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https://www.readbyqxmd.com/read/28218303/a-combination-of-mutational-and-computational-scanning-guides-the-design-of-an-artificial-ligand-binding-controlled-lipase
#1
Marco Kaschner, Oliver Schillinger, Timo Fettweiss, Christina Nutschel, Frank Krause, Alexander Fulton, Birgit Strodel, Andreas Stadler, Karl-Erich Jaeger, Ulrich Krauss
Allostery, i.e. the control of enzyme activity by a small molecule at a location distant from the enzyme's active site, represents a mechanism essential for sustaining life. The rational design of allostery is a non-trivial task but can be achieved by fusion of a sensory domain, which responds to environmental stimuli with a change in its structure. Hereby, the site of domain fusion is difficult to predict. We here explore the possibility to rationally engineer allostery into the naturally not allosterically regulated Bacillus subtilis lipase A, by fusion of the citrate-binding sensor-domain of the CitA sensory-kinase of Klebsiella pneumoniae...
February 20, 2017: Scientific Reports
https://www.readbyqxmd.com/read/28212750/conformational-rigidity-and-protein-dynamics-at-distinct-timescales-regulate-ptp1b-activity-and-allostery
#2
Meng S Choy, Yang Li, Luciana E S F Machado, Micha B A Kunze, Christopher R Connors, Xingyu Wei, Kresten Lindorff-Larsen, Rebecca Page, Wolfgang Peti
Protein function originates from a cooperation of structural rigidity, dynamics at different timescales, and allostery. However, how these three pillars of protein function are integrated is still only poorly understood. Here we show how these pillars are connected in Protein Tyrosine Phosphatase 1B (PTP1B), a drug target for diabetes and cancer that catalyzes the dephosphorylation of numerous substrates in essential signaling pathways. By combining new experimental and computational data on WT-PTP1B and ≥10 PTP1B variants in multiple states, we discovered a fundamental and evolutionarily conserved CH/π switch that is critical for positioning the catalytically important WPD loop...
February 16, 2017: Molecular Cell
https://www.readbyqxmd.com/read/28200021/statistical-database-analysis-of-the-role-of-loop-dynamics-for-protein-protein-complex-formation-and-allostery
#3
Yina Gu, Da-Wei Li, Rafael Brüschweiler
No abstract text is available yet for this article.
February 13, 2017: Bioinformatics
https://www.readbyqxmd.com/read/28190781/predicting-protein-dynamics-and-allostery-using-multi-protein-atomic-distance-constraints
#4
Joe G Greener, Ioannis Filippis, Michael J E Sternberg
The related concepts of protein dynamics, conformational ensembles and allostery are often difficult to study with molecular dynamics (MD) due to the timescales involved. We present ExProSE (Exploration of Protein Structural Ensembles), a distance geometry-based method that generates an ensemble of protein structures from two input structures. ExProSE provides a unified framework for the exploration of protein structure and dynamics in a fast and accessible way. Using a dataset of apo/holo pairs it is shown that existing coarse-grained methods often cannot span large conformational changes...
February 7, 2017: Structure
https://www.readbyqxmd.com/read/28188293/asymmetric-configurations-in-a-reengineered-homodimer-reveal-multiple-subunit-communication-pathways-in-protein-allostery
#5
Maria Fe Lanfranco, Fernanda Gárate, Ashton J Engdahl, Rodrigo A Maillard
Many allosteric proteins form homo-oligomeric complexes to regulate a biological function. In homo-oligomers, subunits establish communication pathways that are modulated by external stimuli like ligand binding. A challenge for dissecting the communication mechanisms in homo-oligomers is identifying intermediate liganded states, which are typically transiently populated. However, their identities provide the most mechanistic information on how ligand-induced signals propagate from bound to empty subunits. Here, we dissected the directionality and magnitude of subunit communication in a reengineered, single-chain version of the homodimeric transcription factor cAMP Receptor Protein (CRPSC)...
