SEQUENCE COMPARISON OF THE TY1 AND TY2 ELEMENTS OF THE YEAST GENOME SUPPORTS THE STRUCTURAL MODEL OF THE TRNA(I)(MET)-TY1 RNA REVERSE TRANSCRIPTION INITIATION COMPLEX

Citation
S. Friant et al., SEQUENCE COMPARISON OF THE TY1 AND TY2 ELEMENTS OF THE YEAST GENOME SUPPORTS THE STRUCTURAL MODEL OF THE TRNA(I)(MET)-TY1 RNA REVERSE TRANSCRIPTION INITIATION COMPLEX, Yeast, 13(7), 1997, pp. 639-645
Citations number
10
Categorie Soggetti
Microbiology,"Biothechnology & Applied Migrobiology",Biology
Journal title
YeastACNP
ISSN journal
0749503X
Volume
13
Issue
7
Year of publication
1997
Pages
639 - 645
Database
ISI
SICI code
0749-503X(1997)13:7<639:SCOTTA>2.0.ZU;2-Y
Abstract
In the reverse transcription initiation complex of the yeast Ty1 retro transposon, interaction between the template RNA and primer tRNA(i)(Me t) is not limited to base pairing of the primer binding sire (PBS) wit h ten nucleotides at the 3' end of tRNA(i)(Met), but three regions nam ed boxes 0, 1 sind 2.1 interact with the T and D stems and loops of tR NA(i)(Met). Sequence comparison of 33 Tyl elements and 13 closely rela ted Ty2 elements found in the yeast genome shows that the nucleotide s equence of all elements is highly conserved if the region spanning the PBS and the three boxes. Since this domain of the template RNA encode s a portion of protein TyA, we have calculated its amino acid profile and its nucleotide profile to evaluate the role played by nucleotide s equence conservation in the selection for TyA function and in the main tenance of base pairing interactions for the priming function of Tyl R NA. Our results show that the nucleotide sequence conservation of Tyl RNA is constrained not only by selection for Tyl function but also by maintenance of a given nucleotide sequence able to base pair with the tRNA(i)(Met) in the primer-template initiation complex. (C) 1997 by Jo hn Wiley & Sons, Ltd.