3-DIMENSIONAL MODEL FOR THE HAMMERHEAD RIBOZYME BASED ON FLUORESCENCE MEASUREMENTS

被引：210

作者：

TUSCHL, T

GOHLKE, C

JOVIN, TM

WESTHOF, E

ECKSTEIN, F

机构：

[1] MAX PLANCK INST EXPTL MED, D-37075 GOTTINGEN, GERMANY

[2] INST MOLEK BIOTECHNOL EV, MOLEK BIOL ABT, D-07745 JENA, GERMANY

[3] MAX PLANCK INST BIOPHYS CHEM, D-37077 GOTTINGEN, GERMANY

[4] CNRS, INST BIOL MOLEC & CELLULAIRE, F-67084 STRASBOURG, FRANCE

来源：

SCIENCE | 1994年 / 266卷 / 5186期

关键词：

D O I：

10.1126/science.7973630

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

For the understanding of the catalytic function of the RNA hammerhead ribozyme, a three-dimensional model is essential but neither a crystal nor a solution structure has been available. Fluorescence resonance energy transfer (FRET) was used to study the structure of the ribozyme in solution in order to establish the relative spatial orientation of the three constituent Watson-Crick base-paired helical segments. Synthetic constructs were labeled with the fluorescence donor (5-carboxyfluorescein) and acceptor (5-carboxytetramethylrhodamine) located at the ends of the strands constituting the ribozyme molecule. The acceptor helix in helix pairs I and III and in II and III was varied in length from 5 to 11 and 5 to 9 base pairs, respectively, and the FRET efficiencies were determined and correlated with a reference set of labeled RNA duplexes. The FRET efficiencies were predicted on the basis of vector algebra analysis, as a function of the relative helical orientations in the ribozyme constructs, and compared with experimental values. The data were consistent with a Y-shaped arrangement of the ribozyme with helices I and II in close proximity and helix III pointing away. These orientational constraints were used for molecular modeling of a three-dimensional structure of the complete ribozyme.

引用

页码：785 / 789

页数：5

共 43 条

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