757 resultados para C4 diet
Resumo:
A three month long experiment was conducted to observe the effect of stocking density on the growth of Pangasius sutchi in net cages. The size of each cage was 1m³.The three stocking densities used were 40, 50 and 60 fishes/m³ and designated as treatment T1, T2 and T3 respectively. Each treatment had three replicates. All the fishes were of same age group having mean length and weight of 7.13 ± 1.37 cm and 2.46 ± 0.12 g respectively. The fish in all the net cages were fed a diet containing 34% protein. The result of the study showed that fish in the treatment T1 stocked at the rate of 40 fish/m³ resulted the best individual weight gain followed by T2 and T3 respectively. The specific growth rate (SGR) ranged between 3.51 and 3.09, the food conversion ratio (FCR) values ranged between 1.73 and 2.04 with treatment T1 resulting the lowest FCR. The protein efficiency ratios (PER) values were 1.69, 1.16 and 1.43 for treatment T1, T2 and T3 respectively. There was no significant (P>0.05) variation among the survival rates of fish which ranged between 92 and 95%. The net productions in different treatments were 2189, 2343, and 2283g for treatment T1, T2 and T3 respectively. The result of the present study indicated that the best individual growth of P. sutchi was obtained at a density of 40 fish/m³ but the highest total production was obtained at a stocking density of 50 fish/m³ in net cages.
Resumo:
水稻是我国重要的粮食作物之一,它是一种典型的C3植物。与其它C3作物不一样的是,水稻的生长需要相对较高的温度和充足的阳光照射。然而高温和高光强的生长环境更加适合于C4植物的生长,更加有利于发挥C4植物高光合效率的特点。因此本论文希望将C4植物中固定CO2的酶磷酸烯醇式丙酮酸羧化酶基因导入水稻,获得一种更加适合高温和高光强生活环境的“C4型”水稻,这对于提高水稻的产量,满足人口增长对粮食需求具有重大意义。 本论文从C4植物谷子和甘蔗中克隆了其C4型磷酸烯醇式丙酮酸羧化酶cDNA基因,获得了具有自主知识产权的基因克隆,并将它们导入粳稻品种中花8号,进而对转基因材料的光合生理特性进行了研究。结果如下: 首次从谷子中得到了ppc基因两个cDNA克隆,分别命名为Mppc1和Mppc2。前者是一个C3型的ppc基因,它可能属于在根中特异表达的C3-2型ppc基因;后者是在绿色叶片中大量表达的C4型ppc基因。它们所编码的蛋白的氨基酸残基数分别为961和964,序列同源性为82.5%。C4型PEPC多出的3个氨基酸位于N末端。利用RACE的方法我们得到了谷子C4型ppc基因完整的cDNA序列,包括63bp的5'非编码区,2895bp的编码区和256bp的3'非编码区。 首次获得了甘蔗C4型ppc基因完整的cDNA序列的克隆,命名为Sppc。它包括95bp的5'非编码区、2886bp的编码区,和224bp的3'非编码区。 利用所克隆的基因,分别连上强组成型启动子Ubiquitin启动子和强光调控启动子Rubisco小亚基启动子后,再插入两个标记基因不同的表达载体pCB和pPCB的多克隆位点中,构建了八个含有外源ppc基因的植物表达载体pCB-Pubi-Mppc、pCB-Pubi-Sppc、pCB-PrbcS-Mppc、pCB-PrbcS-Sppc、pPCB-Pubi-Mppc、pPCB-Pubi-Sppc、pPCB-PrbcS-Mppc和pPCB-PrbcS-Sppc。再加上含有玉米完整的C4型ppc 核基因的载体pCB-ZMppc,共有9个载体。利用农杆菌介导法进行了水稻的转化,各个载体都获得了大量的转基因植株。对标记基因潮霉素磷酸转移酶基因hpt和磷酸甘露糖异构酶基因pmi以及导入的目的ppc基因的PCR扩增检测,结果显示绝大多数转基因植株都能扩增出目的片段,而未转化的植株则没有扩增产物。对部分转基因水稻的Southern和Western杂交以及RT-PCR分析都表明,无论从DNA水平、mRNA水平,还是从蛋白质水平上都证明外源ppc基因都成功地导入了水稻,并获得了正确的表达。 对各载体转基因植株PEPC活性大规模的测定表明,转入玉米完整C4型PEPC核基因(有内含子)的水稻表现出极大的表达效率,大多数转基因材料的PEPC活性为对照的10-20倍,其活性最高可达到对照的44倍。转入谷子和甘蔗PEPC基因cDNA的水稻,表达的效率很低,多数材料活性增加仅为对照的2-5倍,但也有极少数材料活性增加了10倍以上。用Rubisco小亚基启动子控制的ppc基因在水稻的表达活性要略高于Ubiquitin启动子控制的ppc基因。以上结果说明ppc基因的内含子在其转录或mRNA的稳定上起着重要作用。 对部分转基因材料气体交换特征的研究发现,随着转基因水稻PEPC活性的增加,净光合速率也有逐渐增加的趋势。其中PEPC活性最大的ZM24株系的三个单株净光合速率比对照增加了39.8%、13.7%和28.6%,而它们的PEPC活性比对照分别增加了21.2、21.9和23.6倍。 转PEPC水稻的净光合速率与气孔导度具有显著的相关性。这说明表达的外源ppc 基因产物PEPC参与了转基因水稻的气孔运动,使气孔开放程度增加。更有意义的是过表达PEPC的水稻具有更高的水分利用效率,这就增加了其耐旱能力。在光抑制条件下转基因水稻也具有更高的光合能力。这些特征表明转ppc基因的水稻比对照更加适合于水稻高温高光强和干旱的原生环境。
Resumo:
To find out a suitable balance diet for Cirrhinus. cirrhosus fry substituting fish meal protein by full-fat soybean meal protein as dietary protein source for C. cirrhosus fry (1.29g) was studied in 12 aquaria for 60 days. The fishes were fed with four iso-nitrogenous (30% protein) and iso-caloric experimental diets viz. diet 1 (100% fish meal protein), diet 2 (75% fishmeal protein and 25% soybean meal protein), diet 3 (50% fishmeal protein and 50% soybean meal protein) and diet 4 (25% fish meal protein and 75% soybean meal protein). Among the diets the best growth, FCR and PER were obtained with diet 3 fed fishes and no significant difference (p<0.05) was observed between diet 1 and 2 and diet 4 offered the worst performance. Therefore, considering fish growth, FCR and PER, it can be suggested that fish meal protein might be replaced 50% by soybean meal protein in the diet of C. cirrhosus fry for better growth.
Resumo:
Effects of zinc (Zn) and manganese (Mn) supplementation to a tricalcium phosphate (TCP) rich diet for tiger puffer have been investigated. A TCP supplement to the diet decreased the growth of fish compared to the control diet with a Ca supplementation from Ca-lactate. However, addition of either Zn or Mn to the TCP supplemented diet could not improve the growth of tiger puffer. Addition of both zinc and manganese to the TCP supplemented diet improved the growth of tiger puffer.