Literature DB >> 23451893

Considering protonation as a posttranslational modification regulating protein structure and function.

André Schönichen1, Bradley A Webb, Matthew P Jacobson, Diane L Barber.   

Abstract

Posttranslational modification is an evolutionarily conserved mechanism for regulating protein activity, binding affinity, and stability. Compared with established posttranslational modifications such as phosphorylation or ubiquitination, posttranslational modification by protons within physiological pH ranges is a less recognized mechanism for regulating protein function. By changing the charge of amino acid side chains, posttranslational modification by protons can drive dynamic changes in protein conformation and function. Addition and removal of a proton is rapid and reversible and, in contrast to most other posttranslational modifications, does not require an enzyme. Signaling specificity is achieved by only a minority of sites in proteins titrating within the physiological pH range. Here, we examine the structural mechanisms and functional consequences of proton posttranslational modification of pH-sensing proteins regulating different cellular processes.

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Year:  2013        PMID: 23451893      PMCID: PMC4041481          DOI: 10.1146/annurev-biophys-050511-102349

Source DB:  PubMed          Journal:  Annu Rev Biophys        ISSN: 1936-122X            Impact factor:   12.981


  162 in total

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2.  Structure and membrane orientation of IAPP in its natively amidated form at physiological pH in a membrane environment.

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Journal:  Biochim Biophys Acta       Date:  2011-06-23

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Authors:  Rosa A Cardone; Valeria Casavola; Stephan J Reshkin
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Review 4.  Islet amyloid polypeptide, islet amyloid, and diabetes mellitus.

Authors:  Per Westermark; Arne Andersson; Gunilla T Westermark
Journal:  Physiol Rev       Date:  2011-07       Impact factor: 37.312

5.  Binding of hisactophilin I and II to lipid membranes is controlled by a pH-dependent myristoyl-histidine switch.

Authors:  F Hanakam; G Gerisch; S Lotz; T Alt; A Seelig
Journal:  Biochemistry       Date:  1996-08-27       Impact factor: 3.162

6.  Crystal structure of recombinant human interleukin-1 beta at 2.0 A resolution.

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Journal:  J Mol Biol       Date:  1989-10-20       Impact factor: 5.469

7.  Prion proteins with pathogenic and protective mutations show similar structure and dynamics.

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8.  The effect of two actin depolymerizing factors (ADF/cofilins) on actin filament turnover: pH sensitivity of F-actin binding by human ADF, but not of Acanthamoeba actophorin.

Authors:  S K Maciver; B J Pope; S Whytock; A G Weeds
Journal:  Eur J Biochem       Date:  1998-09-01

9.  Dynamic alpha-helix structure of micelle-bound human amylin.

Authors:  Sharadrao M Patil; Shihao Xu; Sarah R Sheftic; Andrei T Alexandrescu
Journal:  J Biol Chem       Date:  2009-02-24       Impact factor: 5.157

10.  Solution structure of human cofilin: actin binding, pH sensitivity, and relationship to actin-depolymerizing factor.

Authors:  Brian J Pope; Karen M Zierler-Gould; Ronald Kühne; Alan G Weeds; Linda J Ball
Journal:  J Biol Chem       Date:  2003-11-18       Impact factor: 5.157
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  54 in total

1.  Atomic-level mechanisms for phospholamban regulation of the calcium pump.

Authors:  L Michel Espinoza-Fonseca; Joseph M Autry; G Lizbeth Ramírez-Salinas; David D Thomas
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2.  An acidic residue buried in the dimer interface of isocitrate dehydrogenase 1 (IDH1) helps regulate catalysis and pH sensitivity.

Authors:  Lucas A Luna; Zachary Lesecq; Katharine A White; An Hoang; David A Scott; Olga Zagnitko; Andrey A Bobkov; Diane L Barber; Jamie M Schiffer; Daniel G Isom; Christal D Sohl
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Review 3.  Role of pHi, and proton transporters in oncogene-driven neoplastic transformation.

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Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2014-02-03       Impact factor: 6.237

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Authors:  Jin-Mei Cheng; Jian Li; Ji-Xin Tang; Su-Ren Chen; Shou-Long Deng; Cheng Jin; Yan Zhang; Xiu-Xia Wang; Chen-Xi Zhou; Yi-Xun Liu
Journal:  Cell Cycle       Date:  2016-07-29       Impact factor: 4.534

Review 5.  Development of constant-pH simulation methods in implicit solvent and applications in biomolecular systems.

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6.  Cancer-associated arginine-to-histidine mutations confer a gain in pH sensing to mutant proteins.

Authors:  Katharine A White; Diego Garrido Ruiz; Zachary A Szpiech; Nicolas B Strauli; Ryan D Hernandez; Matthew P Jacobson; Diane L Barber
Journal:  Sci Signal       Date:  2017-09-05       Impact factor: 8.192

Review 7.  Electrostatic Interactions in Protein Structure, Folding, Binding, and Condensation.

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Journal:  Chem Rev       Date:  2018-01-10       Impact factor: 60.622

8.  Actin-interacting Protein 1 Promotes Disassembly of Actin-depolymerizing Factor/Cofilin-bound Actin Filaments in a pH-dependent Manner.

Authors:  Kazumi Nomura; Kimihide Hayakawa; Hitoshi Tatsumi; Shoichiro Ono
Journal:  J Biol Chem       Date:  2016-01-08       Impact factor: 5.157

9.  A Histidine Cluster in the Cytoplasmic Domain of the Na-H Exchanger NHE1 Confers pH-sensitive Phospholipid Binding and Regulates Transporter Activity.

Authors:  Bradley A Webb; Katharine A White; Bree K Grillo-Hill; André Schönichen; Changhoon Choi; Diane L Barber
Journal:  J Biol Chem       Date:  2016-09-20       Impact factor: 5.157

10.  Mechanism of Fine-tuning pH Sensors in Proprotein Convertases: IDENTIFICATION OF A pH-SENSING HISTIDINE PAIR IN THE PROPEPTIDE OF PROPROTEIN CONVERTASE 1/3.

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Journal:  J Biol Chem       Date:  2015-07-30       Impact factor: 5.157
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