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Artículos de revistas sobre el tema "Phosphoesterase"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 19 de febrero de 2023

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1

Ogden, Kristen M., Liya Hu, Babal K. Jha, Banumathi Sankaran, Susan R. Weiss, Robert H. Silverman, John T. Patton y B. V. Venkataram Prasad. "Structural Basis for 2′-5′-Oligoadenylate Binding and Enzyme Activity of a Viral RNase L Antagonist". Journal of Virology 89, n.º 13 (15 de abril de 2015): 6633–45. http://dx.doi.org/10.1128/jvi.00701-15.

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ABSTRACTSynthesis of 2′-5′-oligoadenylates (2-5A) by oligoadenylate synthetase (OAS) is an important innate cellular response that limits viral replication by activating the latent cellular RNase, RNase L, to degrade single-stranded RNA. Some rotaviruses and coronaviruses antagonize the OAS/RNase L pathway through the activity of an encoded 2H phosphoesterase domain that cleaves 2-5A. These viral 2H phosphoesterases are phylogenetically related to the cellular A kinase anchoring protein 7 (AKAP7) and share a core structure and an active site that contains two well-defined HΦ(S/T)Φ (where Φ is a hydrophobic residue) motifs, but their mechanism of substrate binding is unknown. Here, we report the structures of a viral 2H phosphoesterase, the C-terminal domain (CTD) of the group A rotavirus (RVA) VP3 protein, both alone and in complex with 2-5A. The domain forms a compact fold, with a concave β-sheet that contains the catalytic cleft, but it lacks two α-helical regions and two β-strands observed in AKAP7 and other 2H phosphoesterases. The cocrystal structure shows significant conformational changes in the R loop upon ligand binding. Bioinformatics and biochemical analyses reveal that conserved residues and residues required for catalytic activity and substrate binding comprise the catalytic motifs and a region on one side of the binding cleft. We demonstrate that the VP3 CTD of group B rotavirus, but not that of group G, cleaves 2-5A. These findings suggest that the VP3 CTD is a streamlined version of a 2H phosphoesterase with a ligand-binding mechanism that is shared among 2H phosphodiesterases that cleave 2-5A.IMPORTANCEThe C-terminal domain (CTD) of rotavirus VP3 is a 2H phosphoesterase that cleaves 2′-5′-oligoadenylates (2-5A), potent activators of an important innate cellular antiviral pathway. 2H phosphoesterase superfamily proteins contain two conserved catalytic motifs and a proposed core structure. Here, we present structures of a viral 2H phosphoesterase, the rotavirus VP3 CTD, alone and in complex with its substrate, 2-5A. The domain lacks two α-helical regions and β-strands present in other 2H phosphoesterases. A loop of the protein undergoes significant structural changes upon substrate binding. Together with our bioinformatics and biochemical findings, the crystal structures suggest that the RVA VP3 CTD domain is a streamlined version of a cellular enzyme that shares a ligand-binding mechanism with other 2H phosphodiesterases that cleave 2-5A but differs from those of 2H phosphodiesterases that cleave other substrates. These findings may aid in the future design of antivirals targeting viral phosphodiesterases with cleavage specificity for 2-5A.
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2

Yin, Yue, David Frank, Weijie Zhou, Neena Kaur, Jarrod B. French y Nick Carpino. "An unexpected 2-histidine phosphoesterase activity of suppressor of T-cell receptor signaling protein 1 contributes to the suppression of cell signaling". Journal of Biological Chemistry 295, n.º 25 (5 de mayo de 2020): 8514–23. http://dx.doi.org/10.1074/jbc.ra120.013482.

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The suppressor of T-cell receptor (TCR) signaling (Sts) proteins Sts-1 and Sts-2 suppress receptor-mediated signaling pathways in various immune cells, including the TCR pathway in T cells and the Dectin-1 signaling pathway in phagocytes. As multidomain enzymes, they contain an N-terminal ubiquitin-association domain, a central Src homology 3 domain, and a C-terminal histidine phosphatase domain. Recently, a 2-histidine (2H) phosphoesterase motif was identified within the N-terminal portion of Sts. The 2H phosphoesterase motif defines an evolutionarily ancient protein domain present in several enzymes that hydrolyze cyclic phosphate bonds on different substrates, including cyclic nucleotides. It is characterized by two invariant histidine residues that play a critical role in catalytic activity. Consistent with its assignment as a phosphoesterase, we demonstrate here that the Sts-1 2H phosphoesterase domain displays catalytic, saturable phosphodiesterase activity toward the dinucleotide 2′,3′-cyclic NADP. The enzyme exhibited a high degree of substrate specificity and selectively generated the 3′-nucleotide as the sole product. Sts-1 also had phosphodiesterase catalytic activity toward a 5-mer RNA oligonucleotide containing a 2′,3′-cyclic phosphate group at its 3′ terminus. To investigate the functional significance of Sts-1 2H phosphoesterase activity, we generated His-to-Ala variants and examined their ability to negatively regulate cellular signaling pathways. Substitution of either conserved histidine compromised the ability of Sts-1 to suppress signaling pathways downstream of both the TCR and the Dectin-1 receptor. Our results identify a heretofore unknown cellular enzyme activity associated with Sts-1 and indicate that this catalytic activity is linked to specific cell-signaling outcomes.
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3

