饥饿胁迫对草鱼鱼种非特异免疫力的影响

研究长期饥饿对草鱼(Ctenopharyngodon idellus)鱼种非特异性免疫力的影响。实验选取平均体质量(31.86?1.47g)的草鱼,随机分为2个实验组(对照组和饥饿组),每组三个平行,饥饿处理15、30、45和60d,测定饥饿对头肾和脾脏中自然杀伤(NK)细胞的杀伤活性、血清和肝胰脏中溶菌酶活性、血清中碱性磷酸酶活性的影响。结果表明：受饥饿胁迫的影响,草鱼鱼种自然杀伤性细胞在脾脏和头肾中的杀伤活性显著低于对照组(P<0.05)且不随着饥饿时间的延长发生显著性变化;随着饥饿时间的延长,血清和肝胰脏中溶菌酶呈现先升高后降低的趋势,血清碱性磷酸酶在饥饿15d、45d、60d时显著低于对照组;,饥饿组的碱性磷酸酶活性在饥饿30d以后,维持恒定。由此可见,长时间的饥饿胁迫降低了草鱼鱼种的免疫力。相比较而言,自然杀伤细胞的杀伤活性在评价鱼类的免疫状况时比溶菌酶和碱性磷酸酶更为灵敏。     

饥饿状态下草鱼生长激素的分泌

以两种规模草鱼为对象,研究了饥饿对其生长激素的影响。检测由背大动脉导管抽取的连续血样的结果表明;饥饿状态下草鱼（体重为0．5－1．0kg）生长激素分泌仍是间歇性的,但饥饿明显提高其总体生长激素平均值、基础生长激素平均值和其最大峰值。对于草鱼鱼种（体重为25．30g）,饥饿也明显提高其血液中生长激素水平,但草鱼种的肥满度系数和血糖浓度却。在体外灌流实验中,饥饿的草鱼种脑垂体碎片生长激素基础分泌值明显高于正常投喂的对照组。这些结果表明：饥饿状态下草鱼生长激素分泌增强。     

越冬饥饿胁迫对草鱼机体生化组成和糖脂蛋白代谢相关基因转录水平的影响

为了探讨草鱼(Ctenopharyngodon idellus)在越冬期间能量利用的代谢适应机制, 将草鱼初始体重[(1053.33±16.11) g]置于室外水泥培育池, 分别在自然越冬饥饿0、1、2、4、8、12和16周后进行采样, 进行肌肉常规成分、血清能量代谢物、组织糖原、甘油三酯含量及AMP活化蛋白激酶和糖脂蛋白代谢相关基因转录水平的检测。结果显示: 越冬饥饿1周后, 草鱼肌肉各常规成分含量显著变化(P<0.05); 随着越冬饥饿时间的延长, 血清甘油三酯(TG)、甘油(Glycerol)、总蛋白(TP)、总胆固醇(TCHO)和血糖(GLU)含量先显著降低(P<0.05), 随后保持稳定, 游离脂肪酸(Free fatty acids)含量显著上升(P<0.05); 肝胰脏糖原和肌肉糖原及肝胰脏、肌肉和脂肪组织TG含量显著降低(P<0.05); 血清ATP、ADP和AMP含量显著降低, ADP+AMP/ATP比值显著升高(P<0.05); 肝胰脏、肌肉及腹腔脂肪ampk α1、ampk α2基因表达显著上升(P<0.05), 下游糖脂及蛋白代谢相关基因转录水平显著上升(包括atgl、hsl、cpt1α、cd36等脂分解相关基因; gk、pfk、pk等糖酵解相关基因; gldh、 igf-1等蛋白分解相关基因)或显著下调(acc、fas等脂合成相关基因; creb、foxo1、pgc-1α、pepck、g6pase、glut2等糖异生相关基因; tor、s6k等蛋白合成相关基因)(P<0.05)。研究表明, 草鱼在越冬饥饿期间, 血清、肝胰脏、肌肉和脂肪组织生化组成发生了上述变化的同时, 越冬饥饿胁迫激活了AMPK通路, 促进了各组织糖酵解、脂质分解、脂肪酸β氧化、脂肪酸转运及蛋白分解的进程, 抑制了糖原合成、脂质合成和蛋白合成的过程, 进而维持了机体能量稳态。     

