The DEAD-Box Protein CYT-19 Uses Arginine Residues in Its C-Tail To Tether RNA Substrates
Autor: | Veronica F. Busa, Rick Russell, Maxwell J. Rector |
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Rok vydání: | 2017 |
Předmět: |
0301 basic medicine
DEAD box Arginine Biochemistry Article DEAD-box RNA Helicases Fungal Proteins 03 medical and health sciences RNA Catalytic Amino Acid Sequence Peptide sequence Adenosine Triphosphatases Fungal protein Neurospora crassa biology Group I intron splicing Helicase RNA RNA Helicase A enzymes and coenzymes (carbohydrates) 030104 developmental biology Tetrahymena Helix biology.protein Biophysics Nucleic Acid Conformation |
Zdroj: | Biochemistry. 56:3571-3578 |
ISSN: | 1520-4995 0006-2960 |
DOI: | 10.1021/acs.biochem.7b00362 |
Popis: | DEAD-box proteins are nonprocessive RNA helicases that play diverse roles in cellular processes. The Neurospora crassa DEAD-box protein CYT-19 promotes mitochondrial group I intron splicing and functions as a general RNA chaperone. CYT-19 includes a disordered, arginine-rich “C-tail” that binds RNA, positioning the helicase core to capture and unwind nearby RNA helices. Here we probed the C-tail further by varying the number and positions of arginines within it. We found that removing sets of as few as four of the 11 arginines reduced RNA unwinding activity (kcat/KM) to a degree equivalent to that seen upon removal of the C-tail, suggesting that a minimum or “threshold” number of arginines is required. In addition, a mutant with 16 arginines displayed RNA unwinding activity greater than that of wild-type CYT-19. The C-tail modifications impacted unwinding only of RNA helices within constructs that included an adjacent helix or structured RNA element that would allow C-tail binding, indicating that the helicase core remained active in the mutants. In addition, changes in RNA unwinding efficiency of the mutants were mirrored by changes in functional RNA affinity, as determined from the RNA concentration dependence of ATPase activity, suggesting that the C-tail functions primarily to increase RNA affinity. Interestingly, the salt concentration dependence of RNA unwinding activity is unaffected by C-tail composition, suggesting that the C-tail uses primarily hydrogen bonding, not electrostatic interactions, to bind double-stranded RNA. Our results provide insights into how an unstructured C-tail contributes to DEAD-box protein activity and suggest parallels with other families of RNA- and DNA-binding proteins. |
Databáze: | OpenAIRE |
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