February 10, 2017: Journal of Biological Chemistry
https://www.readbyqxmd.com/read/28166054/elucidation-of-a-four-site-allosteric-network-in-fibroblast-growth-factor-receptor-tyrosine-kinases
#6
Huaibin Chen, William M Marsiglia, Min-Kyu Cho, Zhifeng Huang, Jingjing Deng, Steven P Blais, Weiming Gai, Shibani Bhattacharya, Thomas A Neubert, Nathaniel J Traaseth, Moosa Mohammadi
Receptor tyrosine kinase (RTK) signaling is tightly regulated by protein allostery within the intracellular tyrosine kinase domains. Yet the molecular determinants of allosteric connectivity in tyrosine kinase domain are incompletely understood. By means of structural (X-ray and NMR) and functional characterization of pathogenic gain-of-function mutations affecting the FGF receptor (FGFR) tyrosine kinase domain, we elucidated a long-distance allosteric network composed of four interconnected sites termed the 'molecular brake', 'DFG latch', 'A-loop plug', and 'αC tether'...
February 6, 2017: ELife
https://www.readbyqxmd.com/read/28135092/evolutionary-covariance-combined-with-molecular-dynamics-predicts-a-framework-for-allostery-in-the-muts-dna-mismatch-repair-protein
#7
Bharat Lakhani, Kelly Marie Thayer, Manju M Hingorani, David L Beveridge
Mismatch repair (MMR) is an essential, evolutionarily conserved pathway that maintains genome stability by correcting base-pairing errors in DNA. Here we examine the sequence and structure of MutS MMR protein to decipher the amino acid framework underlying its two key activities - recognizing mismatches in DNA and using ATP to initiate repair. Statistical Coupling Analysis (SCA) identified a network (sector) of co-evolved amino acids in the MutS protein family. The potential functional significance of this SCA sector was assessed by performing molecular dynamics (MD) simulations for alanine mutants of the top 5% of 160 residues in the distribution, and control non-sector residues...
January 30, 2017: Journal of Physical Chemistry. B
https://www.readbyqxmd.com/read/28134524/monod-wyman-changeux-analysis-of-ligand-gated-ion-channel-mutants
#8
Tal Einav, Rob Phillips
We present a framework for computing the gating properties of ligand-gated ion channel mutants using the Monod-Wyman-Changeux (MWC) model of allostery. We derive simple analytic formulas for key functional properties such as the leakiness, dynamic range, half-maximal effective concentration ([EC50]), and effective Hill coefficient, and explore the full spectrum of phenotypes that are accessible through mutations. Specifically, we consider mutations in the channel pore of nicotinic acetylcholine receptor (nAChR) and the ligand binding domain of a cyclic nucleotide-gated (CNG) ion channel, demonstrating how each mutation can be characterized as only affecting a subset of the biophysical parameters...
January 30, 2017: Journal of Physical Chemistry. B
https://www.readbyqxmd.com/read/28126820/experimental-measurement-of-binding-energy-selectivity-and-allostery-using-fluctuation-theorems
#9
Joan Camunas-Soler, Anna Alemany, Felix Ritort
Thermodynamic bulk measurements of binding reactions rely on the validity of the law of mass action and the assumption of a dilute solution. Yet, important biological systems such as allosteric ligand-receptor binding, macromolecular crowding, or misfolded molecules may not follow these assumptions and may require a particular reaction model. Here we introduce a fluctuation theorem for ligand binding and an experimental approach using single-molecule force spectroscopy to determine binding energies, selectivity, and allostery of nucleic acids and peptides in a model-independent fashion...
January 27, 2017: Science
https://www.readbyqxmd.com/read/28098152/human-farnesyl-pyrophosphate-synthase-is-allosterically-inhibited-by-its-own-product
#10
Jaeok Park, Michal Zielinski, Alexandr Magder, Youla S Tsantrizos, Albert M Berghuis
Farnesyl pyrophosphate synthase (FPPS) is an enzyme of the mevalonate pathway and a well-established therapeutic target. Recent research has focused around a newly identified druggable pocket near the enzyme's active site. Pharmacological exploitation of this pocket is deemed promising; however, its natural biological function, if any, is yet unknown. Here we report that the product of FPPS, farnesyl pyrophosphate (FPP), can bind to this pocket and lock the enzyme in an inactive state. The Kd for this binding is 5-6 μM, within a catalytically relevant range...