饥饿对大鳞副泥鳅不同组织糖原、ACP和ALP的影响

饥饿是鱼类在自然状况下经常遇到的不良条件,此时鱼类体内会发生各种生理变化以适应逆境.本文以大鳞副泥鳅为材料,研究了饥饿和再投喂过程中,肝和肌肉两种组织中糖原、酸性磷酸酶和碱性磷酸酶的细胞化学特征.对大鳞副泥鳅进行饥饿处理,0～28 d不喂养食物,29～35 d恢复正常喂食.分别于0、7、14、21、28和35 d取材检测.结果表明,随着饥饿程度的加深,糖原和ACP的量均减少,ALP则增多.投喂后,都有不同程度的恢复.但变化存在组织差异.糖原的含量可作为鱼类饥饿程度和补偿性生长的一个重要指标,ACP和ALP在鱼类的应激反应中具有重要作用.     

饥饿和再投喂对草鱼鱼种生物化学组成的影响

分析了饥饿１５天和再投喂２１天的草鱼鱼种肝脏和肌肉生物化学组成的变化,结果表明：（１）饥饿降低白肌ＲＮＡ／ＤＮＡ比值,蛋白质含量和肝脏ＲＮＡ／ＤＮＡ比值,使肝脏蛋白质含量升高,再投喂后,肝脏ＲＮＡ／ＤＮＡ比值,蛋白质含量和白蛋白质含量均恢复至正常投喂组水平,白肌ＲＮＡ／ＤＮＡ比值升高并显著高于正常投喂组水平;（２）饥饿状态下,肝脏和肌肉的脂类含量降低,水含量升高,再投喂后,肝脏和肌肉的脂类含量升高     

饥饿状态下草鱼的代谢率和氮排泄率及其与体重的关系

在饥饿条件下,鱼的能量消耗主要有两方面,一是代谢,另一是含氮化合物的排泄。这两个指标的测定,对于预测饥饿鱼的能量收支及生长有很大意义。本项研究利用饥饿实验,测定了30℃下饥饿草鱼的代谢率、氮排泄率与体重的关系。     

高效氯氰菊酯对草鱼肝胰脏和肾脏溶菌酶活性的影响

研究了暴露在不同高效氯氰菊酯浓度下的草鱼Ctenopharyngodon idella肝胰脏和肾脏溶菌酶(LSZ)的活性变化.实验中高效氯氰菊酯浓度设5组,分别为0 μg/L、0.5μg/L、1.0 μg/L、3.0μg/L和5.0 μg/L,每组分别于1d、5d和12 d取样,测定肝胰脏和肾脏溶菌酶活性.结果显示,肝胰脏LSZ活性在暴露1d、5d、12 d时,各处理组均显著下降(P ＜0.05,P ＜0.01).肾脏LSZ活性在暴露1d、5d时,0.5μg/L、1.0 μg/L和3.0 μg/L组显著上升(P＜0.05,P＜0.01),5.0 μg/L组显著下降(P＜0.01);暴露12d时,0.5μg/L、1.0 μg/L组显著上升(P＜0.05),3.0μg/L和5.0 μg/L组显著下降(P＜0.05,P＜0.01).表明高效氯氰菊酯对草鱼肝胰脏和肾脏具有明显的毒害作用.     

