Structure and specific RNA-binding of ADAR2 double-stranded RNA-binding motifs

ŠTEFL, Richard. Structure and specific RNA-binding of ADAR2 double-stranded RNA-binding motifs. Brno: Masaryk University, 2006.

Základní údaje

• Originální název: Structure and specific RNA-binding of ADAR2 double-stranded RNA-binding motifs
• Název česky: Structure and specific RNA-binding of ADAR2 double-stranded RNA-binding motifs
• Autoři: ŠTEFL, Richard (203 Česká republika, garant).
• Vydání: Brno, 2006.
• Nakladatel: Masaryk University

Další údaje

• Originální jazyk: angličtina
• Typ výsledku: Audiovizuální tvorba
• Obor: 10600 1.6 Biological sciences
• Stát vydavatele: Česká republika
• Utajení: není předmětem státního či obchodního tajemství
• WWW: URL
• Kód RIV: RIV/00216224:14310/06:00018575
• Organizační jednotka: Přírodovědecká fakulta
• Klíčová slova anglicky: NMR; protein-RNA interactions; gene regulation; structure
• Štítky: gene regulation, NMR, protein-RNA interactions, structure

Anotace

Adenosine deaminases that act on RNA (ADARs) tune and regulate gene expression. Although ADARs act mostly as nonspecific enzymes, they can recode certain genes in a highly specific manner. This results from preferential binding of the ADARs to certain RNA substrates. To understand how ADARs bind RNA, we investigated the N-terminal region of ADAR2 by nuclear magnetic resonance (NMR) spectroscopy. This region is responsible for RNA binding and consists of the two double-stranded RNA-binding motifs (dsRBMs). We determined the structure of these two dsRBMs and carried out an NMR chemical shift perturbation study of the interaction of the two dsRBMs with a 71 nucleotide RNA encoding the R/G site of the GluR-B. Based on our precise identification of both the protein and RNA interaction surfaces, we built an NMR-derived model of the ADAR2 dsRBMs in complex with the R/G stem-loop RNA. We showed that each dsRBM binds a different structural element of the R/G stem-loop; dsRBM1 binds a stem capped by a pentaloop and dsRBM2 recognizes a stem containing two AC mismatches. The importance of RNA irregularities for the preferential binding by ADAR2 dsRBMs was confirmed by in vitro mutagenesis studies in both the protein and the RNA. Our structural and functional studies demonstrate that the ADAR2 dsRBMs have the ability to discriminate specific structural features of RNA suggesting their importance for the editing site selectivity.

Anotace česky

Adenosine deaminases that act on RNA (ADARs) tune and regulate gene expression. Although ADARs act mostly as nonspecific enzymes, they can recode certain genes in a highly specific manner. This results from preferential binding of the ADARs to certain RNA substrates. To understand how ADARs bind RNA, we investigated the N-terminal region of ADAR2 by nuclear magnetic resonance (NMR) spectroscopy. This region is responsible for RNA binding and consists of the two double-stranded RNA-binding motifs (dsRBMs). We determined the structure of these two dsRBMs and carried out an NMR chemical shift perturbation study of the interaction of the two dsRBMs with a 71 nucleotide RNA encoding the R/G site of the GluR-B. Based on our precise identification of both the protein and RNA interaction surfaces, we built an NMR-derived model of the ADAR2 dsRBMs in complex with the R/G stem-loop RNA. We showed that each dsRBM binds a different structural element of the R/G stem-loop; dsRBM1 binds a stem capped by a pentaloop and dsRBM2 recognizes a stem containing two AC mismatches. The importance of RNA irregularities for the preferential binding by ADAR2 dsRBMs was confirmed by in vitro mutagenesis studies in both the protein and the RNA. Our structural and functional studies demonstrate that the ADAR2 dsRBMs have the ability to discriminate specific structural features of RNA suggesting their importance for the editing site selectivity.

Návaznosti

• MSM0021622413, záměr: Název: Proteiny v metabolismu a při interakci organismů s prostředím

Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, Proteiny v metabolismu a při interakci organismů s prostředím