Katz, Michael J., Su-Young Moon, Joseph E. Mondloch, M. Hassan Beyzavi, Casey J. Stephenson, Joseph T. Hupp y Omar K. Farha. "Exploiting parameter space in MOFs: a 20-fold enhancement of phosphate-ester hydrolysis with UiO-66-NH2". Chemical Science 6, n.º 4 (2015): 2286–91. http://dx.doi.org/10.1039/c4sc03613a.

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Using the enzymatic mechanism of phosphoesterase as a template, we were able to modify a metal–organic framework such that the hydrolysis rates were 50 times faster than previously demonstrated with UiO-66.
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4

Han, Gye Won, Jaeju Ko, Carol L. Farr, Marc C. Deller, Qingping Xu, Hsiu-Ju Chiu, Mitchell D. Miller et al. "Crystal structure of a metal-dependent phosphoesterase (YP_910028.1) from Bifidobacterium adolescentis: Computational prediction and experimental validation of phosphoesterase activity". Proteins: Structure, Function, and Bioinformatics 79, n.º 7 (2 de mayo de 2011): 2146–60. http://dx.doi.org/10.1002/prot.23035.

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5

Li, Xiao-Yu. "Clinical application of phosphoesterase complex in liver diseases". World Chinese Journal of Digestology 22, n.º 29 (2014): 4424. http://dx.doi.org/10.11569/wcjd.v22.i29.4424.

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6

Gold, Matthew G., F. Donelson Smith, John D. Scott y David Barford. "AKAP18 Contains a Phosphoesterase Domain that Binds AMP". Journal of Molecular Biology 375, n.º 5 (febrero de 2008): 1329–43. http://dx.doi.org/10.1016/j.jmb.2007.11.037.

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7

Bressan, Debra A., Heidi A. Olivares, Benjamin E. Nelms y John H. J. Petrini. "Alteration of N-Terminal Phosphoesterase Signature Motifs Inactivates Saccharomyces cerevisiae Mre11". Genetics 150, n.º 2 (1 de octubre de 1998): 591–600. http://dx.doi.org/10.1093/genetics/150.2.591.

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Abstract Saccharomyces cerevisiae Mre11, Rad50, and Xrs2 function in a protein complex that is important for nonhomologous recombination. Null mutants of MRE11, RAD50, and XRS2 are characterized by ionizing radiation sensitivity and mitotic interhomologue hyperrecombination. We mutagenized the four highly conserved phosphoesterase signature motifs of Mre11 to create mre11-11, mre11-2, mre11-3, and mre11-4 and assessed the functional consequences of these mutant alleles with respect to mitotic interhomologue recombination, chromosome loss, ionizing radiation sensitivity, double-strand break repair, and protein interaction. We found that mre11 mutants that behaved as the null were sensitive to ionizing radiation and deficient in double-strand break repair. We also observed that these null mutants exhibited a hyperrecombination phenotype in mitotic cells, consistent with previous reports, but did not exhibit an increased frequency of chromosome loss. Differential ionizing radiation sensitivities among the hypomorphic mre11 alleles correlated with the trends observed in the other phenotypes examined. Two-hybrid interaction testing showed that all but one of the mre11 mutations disrupted the Mre11-Rad50 interaction. Mutagenesis of the phosphoesterase signatures in Mre11 thus demonstrated the importance of these conserved motifs for recombinational DNA repair.
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8

Aravind, L. y E. V. Koonin. "Phosphoesterase domains associated with DNA polymerases of diverse origins". Nucleic Acids Research 26, n.º 16 (1 de agosto de 1998): 3746–52. http://dx.doi.org/10.1093/nar/26.16.3746.

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9

Quist, Eugene. "Ca2+-stimulated phospholipid phosphoesterase activities in rabbit erythrocyte membranes". Archives of Biochemistry and Biophysics 236, n.º 1 (enero de 1985): 140–49. http://dx.doi.org/10.1016/0003-9861(85)90613-7.

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10

Breaker, Ronald R. y Gerald F. Joyce. "A DNA enzyme with Mg2+-dependent RNA phosphoesterase activity". Chemistry & Biology 2, n.º 10 (octubre de 1995): 655–60. http://dx.doi.org/10.1016/1074-5521(95)90028-4.

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11

Fritsky, Igor O, Reina Ott y Roland Krämer. "Allosteric Regulation of Artificial Phosphoesterase Activity by Metal Ions". Angewandte Chemie 39, n.º 18 (15 de septiembre de 2000): 3255–58. http://dx.doi.org/10.1002/1521-3773(20000915)39:18<3255::aid-anie3255>3.0.co;2-7.

