最新的一份报道泰国对猪流感病毒采用分子和系统进化分析法分析。
The present report presents molecular and phylogenetic analysis performed on SIV in Thailand.
尽管信号传导因子的序列分化较大,但系统进化分析显示它们在不同昆虫间呈明显的直系同源关系。
Phylogenetic analysis showed that the signal transducers have remarkable orthologous relationships between different insect species in spite of the divergent sequences.
比较基于该区段及基于基因组全序列进行的系统进化分析结果,进一步证明该区段可替代全序列用于基因分型。
Phylogenetic analysis results are compared based on the full length and the selected region to further prove the statistical results.
系统进化分析显示,5组蜱和土拉菌聚在一个分支上,其余8组和弗朗西斯菌属(类)内共生体聚在一个主干分支上。
The phylogenetic analysis indicated that 5 groups were assigned to a clade of F. tularensis, and the rest 8 groups to main clade with FLEs.
分子进化分析发现,同属的微孢子虫可以处于系统进化树不同的分枝。
Molecular evolution analysis indicated that the microsporidia which even belonged to same genus could be classified to different branch.
通过序列同源比对及系统发育进化分析,发现克隆到的序列与其它物种DOB基因具有很高的同源性。
Sequence of SLA-DOB1 was cloned that was high homology with the other species by multiple sequences alignment and phylogeny evolution analysis.
通过序列同源比对及系统发育进化分析,发现克隆到的序列与其它物种DOB基因具有很高的同源性。
Sequence of SLA-DOB1 was cloned that was high homology with the other species by multiple sequences alignment and phylogeny evolution analysis.
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