Author: Ding, Steve C.; Pyle, Anna Marie
Title: Molecular Mechanics of RNA Translocases Cord-id: igkhn4m4 Document date: 2012_1_1
ID: igkhn4m4
Snippet: Historically, research on RNA helicase and translocation enzymes has seemed like a footnote to the extraordinary progress in studies on DNA-remodeling enzymes. However, during the past decade, the rising wave of activity in RNA science has engendered intense interest in the behaviors of specialized motor enzymes that remodel RNA molecules. Functional, mechanistic, and structural investigations of these RNA enzymes have begun to reveal the molecular basis for their key roles in RNA metabolism and
Document: Historically, research on RNA helicase and translocation enzymes has seemed like a footnote to the extraordinary progress in studies on DNA-remodeling enzymes. However, during the past decade, the rising wave of activity in RNA science has engendered intense interest in the behaviors of specialized motor enzymes that remodel RNA molecules. Functional, mechanistic, and structural investigations of these RNA enzymes have begun to reveal the molecular basis for their key roles in RNA metabolism and signaling. In this chapter, we highlight the structural and mechanistic similarities among monomeric RNA translo-case enzymes, while emphasizing the many divergent characteristics that have caused this enzyme family to become one of the most important in metabolism and gene expression.
Search related documents:
Co phrase search for related documents- absence presence and acid inducible gene retinoic: 1
- absence presence and acid target: 1
- absence presence and active area: 1
- absence presence and long distance: 1
- absence presence and low affinity: 1, 2
- absence presence and low affinity high: 1, 2
Co phrase search for related documents, hyperlinks ordered by date