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12

Mitsutomi, Shuhei, Nobuyoshi Akimitsu, Kazuhisa Sekimizu y Chikara Kaito. "Identification of 2H phosphoesterase superfamily proteins with 2′-CPDase activity". Biochimie 165 (octubre de 2019): 235–44. http://dx.doi.org/10.1016/j.biochi.2019.08.008.

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13

Young, Hayley E., Matthew P. Donohue, Tatyana I. Smirnova, Alex I. Smirnov y Pei Zhou. "The UDP-diacylglucosamine Pyrophosphohydrolase LpxH in Lipid A Biosynthesis Utilizes Mn2+ Cluster for Catalysis". Journal of Biological Chemistry 288, n.º 38 (29 de julio de 2013): 26987–7001. http://dx.doi.org/10.1074/jbc.m113.497636.

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In Escherichia coli and the majority of β- and γ-proteobacteria, the fourth step of lipid A biosynthesis, i.e. cleavage of the pyrophosphate group of UDP-2,3-diacyl-GlcN, is carried out by LpxH. LpxH has been previously suggested to contain signature motifs found in the calcineurin-like phosphoesterase (CLP) family of metalloenzymes; however, it cleaves a pyrophosphate bond instead of a phosphoester bond, and its substrate contains nucleoside diphosphate moieties more common to the Nudix family rather than to the CLP family. Furthermore, the extent of biochemical data fails to demonstrate a significant level of metal activation in enzymatic assays, which is inconsistent with the behavior of a metalloenzyme. Here, we report cloning, purification, and detailed enzymatic characterization of Haemophilus influenzae LpxH (HiLpxH). HiLpxH shows over 600-fold stimulation of hydrolase activity in the presence of Mn2+. EPR studies reveal the presence of a Mn2+ cluster in LpxH. Finally, point mutants of residues in the conserved metal-binding motifs of the CLP family greatly inhibit HiLpxH activity, highlighting their importance in enzyme function. Contrary to previous analyses of LpxH, we find HiLpxH does not obey surface dilution kinetics. Overall, our work unambiguously establishes LpxH as a calcineurin-like phosphoesterase containing a Mn2+ cluster coordinated by conserved residues. These results set the scene for further structural investigation of the enzyme and for design of novel antibiotics targeting lipid A biosynthesis.
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14

Nair, P. A., P. Smith y S. Shuman. "Structure of bacterial LigD 3'-phosphoesterase unveils a DNA repair superfamily". Proceedings of the National Academy of Sciences 107, n.º 29 (29 de junio de 2010): 12822–27. http://dx.doi.org/10.1073/pnas.1005830107.

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15

VASILIEV, A. O., A. V. GOVOROV, G. R. KASYAN y D. Y. PUSHKAR. "BENIGN PROSTATIC HYPERPLASIA: A POSSIBILITY TO USE TYPE 5 PHOSPHOESTERASE INHIBITORS". Medical Council, n.º 19 (1 de enero de 2016): 109–13. http://dx.doi.org/10.21518/2079-701x-2016-19-109-113.

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16

Daumann, Lena J., Peter Comba, James A. Larrabee, Gerhard Schenk, Robert Stranger, German Cavigliasso y Lawrence R. Gahan. "Synthesis, Magnetic Properties, and Phosphoesterase Activity of Dinuclear Cobalt(II) Complexes". Inorganic Chemistry 52, n.º 4 (febrero de 2013): 2029–43. http://dx.doi.org/10.1021/ic302418x.

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17

Jeong, Byeong C., Hyun-Won Klm, Stephen Owen, R. Elaine Dick y Lynne E. Macaskie. "Phosphoesterase activity and phosphate release from tributyl phosphate by aCitrobacter sp." Applied Biochemistry and Biotechnology 47, n.º 1 (abril de 1994): 21–32. http://dx.doi.org/10.1007/bf02788672.

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18

Myllykoski, Matti y Petri Kursula. "Structural aspects of nucleotide ligand binding by a bacterial 2H phosphoesterase". PLOS ONE 12, n.º 1 (31 de enero de 2017): e0170355. http://dx.doi.org/10.1371/journal.pone.0170355.

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19

Sutera, Vincent A., Eugene S. Han, Luis A. Rajman y Susan T. Lovett. "Mutational Analysis of the RecJ Exonuclease ofEscherichia coli: Identification of Phosphoesterase Motifs". Journal of Bacteriology 181, n.º 19 (1 de octubre de 1999): 6098–102. http://dx.doi.org/10.1128/jb.181.19.6098-6102.1999.

