性显著低于维生素E添加组,花鲈血清溶菌酶和总补体活性随着维生素E添加量的增加而显著升高,饲料维生素E添加量达到98.8 mg•kg-1时,血清溶菌酶和总补体活性较高。综上所述,花鲈生长和免疫的维生素E适宜添加量为60.5～98.8 mg•kg-1左右。     

不同小麦淀粉和脂肪水平对大黄鱼的生长性能、饲料利用及糖代谢关键酶活力的影响

为探讨饲料中添加不同小麦淀粉和脂肪水平对大黄鱼幼鱼生长、饲料利用以及糖代谢关键酶活力的影响,进行了为期8周的生长实验。设计了3个小麦淀粉水平(5%、10%和30%)和2个脂肪水平(5%和10%)的3×2的两因子实验,配制了6种等氮的饲料,分别喂养平均体质量为(6.75±0.12)g的大黄鱼幼鱼。结果显示,饲料中小麦淀粉和脂肪水平对大黄鱼增重率(WG)、特定生长率(SGR)、饲料效率(FE)、成活率(SR)、肝体比(HSI)和肥满度(CF)无显著交互作用,对脏体比(VSI)有显著交互作用。在同一脂肪水平下,淀粉水平为30%组WG和SGR显著高于10%淀粉组。不同小麦淀粉和脂肪水平对肝糖原含量无显著交互作用,而对肌糖原含量有显著交互作用,在饲料脂肪水平为5%时,30%小麦淀粉水平下的肝糖原含量显著高于10%和20%淀粉水平,10%淀粉水平下的肌糖原含量显著高于20%和30%淀粉水平;在脂肪水平为10%时,10%淀粉水平下的肝糖原含量显著高于20%和30%淀粉水平,而30%小麦淀粉水平下的肌糖原含量显著高于10%和20%淀粉水平。小麦淀粉和脂肪水平对血清中谷丙转氨酶(ALT)、谷草转氨酶(AST)、总胆固醇(TC)和葡萄糖(GLU)含量无显著交互作用,对总蛋白(TP)和甘油三酯(TG)交互作用显著。不同小麦淀粉和脂肪水平对肝脏脂肪酶活性有显著的交互作用,对淀粉酶活性无显著交互作用;同一脂肪水平下,脂肪酶的活性随着淀粉水平的升高而升高,同一饲料淀粉水平下,饲料脂肪水平为10%组的脂肪酶活性显著高于5%组。不同小麦淀粉和脂肪水平对肝脏丙酮酸激酶(PK)的活性有显著的交互作用,而对葡萄糖激酶(GK)、磷酸果糖激酶(PFK)、磷酸烯醇式丙酮酸羧激酶(PEPCK)、1,6-二磷酸果糖酶(FBPase)和6-磷酸葡萄糖酶(G6Pase)的活性均无显著交互作用。研究表明,当饲料脂肪水平为5%时,大黄鱼能够通过调节糖酵解关键酶活性及肝糖原含量来维持血糖平衡,改善对小麦淀粉的利用能力;而当脂肪水平为10%时,大黄鱼对小麦淀粉的利用能力降低。     

