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1.
Sci Rep ; 13(1): 7070, 2023 05 01.
Article in English | MEDLINE | ID: mdl-37127756

ABSTRACT

Proteins are known to be social interaction signals in many species in the animal kingdom. Common mediators in mammals and aquatic species, they have seldom been identified as such in insects' behaviors. Yet, they could represent an important component to support social signals in social insects, as the numerous physical contacts between individuals would tend to favor the use of contact compounds in their interactions. However, their role in social interactions is largely unexplored: are they rare or simply underestimated? In this preliminary study, we show that, in the termite Reticulitermes flavipes, polar extracts from reproductives trigger body-shaking of workers (a vibratory behavior involved in reproductives recognition) while extracts from workers do not. Molecular profiling of these cuticular extracts using MALDI-TOF mass spectrometry reveals higher protein diversity in reproductives than in workers and a sex-specific composition exclusive to reproductives. While the effects observed with extracts are not as strong as with live termites, these results open up the intriguing possibility that social signaling may not be limited to cuticular hydrocarbons or other non-polar, volatile chemicals as classically accepted. Our results suggest that polar compounds, in particular some of the Cuticular Protein Compounds (CPCs) shown here by MALDI to be specific to reproductives, could play a significant role in insect societies. While this study is preliminary and further comprehensive molecular characterization is needed to correlate the body-shaking triggering effects with a given set of polar compounds, this exploratory study opens new perspectives for understanding the role of polar compounds such as proteins in caste discrimination, fertility signaling, or interspecific insect communication.


Subject(s)
Isoptera , Animals , Female , Male , Isoptera/metabolism , Hydrocarbons/metabolism , Reproduction , Fertility , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization , Mammals/metabolism
2.
J Am Soc Mass Spectrom ; 34(1): 27-35, 2023 Jan 04.
Article in English | MEDLINE | ID: mdl-36479974

ABSTRACT

Design-of-experiment (DOE) approaches, originally conceived by Fischer, are widely applied in industry, particularly in the context of production for which they have been greatly expended. In a research and development context, DOE can be of great use for method development. Specifically, DOE can greatly speed up instrument parameter optimization by first identifying parameters that are critical to a given outcome, showing parameter interdependency where it occurs and accelerating optimization of said parameters using matrices of experimental conditions. While DOE approaches have been applied in mass spectrometry experiments, they have so far failed to gain widespread adoption. This could be attributed to the fact that DOE can get quite complex and daunting to the everyday user. Here we make the case that a subset of DOE tools, hereafter called SimpleDOE (sDOE), can make DOE accessible and useful to the Mass Spectrometry community at large. We illustrate the progressive gains from a purely manual approach to sDOE through a stepwise optimization of parameters affecting the efficiency of top-down ETD fragmentation of proteins on a high-resolution Q-TOF mass spectrometer, where the aim is to maximize sequence coverage of fragmentation events.


Subject(s)
Proteins , Mass Spectrometry/methods
3.
FEBS J ; 287(18): 4068-4081, 2020 09.
Article in English | MEDLINE | ID: mdl-31995266

ABSTRACT

Polymorphonuclear neutrophils contain at least four serine endopeptidases, namely neutrophil elastase (NE), proteinase 3 (PR3), cathepsin G (CatG), and NSP4, which contribute to the regulation of infection and of inflammatory processes. In physiological conditions, endogenous inhibitors including α2-macroglobulin (α2-M), serpins [α1-proteinase inhibitor (α1-PI)], monocyte neutrophil elastase inhibitor (MNEI), α1-antichymotrypsin, and locally produced chelonianins (elafin, SLPI) control excessive proteolytic activity of neutrophilic serine proteinases. In contrast to human NE (hNE), hPR3 is weakly inhibited by α1-PI and MNEI but not by SLPI. α2-M is a large spectrum inhibitor that traps a variety of proteinases in response to cleavage(s) in its bait region. We report here that α2-M was more rapidly processed by hNE than hPR3 or hCatG. This was confirmed by the observation that the association between α2-M and hPR3 is governed by a kass in the ≤ 105  m-1 ·s-1 range. Since α2-M-trapped proteinases retain peptidase activity, we first predicted the putative cleavage sites within the α2-M bait region (residues 690-728) using kinetic and molecular modeling approaches. We then identified by mass spectrum analysis the cleavage sites of hPR3 in a synthetic peptide spanning the 39-residue bait region of α2-M (39pep-α2-M). Since the 39pep-α2-M peptide and the corresponding bait area in the whole protein do not contain sequences with a high probability of specific cleavage by hPR3 and were indeed only slowly cleaved by hPR3, it can be concluded that α2-M is a poor inhibitor of hPR3. The resistance of hPR3 to inhibition by endogenous inhibitors explains at least in part its role in tissue injury during chronic inflammatory diseases and its well-recognized function of major target autoantigen in granulomatosis with polyangiitis.