January 18, 2017: Nature Communications
https://www.readbyqxmd.com/read/28095404/entropy-transfer-between-residue-pairs-and-allostery-in-proteins-quantifying-allosteric-communication-in-ubiquitin
#11
Aysima Hacisuleyman, Burak Erman
It has recently been proposed by Gunasakaran et al. that allostery may be an intrinsic property of all proteins. Here, we develop a computational method that can determine and quantify allosteric activity in any given protein. Based on Schreiber's transfer entropy formulation, our approach leads to an information transfer landscape for the protein that shows the presence of entropy sinks and sources and explains how pairs of residues communicate with each other using entropy transfer. The model can identify the residues that drive the fluctuations of others...
January 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28095400/computational-analysis-of-residue-interaction-networks-and-coevolutionary-relationships-in-the-hsp70-chaperones-a-community-hopping-model-of-allosteric-regulation-and-communication
#12
Gabrielle Stetz, Gennady M Verkhivker
Allosteric interactions in the Hsp70 proteins are linked with their regulatory mechanisms and cellular functions. Despite significant progress in structural and functional characterization of the Hsp70 proteins fundamental questions concerning modularity of the allosteric interaction networks and hierarchy of signaling pathways in the Hsp70 chaperones remained largely unexplored and poorly understood. In this work, we proposed an integrated computational strategy that combined atomistic and coarse-grained simulations with coevolutionary analysis and network modeling of the residue interactions...
January 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28094513/native-state-volume-fluctuations-in-proteins-as-a-mechanism-for-dynamic-allostery
#13
Anthony B Law, Paul J Sapienza, Jun Zhang, Xiaobing Zuo, Chad M Petit
Allostery enables tight regulation of protein function in the cellular environment. While existing models of allostery are firmly rooted in the current structure-function paradigm, the mechanistic basis for allostery in the absence of structural change remains unclear. In this study, we show that a typical globular protein is able to undergo significant changes in volume under native conditions while exhibiting no additional changes in protein structure. These native state volume fluctuations were found to correlate with changes in internal motions that were previously recognized as a source of allosteric entropy...
January 17, 2017: Journal of the American Chemical Society
https://www.readbyqxmd.com/read/28090749/unconventional-coupling-between-ligand-recognition-and-allosteric-control-in-the-multidrug-resistance-gene-regulator-bmrr
#14
Sharrol Bachas, Bryan Kohrs, Herschel V Wade
BmrR is a multidrug resistance regulator that responds to diverse ligands. To obtain insights into signal recognition, allosteric control and cooperativity, we employed a quantitative in vitro transcription assay to determine the ligand-dependent activation profiles for a diverse set of cations, zwitterions and uncharged ligands. Like many other biological switch systems, the data are well described by a modified Hill equation. Parameters extracted from curve fits to the data include, L50, RMAX and N. We find that L50 directly correlates to Gbind suggesting that the parameter reflects binding, whereas RMAX and N reflect allosteric control and cooperativity, respectively...
January 16, 2017: ChemMedChem
https://www.readbyqxmd.com/read/28089447/networks-of-dynamic-allostery-regulate-enzyme-function
#15
Michael Joseph Holliday, Carlo Camilloni, Geoffrey Stuart Armstrong, Michele Vendruscolo, Elan Zohar Eisenmesser
Many protein systems rely on coupled dynamic networks to allosterically regulate function. However, the broad conformational space sampled by non-coherently dynamic systems has precluded detailed analysis of their communication mechanisms. Here, we have developed a methodology that combines the high sensitivity afforded by nuclear magnetic resonance relaxation techniques and single-site multiple mutations, termed RASSMM, to identify two allosterically coupled dynamic networks within the non-coherently dynamic enzyme cyclophilin A...
February 7, 2017: Structure
https://www.readbyqxmd.com/read/28076680/regulating-the-master-regulator-controlling-ubiquitination-by-thinking-outside-the-active-site
#16
Stacey-Lynn Paiva, Sara R da Silva, Elvin D de Araujo, Patrick Thomas Gunning
The labeling of proteins with ubiquitin/ubiquitin-like (Ubl) proteins is crucial for several physiological processes and in the onset of various diseases. Recently, targeting ubiquitin protein labeling has shifted towards the use of allosteric mechanisms over classical activity-based approaches. Allosteric enzyme regulation offers the potential for greater selectivity and has demonstrated less susceptibility to acquired resistance often associated with active site inhibitors. Furthermore, the isoform diversity among E1 activating, E2 conjugating, E3 ligase and deubiquitinating (DUB) enzymes offers an ideal platform for modulating activity via allostery...