饲料中添加氯化胆碱对草鱼成鱼生长、脂肪沉积和脂肪代谢酶活性的影响

选用初始体质量为(314.7±9.9)g的草鱼(Ctenophary ngodon idella)240尾,随机分成4组,每组3个重复,每重复20尾鱼,分别饲喂氯化胆碱添加量为0%(对照组)、0.2%、0.4%和0.6%(占饲料的质量分数)的4组饲料(粗蛋白、粗脂肪含量分别为28.01%和4.54%),胆碱实测含量分别为1010mg/kg、2516mg/kg、4184mg/kg、5852mg/kg,养殖77d后,考察氯化胆碱对草鱼成鱼生长性能、脂肪沉积及脂肪代谢酶活性的影响。结果表明,与对照组相比较,添加0.4%和0.6%氯化胆碱可显著提高鱼体增重率(P0.05)、特定生长率(P0.05),降低饲料系数(P0.05);添加0.2%～0.6%氯化胆碱可显著降低肝胰脏和全鱼脂肪含量(P0.05);添加0.4%和0.6%氯化胆碱,肌肉脂肪含量显著下降(P0.05);添加0.2%～0.6%氯化胆碱可显著提高血清甘油三酯和总胆固醇含量(P0.05),添加0.4%和0.6%氯化胆碱可显著降低肝胰脏甘油三酯和总胆固醇含量(P0.05);在脂肪代谢酶方面,添加0.2%～0.6%氯化胆碱可显著提高前肠脂肪酶活性(P0.05),添加0.6%氯化胆碱显著提高脂蛋白脂酶活性(P0.05),添加0.4%～0.6%氯化胆碱可显著升高肝脂酶和总脂酶活性(P0.05)。综上所述,适量添加胆碱能改善草鱼成鱼生长性能,提高饲料利用率,降低肝胰脏、全鱼和肌肉的脂肪含量,提高脂肪代谢酶活性。建议草鱼实用饲料中氯化胆碱添加量为0.4%～0.6%。     

Dietary isoleucine requirement of juvenile blunt snout bream,Megalobrama amblycephala

A 9‐week feeding trial was conducted to estimate the dietary isoleucine requirement of juvenile blunt snout bream. Six isonitrogenous and isoenergetic experimental diets were formulated to contain graded isoleucine levels ranging from 5.3 to 20.1 g kg^?1 dry diet. At the end of the experiment, weight gain (WG), specific growth rate (SGR), feed efficiency ratio (FER) and protein efficiency ratio (PER) increased with increasing dietary isoleucine level up to 11.1 g kg^?1 dry diet, and dietary isoleucine level above 14.2 g kg^?1 dry diet declined these performances. Dietary isoleucine levels (14.2 and 17.3 g kg^?1 dry diet) significantly improved whole‐body protein content, but decreased whole‐body lipid, plasma triglyceride and cholesterol contents. Significantly lower visceral fat index (VFI) in fish fed with 14.2 g kg^?1 dietary isoleucine was observed compared to those fed with deficient or excessive isoleucine. Dietary isoleucine supplementation significantly increased plasma isoleucine concentration, while plasma valine and leucine concentrations showed a reversed trend. Dietary isoleucine levels regulated the target of rapamycin (TOR) gene expression and improved plasma superoxide dismutase (SOD) activity in juvenile blunt snout bream. Based on second‐order polynomial regression model analysis of SGR and FER, the optimum dietary isoleucine requirement was estimated to be 13.8 g kg^?1 dry diet (40.6 g kg^?1 dietary protein) and 14.0 g kg^?1 dry diet (41.2 g kg^?1 dietary protein), respectively.     

Effect of dietary carbohydrate level on growth performance,body composition,apparent digestibility coefficient and digestive enzyme activities of juvenile cobia,Rachycentron canadum L

A 9‐week feeding trial was conducted to investigate the effect of dietary carbohydrate level on the growth performance, body composition and apparent digestibility coefficient and digestive enzyme activities of juvenile cobia. Six isonitrogenous and isolipidic diets containing graded levels of starch (1.3%, 6.5%, 12.5%, 18.4%, 24.2% and 30.4%) were fed to juvenile cobia. Specific growth rate (SGR), feed efficiency ratio (FER) and protein efficiency ratio (PER) increased with increasing dietary starch up to 18.4% (P<0.05), and thereafter SGR declined but FER and PER remained nearly the same. Apparent digestibility coefficient of starch reduced significantly when dietary starch up to 30.4%. Fish fed the diets with starch from 18.4% to 30.4% showed higher amylase activities in intestinal tract than those fed diets containing starch 1.3% and 6.5% (P<0.05). Significantly higher whole‐body lipid contents were observed in fish fed the diets containing higher starch. Whole‐body moisture content was inversely correlated with whole‐body lipid content, while protein and ash showed no significant differences. Plasma glucose, hepatosomatic index, liver glycogen and liver lipid increased with an increasing dietary starch. Based on SGR and FER, the appropriate dietary starch supplementations of juvenile cobia were estimated to be 21.1% and 18.0 % of diet respectively.     