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ABSTRACT The recJ gene, identified in Escherichia coli, encodes a Mg+2-dependent 5′-to-3′ exonuclease with high specificity for single-strand DNA. Genetic and biochemical experiments implicate RecJ exonuclease in homologous recombination, base excision, and methyl-directed mismatch repair. Genes encoding proteins with strong similarities to RecJ have been found in every eubacterial genome sequenced to date, with the exception ofMycoplasma and Mycobacterium tuberculosis. Multiple genes encoding proteins similar to RecJ are found in some eubacteria, including Bacillus andHelicobacter, and in the archaea. Among this divergent set of sequences, seven conserved motifs emerge. We demonstrate here that amino acids within six of these motifs are essential for both the biochemical and genetic functions of E. coli RecJ. These motifs may define interactions with Mg2+ ions or substrate DNA. A large family of proteins more distantly related to RecJ is present in archaea, eubacteria, and eukaryotes, including a hypothetical protein in the MgPa adhesin operon ofMycoplasma, a domain of putative polyA polymerases inSynechocystis and Aquifex, PRUNE ofDrosophila, and an exopolyphosphatase (PPX1) ofSaccharomyces cereviseae. Because these six RecJ motifs are shared between exonucleases and exopolyphosphatases, they may constitute an ancient phosphoesterase domain now found in all kingdoms of life.
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20

Tymecki, Łukasz, Kamil Strzelak y Robert Koncki. "Biparametric multicommutated flow analysis system for determination of human serum phosphoesterase activity". Analytica Chimica Acta 797 (octubre de 2013): 57–63. http://dx.doi.org/10.1016/j.aca.2013.08.047.

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21

Chambert, R. "Purification and Characterization of YfkN, a Trifunctional Nucleotide Phosphoesterase Secreted by Bacillus Subtilis". Journal of Biochemistry 134, n.º 5 (1 de noviembre de 2003): 655–60. http://dx.doi.org/10.1093/jb/mvg189.

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22

Shin, Dong Hae, Michael Proudfoot, Hyo Jin Lim, In‐Kyu Choi, Hisao Yokota, Alexander F. Yakunin, Rosalind Kim y Sung‐Hou Kim. "Structural and enzymatic characterization of DR1281: A calcineurin‐like phosphoesterase from Deinococcus radiodurans". Proteins: Structure, Function, and Bioinformatics 70, n.º 3 (2 de enero de 2008): 1000–1009. http://dx.doi.org/10.1002/prot.21584.

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23

Natarajan, Aswin, Kaushik Dutta, Deniz B. Temel, Pravin A. Nair, Stewart Shuman y Ranajeet Ghose. "Solution structure and DNA-binding properties of the phosphoesterase domain of DNA ligase D". Nucleic Acids Research 40, n.º 5 (14 de noviembre de 2011): 2076–88. http://dx.doi.org/10.1093/nar/gkr950.

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24

Ma, Di, Jie Hu, Wenqi Xu, Yan Wang, Juan Wang, Liang Li, Sheng Wang, Huiping Zhou, Yuhua Li y Li Liu. "Phosphoesterase complex modulates microflora and chronic inflammation in rats with alcoholic fatty liver disease". Life Sciences 262 (diciembre de 2020): 118509. http://dx.doi.org/10.1016/j.lfs.2020.118509.

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25

Mazumder, R. "Detection of novel members, structure-function analysis and evolutionary classification of the 2H phosphoesterase superfamily". Nucleic Acids Research 30, n.º 23 (1 de diciembre de 2002): 5229–43. http://dx.doi.org/10.1093/nar/gkf645.

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26

Collins, B. M., C. F. Skinner, M. N. J. Seaman, P. R. Evans y D. J. Owen. "Vps29: a phosphoesterase fold that acts as an interaction scaffold in the assembly of retromer". Acta Crystallographica Section A Foundations of Crystallography 61, a1 (23 de agosto de 2005): c51—c52. http://dx.doi.org/10.1107/s0108767305097837.

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27

Collins, Brett M., Claire F. Skinner, Peter J. Watson, Matthew N. J. Seaman y David J. Owen. "Vps29 has a phosphoesterase fold that acts as a protein interaction scaffold for retromer assembly". Nature Structural & Molecular Biology 12, n.º 7 (19 de junio de 2005): 594–602. http://dx.doi.org/10.1038/nsmb954.

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28

Smith, Paul, Pravin A. Nair, Ushati Das, Hui Zhu y Stewart Shuman. "Structures and activities of archaeal members of the LigD 3′-phosphoesterase DNA repair enzyme superfamily". Nucleic Acids Research 39, n.º 8 (5 de enero de 2011): 3310–20. http://dx.doi.org/10.1093/nar/gkq1163.

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29

Li, Dan, Cong Liu, Yu-He Liang, Lan-Fen Li y Xiao-Dong Su. "Crystal structure of B. subtilis YjcG characterizing the YjcG-like group of 2H phosphoesterase superfamily". Proteins: Structure, Function, and Bioinformatics 72, n.º 3 (12 de mayo de 2008): 1071–76. http://dx.doi.org/10.1002/prot.22093.

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30

García-Cano, Israel, Diana Rocha-Mendoza, Erica Kosmerl y Rafael Jiménez-Flores. "Purification and characterization of a phospholipid-hydrolyzing phosphoesterase produced by Pediococcus acidilactici isolated from Gouda cheese". Journal of Dairy Science 103, n.º 5 (mayo de 2020): 3912–23. http://dx.doi.org/10.3168/jds.2019-17965.