雌核发育抗病草鱼与普通草鱼的免疫学指标比较

雌核发育抗病草鱼在养殖过程中已表现出较好的抗病能力,但对其抗病力的确定还缺乏有力的证据。通过对雌核发育抗病草鱼和相同饲养条件下普通草鱼的主要免疫球蛋白基因(Ig D、Ig Z和Ig M)相对表达量、免疫生化指标(白蛋白、碱性磷酸酶、谷丙转氨酶、谷草转氨酶和肌酐)、血清溶菌酶活性等相关参数的比较,分析了雌核发育抗病草鱼的免疫能力。数据显示雌核发育抗病草鱼Ig Z、Ig M m RNA在血液和脾脏中的相对表达量、Ig D m RNA在头肾和脾脏中的相对表达量都与普通草鱼存在显著差异(P0.05);溶菌酶活性与普通草鱼存在显著差异(P0.05)。在免疫生化指标方面,雌核发育抗病草鱼也明显优于普通草鱼。研究结果肯定了雌核发育抗病草鱼在免疫机能方面的优越性。     

草鱼EST-SSR标记及5个不同地域群体的遗传结构分析

以草鱼(Ctenopharyngodon idella)脑、肌肉、肝等组织构建cDNA文库,经测序获得unigenes序列45 318个,从中筛选微卫星序列共5 556个,据此设计EST-SSR引物118对,其中19对引物能够扩增出带型清晰且多态性较高的谱带。用这19个EST-SSR标记研究3个长江水系群体(石首、监利和长沙)和2个珠江水系群体(清远和肇庆)草鱼的遗传结构。结果表明,5个群体的平均多态信息含量(PIC)为0.415 4～0.460 4,显示草鱼群体的遗传多样性偏低;平均观测杂合度(Ho)为0.415 8～0.501 3,平均期望杂合度为(He)0.450 6～0.502 8,其中,长沙群体平均期望杂合度最高,为0.502 8,监利群体的平均观察杂合度和平均期望杂合度均最低,分别为0.415 8和0.450 6,即长沙群体的遗传多样性最高,监利群体的遗传多样性最低;对数据进行F-检验,结果表明,群体间的遗传分化程度低。Hardy-Weinberg平衡的卡方检验结果表明,5个群体均一定程度上偏离了平衡;聚类分析显示长沙群体、石首群体与监利群体聚成一支;肇庆群体与清远群体聚成一支,这与草鱼群体的流域分布一致。     

植酸酶对草鱼和新吉富罗非鱼消化酶活性的影响

植酸酶能水解植酸络合物,释放被植酸束缚的各种营养因子,因此能有效解除植酸与内源性消化酶的结合,促进消化酶的作用。本实验在全植物性饲料中添加植酸酶,研究其对草鱼(Ctenopharyngodon idellus)和新吉富罗非鱼(Oreochromis niloticus)淀粉酶及蛋白酶比活力的影响。以全植物性饲料为阴性对照组,添加磷酸氢钙(dibasic calcium phosphate,DCP)实验组为阳性对照组,另设4个不同梯度的植酸酶实验组(250 U/kg、500 U/kg、1 000 U/kg和2 000 U/kg)。实验选取健壮、规格齐整平均体质量为(12.59±0.09)g的草鱼和平均体质量为(9.59±0.12)g的新吉富罗非鱼,分别随机分为6个组,每组5个平行,每个平行20尾鱼。养殖8周后,草鱼平均体质量(18.29±0.63)g,新吉富罗非鱼平均体质量为(24.68±1.34)g,抽样取出胃、肠和肝胰脏用来分析淀粉酶和蛋白酶比活力。结果表明,植酸酶对无胃鱼草鱼和有胃鱼罗非鱼淀粉酶及蛋白酶比活力都有显著的促进作用。相比较而言,植酸酶对罗非鱼的应用效果较明显,低剂量就能显著提高其淀粉酶及蛋白酶比活力(P<0.05)。当植酸酶添加量达到1 000 U/kg时,草鱼和罗非鱼淀粉酶及蛋白酶比活力均达到峰值,此时,罗非鱼淀粉酶和蛋白酶比活力与阳性对照组无显著差异(P>0.05),而草鱼肝胰脏蛋白酶比活力显著高于阳性对照组(P<0.05)。植酸酶2 000 U/kg实验组,罗非鱼淀粉酶和蛋白酶比活力与1 000 U/kg植酸酶实验组无显著差异(P>0.05),但草鱼肝胰脏蛋白酶比活力显著低于1 000 U/kg植酸酶实验组(P<0.05)。因此,本实验条件下,植酸酶在草鱼和新吉富罗非鱼全植物性蛋白质配合饲料中的适宜添加量均为1 000 U/kg,生产实践中可通过添加植酸酶部分替代无机磷源。     

