Problems of computing the reversal distance between genomes are discussed. Problems of computing the reversal distance between genomes are fundamental problems of Computational Biology, these problems have important m...Problems of computing the reversal distance between genomes are discussed. Problems of computing the reversal distance between genomes are fundamental problems of Computational Biology, these problems have important meanings in studying the biological race evolution and the bio-pharmaceuticals etc. The problem of evolutionary trees based on reversal distance between genomes and it's NPC property are especially discussed.展开更多
利用脉冲电场凝胶电泳(PFGE,Pulse Field Gel Electrophoresis)和Southern印迹杂交,测定了小鼠第15染色体上Ⅱ型细胞角蛋白CK-4基因与含同源区序列的Hox 3.3基因之间的最大距离为130kb。Hox 3.3和Hox 3.1基因之间的距离不超过50kb。同...利用脉冲电场凝胶电泳(PFGE,Pulse Field Gel Electrophoresis)和Southern印迹杂交,测定了小鼠第15染色体上Ⅱ型细胞角蛋白CK-4基因与含同源区序列的Hox 3.3基因之间的最大距离为130kb。Hox 3.3和Hox 3.1基因之间的距离不超过50kb。同时还确定了这三个基因所在的1100kb DNA片段上MluⅠ、NotⅠ、SacⅡ、SolⅠ和SfiⅠ五种限制酶的物理图。展开更多
On the basis of the random amplified polymorphic DNA-fingerprinting (RAPD) method, 10 morphospecies of scuticociliates from 7 genera, including 15 clones of 13 strains, Uronema marinum,Uronema cf marinum, Parauronema ...On the basis of the random amplified polymorphic DNA-fingerprinting (RAPD) method, 10 morphospecies of scuticociliates from 7 genera, including 15 clones of 13 strains, Uronema marinum,Uronema cf marinum, Parauronema virginianum, P. longum, Metanophrys similis, M. sinensis, Paralembus digitiformis, Mesanophrys carcini, Paranophrys magna and Cohnilembus verminus were analysed using 8 oligonucleotide primers. The genetic similarity among the clones of the same strain measured by a band-sharing index is 0.97 ̄0.98, while 0.40 ̄0.52 among strains. This value measured is 0.39 ̄0.46 among congeners of the same genus, whereas 0.16 ̄0.47 between different genera. A distance tree was constructed based on 8-primer analysis, in which the scuticociliates investigated were separated into two clusters: one consists of 2 genera, Uronema and Parauronema, and the other was composed of five, Metanophrys, Mesanophrys, Paranophrys, Paralembus and Cohnilembus. It is demonstrated also that the morphospecies Parauronema virginianum may be a species-complex, i. e., it contains different genospecies.展开更多
文摘Problems of computing the reversal distance between genomes are discussed. Problems of computing the reversal distance between genomes are fundamental problems of Computational Biology, these problems have important meanings in studying the biological race evolution and the bio-pharmaceuticals etc. The problem of evolutionary trees based on reversal distance between genomes and it's NPC property are especially discussed.
文摘利用脉冲电场凝胶电泳(PFGE,Pulse Field Gel Electrophoresis)和Southern印迹杂交,测定了小鼠第15染色体上Ⅱ型细胞角蛋白CK-4基因与含同源区序列的Hox 3.3基因之间的最大距离为130kb。Hox 3.3和Hox 3.1基因之间的距离不超过50kb。同时还确定了这三个基因所在的1100kb DNA片段上MluⅠ、NotⅠ、SacⅡ、SolⅠ和SfiⅠ五种限制酶的物理图。
基金supported by the National Natural Science Foundation of China under contract No.40376045.
文摘On the basis of the random amplified polymorphic DNA-fingerprinting (RAPD) method, 10 morphospecies of scuticociliates from 7 genera, including 15 clones of 13 strains, Uronema marinum,Uronema cf marinum, Parauronema virginianum, P. longum, Metanophrys similis, M. sinensis, Paralembus digitiformis, Mesanophrys carcini, Paranophrys magna and Cohnilembus verminus were analysed using 8 oligonucleotide primers. The genetic similarity among the clones of the same strain measured by a band-sharing index is 0.97 ̄0.98, while 0.40 ̄0.52 among strains. This value measured is 0.39 ̄0.46 among congeners of the same genus, whereas 0.16 ̄0.47 between different genera. A distance tree was constructed based on 8-primer analysis, in which the scuticociliates investigated were separated into two clusters: one consists of 2 genera, Uronema and Parauronema, and the other was composed of five, Metanophrys, Mesanophrys, Paranophrys, Paralembus and Cohnilembus. It is demonstrated also that the morphospecies Parauronema virginianum may be a species-complex, i. e., it contains different genospecies.