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Publications by J. S. FEINBERG

Ribose 2'-Hydroxyl Groups in the 5' Strand of the Acceptor Arm of P-Site tRNA Are Not Essential for EF-G Catalyzed Translocation

RNA

Molecular Biology

2006

English

Related publications

EF-G:A-Site Trna Distance Changes During Translocation

Biophysical Journal

Biophysics

2014

English

Molecular Dynamics of EF-G During Translocation

Proteins: Structure, Function and Genetics

English

Participation of the tRNA A76 Hydroxyl Groups Throughout Translation†

Biochemistry

2006

English

EF-G-independent Reactivity of a Pre-Translocation-State Ribosome Complex With the Aminoacyl tRNA Substrate Puromycin Supports an Intermediate (Hybrid) State of tRNA Binding

RNA

Molecular Biology

2004

English

Simultaneous Force and Fluorescence Measurements on Single Ribosomes Demonstrate That mRNA Secondary Structures Do Not Restrict EF-G Catalyzed Translocation

Biophysical Journal

Biophysics

2018

English

Truncated Elongation Factor G Lacking the G Domain Promotes Translocation of the 3' End but Not of the Anticodon Domain of Peptidyl-tRNA.

Proceedings of the National Academy of Sciences of the United States of America

Multidisciplinary

1996

English

Recognition of the 5' Leader of Pre-tRNA Substrates by the Active Site of Ribonuclease P

RNA

Molecular Biology

2003

English

Modulation and Visualization of EF‐G Power Stroke During Ribosomal Translocation

English

Four Sites in the Acceptor Helix and One Site in the Variable Pocket of tRNA(Ala) Determine the Molecule's Acceptor Identity.

Proceedings of the National Academy of Sciences of the United States of America

Multidisciplinary

1991

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by J. S. FEINBERG

Ribose 2'-Hydroxyl Groups in the 5' Strand of the Acceptor Arm of P-Site tRNA Are Not Essential for EF-G Catalyzed Translocation

Related publications

EF-G:A-Site Trna Distance Changes During Translocation

Molecular Dynamics of EF-G During Translocation

Participation of the tRNA A76 Hydroxyl Groups Throughout Translation†

EF-G-independent Reactivity of a Pre-Translocation-State Ribosome Complex With the Aminoacyl tRNA Substrate Puromycin Supports an Intermediate (Hybrid) State of tRNA Binding

Simultaneous Force and Fluorescence Measurements on Single Ribosomes Demonstrate That mRNA Secondary Structures Do Not Restrict EF-G Catalyzed Translocation

Truncated Elongation Factor G Lacking the G Domain Promotes Translocation of the 3' End but Not of the Anticodon Domain of Peptidyl-tRNA.

Recognition of the 5' Leader of Pre-tRNA Substrates by the Active Site of Ribonuclease P

Modulation and Visualization of EF‐G Power Stroke During Ribosomal Translocation

Four Sites in the Acceptor Helix and One Site in the Variable Pocket of tRNA(Ala) Determine the Molecule's Acceptor Identity.