灌喂氧化鱼油使草鱼肠道黏膜胆固醇胆汁酸合成基因通路表达上调

以草鱼(Ctenopharyngodon idella)为试验对象, 灌喂氧化鱼油7d后, 采集肠道黏膜组织并提取总RNA, 采用RNA-seq方法, 进行氧化鱼油组和正常鱼油组草鱼肠道黏膜基因差异表达水平、基因注释和IPA基因通路分析, 并测定了血清中胆固醇、甘油三酯、高密度脂蛋白和低密度脂蛋白含量. 研究结果显示, 草鱼肠道黏膜在受到氧化鱼油损伤后, 胆固醇和胆汁酸生物合成通路代谢酶、调节胆固醇和胆汁酸合成或转运的代谢酶或蛋白基因差异表达, 部分基因差异表达达到显著性上调水平. 实验结果表明, 草鱼肠道黏膜具备完整的乙酰辅酶A胆固醇胆汁酸的合成代谢基因通路. 肠道黏膜在受到氧化鱼油损伤后, 以乙酰辅酶A为原料的胆固醇生物合成代谢通路基因表达增强, 胆固醇由细胞外转运到细胞内的逆转运途径基因通路表达下调, 胆固醇由细胞内向细胞外转运基因通路表达上调; 以胆固醇为原料的胆汁酸经典合成代谢途径基因通路表达上调, 而胆汁酸的补充合成途径基因表达下调. 在灌喂氧化鱼油后, 血清胆固醇、低密度脂蛋白、甘油三酯含量分别增加了28.84%、29.56%和12.13%, 而高密度脂蛋白含量下降了8.15%.     

Tandem duplication of alkaline phosphatase genes and polymorphism in the intergenic sequence in<Emphasis Type="Italic"> Bombyx mori</Emphasis>

Alkaline phosphatases are ubiquitous in organisms from bacteria to human. Two alkaline phosphatase genes, Alp-m and Alp-s, were independently cloned from the silkworm Bombyx mori. They were mapped to a small DNA region and shown to be organized in tandem. Exon-intron structures of the two genes were highly conserved, with the exception of the second intron in Alp-m, which has no counterpart in Alp-s. The similarity between the nucleotide sequences of the exons of the two genes was strikingly high (60–79%), suggesting that Alp-m and Alp-s originated from a duplication of their common ancestor gene. The intergenic sequence between the two Alp genes shows length polymorphism in different B. mori strains, which can be explained by presence/absence of two putative insertion sequences. This structural variation suggests a possible scenario for the divergence of the two Alp genes after the duplication event.Communicated by G. Reuter     

Cloning of an alkaline phosphatase gene from the moderately thermophilic bacterium<Emphasis Type="Italic"> Meiothermus ruber</Emphasis> and characterization of the recombinant enzyme