Effects of dietary linolenic acid on growth,fatty acid composition,immune function and antioxidant status of juvenile blunt snout bream,Megalobrama amblycephala

A nine‐week feeding trial was performed to determine the dietary linolenic acid (LNA; 18:3n–3) requirements of juvenile blunt snout bream. Six iso‐nitrogenous, semi‐purified diets were prepared with different concentrations of LNA (0–25 g/kg). Dietary LNA had no significant effects on survival rate. However, final fish weight, weight gain (WG), specific growth rate (SGR) and feed efficiency ratio (FER) increased with increasing dietary LNA concentrations up to 20 g/kg. Dietary LNA increased muscle LNA and total n‐3 polyunsaturated fatty acid (PUFA) contents, but decreased total saturated fatty acid content. Fish fed 20 g/kg LNA had the highest plasma alkaline phosphatase activity, total protein, albumin and white blood cell count levels. Additionally, fish fed 20 g/kg LNA had higher triglyceride levels than control fish. Plasma glucose increased with increasing dietary LNA concentrations. Superoxide dismutase and glutathione peroxidase activities significantly increased with increasing dietary LNA concentrations up to 15 g/kg. Based on SGR and FER, the optimal dietary LNA requirements of juvenile blunt snout bream were 17.5 and 15.6 g/kg respectively.     

Molecular characterization and identification of facilitative glucose transporter 2 (GLUT2) and its expression and of the related glycometabolism enzymes in response to different starch levels in blunt snout bream (<Emphasis Type="Italic">Megalobrama amblycephala</Emphasis>)

Facilitative glucose transporters (GLUT) are transmembrane transporters involved in glucose transport across the plasma membrane. In this study, blunt snout bream GLUT2 gene was cloned, and its expression in various tissues and in liver in response to diets with different carbohydrate levels (17.1; 21.8; 26.4; 32.0; 36.3; and 41.9% of dry matter). Blunt snout bream GLUT2 was also characterized. A full-length cDNA fragment of 2577 bp was cloned, which contains a 5′-untranslated region (UTR) of 73 bp, a 3′-UTR of 992 bp, and an open reading frame of 1512 bp that encodes a polypeptide of 503 amino acids with predicted molecular mass of 55.046 kDa and theoretical isoelectric point was 7.52. The predicted GLUT2 protein has 12 transmembrane domains between amino acid residues at 7–29; 71–93; 106–123; 133–155; 168–190; 195–217; 282–301; 316–338; 345–367; 377–399; 412–434; and 438–460. Besides, the conservative structure domains located at 12–477 amino acids belong to the sugar porter family which is the major facilitator superfamily (MFS) of transporters. Blunt snout bream GLUT2 had the high degree of sequence identity to four GLUT2s from zebrafish, chicken, human, and mouse, with 91, 63, 57, and 54% identity, respectively. Quantitative real-time (qRT) PCR assays revealed that GLUT2 expression was high in the liver, intestine, and kidney; highest in the liver and was regulated by carbohydrate intake. Compared with the control group (17.1%), fed by 3 h with higher starch levels (32.0; 36.3; and 41.9%), increased plasma glucose levels and glycemic level went back to basal by 24 h after treatment. Furthermore, higher dietary starch levels significantly increase GLUT2, glucokinase (GK), and pyruvate kinase (PK) expression and concurrently decrease phosphoenolpyruvate carboxykinase (PEPCK) and glucose-6-phosphatase (G6P) mRNA levels (P?<?0.05), and these changes were also back to basal levels after 24 h of any dietary treatment. These results indicate that the blunt snout bream is able to regulate their ability to metabolize glucose by improving GLUT2, GK, and PK expression levels and decreasing PEPCK and G6P expression levels.     

