TY - JOUR
T1 - RNA Chaperones, RNA Annealers and RNA Helicases
AU - Rajkowitsch, Lukas
AU - Chen, Doris
AU - Stampfl, Sabine
AU - Semrad, Katharina
AU - Waldsich, Christina
AU - Mayer, Oliver
AU - Jantsch, Franz-Michael
AU - Konrat, Robert
AU - Bläsi, Udo
AU - Schroeder, Renée
N1 - ***<REP_Import><OA_Full_2013>64556.28</OA_Full_2013></REP_Import>***PMID: 18347437 [PubMed -
RNA Biol. 2007 Nov;4(3):118-30.
15.01.2009: Datenanforderung 2651 (Import Sachbearbeiter)
15.01.2009: Datenanforderung 2651 (Import Sachbearbeiter)
09.02.2010: Datenanforderung UNIVIS-DATEN-DAT.RA-2 (Import Sachbearbeiter)
PY - 2007
Y1 - 2007
N2 - NA molecules face difficulties when folding into their native structures. In the cell, proteins can assist RNAs in reaching their functionally active states by binding and stabilizing a specific structure or, in a quite opposite way, by interacting in a non-specific manner. These proteins can either facilitate RNA-RNA interactions in a reaction termed RNA annealing, or they can resolve non-functional inhibitory structures. The latter is defined as "RNA chaperone activity" and is the main topic of this review. Here we define RNA chaperone activity in a stringent way and we review those proteins for which RNA chaperone activity has been clearly demonstrated. These proteins belong to quite diverse families such as hnRNPs, histone-like proteins, ribosomal proteins, cold shock domain proteins and viral nucleocapsid proteins. DExD/H-box containing RNA helicases are discussed as a special family of enzymes that restructure RNA or RNPs in an ATP-dependent manner. We further address the different mechanisms RNA chaperones might use to promote folding including the recently proposed theory of protein disorder as a key element in triggering RNA-protein interactions. Finally, we present a new website for proteins with RNA chaperone activity which compiles all the information on these proteins with the perspective to promote the understanding of their activity.
AB - NA molecules face difficulties when folding into their native structures. In the cell, proteins can assist RNAs in reaching their functionally active states by binding and stabilizing a specific structure or, in a quite opposite way, by interacting in a non-specific manner. These proteins can either facilitate RNA-RNA interactions in a reaction termed RNA annealing, or they can resolve non-functional inhibitory structures. The latter is defined as "RNA chaperone activity" and is the main topic of this review. Here we define RNA chaperone activity in a stringent way and we review those proteins for which RNA chaperone activity has been clearly demonstrated. These proteins belong to quite diverse families such as hnRNPs, histone-like proteins, ribosomal proteins, cold shock domain proteins and viral nucleocapsid proteins. DExD/H-box containing RNA helicases are discussed as a special family of enzymes that restructure RNA or RNPs in an ATP-dependent manner. We further address the different mechanisms RNA chaperones might use to promote folding including the recently proposed theory of protein disorder as a key element in triggering RNA-protein interactions. Finally, we present a new website for proteins with RNA chaperone activity which compiles all the information on these proteins with the perspective to promote the understanding of their activity.
M3 - Review
VL - 4
SP - 118
EP - 130
JO - RNA Biology
JF - RNA Biology
SN - 1547-6286
IS - 3
ER -