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31

Zhang, Zhisheng, Xiaoming Yu, Larry K. Fong y Lawrence D. Margerum. "Ligand effects on the phosphoesterase activity of Co(II) Schiff base complexes built on PAMAM dendrimers". Inorganica Chimica Acta 317, n.º 1-2 (mayo de 2001): 72–80. http://dx.doi.org/10.1016/s0020-1693(01)00424-8.

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32

Betti, Marco, Stefania Petrucco, Angelo Bolchi, Giorgio Dieci y Simone Ottonello. "A Plant 3′-Phosphoesterase Involved in the Repair of DNA Strand Breaks Generated by Oxidative Damage". Journal of Biological Chemistry 276, n.º 21 (27 de febrero de 2001): 18038–45. http://dx.doi.org/10.1074/jbc.m010648200.

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33

Pathak, Ritu, Lydia M. Bogomolnaya, Jinbai Guo y Michael Polymenis. "Gid8p (Dcr1p) and Dcr2p Function in a Common Pathway To Promote START Completion in Saccharomyces cerevisiae". Eukaryotic Cell 3, n.º 6 (diciembre de 2004): 1627–38. http://dx.doi.org/10.1128/ec.3.6.1627-1638.2004.

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ABSTRACT How cells determine when to initiate DNA replication is poorly understood. Here we report that in Saccharomyces cerevisiae overexpression of the dosage-dependent cell cycle regulator genes DCR2 (YLR361C) and GID8 (DCR1/YMR135C) accelerates initiation of DNA replication. Cells lacking both GID8 and DCR2 delay initiation of DNA replication. Genetic analysis suggests that Gid8p functions upstream of Dcr2p to promote cell cycle progression. DCR2 is predicted to encode a gene product with phosphoesterase activity. Consistent with these predictions, a DCR2 allele carrying a His338 point mutation, which in known protein phosphatases prevents catalysis but allows substrate binding, antagonized the function of the wild-type DCR2 allele. Finally, we report genetic interactions involving GID8, DCR2, and CLN3 (which encodes a G1 cyclin) or SWI4 (which encodes a transcription factor of the G1/S transcription program). Our findings identify two gene products with a probable regulatory role in the timing of initiation of cell division.
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34

Seto, Marian, Marc Whitlow, Margaret A. McCarrick, Subha Srinivasan, Ying Zhu, Rene Pagila, Robert Mintzer, David Light, Anthony Johns y Janet A. Meurer-Ogden. "A model of the acid sphingomyelinase phosphoesterase domain based on its remote structural homolog purple acid phosphatase". Protein Science 13, n.º 12 (1 de enero de 2009): 3172–86. http://dx.doi.org/10.1110/ps.04966204.

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35

Zhu, Hui, Li Kai Wang y Stewart Shuman. "Essential Constituents of the 3′-Phosphoesterase Domain of Bacterial DNA Ligase D, a Nonhomologous End-joining Enzyme". Journal of Biological Chemistry 280, n.º 40 (25 de julio de 2005): 33707–15. http://dx.doi.org/10.1074/jbc.m506838200.

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36

Kota, Swathi, C. Vijaya Kumar y Hari S. Misra. "Characterization of an ATP-regulated DNA-processing enzyme and thermotolerant phosphoesterase in the radioresistant bacterium Deinococcus radiodurans". Biochemical Journal 431, n.º 1 (14 de septiembre de 2010): 149–57. http://dx.doi.org/10.1042/bj20100446.

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A multiprotein DNA-processing complex identified from Deinococcus radiodurans exhibits uncharacterized ATP-sensitive nuclease functions. DR0505 was one of the 24 polypeptides identified from the complex. It contains two 5′ nucleotidase motifs, one is at the C-terminal end of the N-terminal CPDD (calcineurin phosphodiesterase domain), with the second at the C-terminal end of the protein. Recombinant DR0505 showed both phosphomonoesterase and phosphodiesterase activities with chromogenic substrates, showing higher affinity for bis-(p-nitrophenyl) phosphate than for p-nitrophenyl phosphate. The enzyme exhibited pH optima ranging from 8.0 to 9.0 and metal-ion-dependent thermotolerance of esterase functions. Both mono- and di-esterase activities were stable at temperatures up to 50 °C in the presence of Mg2+, whereas monoesterase activity was observed at temperatures up to 80 °C in the presence of Mn2+ and up to 50 °C with Ca2+. The purified enzyme showed 5′ nucleotidase activity on a wide range of natural mononucleotides including cyclic mononucleotides and 8-oxo-GMP. DR0505 showed a nearly 7-fold higher activity on ADP than AMP, but this activity was inhibited with ATP. Interestingly, DR0505 also showed single-stranded endonuclease and 3′→5′ exonuclease activities on both single-stranded and double-stranded DNA-substrates. Unlike for the exonuclease activity, the single-stranded endonuclease activities observed on stem-loop substrates and at the single strand–double-strand junction in forked-hairpin substrates were not inhibited with ATP. These results suggested that DR0505 is an ATP-regulated DNA-processing enzyme and a thermotolerant esterase in vitro. We therefore suggest possible roles of this enzyme in nucleotide recycling and DNA processing, which is required for efficient double-strand break repair and the high radiation tolerance observed in D. radiodurans.
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37

Zhuo, S., J. C. Clemens, R. L. Stone y J. E. Dixon. "Mutational analysis of a Ser/Thr phosphatase. Identification of residues important in phosphoesterase substrate binding and catalysis". Journal of Biological Chemistry 269, n.º 42 (octubre de 1994): 26234–38. http://dx.doi.org/10.1016/s0021-9258(18)47184-0.