Subject(s)
Molecular Docking Simulation , Myeloblastin/chemistry , Pregnancy-Associated alpha 2-Macroglobulins/chemistry , Recombinant Proteins/chemistry , Amino Acid Sequence , Binding Sites , Chromatography, Liquid/methods , Humans , Kinetics , Mass Spectrometry/methods , Myeloblastin/genetics , Myeloblastin/metabolism , Peptides/chemistry , Peptides/genetics , Peptides/metabolism , Pregnancy-Associated alpha 2-Macroglobulins/genetics , Pregnancy-Associated alpha 2-Macroglobulins/metabolism , Protein Binding , Protein Domains , Proteolysis , Recombinant Proteins/metabolism
4.
J Phys Chem Lett ; 10(15): 4192-4196, 2019 Aug 01.
Article in English | MEDLINE | ID: mdl-31305079

ABSTRACT

We report the successful one-pot synthesis of adenosine mono-, di-, and triphosphate in the confined space of a mordenite zeolite. This is also the first report of ATP synthesized onto a porous mineral surface. The results revealed a plausible prebiotic route to ribonucleotides and highlighted the contribution of microporous minerals in the origins of life.


Subject(s)
Adenosine Diphosphate/chemical synthesis , Adenosine Monophosphate/chemical synthesis , Adenosine Triphosphate/chemical synthesis , Aluminum Silicates/chemistry , Nanoparticles/chemistry , Solid-Phase Synthesis Techniques/methods , Zeolites/chemistry , Adenine/chemistry , Organophosphates/chemistry , Origin of Life , Porosity , Ribose/chemistry , Surface Properties , Thermodynamics , Time Factors
5.
J Mol Biol ; 430(24): 5029-5049, 2018 12 07.
Article in English | MEDLINE | ID: mdl-30381148

ABSTRACT

The Drosophila EAG (dEAG) potassium channel is the founding member of the superfamily of KNCH channels, which are involved in cardiac repolarization, neuronal excitability and cellular proliferation. In flies, dEAG is involved in regulation of neuron firing and assembles with CaMKII to form a complex implicated in memory formation. We have characterized the interaction between the kinase domain of CaMKII and a 53-residue fragment of the dEAG channel that includes a canonical CaMKII recognition sequence. Crystal structures together with biochemical/biophysical analysis show a substrate-kinase complex with an unusually tight and extensive interface that appears to be strengthened by phosphorylation of the channel fragment. Electrophysiological recordings show that catalytically active CaMKII is required to observe active dEAG channels. A previously identified phosphorylation site in the recognition sequence is not the substrate for this crucial kinase activity, but rather contributes importantly to the tight interaction of the kinase with the channel. The available data suggest that the dEAG channel is a docking platform for the kinase and that phosphorylation of the channel's kinase recognition sequence modulates the strength of the interaction between the channel and the kinase.


