Citations in PubMed

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PDB ID Mentions in PubMed Central Article count: 6

Citations in PubMed

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PDB ID Mentions in PubMed Central

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Crystal structure of a plectonemic RNA supercoil.

(2012) Nat Commun 3

PubMed: 22692544 | PubMedCentral: PMC3518024 | DOI: 10.1038/ncomms1903

For example, a DNA pseudo helix is formed by a 12-mer dsDNA with 2-nt 5´ overhangs (PDB accession code 1AF1) 11 , and an RNA pseudo helix is formed by an 11-mer dsRNA with 2-nt 3´ over... angs (PDB accession code 2NUG) 12 .

Publication Year: 2012

Ribonuclease III mechanisms of double-stranded RNA cleavage.

Wiley Interdiscip Rev RNA 5

PubMed: 24124076 | PubMedCentral: PMC3867540 | DOI: 10.1002/wrna.1195

36 This is consistent with crystal structures of wild-type Aa-RNase III bound to dsRNA cleavage products, exhibiting two Mg 2+ ions in each catalytic site that are coordinated to a set of highly conse... ved carboxylic acid side chains (PDB entries 2NUF, 2NUG).

Shown are the interactions, presumably subsequent to phosphodiester hydrolysis, in the catalytic site of the 1.7 Å structure of wild-type Aa-RNase III bound to cleaved dsRNA (PDB entry 2NUG).

(b) A 1.7 Å structure of Aquifex aeolicus (Aa) RNase III bound to dsRNA (PDB entry 2NUG).

Publication Year: null

Sequence dependent variations in RNA duplex are related to non-canonical hydrogen bond interactions in dinucleotide steps.