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Duran-Meza, Eva y Rodrigo Diaz-Espinoza. "Catalytic Amyloids as Novel Synthetic Hydrolases". International Journal of Molecular Sciences 22, n.º 17 (25 de agosto de 2021): 9166. http://dx.doi.org/10.3390/ijms22179166.

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Amyloids are supramolecular assemblies composed of polypeptides stabilized by an intermolecular beta-sheet core. These misfolded conformations have been traditionally associated with pathological conditions such as Alzheimer’s and Parkinson´s diseases. However, this classical paradigm has changed in the last decade since the discovery that the amyloid state represents a universal alternative fold accessible to virtually any polypeptide chain. Moreover, recent findings have demonstrated that the amyloid fold can serve as catalytic scaffolds, creating new opportunities for the design of novel active bionanomaterials. Here, we review the latest advances in this area, with particular emphasis on the design and development of catalytic amyloids that exhibit hydrolytic activities. To date, three different types of activities have been demonstrated: esterase, phosphoesterase and di-phosphohydrolase. These artificial hydrolases emerge upon the self-assembly of small peptides into amyloids, giving rise to catalytically active surfaces. The highly stable nature of the amyloid fold can provide an attractive alternative for the design of future synthetic hydrolases with diverse applications in the industry, such as the in situ decontamination of xenobiotics.
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39

Bjerregaard-Andersen, Kaare, Ellen Østensen, John D. Scott, Kjetil Taskén y Jens Preben Morth. "Malonate in the nucleotide-binding site traps human AKAP18γ/δ in a novel conformational state". Acta Crystallographica Section F Structural Biology Communications 72, n.º 8 (13 de julio de 2016): 591–97. http://dx.doi.org/10.1107/s2053230x16010189.

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A-kinase anchoring proteins (AKAPs) are a family of proteins that provide spatiotemporal resolution of protein kinase A (PKA) phosphorylation. In the myocardium, PKA and AKAP18γ/δ are found in complex with sarcoendoplasmic reticulum Ca2+-ATPase 2 (SERCA2) and phospholamban (PLB). This macromolecular complex provides a means by which anchored PKA can dynamically regulate cytoplasmic Ca2+release and re-uptake. For this reason, AKAP18γ/δ presents an interesting drug target with therapeutic potential in cardiovascular disease. The crystal structure of the central domain of human AKAP18γ has been determined at the atomic resolution of 1.25 Å. This first structure of human AKAP18γ is trapped in a novel conformation by a malonate molecule bridging the important R-loop with the 2H phosphoesterase motif. Although the physiological substrate of AKAP18γ is currently unknown, a potential proton wire deep in the central binding crevice has been indentified, leading to bulk solvent below the R-loop. Malonate complexed with AKAP18γ at atomic resolution provides an excellent starting point for structure-guided drug design.
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40

Krogh, Berit O., Bertrand Llorente, Alicia Lam y Lorraine S. Symington. "Mutations in Mre11 Phosphoesterase Motif I That ImpairSaccharomyces cerevisiaeMre11-Rad50-Xrs2 Complex Stability in Addition to Nuclease Activity". Genetics 171, n.º 4 (2 de septiembre de 2005): 1561–70. http://dx.doi.org/10.1534/genetics.105.049478.

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41

Cai, Yongfang, Jiao Qi, Chun Li, Kehui Miao, Baixue Jiang, Xiaoshuang Yang, Wenyu Han, Yang Wang, Jing Gao y Xiangshu Dong. "Genome-Wide Analysis of Purple Acid Phosphatase Genes in Brassica rapa and Their Association with Pollen Development and Phosphorus Deprivation Stress". Horticulturae 7, n.º 10 (5 de octubre de 2021): 363. http://dx.doi.org/10.3390/horticulturae7100363.