Subject(s)
Calcium-Calmodulin-Dependent Protein Kinase Type 2/chemistry , Calcium-Calmodulin-Dependent Protein Kinase Type 2/metabolism , Drosophila Proteins/chemistry , Drosophila Proteins/metabolism , Drosophila melanogaster/metabolism , Ether-A-Go-Go Potassium Channels/chemistry , Ether-A-Go-Go Potassium Channels/metabolism , Animals , Binding Sites , Catalytic Domain , Crystallography, X-Ray , Drosophila melanogaster/chemistry , Electrophysiological Phenomena , Models, Molecular , Molecular Docking Simulation , Phosphorylation , Protein Binding , Protein Conformation
6.
Structure ; 24(10): 1742-1754, 2016 Oct 04.
Article in English | MEDLINE | ID: mdl-27618660

ABSTRACT

The human EAG1 potassium channel belongs to the superfamily of KCNH voltage-gated potassium channels that have roles in cardiac repolarization and neuronal excitability. EAG1 is strongly inhibited by Ca2+/calmodulin (CaM) through a mechanism that is not understood. We determined the binding properties of CaM with each one of three previously identified binding sites (BDN, BDC1, and BDC2), analyzed binding to protein stretches that include more than one site, and determined the effect of neighboring globular domains on the binding properties. The determination of the crystal structure of CaM bound to BDC2 shows the channel fragment interacting with only the C lobe of calmodulin and adopting an unusual bent conformation. Based on this structure and on a functional and biochemical analysis of mutants, we propose a model for the mechanism of inhibition whereby the local conformational change induced by CaM binding at BDC2 lies at the basis of channel modulation.


Subject(s)
Calmodulin/metabolism , Ether-A-Go-Go Potassium Channels/antagonists & inhibitors , Ether-A-Go-Go Potassium Channels/chemistry , Binding Sites , Calmodulin/chemistry , Crystallography, X-Ray , Ether-A-Go-Go Potassium Channels/genetics , Humans , Models, Molecular , Mutation , Protein Binding , Protein Conformation
7.
J Am Soc Mass Spectrom ; 27(8): 1328-43, 2016 08.
Article in English | MEDLINE | ID: mdl-27245456

ABSTRACT

Protein modifications, whether chemically induced or post-translational (PTMs), play an essential role for the biological activity of proteins. Understanding biological processes and alterations thereof will rely on the quantification of these modifications on individual residues. Here we present SSPaQ, a subtractive method for the parallel quantification of the extent of modification at each possible site of a protein. The method combines uniform isotopic labeling and proteolysis with MS, followed by a segmentation approach, a powerful tool to refine the quantification of the degree of modification of a peptide to a segment containing a single modifiable amino acid. The strength of this strategy resides in: (1) quantification of all modifiable sites in a protein without prior knowledge of the type(s) of modified residues; (2) insensitivity to changes in the solubility and ionization efficiency of peptides upon modification; and (3) detection of missed cleavages caused by the modification for mitigation. The SSPaQ method was applied to quantify modifications resulting from the interaction of human phosphatidyl ethanolamine binding protein 1 (hPEBP1), a metastasis suppressor gene product, with locostatin, a covalent ligand and antimigratory compound with demonstrated activity towards hPEBP1. Locostatin is shown to react with several residues of the protein. SSPaQ can more generally be applied to induced modification in the context of drugs that covalently bind their target protein. With an alternate front-end protocol, it could also be applied to the quantification of protein PTMs, provided a removal tool is available for that PTM. Graphical Abstract ᅟ.

8.
J Biol Chem ; 289(46): 31777-31791, 2014 Nov 14.
Article in English | MEDLINE | ID: mdl-25288799

ABSTRACT

The function of neutrophil protease 3 (PR3) is poorly understood despite of its role in autoimmune vasculitides and its possible involvement in cell apoptosis. This makes it different from its structural homologue neutrophil elastase (HNE). Endogenous inhibitors of human neutrophil serine proteases preferentially inhibit HNE and to a lesser extent, PR3. We constructed a single-residue mutant PR3 (I217R) to investigate the S4 subsite preferences of PR3 and HNE and used the best peptide substrate sequences to develop selective phosphonate inhibitors with the structure Ac-peptidyl(P)(O-C6H4-4-Cl)2. The combination of a prolyl residue at P4 and an aspartyl residue at P2 was totally selective for PR3. We then synthesized N-terminally biotinylated peptidyl phosphonates to identify the PR3 in complex biological samples. These inhibitors resisted proteolytic degradation and rapidly inactivated PR3 in biological fluids such as inflammatory lung secretions and the urine of patients with bladder cancer. One of these inhibitors revealed intracellular PR3 in permeabilized neutrophils and on the surface of activated cells. They hardly inhibited PR3 bound to the surface of stimulated neutrophils despite their low molecular mass, suggesting that the conformation and reactivity of membrane-bound PR3 is altered. This finding is relevant for autoantibody binding and the subsequent activation of neutrophils in granulomatosis with polyangiitis (formerly Wegener disease). These are the first inhibitors that can be used as probes to monitor, detect, and control PR3 activity in a variety of inflammatory diseases.