January 11, 2017: Journal of Medicinal Chemistry
https://www.readbyqxmd.com/read/28068090/femtosecond-to-millisecond-dynamics-of-light-induced-allostery-in-the-avena-sativa-lov-domain
#17
Agnieszka A Gil, Sergey P Laptenok, Jarrod B French, James N Iuliano, Andras Lukacs, Christopher R Hall, Igor V Sazanovich, Gregory M Greetham, Adelbert Bacher, Boris Illarionov, Markus Fischer, Peter J Tonge, Stephen R Meech
The rational engineering of photosensor proteins underpins the field of optogenetics, in which light is used for spatiotemporal control of cell signaling. Optogenetic elements function by converting electronic excitation of an embedded chromophore into structural changes on the microseconds to seconds time scale, which then modulate the activity of output domains responsible for biological signaling. Using time-resolved vibrational spectroscopy coupled with isotope labeling, we have mapped the structural evolution of the LOV2 domain of the flavin binding phototropin Avena sativa (AsLOV2) over 10 decades of time, reporting structural dynamics between 100 fs and 1 ms after optical excitation...
February 9, 2017: Journal of Physical Chemistry. B
https://www.readbyqxmd.com/read/28067917/structural-insights-into-a-unique-hsp70-hsp40-interaction-in-the-eukaryotic-ribosome-associated-complex
#18
Felix Alexander Weyer, Andrea Gumiero, Genís Valentín Gesé, Karine Lapouge, Irmgard Sinning
Cotranslational chaperones assist de novo folding of nascent polypeptides, prevent them from aggregating and modulate translation. The ribosome-associated complex (RAC) is unique in that the Hsp40 protein Zuo1 and the atypical Hsp70 chaperone Ssz1 form a stable heterodimer, which acts as a cochaperone for the Hsp70 chaperone Ssb. Here we present the structure of the Chaetomium thermophilum RAC core comprising Ssz1 and the Zuo1 N terminus. We show how the conserved allostery of Hsp70 proteins is abolished and this Hsp70-Hsp40 pair is molded into a functional unit...
January 9, 2017: Nature Structural & Molecular Biology
https://www.readbyqxmd.com/read/28053348/glucocorticoid-receptor-control-of-transcription-precision-and-plasticity-via-allostery
#19
REVIEW
Emily R Weikum, Matthew T Knuesel, Eric A Ortlund, Keith R Yamamoto
The glucocorticoid receptor (GR) is a constitutively expressed transcriptional regulatory factor (TRF) that controls many distinct gene networks, each uniquely determined by particular cellular and physiological contexts. The precision of GR-mediated responses seems to depend on combinatorial, context-specific assembly of GR-nucleated transcription regulatory complexes at genomic response elements. In turn, evidence suggests that context-driven plasticity is conferred by the integration of multiple signals, each serving as an allosteric effector of GR conformation, a key determinant of regulatory complex composition and activity...
March 2017: Nature Reviews. Molecular Cell Biology
https://www.readbyqxmd.com/read/28050603/new-open-conformation-of-smyd3-implicates-conformational-selection-and-allostery
#20
Nicholas Spellmon, Xiaonan Sun, Wen Xue, Joshua Holcomb, Srinivas Chakravarthy, Weifeng Shang, Brian Edwards, Nualpun Sirinupong, Chunying Li, Zhe Yang
SMYD3 plays a key role in cancer cell viability, adhesion, migration and invasion. SMYD3 promotes formation of inducible regulatory T cells and is involved in reducing autoimmunity. However, the nearly "closed" substrate-binding site and poor in vitro H3K4 methyltransferase activity have obscured further understanding of this oncogenically related protein. Here we reveal that SMYD3 can adopt an "open" conformation using molecular dynamics simulation and small-angle X-ray scattering. This ligand-binding-capable open state is related to the crystal structure-like closed state by a striking clamshell-like inter-lobe dynamics...
2017: AIMS Biophysics
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