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PAPs (purple acid phosphatases) belong to the metallo-phosphoesterase superfamily and play important roles in developmental processes, phosphorus foraging, and recycling. However, the specific functions of BrPAPs in Brassica rapa are poorly understood. In this study, 39 BrPAPs were identified and divided into three major clades and nine subgroups. In 8 of the 39 BrPAPs, some invariant amino acid residues were lost or shifted. Based on an expression profiling analysis, BrPAP11, 14, 20, 24, 29, and 34 were specifically expressed in fertile floral buds, indicating their critical roles during pollen development. A total of 21 BrPAPs responded to Pi deprivation in either shoots or roots. Of these, BrPAP4, 5, 19, and 21 were upregulated in roots under Pi depravation conditions, while BrPAP12 was upregulated in the roots in normal conditions. BrPAP28 was upregulated in shoots under Pi depravation conditions, indicating its function shifted compared with its Arabidopsis homolog, AtPAP26. The present work contributes to further investigation of BrPAPs as candidate genes for genetic improvement studies of low phosphorus tolerance as well as for creating male sterile lines based on gene editing methods in Brassica rapa.
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42

Yang, Qiya, Dhanasekaran Solairaj, Maurice Tibiru Apaliya, Mandour Abdelhai, Marui Zhu, Yuan Yan y Hongyin Zhang. "Protein Expression Profile and Transcriptome Characterization of Penicillium expansum Induced by Meyerozyma guilliermondii". Journal of Food Quality 2020 (11 de febrero de 2020): 1–12. http://dx.doi.org/10.1155/2020/8056767.

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Antagonistic yeasts can inhibit fungal growth. In our previous research, Meyerozyma guilliermondii, one of the antagonistic yeasts, exhibited antagonistic activity against Penicillium expansum. However, the mechanisms, especially the molecular mechanisms of inhibiting activity of M. guilliermondii, are not clear. In this study, the protein expression profile and transcriptome characterization of P. expansum induced by M. guilliermondii were investigated. In P. expansum induced by M. guilliermondii, 66 proteins were identified as differentially expressed, among them six proteins were upregulated and 60 proteins were downregulated, which were associated with oxidative phosphorylation, ATP synthesis, basal metabolism, and response regulation. Simultaneously, a transcriptomic approach based on RNA-Seq was applied to annotate the genome of P. expansum and then studied the changes of gene expression in P. expansum treated with M. guilliermondii. The results showed that differentially expressed genes such as HEAT, Phosphoesterase, Polyketide synthase, ATPase, and Ras-association were significantly downregulated, in contrast to Cytochromes P450, Phosphatidate cytidylyltransferase, and Glutathione S-transferase, which were significantly upregulated. Interestingly, the downregulated differentially expressed proteins and genes have a corresponding relationship; these results revealed that these proteins and genes were important in the growth of P. expansum treated with M. guilliermondii.
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43

Losev, Eugene, Effrosyni Papanikou, Olivia W. Rossanese y Benjamin S. Glick. "Cdc1p Is an Endoplasmic Reticulum-Localized Putative Lipid Phosphatase That Affects Golgi Inheritance and Actin Polarization by Activating Ca2+ Signaling". Molecular and Cellular Biology 28, n.º 10 (10 de marzo de 2008): 3336–43. http://dx.doi.org/10.1128/mcb.00567-07.

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ABSTRACT In the budding yeast Saccharomyces cerevisiae, mutations in the essential gene CDC1 cause defects in Golgi inheritance and actin polarization. However, the biochemical function of Cdc1p is unknown. Previous work showed that cdc1 mutants accumulate intracellular Ca2+ and display enhanced sensitivity to the extracellular Mn2+ concentration, suggesting that Cdc1p might regulate divalent cation homeostasis. By contrast, our data indicate that Cdc1p is a Mn2+-dependent protein that can affect Ca2+ levels. We identified a cdc1 allele that activates Ca2+ signaling but does not show enhanced sensitivity to the Mn2+ concentration. Furthermore, our studies show that Cdc1p is an endoplasmic reticulum-localized transmembrane protein with a putative phosphoesterase domain facing the lumen. cdc1 mutant cells accumulate an unidentified phospholipid, suggesting that Cdc1p may be a lipid phosphatase. Previous work showed that deletion of the plasma membrane Ca2+ channel Cch1p partially suppressed the cdc1 growth phenotype, and we find that deletion of Cch1p also suppresses the Golgi inheritance and actin polarization phenotypes. The combined data fit a model in which the cdc1 mutant phenotypes result from accumulation of a phosphorylated lipid that activates Ca2+ signaling.
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44

Burroughs, A. Max y L. Aravind. "Innate immunity and bacterial conflict: the deep origins of cGAS-STING signaling and discovery of uncharacterized animal immunity pathways". Journal of Immunology 204, n.º 1_Supplement (1 de mayo de 2020): 68.25. http://dx.doi.org/10.4049/jimmunol.204.supp.68.25.