Subject(s)
Esters/chemistry , Gene Expression Regulation, Enzymologic/drug effects , Myeloblastin/antagonists & inhibitors , Myeloblastin/chemistry , Oligopeptides/chemistry , Organophosphonates/chemistry , Animals , Apoptosis , Biotinylation , Cell Line , Cell Membrane/metabolism , Humans , Hydrolysis , Inflammation , Insecta , Mass Spectrometry , Models, Chemical , Mutation , Neutrophil Activation , Neutrophils/drug effects , Peptides/chemistry , Proline/chemistry , Protease Inhibitors/chemistry , Solvents
9.
Nucleic Acids Res ; 42(2): 1117-28, 2014 Jan.
Article in English | MEDLINE | ID: mdl-24081583

ABSTRACT

Genomic plasticity mediated by transposable elements can have a dramatic impact on genome integrity. To minimize its genotoxic effects, it is tightly regulated either by intrinsic mechanisms (linked to the element itself) or by host-mediated mechanisms. Using mass spectrometry, we show here for the first time that MOS1, the transposase driving the mobility of the mariner Mos1 element, is phosphorylated. We also show that the transposition activity of MOS1 is downregulated by protein kinase AMP cyclic-dependent phosphorylation at S170, which renders the transposase unable to promote Mos1 transposition. One step in the transposition cycle, the assembly of the paired-end complex, is specifically inhibited. At the cellular level, we provide evidence that phosphorylation at S170 prevents the active transport of the transposase into the nucleus. Our data suggest that protein kinase AMP cyclic-dependent phosphorylation may play a double role in the early stages of genome invasion by mariner elements.


Subject(s)
Cyclic AMP-Dependent Protein Kinases/metabolism , DNA-Binding Proteins/metabolism , Transposases/metabolism , Animals , Cell Line , DNA-Binding Proteins/chemistry , Mass Spectrometry , Phosphorylation , Serine/metabolism , Spodoptera , Transposases/chemistry
10.
FEBS J ; 279(24): 4466-78, 2012 Dec.
Article in English | MEDLINE | ID: mdl-23075397

ABSTRACT

Greglin is an 83-residue serine protease inhibitor purified from the ovaries of the locust Schistocerca gregaria. Greglin is a strong inhibitor of subtilisin and human neutrophil elastase, acting at sub-nanomolar and nanomolar concentrations, respectively; it also inhibits neutrophil cathepsin G, α-chymotrypsin and porcine pancreatic elastase, but to a lesser extent. In the present study, we show that greglin resists denaturation at high temperature (95 °C) and after exposure to acetonitrile and acidic or basic pH. Greglin is composed of two domains consisting of residues 1-20 and 21-83. Mass spectrometry indicates that the N-terminal domain (1-20) is post-translationally modified by phosphorylations at three sites and probably contains a glycosylation site. The crystal structure of the region of greglin comprising residues 21-78 in complex with subtilisin was determined at 1.75 Å resolution. Greglin represents a novel member of the non-classical Kazal inhibitors, as it has a unique additional C-terminal region (70-83) connected to the core of the molecule via a supplementary disulfide bond. The stability of greglin was compared with that of an ovomucoid inhibitor. The thermostability and inhibitory specificity of greglin are discussed in light of its structure. In particular, we propose that the C-terminal region is responsible for non-favourable interactions with the autolysis loop (140-loop) of serine proteases of the chymotrypsin family, and thus governs specificity. DATABASE: The atomic coordinates and structure factors for the greglin-subtilisin complex have been deposited with the RCSB Protein Data Bank under accession number 4GI3. STRUCTURED DIGITAL ABSTRACT: Greglin and Subtilisin Carlsberg bind by X-ray crystallography (View interaction).


