THE LENGTH AND THE SECONDARY STRUCTURE OF THE D-STEM OF HUMAN SELENOCYSTEINE TRANSFER-RNA ARE THE MAJOR IDENTITY DETERMINANTS FOR SERINE PHOSPHORYLATION

被引:24
作者
WU, XQ [1 ]
GROSS, HJ [1 ]
机构
[1] BAYER JULIUS MAXIMILIANS UNIV,BIOZENTRUM,INST BIOCHEM,D-97074 WURZBURG,GERMANY
来源
EMBO JOURNAL | 1994年 / 13卷 / 01期
关键词
HUMAN SELENOCYSTEINE TRANSFER-RNA; IDENTITY ELEMENTS; SERINE PHOSPHORYLATION; SERYL-TRNA((SER)SEC) PHOSPHORYLATION;
D O I
10.1002/j.1460-2075.1994.tb06254.x
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Selenocysteine tRNA [tRNA((Ser)Sec)] has been shown to be serylated by tRNA(Ser) synthetase. The serine moiety of seryl-tRNA((Ser)Sec) in vertebrates is further phosphorylated by a kinase, in addition to being converted into selenocysteine. Using site-directed mutagenesis we have introduced a number of mutations into T7 RNA polymerase transcripts of human tRNA((Ser)Sec). Our results show that most of the unique structural features of tRNA(Ser(Sec)), like the 5'-triphosphate, the 9 bp long acceptor stem and the anticodon, are not identity elements for phosphorylation of human seryl-tRNA((Ser)SeC). However, the length and secondary structure of the D-stem (6 bp in contrast with 4 bp in the canonical serine tRNA) of human tRNA((Ser)SeC), but not its sequence, are the major identity determinants which discriminate this tRNA from common tRNA(Ser) and identify it as the substrate for phosphorylation by seryl-tRNA((Ser)Sec) kinase. This notion is confirmed by the fact that normal seryl-tRNA(Ser), which is not a substrate for serine phosphorylation, becomes a substrate if two additional base pairs are introduced into its D-stem.
引用
收藏
页码:241 / 248
页数:8
相关论文
共 49 条
[1]   SOLUTION STRUCTURE OF SELENOCYSTEINE-INSERTING TRANSFER RNA(SEC) FROM ESCHERICHIA-COLI - COMPARISON WITH CANONICAL TRANSFER RNA(SER) [J].
BARON, C ;
WESTHOF, E ;
BOCK, A ;
GIEGE, R .
JOURNAL OF MOLECULAR BIOLOGY, 1993, 231 (02) :274-292
[2]  
BEIER H, 1991, ESSENTIAL MOL BIOL P, V2, P221
[3]   TYPE-I IODOTHYRONINE DEIODINASE IS A SELENOCYSTEINE-CONTAINING ENZYME [J].
BERRY, MJ ;
BANU, L ;
LARSEN, PR .
NATURE, 1991, 349 (6308) :438-440
[4]   SELENOPROTEIN SYNTHESIS - AN EXPANSION OF THE GENETIC-CODE [J].
BOCK, A ;
FORCHHAMMER, K ;
HEIDER, J ;
BARON, C .
TRENDS IN BIOCHEMICAL SCIENCES, 1991, 16 (12) :463-467
[5]   AMBER, OCHRE AND OPAL SUPPRESSOR TRANSFER-RNA GENES DERIVED FROM A HUMAN SERINE TRANSFER-RNA GENE [J].
CAPONE, JP ;
SHARP, PA ;
RAJBHANDARY, UL .
EMBO JOURNAL, 1985, 4 (01) :213-221
[6]   TRANSCRIPTION OF THE XENOPUS-LAEVIS SELENOCYSTEINE TRANSFER RNA(SER)SEC GENE - A SYSTEM THAT COMBINES AN INTERNAL B BOX AND UPSTREAM ELEMENTS ALSO FOUND IN U6 SNRNA GENES [J].
CARBON, P ;
KROL, A .
EMBO JOURNAL, 1991, 10 (03) :599-606
[7]   STRUCTURE AND PROPERTIES OF A BOVINE LIVER UGA SUPPRESSOR SERINE TRANSFER-RNA WITH A TRYPTOPHAN ANTICODON [J].
DIAMOND, A ;
DUDOCK, B ;
HATFIELD, D .
CELL, 1981, 25 (02) :497-506
[8]   ACCURATE TRANSCRIPTION INITIATION BY RNA POLYMERASE-II IN A SOLUBLE EXTRACT FROM ISOLATED MAMMALIAN NUCLEI [J].
DIGNAM, JD ;
LEBOVITZ, RM ;
ROEDER, RG .
NUCLEIC ACIDS RESEARCH, 1983, 11 (05) :1475-1489
[9]   SOLUTION STRUCTURE OF A TRANSFER-RNA WITH A LARGE VARIABLE REGION - YEAST TRANSFER RNASER [J].
DOCKBREGEON, AC ;
WESTHOF, E ;
GIEGE, R ;
MORAS, D .
JOURNAL OF MOLECULAR BIOLOGY, 1989, 206 (04) :707-722
[10]  
FORCHHAMMER K, 1991, J BIOL CHEM, V266, P6318
12345