PDB 1fsi citation summary ‹ Protein Data Bank in Europe (PDBe)

Urokinase-type plasminogen activator receptor (uPAR) as a therapeutic target in cancer. Zhai BT, Tian H, Sun J, Zou JB, Zhang XF, Cheng JX, Shi YJ, Fan Y, Guo DY. J Transl Med 20 135 (2022)

Detection of novel members, structure-function analysis and evolutionary classification of the 2H phosphoesterase superfamily. Mazumder R, Iyer LM, Vasudevan S, Aravind L. Nucleic Acids Res 30 5229-5243 (2002)
C16orf57, a gene mutated in poikiloderma with neutropenia, encodes a putative phosphodiesterase responsible for the U6 snRNA 3' end modification. Mroczek S, Krwawicz J, Kutner J, Lazniewski M, Kuciński I, Ginalski K, Dziembowski A. Genes Dev 26 1911-1925 (2012)
Structure and mechanism of activity of the cyclic phosphodiesterase of Appr>p, a product of the tRNA splicing reaction. Hofmann A, Zdanov A, Genschik P, Ruvinov S, Filipowicz W, Wlodawer A. EMBO J 19 6207-6217 (2000)
Amino acid empirical contact energy definitions for fold recognition in the space of contact maps. Berrera M, Molinari H, Fogolari F. BMC Bioinformatics 4 8 (2003)
Myelin 2',3'-cyclic nucleotide 3'-phosphodiesterase: active-site ligand binding and molecular conformation. Myllykoski M, Raasakka A, Han H, Kursula P. PLoS One 7 e32336 (2012)
Conformational changes in redox pairs of protein structures. Fan SW, George RA, Haworth NL, Feng LL, Liu JY, Wouters MA. Protein Sci 18 1745-1765 (2009)
A comparative proteomics resource: proteins of Arabidopsis thaliana. Li WW, Quinn GB, Alexandrov NN, Bourne PE, Shindyalov IN. Genome Biol 4 R51 (2003)
Atomic structures of the RNA end-healing 5'-OH kinase and 2',3'-cyclic phosphodiesterase domains of fungal tRNA ligase: conformational switches in the kinase upon binding of the GTP phosphate donor. Banerjee A, Goldgur Y, Schwer B, Shuman S. Nucleic Acids Res 47 11826-11838 (2019)

Nuclear ADP-Ribosylation and Its Role in Chromatin Plasticity, Cell Differentiation, and Epigenetics. Hottiger MO. Annu Rev Biochem 84 227-263 (2015)
Improving phosphorus use efficiency: a complex trait with emerging opportunities. Heuer S, Gaxiola R, Schilling R, Herrera-Estrella L, López-Arredondo D, Wissuwa M, Delhaize E, Rouached H. Plant J 90 868-885 (2017)
The natural history of ADP-ribosyltransferases and the ADP-ribosylation system. Aravind L, Zhang D, de Souza RF, Anand S, Iyer LM. Curr Top Microbiol Immunol 384 3-32 (2015)
Structural and functional evolution of 2',3'-cyclic nucleotide 3'-phosphodiesterase. Myllykoski M, Seidel L, Muruganandam G, Raasakka A, Torda AE, Kursula P. Brain Res 1641 64-78 (2016)
The PARN, TOE1, and USB1 RNA deadenylases and their roles in non-coding RNA regulation. Huynh TN, Parker R. J Biol Chem 299 105139 (2023)