A gene that codes for an alkaline phosphatase was cloned from the thermophilic bacterium Meiothermus ruber, and its nucleotide sequence was determined. The deduced amino acid sequence indicates that the enzyme precursor including the putative signal sequence is composed of 503 amino acid residues and has an estimated molecular mass of 54,229 Da. Comparison of the peptide sequence with that of the prototype alkaline phosphatase from Escherichia coli revealed conservation of the regions in the vicinity of the corresponding phosphorylation site and metal binding sites. The protein was expressed in E. coli and its enzymatic properties were characterized. In the absence of exogenously added metal ions, activity was negligible; to obtain maximal activity, addition of free Mg²⁺ ions was required. Zn²⁺ ions had an inhibitory effect on the activity of the M. ruber enzyme. The pH and temperature optima for activity were found to be 11.0 and 62°C, respectively. The enzyme was moderately thermostable: it retained about 50% activity after incubation for 6 h at 60°C, whereas at 80°C it was completely inactivated within 2 h. The Michaelis constant for cleavage of 4-nitrophenylphosphate was 0.055 mM. While having much in common with other alkaline phosphatases, the M. ruber enzyme presents some unique features, such as a very narrow pH range for activity and an absolute requirement for magnesium for activity.Communicated by G. P. Georgiev     

诺氟沙星壳聚糖微胶囊缓释作用研究

利用冷冻干燥法制备了诺氟沙星-壳聚糖微囊制剂,并比较了诺氟沙星-壳聚糖微囊制剂与诺氟沙星原料药在草鱼组织中代谢动力学的差异性。结果表明,同诺氟沙星原料药相比,壳聚糖包埋对诺氟沙星在草鱼血浆中的吸收、代谢速率明显延缓,生物利用度明显增加。壳聚糖包埋条件下T1/2 ka为单纯口灌诺氟沙星的8倍,达峰时间平均延长2倍有余,T1/2和T1/2也明显延长,消除率（CLs）是单纯口灌的1/2;5倍壳聚糖包埋条件下诺氟沙星在草鱼血浆中的吸收速度比10倍包埋条件下稍快,达峰时间短,消除速度明显加快,但分布半衰期和曲线下面积（AUC）大小二者比较接近。实验中诺氟沙星-壳聚糖微囊制剂同诺氟沙星原料药在草鱼体内代谢动力学差异表明壳聚糖包埋对诺氟沙星药效的释放及鱼体对药物的吸收代谢都具有明显的延缓效果,因此在实际的生产活动中可用壳聚糖作为缓释剂延长药效、延缓药物在养殖动物体内的吸收代谢,提高生物利用率,达到更好的预防和治疗效果。     

Alkaline phosphatase at the cell wall of the yeast phase ofParacoccidioides brasiliensis

The activity of alkaline phosphatase demonstrated by histochemical techniques was shown at the cell wall of the yeast form ofParacoccidioides brasiliensis at 3, 6, and 9 days of culture. The results showed a very active deposition at the cell wall as early as 9 days of culture of the fungus which made us think an inactive salt precipitate was also present.     

A novel lysozyme from Xanthomonas oryzae phage varphiXo411 active against Xanthomonas and Stenotrophomonas

In this study, a bacteriophage of Xanthomonas oryzae pv. oryzae designated as varphiXo411 was isolated. Random sequencing of its genome revealed that it is closely related to another X. oryzae phage, Xp10. A cloned fragment carries the lysozyme gene, lys411. The deduced protein, Lys411, shares 92% identity with Xp10 lysozyme, which contains an extra 46 aa at the N-terminus. Lys411 shows over 40% identities to several other phage lysozymes. The His-tagged protein, Lys411H, expressed in Escherichia coli largely formed as inclusion bodies. The insoluble protein was solubilized in urea and purified by passing through a His-bind column, and the lytic activity was then restored by a refolding process. The optimal assay conditions determined for Lys411H are in 0.1M potassium phosphate buffer, pH 6.6 containing 1 mM CuCl(2) at 25 degrees C. Lysis assays using different bacterial cells as the substrates indicate that Lys411H is the first lysozyme active against both Xanthomonas and Stenotrophomonas maltophilia. This suggests that Lys411 can be a candidate to be developed into a therapeutic agent for treating S. maltophilia infections, in addition to the potential use in control of the plant diseases caused by Xanthomonas. By analogy to the situation in Xp10, we predict that varphiXo411 has no holin, the protein required for lysozyme export, and the N-terminal signal-arrest-release sequence of Lys411 can accommodate its own export to the periplasm.