Effect of dietary starch source (normal versus waxy) and protein levels on the performance of white sea bream Diplodus sargus (Linnaeus) juveniles

An experiment was performed to evaluate the growth performance and feed utilization of white sea bream juveniles (initial weight, 14 g) fed diets of cornstarch of different origins (normal and waxy). Four experimental diets were formulated to be isolipidic and to contain normal and waxy starch (26% or 42%) at two protein (36% and 48%) levels. The growth trial lasted 15 weeks and, at the end of the trial, there were no differences in the growth rate among groups. At the highest dietary starch level – but not at the lowest level – the feed efficiency ratio and PER were significantly lower in fish fed the waxy starch diet. Protein efficiency ratio and N retention (% N intake) were not affected by starch source but were significantly higher in the diets with a lower protein content. No differences in energy retention (% energy intake) were observed among groups. Except for the protein content, which was significantly higher in fish fed diets with a high protein level, no other differences were observed among groups in whole‐body composition. Hepatosomatic Index (HSI) was significantly higher in fish fed high‐starch diets, but there were no differences in visceral indices among groups. The apparent digestibility coefficients of protein and energy were not affected by the dietary starch level, but were significantly lower in diets including waxy starch. Glutamate dehydrogenase activity was higher in fish fed high‐protein diets, but it was not affected by dietary starch source. Alanine aminotransferase and aspartate aminotransferase activities were not different among groups. Glucose 6‐phosphate dehydrogenase, malic enzyme and fatty acid synthetase activities were not affected by the dietary starch level, but were significantly lower in fish fed waxy starch. The results of this study indicate that diets for white sea bream juveniles may include up to 42% starch without negative effects on fish performance. Moreover, normal starch appears to be more efficiently used as an energy source than waxy starch.     

团头鲂对饲料中Zn的需求量

为了研究团头鲂对饲料中Zn的需要量,以平均体质量50 g的团头鲂为实验对象,采用半纯化饲料,以ZnSO4·H2O为锌源,设置Zn添加量分别为0、68、137、206、275 mg/kg(饲料中Zn总量为22.85、98.07、164.00、235.43、307.96 mg/kg)共5个Zn含量梯度,每个实验组设4个平行,在池塘网箱中养殖43 d。经过回归拟合分析,饲料中Zn添加量、饲料中Zn总量与团头鲂特定生长率、饲料系数、蛋白质沉积率、脂肪沉积率的关系,得到团头鲂对饲料中无机Zn补充量为155.86~161.25 mg/kg,对饲料总Zn需要量为184.85~190.39 mg/kg;在日均摄食量为5.12 g/100 g体质量下,团头鲂对饲料Zn日需求量为0.798~0.825 mg/100 g体质量,对饲料总Zn日需要量为0.946~0.974 mg/100 g体质量。饲料中Zn含量对团头鲂的成活率、肥满度、内脏指数、鳞片重/体质量、体质量/体长、脊椎骨重/体质量无显著影响(P0.05)。饲料中Zn含量对团头鲂的脊椎骨长/体长有显著影响(P0.05);饲料中Zn的补充,有利于团头鲂脊椎骨的生长。     

Anti-stress properties and two HSP70s mRNA expressions of blunt snout bream (Megalobrama amblycephala) fed with all-plant-based diet

The influence of all-plant-based diet on fingerling blunt snout breams (Megalobrama amblycephala) was tested by examining growth performance, anti-stress properties and related gene expression. Healthy fish were randomly divided into triplicate groups per dietary treatment and fed with different formulated diets. The results showed that both weight gain, specific growth rate and protein efficiency ratio of all-plant-based diet group were significant higher than those of the control (p < 0.05). In contrast, FCR of all-plant-based diet group was significantly lower than that of the control (p < 0.05). Therefore, all-plant-based diets could not affect the growth performance of blunt snout breams. Compared to the control group, the lysozyme levels in serum and mucus, and glutamic-oxaloacetic transaminase activities in serum and liver decreased significantly (p < 0.05). In contrast, the glutamic-pyruvic transaminase activities in serum and liver increased significantly (p < 0.05). For blunt snout breams fed with all-plant-based diets, the superoxide dismutase activities in mucus, serum and liver as well as catalase activity in serum and liver were decreased significantly (p < 0.05) comparing with that of the control group. But malondialdehyde contents were higher (p < 0.05) in serum and liver than that of control group. The expression of HSC70 mRNA increased significantly (p < 0.05) in blunt snout breams fed with all-plant-based diet, whereas the HSP70 mRNA expression decreased significantly (p < 0.05) when compared with control group. In conclusion, all these results indicated that the application of all-plant-based diet could decrease the anti-stress properties (non-specific immunity, stress resistance and antioxidant ability) and HSP70 mRNA expression in blunt snout breams fingerling. Although all-plant-based diets could not affect the growth performance of blunt snout breams, the application of all-plant-based diet should be discreet in the production practice.     