Comparative genomics and evolution of proteins involved in RNA metabolism. Anantharaman V, Koonin EV, Aravind L. Nucleic Acids Res 30 1427-1464 (2002)
Macrodomain-containing proteins are new mono-ADP-ribosylhydrolases. Rosenthal F, Feijs KL, Frugier E, Bonalli M, Forst AH, Imhof R, Winkler HC, Fischer D, Caflisch A, Hassa PO, Lüscher B, Hottiger MO. Nat Struct Mol Biol 20 502-507 (2013)
The histone variant mH2A1.1 interferes with transcription by down-regulating PARP-1 enzymatic activity. Ouararhni K, Hadj-Slimane R, Ait-Si-Ali S, Robin P, Mietton F, Harel-Bellan A, Dimitrov S, Hamiche A. Genes Dev 20 3324-3336 (2006)
Genetic and biochemical analysis of the functional domains of yeast tRNA ligase. Sawaya R, Schwer B, Shuman S. J Biol Chem 278 43928-43938 (2003)
Structure-function analysis of the kinase-CPD domain of yeast tRNA ligase (Trl1) and requirements for complementation of tRNA splicing by a plant Trl1 homolog. Wang LK, Schwer B, Englert M, Beier H, Shuman S. Nucleic Acids Res 34 517-527 (2006)
Aberrant 3' oligoadenylation of spliceosomal U6 small nuclear RNA in poikiloderma with neutropenia. Hilcenko C, Simpson PJ, Finch AJ, Bowler FR, Churcher MJ, Jin L, Packman LC, Shlien A, Campbell P, Kirwan M, Dokal I, Warren AJ. Blood 121 1028-1038 (2013)
Identification of novel components of NAD-utilizing metabolic pathways and prediction of their biochemical functions. de Souza RF, Aravind L. Mol Biosyst 8 1661-1677 (2012)
A highly specific phosphatase that acts on ADP-ribose 1''-phosphate, a metabolite of tRNA splicing in Saccharomyces cerevisiae. Shull NP, Spinelli SL, Phizicky EM. Nucleic Acids Res 33 650-660 (2005)
AKAP18 contains a phosphoesterase domain that binds AMP. Gold MG, Smith FD, Scott JD, Barford D. J Mol Biol 375 1329-1343 (2008)
Mitochondrial localization of CNP2 is regulated by phosphorylation of the N-terminal targeting signal by PKC: implications of a mitochondrial function for CNP2 in glial and non-glial cells. Lee J, O'Neill RC, Park MW, Gravel M, Braun PE. Mol Cell Neurosci 31 446-462 (2006)
Unmasking Novel Loci for Internal Phosphorus Utilization Efficiency in Rice Germplasm through Genome-Wide Association Analysis. Wissuwa M, Kondo K, Fukuda T, Mori A, Rose MT, Pariasca-Tanaka J, Kretzschmar T, Haefele SM, Rose TJ. PLoS One 10 e0124215 (2015)
Letter Mammalian 2',3' cyclic nucleotide phosphodiesterase (CNP) can function as a tRNA splicing enzyme in vivo. Schwer B, Aronova A, Ramirez A, Braun P, Shuman S. RNA 14 204-210 (2008)
Crystal structure of the catalytic fragment of human brain 2',3'-cyclic-nucleotide 3'-phosphodiesterase. Sakamoto Y, Tanaka N, Ichimiya T, Kurihara T, Nakamura KT. J Mol Biol 346 789-800 (2005)
2',3'-Cyclic nucleotide 3'-phosphodiesterase: a novel RNA-binding protein that inhibits protein synthesis. Gravel M, Robert F, Kottis V, Gallouzi IE, Pelletier J, Braun PE. J Neurosci Res 87 1069-1079 (2009)
Crystal structure of the 2'-5' RNA ligase from Thermus thermophilus HB8. Kato M, Shirouzu M, Terada T, Yamaguchi H, Murayama K, Sakai H, Kuramitsu S, Yokoyama S. J Mol Biol 329 903-911 (2003)
Interaction of 2',3'-cAMP with Rbp47b Plays a Role in Stress Granule Formation. Kosmacz M, Luzarowski M, Kerber O, Leniak E, Gutiérrez-Beltrán E, Moreno JC, Gorka M, Szlachetko J, Veyel D, Graf A, Skirycz A. Plant Physiol 177 411-421 (2018)
Structure and mechanism of ADP-ribose-1''-monophosphatase (Appr-1''-pase), a ubiquitous cellular processing enzyme. Kumaran D, Eswaramoorthy S, Studier FW, Swaminathan S. Protein Sci 14 719-726 (2005)
Structural basis for 2'-5'-oligoadenylate binding and enzyme activity of a viral RNase L antagonist. Ogden KM, Hu L, Jha BK, Sankaran B, Weiss SR, Silverman RH, Patton JT, Prasad BV. J Virol 89 6633-6645 (2015)