Subject(s)
Insect Proteins/chemistry , Amino Acid Sequence , Animals , Crystallography, X-Ray , Female , Grasshoppers/chemistry , Mass Spectrometry/methods , Models, Molecular , Molecular Sequence Data , Ovary/chemistry , Phosphorylation , Subtilisin/chemistry
11.
J Mol Biol ; 423(1): 34-46, 2012 Oct 12.
Article in English | MEDLINE | ID: mdl-22732247

ABSTRACT

KCNH channels are voltage-gated potassium channels with important physiological functions. In these channels, a C-terminal cytoplasmic region, known as the cyclic nucleotide binding homology (CNB-homology) domain displays strong sequence similarity to cyclic nucleotide binding (CNB) domains. However, the isolated domain does not bind cyclic nucleotides. Here, we report the X-ray structure of the CNB-homology domain from the mouse EAG1 channel. Through comparison with the recently determined structure of the CNB-homology domain from the zebrafish ELK (eag-like K(+)) channel and the CNB domains from the MlotiK1 and HCN (hyperpolarization-activated cyclic nucleotide-gated) potassium channels, we establish the structural features of CNB-homology domains that explain the low affinity for cyclic nucleotides. Our structure establishes that the "self-liganded" conformation, where two residues of the C-terminus of the domain are bound in an equivalent position to cyclic nucleotides in CNB domains, is a conserved feature of CNB-homology domains. Importantly, we provide biochemical evidence that suggests that there is also an unliganded conformation where the C-terminus of the domain peels away from its bound position. A functional characterization of this unliganded conformation reveals a role of the CNB-homology domain in channel gating.


Subject(s)
Ether-A-Go-Go Potassium Channels/chemistry , Nucleotides, Cyclic/chemistry , Animals , Binding Sites , Crystallography, X-Ray , Ether-A-Go-Go Potassium Channels/metabolism , Mice , Potassium/metabolism , Protein Structure, Tertiary
12.
Methods ; 46(2): 54-61, 2008 Oct.
Article in English | MEDLINE | ID: mdl-18976710

ABSTRACT

The crystallization and structure determination of integral membrane proteins remains a difficult task relying on a good understanding of the behavior of the protein for success. To date, membrane protein structures are still far outnumbered by soluble protein structures. Mass spectrometry is a powerful and versatile tool offering deep insights into the state of the integral membrane protein the structuralist intends to crystallize. With appropriate sample preparation methods, it provides information that can sometimes prove critical at various stages of the structure determination process, from protein expression to model building. Moreover, valuable knowledge is gained when the identified structural features underlie important functional aspects. Electrospray and matrix assisted laser desorption ionization (MALDI) methods, however, face a particular challenge when dealing with integral membrane proteins. A MALDI method specifically optimized for membrane protein analysis is presented here, with detailed information on the sample preparation and deposition, as well as guidelines for domain determination by limited proteolysis. MALDI-time of flight mass spectrometry can be used to do a proper inventory of initiation sites, to tailor a protein to a stable, well-folded form, and to evaluate selenomethionine replacement. These approaches are illustrated with a few examples drawn from the structural biology of ion channels.


Subject(s)
Ion Channels/chemistry , Membrane Proteins/chemistry , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization/methods , Crystallization , Ion Channels/isolation & purification , Membrane Proteins/isolation & purification , Peptide Hydrolases/metabolism , Protein Folding , Protein Structure, Tertiary , Selenomethionine/metabolism
13.
J Mol Biol ; 380(3): 489-503, 2008 Jul 11.
Article in English | MEDLINE | ID: mdl-18538787

