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互助县丹麻乡泽林、锦州两个行政村地处海拔2800~3000m的河湟高位农作区,气侯较为寒冷。为提高农户养猪的饲料报酬,于1994年1月7日~1995年1月6日,沿用农民传统饲养方式,进行了暖棚与敞圈养猪饲料报酬的对比试验,其结果表明:日增重暖棚比敞圈猪多94.93g,提高饲料报酬50.06%,头均增加收益272.87元;重料比暖棚组与敞圈组分别为1:6.1和1:9.49,每kg增重暖棚组节约饲料3.39kg,节料率为86、72%;育肥一头110kg重的肉猪,可缩短饲养期182d,提高时效49.86%。 相似文献
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Ning De-juan Hou Pei-chen Hu Zan-min Shen Xin Chen Shao-liang College of Biological Sciences Biotechnology Beijing Forestry University Beijing P. R. China Institute of Genetics Developmental Biology Chinese Academy of Sciences Beijing P. R. China 《中国林学(英文版)》2006,8(4):15-19
For this paper, the plasma membrane (PM) H -ATPase gene has been cloned from Populus euphratica Oliv. through a homology based strategy. The isolated 3,210 bp cDNA contains a single 2,862 bp open reading frame (ORF) which encodes a putative H -ATPase protein of 953 amino acid residues, with a significant homology to plasma membrane H -ATPase of Primus persica, Phaseolus vulgaris, Sesbania rostrata and Daucus carota. The predicted protein has a molecular weight of 104,553 Da. The copy number analysis revealed multiple copies of the PM H -ATPase in the P. euphratica genome after digestion of their genomic DNA by the restriction enzymes EcoRI, NdeⅠ, FbaⅠand BglⅡ, and Southern blot. 相似文献
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M. Fladung 《Plant Breeding》1993,111(3):242-245
The iaaL gene of Pseudomonas syringae subsp. savastanoi encodes an indoleacetic acid-lysine synthetase which conjugates free indoleacetic acid (IAA) with lysine. lAA-lys is biologically less active than free IAA. The iaaL coding region was expressed under the control of the cauliflower mosaic virus 35S promoter and transgenic potato plants were produced (Spena et al. 1991). 35S iaaL potato plants are characterized by increased internodal length and epinastic bending of older leaves. In three greenhouse experiments with plants grown in pots of different size and in two growth chamber experiments tuber number increased in iaaL transgenic plants compared to untransformed and vector-transformed controls of the same genotype. The increase in tuber numbers observed under controlled conditions was reflected in tuber yield which increased in the pot grown transgenics. 相似文献
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在构建的小肠结肠耶氏菌毒性质粒DNA基因文库pYB1~8与pYP1~6的基础上,筛选出了pYB7和pYP6克隆株.用限制性内切酶Bam HI消化pYB7,Pst消化pYP6,可分离出3.8kb和6.4kb的插入性DNA片段.以这两个基因片段为目的基因,用生物素化dUTP和光敏生物素标记,获得了生物素标记的基因探针.该探针能检出10pg以上的强毒小肠结肠耶氏菌DNA,不与无毒小肠结肠耶氏菌及大肠杆菌、鼠伤寒沙门氏菌、金黄色葡萄球菌等18种对照菌反应,具有高度的特异性和敏感性.pYB7与pYP6探针对不同血清型及来源的小肠结肠耶氏菌检测,其结果与自凝性试验、依钙试验等结果相符;对小肠结肠耶氏菌强毒株与无毒株检定的准确率为100%. 相似文献
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表达序列标签(ESTs)及其应用 总被引:3,自引:0,他引:3
表达序列标签(ESTs)是指从(ESTcDNA文库中随机挑取克隆并对其3’或5’端进行单轮自动测序所获得的短cDNA库列,一般长度为300~500bp。要有效获取ESTs,必须对cDNA文库进行预处理,处理方法有衰减杂交法、均一化法和差异显示法。在dbEST中收录了大量各种生物的ESTs。ESTs广泛应用于鉴定基因、发现新基因、电子克隆、构建遗传学图谱、制备DNA芯片、分子标记、研究基因的差异表达及检验病原微生物等方面。 相似文献
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Modern biotechnology promises a number of new applications in animal breeding and production. Although conventional pig breeding has achieved a high level of efficiency and productivity numerous problems have been encountered with animal health and the loss of meat quality. Selection based on phenotypic performance data of individual animals does not take into account the importance of specific genes and their relevance within a complex regulatory system. In most cases it is therefore difficult to trace back the genetic origins of clinically important disorders. The application of genetic engineering techniques in pig production will facilitate diagnosis, improvement of productivity, and animal health by allowing direct genetic manipulation. Attention must be focussed on the physical and genetic analysis of the procine genome. The isolation and characterisation of genes, DNA-markers, polymorphic DNA-fragments, and their chromosomal assignment will be important prerequisites and tools for the elucidation of genetic disorders. Especially the detection of heterozygous carriers of recessive disorders and their elimination from the breeding stock will increase selection accuracy and decrease the generation intervals. But also the rapid and simple detection of infectious diseases, which is sometimes difficult if not impossible at present, will improve animal health and welfare. Although the production of transgenic animals either by DNA-microinjection into zygotes or the use of embryonal stem cells manipulated in vitro is less straightforward than DNA-based diagnosis it will play an important role in the direct manipulation of the porcine genome and genes. Breeding programmes including the use of transgenic livestock have already been developed. There is no doubt that genetic engineering has reached a degree of practical feasibility, allowing it to play an important role in pig breeding in particular and animal production in general. 相似文献