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Abstract Just as animal innate immunity pits endogenous response pathways against invading extragenic threats, microbiomes are governed by myriad pathways mediating inter-genomic resource procurement, collectively known as ‘conflict systems.’ Leveraging the continually-increasing amount of genome data, we have probed such systems and in the process uncovered the evolutionary origins of core components of animal immunity. This includes the discovery that cyclic-nucleotide synthesizing enzymes like human cGAS and OAS1 and their receptors like STING were acquired from comparable conflict-triggered nucleotide signaling systems in bacteria. While our analyses point to previously-unknown diversity animal innate immunity, particularly in marine invertebrates, this diversity pales in contrast to bacterial pathways which contain a wealth of completely uncharacterized nucleotide synthetase enzymes, nucleotide receptors, and response effector domains. Further, studies from our group point to entirely-uncharacterized components of the animal innate immunity response that have also been acquired from bacterial conflict systems. These include the viral RNA-acting human Leng9 phosphoesterase and the human N4BP2L1 nucleotide kinase. These studies also uncover a connection between immunity-driven second messenger nucleotide generation and a previously-unrecognized receptor domain in the human apoptotic factor MAP3K5.
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45

Wilson, S., M. Tavassoli y F. Z. Watts. "Schizosaccharomyces pombe Rad32 protein: a phosphoprotein with an essential phosphoesterase motif required for repair of DNA double strand breaks". Nucleic Acids Research 26, n.º 23 (1 de diciembre de 1998): 5261–69. http://dx.doi.org/10.1093/nar/26.23.5261.

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46

Das, Ushati, Paul Smith y Stewart Shuman. "Structural insights to the metal specificity of an archaeal member of the LigD 3′-phosphoesterase DNA repair enzyme family". Nucleic Acids Research 40, n.º 2 (28 de septiembre de 2011): 828–36. http://dx.doi.org/10.1093/nar/gkr767.

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47

Zhu, Hui y Stewart Shuman. "Substrate Specificity and Structure-Function Analysis of the 3′-Phosphoesterase Component of the Bacterial NHEJ Protein, DNA Ligase D". Journal of Biological Chemistry 281, n.º 20 (14 de marzo de 2006): 13873–81. http://dx.doi.org/10.1074/jbc.m600055200.

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48

Damen, Ester, Elmar Krieger, Jens E. Nielsen, Jelle Eygensteyn y Jeroen E. M. Van Leeuwen. "The human Vps29 retromer component is a metallo-phosphoesterase for a cation-independent mannose 6-phosphate receptor substrate peptide". Biochemical Journal 398, n.º 3 (29 de agosto de 2006): 399–409. http://dx.doi.org/10.1042/bj20060033.

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The retromer complex is involved in the retrograde transport of the CI-M6PR (cation-independent mannose 6-phosphate receptor) from endosomes to the Golgi. It is a hetero-trimeric complex composed of Vps26 (vacuolar sorting protein 26), Vps29 and Vps35 proteins, which are conserved in eukaryote evolution. Recently, elucidation of the crystal structure of Vps29 revealed that Vps29 contains a metallo-phosphoesterase fold [Wang, Guo, Liang, Fan, Zhu, Zang, Zhu, Li, Teng, Niu et al. (2005) J. Biol. Chem. 280, 22962–22967; Collins, Skinner, Watson, Seaman and Owen (2005) Nat. Struct. Mol. Biol. 12, 594–602]. We demonstrate that recombinant hVps29 (human Vps29) displays in vitro phosphatase activity towards a serine-phosphorylated peptide, containing the acidic-cluster dileucine motif of the cytoplasmatic tail of the CI-M6PR. Efficient dephosphorylation required the additional presence of recombinant hVps26 and hVps35 proteins, which interact with hVps29. Phosphatase activity of hVps29 was greatly decreased by alanine substitutions of active-site residues that are predicted to co-ordinate metal ions. Using inductively coupled plasma MS, we demonstrate that recombinant hVps29 binds zinc. Moreover, hVps29-dependent phosphatase activity is greatly reduced by non-specific and zinc-specific metal ion chelators, which can be completely restored by addition of excess ZnCl2. The binuclear Zn2+ centre and phosphate group were modelled into the hVps29 catalytic site and pKa calculations provided further insight into the molecular mechanisms of Vps29 phosphatase activity. We conclude that the retromer complex displays Vps29-dependent in vitro phosphatase activity towards a serinephosphorylated acidic-cluster dileucine motif that is involved in endosomal trafficking of the CI-M6PR. The potential significance of these findings with respect to regulation of transport of cycling trans-Golgi network proteins is discussed.
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49

Dutta, Kaushik, Aswin Natarajan, Pravin A. Nair, Stewart Shuman y Ranajeet Ghose. "Sequence-specific 1H, 13C and 15N assignments of the phosphoesterase (PE) domain of Pseudomonas aeruginosa DNA ligase D (LigD)". Biomolecular NMR Assignments 5, n.º 2 (7 de enero de 2011): 151–55. http://dx.doi.org/10.1007/s12104-010-9289-7.

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50

Li, Jinchao, Wenjie Liang, Yan Li y Weiqiang Qian. "APURINIC/APYRIMIDINIC ENDONUCLEASE2 and ZINC FINGER DNA 3′-PHOSPHOESTERASE Play Overlapping Roles in the Maintenance of Epigenome and Genome Stability". Plant Cell 30, n.º 9 (22 de agosto de 2018): 1954–70. http://dx.doi.org/10.1105/tpc.18.00287.

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