Growth performance and TOR pathway gene expression of juvenile blunt snout bream,Megalobrama amblycephala,fed with diets replacing fish meal with cottonseed meal

A 16‐week feeding trial was conducted to assess the effects of replacing fish meal (FM) with cottonseed meal (CM) on the growth performance, feed utilization, plasma biochemical composition and target of rapamycin (TOR) pathway gene expression of juvenile blunt snout bream (Megalobrama amblycephala). Five isonitrogenous (36% crude protein) and isoenergetic (16 MJ kg^?1) diets with graded replacing levels of CM (replacing 0, 25, 50, 75 and 100% FM with CM) and similar lysine and methionine concentrations were fed to triplicate groups of fish. Results revealed that specific growth rate (SGR), feed intake and protein efficiency ratio (PER) of group fed with diets replacing FM with CM up to 50% were significantly higher than others (P < 0.05). However, final body weight and feed conversion ratio (FCR) remained similar up to 25% and thereafter significantly decreased and increased, respectively, as the replacement level increased (P < 0.05). Replacement levels significantly decreased hepatosomatic index and viscerosomatic index (P < 0.05), but did not significantly affect condition factor and whole body compositions. Free gossypol mainly accumulated in liver and significantly increased in diets CM75 and CM100 than CM0 (P < 0.05). Replacement significantly influenced plasma urea contents (P < 0.05). Meanwhile, increasing replacement of FM with CM in diets increased insulin‐like growth factor I (IGF‐1) gene expression in liver of blunt snout bream. Target of rapamycin (TOR) gene expression in diet CM100 was significantly lower than that in diets CM0 and CM75, while the eukaryotic translation initiation factor 4E‐binding protein 2 (4E‐BP2) gene expression was not affected by the replacement level of CM in diets. Therefore, based on final body weight and FCR, it suggested that up to 25% of FM (150 g kg^?1 in basal diet) could be replaced by CM in diets, which was 112.5 g kg^?1 FM and 192.9 g kg^?1 CM, for juvenile blunt snout bream.     

Optimum arginine requirement of juvenile black sea bream,Sparus macrocephalus

An 8‐week feeding trial was conducted to determine the dietary arginine requirement of juvenile black sea bream Sparus macrocephalus in 18 350 L indoors flow‐through circular fibreglass tanks. Six isonitrogenous and isoenergetic diets were formulated to contain graded levels of l ‐arginine (1.85%, 2.23%, 2.51%, 2.86%, 3.20% and 3.46% dry diet) from dietary ingredients and crystalline arginine. Each diet was randomly assigned to triplicate groups of 25 juvenile fish (10.51±0.15 g) twice daily (08:00 and 16:00 hours) to apparent satiation. Results showed that the specific growth rate (SGR) increased with increasing dietary arginine levels up to 2.51% and remained nearly the same thereafter. Feed efficiency ratio, protein efficiency ratio (PER) and protein productive value all showed an increasing tendency and then levelled off. Apparent digestibility coefficients of dry matter, crude protein and gross energy significantly improved up to 2.86% arginine diet and decreased at different extents thereafter. Fish fed 1.85% arginine diet had significantly lower protein content in the whole body and dorsal muscle than those fed diets supplemented with or >2.86% of arginine. Lipid content decreased and lower value occurred at 3.46% of dietary arginine. The dietary essential amino acid composition in the whole body of the black sea bream was significantly influenced by dietary arginine. Arginine retention increased with an increasing dietary arginine level from 1.85% to 3.20%, then declined slightly at 3.46% arginine diet. Serum biochemical parameters were significantly affected by the dietary arginine level except for the cholesterol content. Broken‐line regression based on SGR and second‐order polynomial regression based on PER indicated that the optimum dietary arginine requirements for juvenile black sea bream were 2.79% and 3.09% diet, corresponding to 7.74% and 8.13% of the dietary protein respectively.