(2014) BMC Res Notes 7

PubMed: 24502340 | PubMedCentral: PMC3930292 | DOI: 10.1186/1756-0500-7-83

Table 1 List of PDB IDs of structures in free-RNA, bound-RNA and DNA dataset Dataset (n) PDB ID free-RNA (88) 157D, 1CSL, 1DQH, 1DUQ, 1EHZ, 1EVV, 1 F27, 1GID, 1HR2, 1I9X, 1KFO, 1KH6, 1L2X, 1LC... , 1MHK, 1NLC, 1NTB, 1NUJ, 1NYI, 1Q29, 1QC0, 1RNA, 1SDR, 1T0D, 1T0E, 1U8D, 1U9S, 1X9C, 1XJR, 1Y26, 1Y27, 1YFG, 1YZD, 1Z79, 1Z7F, 1ZCI, 1ZEV, 1ZFT, 1ZFV, 1ZFX, 1ZX7, 205D, 255D, 280D, 283D, 2A43, 2AO5, 2B57, 2D2K, 2D2L, 2ET5, 2FGP, 2FQN, 2G92, 2H1M, 2OE5, 2OE8, 2OEU, 2OIY, 2PN4, 2PWT, 2Q1O, 2Q1R, 2R20, 2Z75, 353D, 354D, 361D, 364D, 397D, 3B31, 3B4B, 3B5S, 3CJZ, 3CZW, 3D0X, 3D2V, 3DIL, 3DS7, 3FS0, 3FTM, 3GCA, 3GER, 406D, 413D, 420D, 430D, 433D bound-RNA (127) 1A9N, 1B23, 1DFU, 1DI2, 1E7K, 1EC6, 1EFW, 1F7V, 1F7Y, 1FEU, 1G1X, 1GAX, 1H3E, 1H4S, 1I6U, 1IL2, 1J1U, 1JID, 1K8W, 1LNG, 1M5O, 1MJI, 1MZP, 1 N35, 1OOA, 1Q2R, 1QA6, 1QF6, 1QRS, 1QU2, 1R3E, 1R9F, 1RPU, 1S03, 1S72, 1SER, 1TFW, 1U0B, 1URN, 1VFG, 1ZBH, 2ANN, 2AZ2, 2AZX, 2B3J, 2BGG, 2BH2, 2BTE, 2CSX, 2CV1, 2DLC, 2DR8, 2DU3, 2E9T, 2F8K, 2F8S, 2FMT, 2HW8, 2I82, 2NUG, 2NZ4, 2OZB, 2PJP, 2PXV, 2QUX, 2RFK, 2VPL, 2XD0, 2Y8Y, 2ZI0, 2ZJR, 2ZM5, 2ZZM, 3A6P, 3ADD, 3AKZ, 3 AM1, 3AMT, 3AVX, 3BSO, 3CUN, 3DH3, 3EGZ, 3EPH, 3EQT, 3FTF, 3HAX, 3HHN, 3HJW, 3IAB, 3KFU, 3KMQ, 3KS8, 3 L25, 3LRR, 3MOJ, 3MQK, 3NCU, 3NVI, 3OIN, 3OL8, 3OVA, 3QRP, 3R2D, 3R9X, 3RW6, 3SIU, 3SNP, 3TMI, 3TS2, 3UCZ, 3UMY, 3V2F, 3V7E, 3VJR, 4AL5, 4AQ7, 4ATO, 4AY2, 4ERD, 4FVU, 4GCW, 4GD2, 4GHA, 4GHL, 4HXH, 4IG8, DNA (76) 118D, 126D, 137D, 138D, 158D, 160D, 196D, 1D13, 1D23, 1D49, 1D56, 1D57, 1D79, 1D8G, 1 DC0, 1DNZ, 1DOU, 1EHV, 1EN3, 1EN9, 1ENN, 1IKK, 1 M77, 1P4Z, 1S23, 1SGS, 1SK5, 1VJ4, 1WQY, 1XJX, 1XJY, 1ZEX, 1ZEY, 1ZF0, 1ZF1, 1ZF5, 1ZF6, 1ZF7, 1ZF8, 1ZF9, 1ZFA, 1ZFB, 1ZFC, 1ZFF, 1ZFG, 220D, 221D, 240D, 243D, 260D, 2A7E, 2B1B, 2D94, 2D95, 307D, 317D, 348D, 349D, 368D, 369D, 370D, 371D, 395D, 396D, 399D, 414D, 423D, 431D, 441D, 463D, 476D, 477D, 5DNB, 7BNA, 9BNA, 9DNA The number of PDB structures included in each dataset is given within parenthesis.

Publication Year: 2014

A dsRNA-binding protein of a complex invertebrate DNA virus suppresses the Drosophila RNAi response.

(2014) Nucleic Acids Res 42

PubMed: 25274730 | PubMedCentral: PMC4231766 | DOI: 10.1093/nar/gku910

The experimentally solved protein structure of TRBP2 (Protein database accession 3ADL) and Aquifex aeolicus RNase III (PDB 2NUG) were used as a template ( 41 , 42 ).

Publication Year: 2014

PubMed ID is not available.

Published in 2015

PubMedCentral: PMC4329070

20 The second structure (PDB entry 2NUG, 1.7 Å resolution) contains two dsRNAs that are bound to the homodimeric RNase III domain (RIIID) 4 and are the products of cleavage of a longer dsRNA.

The protein structures used were the crystal structure of Ec-YmdB (PDB entry 1SPV) and the 2NUG-based homology model of Ec-RNase III (that is, Ec-RNase III with Mg 2+ , and dsRNA bound to the catalytic valley).

20 The RIIID structures of the Aa- RNase III (PDB entries 2NUE and 2NUG) and Tm -RNase III (PDB entry 1O0W) templates are essentially identical (the backbone RMSD with respect to the 2NUG structure is 1.31 Å for 2NUE and 1.84 Å for 1O0W).

