large subunit meaning in English
大亚单位(大亚基)
大亚基核蛋白体
Examples
- In hela cells , by using anti - brgl antibodies , anti - rna polymerase ii antibodies and anti - nfl / ctf antibodies , the core subunit brg1 of baf complex and rna polymerase large subunit were found well immunofluorescently co - localized , while nf1 / ctf and rna polymerase large subunit were poorly co - localized . brg1 and nf1 / ctf were also well co - localized . in order to further reveal the relationships of baf complex with nf1 / ctf and rna polymerase ii large subunit at the ultra - microscopic level , we performed the double - labeling immunoelectron microscopy experiment with hela cells
以hela细胞为材料,分别用抗brg1抗体、抗rna聚合酶抗体和抗nf1 ctf抗体进行免疫荧光共定位分析,发现baf复合物的核心亚基brg1和rna聚合酶的大亚基存在很好的荧光共定位现象, nf1 ctf和rna聚合酶的大亚基之间的共定位现象不明显, brg1和nf1 ctf也有很好的共定位现象。 - In contrast , sequences from two strains gymnodinium are divergent ( the sequence similarities of the small subunit ( ssu ) rdna , the its1 , the 5 . 8s rdna , the its2 and the large subunit ( lsu ) rdna are 76 . 5 % , 25 . 4 % , 54 . 2 % , 23 . 2 % , 56 . 5 % , respectively ) , though their phylogenetic positions are relatively close
,编号为gyn - 15 ) 、一株米氏裸甲藻( gymnodiniummikimotoi ) )虽然进化距离接近,但它们的rdna序列相似性却很低,全长序列的相似性仅为54 . 1 。 - After the statistical analysis on the distances between different particles representing baf complex , nf1 / ctf and polymerase ii large subunit , respectively , we further proved that the baf complex is closely associated to nf1 / ctf and rna polymerase ii large subunit . but nf1 / ctf and rna polymerase ii are weakly associated
通过计算和分析分别代表两种蛋白质的两种金颗粒之间的距离,进一步证实baf复合物与rna聚合酶11的大亚基及转录因子呷ctf之间的联系紧密,而转录因子nfi ctf与叫a聚合酶11的大亚基之间的联系相对较弱。 - Based on recent molecular phylogenetic analyses using nucleotide sequences of the encoding the large subunit of ribulose 1 , 5 - bisphyosphate carboxylase / oxygenase ( rbcl ) , hypodematium should be not included in the athyriaceae , it has closely related to dryopteridaceae . on the other hand , athyriaceae , thelypteridaceae , blechnaceae , onocleaceae and woodisaceae form a large clade , so it may explain that tryon & tryon ( 1982 ) and kramer & kato ( 1990 ) putting it forward as dryopteriaceae s . 1
运用cpdna基因组编码的磷酸核酮糖羧化酶大亚基( rbcl )的基因序列测定而构建的系统树,显示蹄盖蕨科、金星蕨科、乌毛蕨科以及其他科构成一条与鳞毛蕨科平行的分支,因此可以说明kramer & kato ( 1990 )把蹄盖蕨科放入广义的鳞毛蕨科是不合理的。