Branchiostoma floridae has separate healing and sealing enzymes for 5'-phosphate RNA ligation. Englert M, Sheppard K, Gundllapalli S, Beier H, Söll D. Proc Natl Acad Sci U S A 107 16834-16839 (2010)
Structure and mechanism of E. coli RNA 2',3'-cyclic phosphodiesterase. Remus BS, Jacewicz A, Shuman S. RNA 20 1697-1705 (2014)
Crystallographic analysis of the reaction cycle of 2',3'-cyclic nucleotide 3'-phosphodiesterase, a unique member of the 2H phosphoesterase family. Myllykoski M, Raasakka A, Lehtimäki M, Han H, Kursula I, Kursula P. J Mol Biol 425 4307-4322 (2013)
CASP2 knowledge-based approach to distant homology recognition and fold prediction in CASP4. Murzin AG, Bateman A. Proteins Suppl 5 76-85 (2001)
Structural and mechanistic basis for preferential deadenylation of U6 snRNA by Usb1. Nomura Y, Roston D, Montemayor EJ, Cui Q, Butcher SE. Nucleic Acids Res 46 11488-11501 (2018)
Probing the equatorial groove of the hookworm protein and vaccine candidate antigen, Na-ASP-2. Mason L, Tribolet L, Simon A, von Gnielinski N, Nienaber L, Taylor P, Willis C, Jones MK, Sternberg PW, Gasser RB, Loukas A, Hofmann A. Int J Biochem Cell Biol 50 146-155 (2014)
Biophysical characterization of cyclic nucleotide phosphodiesterases. Hofmann A, Tarasov S, Grella M, Ruvinov S, Nasr F, Filipowicz W, Wlodawer A. Biochem Biophys Res Commun 291 875-883 (2002)
An unexpected 2-histidine phosphoesterase activity of suppressor of T-cell receptor signaling protein 1 contributes to the suppression of cell signaling. Yin Y, Frank D, Zhou W, Kaur N, French JB, Carpino N. J Biol Chem 295 8514-8523 (2020)
Crystal structure of B. subtilis YjcG characterizing the YjcG-like group of 2H phosphoesterase superfamily. Li D, Liu C, Liang YH, Li LF, Su XD. Proteins 72 1071-1076 (2008)
GTP-dependent RNA 3'-terminal phosphate cyclase from the hyperthermophilic archaeon Pyrococcus furiosus. Sato A, Soga T, Igarashi K, Takesue K, Tomita M, Kanai A. Genes Cells 16 1190-1199 (2011)
Crystal structure of the RNA 2',3'-cyclic phosphodiesterase from Deinococcus radiodurans. Han W, Cheng J, Zhou C, Hua Y, Zhao Y. Acta Crystallogr F Struct Biol Commun 73 276-280 (2017)
Preparation, crystallization and preliminary X-ray analysis of protein YtlP from Bacillus subtilis. Liu C, Li D, Hederstedt L, Li L, Liang YH, Su XD. Acta Crystallogr Sect F Struct Biol Cryst Commun 62 967-969 (2006)
Structural basis for the evolution of cyclic phosphodiesterase activity in the U6 snRNA exoribonuclease Usb1. Nomura Y, Montemayor EJ, Virta JM, Hayes SM, Butcher SE. Nucleic Acids Res 48 1423-1434 (2020)
Traversing the RNA world. Filipowicz W. J Biol Chem 292 8122-8135 (2017)
Letter Assignment of the 1H, 13C and 15N resonances of the catalytic domain of the rat 2',3'-cyclic nucleotide 3'-phosphodiesterase. Kozlov G, Lee J, Gravel M, Ekiel I, Braun PE, Gehring K. J Biomol NMR 22 99-100 (2002)

Cloning and characterization of the Arabidopsis cyclic phosphodiesterase which hydrolyzes ADP-ribose 1'',2''-cyclic phosphate and nucleoside 2',3'-cyclic phosphates.. Genschik P, Hall J, Filipowicz W J Biol Chem 272 13211-9 (1997)

Protein Data Bank in Europe

Structure and mechanism of activity of the cyclic phosphodiesterase of Appr>p, a product of the tRNA splicing reaction.

Abstract

Reviews - 1fsi mentioned but not cited (1)

Articles - 1fsi mentioned but not cited (8)

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Articles citing this publication (33)

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1fsi › Citations

Structure and mechanism of activity of the cyclic phosphodiesterase of Appr>p, a product of the tRNA splicing reaction.

Abstract

Reviews - 1fsi mentioned but not cited (1)

Articles - 1fsi mentioned but not cited (8)

Reviews citing this publication (5)

Articles citing this publication (33)

Related citations provided by authors (1)

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