Kraus J, Staehelin M
Nucleic Acids Res. 1974 Nov;1(11):1479-96. doi: 10.1093/nar/1.11.1479.
N(2)-guanine methyltransferase II was purified from rat liver. This enzyme methylated bulk E. coli tRNA to an extent of 7.6 nmoles of methyl groups/mg tRNA. Oligonucleotide analysis showed that N(2)-methylated guanosines were present in the modified tRNA in two sequences, namely Y-m(2)G-Cp and Y-m(2) (2)G-Cp in the ratio 4:3. Two pure tRNA(Leu) species, and tRNA(Met) (f) from E. coli were methylated with the enzyme to extents of 17, 11, and 8 nmoles of methyl groups incorporated per mg tRNA, respectively. When the methylated tRNAs were analysed no m(2) (2)G was detected and the m(2)G occurred in the tRNAs specific for leucine in a Y-m(2)G-Cp sequence and in the tRNA(Met) (f) in a sequence Y-m(2)G-Up.It is concluded that the mammalian enzyme specifically recognizes the interstem unpaired guanylate residue between the dihydrouridine arm and the anticodon arm. The absence of any detectable m(2) (2)G methylation of individual tRNA species is discussed.
N(2)-鸟嘌呤甲基转移酶II从大鼠肝脏中纯化得到。该酶使大肠杆菌总tRNA甲基化,甲基化程度为7.6纳摩尔甲基/毫克tRNA。寡核苷酸分析表明,在修饰的tRNA中,N(2)-甲基化鸟苷存在于两个序列中,即Y-m(2)G-Cp和Y-m(2)(2)G-Cp,比例为4:3。两种纯的大肠杆菌tRNA(Leu)以及tRNA(Met)(f)分别被该酶甲基化,甲基化程度分别为每毫克tRNA掺入17、11和8纳摩尔甲基。对甲基化的tRNA进行分析时,未检测到m(2)(2)G,m(2)G出现在亮氨酸特异性tRNA的Y-m(2)G-Cp序列中以及tRNA(Met)(f)的Y-m(2)G-Up序列中。得出的结论是,该哺乳动物酶特异性识别二氢尿嘧啶臂和反密码子臂之间茎间未配对的鸟苷酸残基。文中讨论了单个tRNA物种未检测到任何可检测到的m(2)(2)G甲基化的情况。