We used the crystal structure of Ec-YmdB (PDB entry 1SPV) and a structural model of Ec-RNase III, built on the basis of the X-ray structure of Aa-RNase III (PDB entry 2NUG), 20 which contains Mg2+ ions and two dsRNA fragments (resulting from the cleavage of a longer dsRNA) bound in the catalytic valley defined by the RIIID dimer interface.

Publication Year: 2015

PubMed ID is not available.

Published in 2015

PubMedCentral: PMC4529986

Table 4 Protein-RNA complexes in RB344 dataset RNA category PDB ID RNAse 2BX2 2IX1 2NUG 2QKB 2XDB 2Y8Y 3BSU 3IAB 3T3O 3ULD 4 AM3 4ATO SRP 1E8O 1HQ1 1JID 1LNG 1MFQ 2V3C 3KTW Aptamer 1OOA 3AGV 3... D2 3V7E dsRNA 1DI2 2YKG 3CIY 3EQT 3LRR 4IG8 Exosome 2JEA 2PO1 2VNU 4IFD mRNA 1FXL 1GTF 1MSW 1UVM 1WPU 1WSU 1ZH5 2A8V 2F8K 2IPY 2J0S 2O5I 2PJP 2Q66 2VPL 2XGJ 2XNR 2XS2 2XZO 3BX2 3D2S 3I5X 3ICE 3MDI 3NMR 3P6Y 3PEY 3PO3 3Q0Q 3QGC 3R2C 3RER 4 F02 4HXH 4J7L 4JVY Ribosomal 1DFU 1FEU 1FKA 1HR0 1I6U 1JBS 1MJI 1MMS 1MZP 1NKW 1SDS 1T0K 1UN6 1VQ8 1VQO 1Y69 2ASB 2BH2 2D3O 2 J01 2QA4 2VQE 2XFZ 2ZJQ 2ZJR 3AEV 3DH3 3F1E 3HUW 3I8I 3IEV 3KIS 3MOJ 3OIN 3R8S 3R8T 3R9X 3SFS 3SGF 3UMY 3 V24 3 V26 3V2C 3V2D 3V2F 3ZN9 4DH9 4GD1 4JUW 4JUX Small 1SI3 1YVP 2BGG 2F8S 3A6P 3ADI 3HO1 3HTX 3 MJ0 3NMU 3NVI 3O7V 3VYX 3VYY 3ZC0 4F1N 4KRE snRNP 1M8V 1URN 2OZB Splicing 1A9N 2G4B tRNA 1ASY 1B23 1C0A 1F7U 1FFY 1GAX 1H3E 1H4S 1J1U 1J2B 1K8W 1 N78 1Q2R 1QF6 1QTQ 1R3E 1SER 1U0B 1VFG 1WZ2 2AZX 2B3J 2CT8 2CZJ 2D6F 2DER 2DLC 2DU3 2FK6 2FMT 2GJW 2I82 2IY5 2ZNI 2ZUE 2ZZM 3AL0 3 AM1 3AMT 3BT7 3EPH 3FOZ 3HL2 3ICQ 3KFU 3OVB 3QSY 3TUP 3VJR 3W3S 3ZGZ 4ARC Viral 1A34 1AV6 1DDL 1F8V 1HYS 1KNZ 1 N35 1PGL 1R9F 2AZ2 2BU1 2GIC 2GTT 2JLV 2QUX 2R7W 2W2H 2WJ8 2Z2Q 2ZI0 2ZKO 3AVX 3BSO 3KMQ 3 L25 3O8C 3RW6 3T5N 4FY7 4GV9 4H5P 4HKQ 4J1G 4K4Z Other 1EC6 2ANR 2DB3 2GJE 2GXB 2PY9 2R8S 2XLK 3AF6 3HAX 3IEM 3PF4 3PKM 3QJL 3RC8 3S14 4B3G 4ERD 4FXD 4GG4 4ILL PDB ID of protein-RNA complexes in RB344 dataset Identification of protein surface residues To determine protein surface residues, accessible areas will be computed first.

Publication Year: 2015