ABSTRACT

Human checkpoint kinase 2 is a major actor in checkpoint activation through phosphorylation by ataxia telangiectasia mutated in response to DNA double-strand breaks. In the absence of de novo DNA damage, its autoactivation, reported in the event of increased Cds1/checkpoint kinase 2 (Chk2) expression, has been attributed to oligomerization. Here we report a study performed on autoactivated recombinant Chk2 proteins that aims to correlate kinase activity and phosphorylation status. Using a fluorescence-based technique to assay human checkpoint kinase 2 catalytic activity, slight differences in the ability to phosphorylate Cdc25C were observed, depending on the recombinant system used. Using mass spectrometry, the phosphorylation sites were mapped to identify sites potentially involved in the kinase activity. Five phosphorylated positions, at Ser120, Ser260, Thr225, Ser379 and Ser435, were found to be common to bacteria and insect cells expression systems. They were present in addition to the six known phosphorylation sites induced by ionizing radiation (Thr68, Thr432, Thr387, Ser516, Ser33/35 and Ser19) detected by immunoblotting. After phosphatase treatment, Chk2 regained activity via autorephosphorylation. The determination of the five common sites and ionizing-radiation-inducible positions as rephosphorylated confirms that they are potential positive regulators of Chk2 kinase activity. For Escherichia coli's most highly phosphorylated 6His-Chk2, 13 additional phosphorylation sites were assigned, including 7 novel sites on top of recently reported phosphorylation sites.


Subject(s)
Amino Acids/metabolism , Gene Expression Regulation, Enzymologic , Protein Serine-Threonine Kinases/metabolism , Protein Serine-Threonine Kinases/physiology , Amino Acid Sequence , Animals , Baculoviridae/genetics , Catalysis , Catalytic Domain , Checkpoint Kinase 2 , Computational Biology/methods , Enzyme Activation , Escherichia coli/genetics , Glutathione Transferase/metabolism , Humans , In Vitro Techniques , Mass Spectrometry , Models, Biological , Nuclear Localization Signals/chemistry , Phosphorylation , Protein Serine-Threonine Kinases/analysis , Protein Serine-Threonine Kinases/chemistry , Protein Serine-Threonine Kinases/genetics , Protein Structure, Tertiary , Recombinant Proteins/isolation & purification , Recombinant Proteins/metabolism , Serine/metabolism , Spodoptera/cytology , cdc25 Phosphatases/metabolism
14.
J Mass Spectrom ; 43(3): 360-70, 2008 Mar.
Article in English | MEDLINE | ID: mdl-17968972

ABSTRACT

NHS-biotin modification as a specific lysine probe coupled to mass spectrometry detection is increasingly used over the past years for assessing amino acid accessibility of proteins or complexes as an alternative when well-established methods are challenged. We present a strategy based on usage in parallel of three commercially available reagents (Sulfo-NHS-biotin, Sulfo-NHS-LC-biotin, and Sulfo-NHS-LC-LC-biotin) to efficiently assess the solvent accessibility of amino acids using MALDI-TOF mass spectrometry. The same qualitative pattern of reactivity was observed for these three reagents on the THUMPalpha protein at four reagent/polypeptide molar ratios (2 : 1, 6 : 1, 13 : 1, and 26 : 1). Peptide assignment of the detected ions gains in accuracy because of the triple redundancy due to specific increments of monoisotopic mass. These reagents are a good alternative to isotope labeling when using only a single MALDI-TOF mass spectrometer. We observed that hydroxyl groups of serine and tyrosine residues were also modified by these Sulfo-NHS-biotin reagents. The low amount of protein required and the method's simplicity make this procedure accessible and affordable in order to obtain topological information on proteins difficult to purify. This method was used to identify two lysine residues of the TrmG10 methyltransferase from Pyrococcus abyssi that were differentially reactive, modified in the protein but not in the tRNA-protein complex.


Subject(s)
Amino Acids/chemistry , Archaeal Proteins/chemistry , Biotin/analogs & derivatives , Protein Footprinting/methods , Succinimides/chemistry , tRNA Methyltransferases/chemistry , Amino Acid Sequence , Archaeal Proteins/metabolism , Biotin/chemistry , Lysine/chemistry , Models, Molecular , Peptides/chemistry , Pyrococcus abyssi/enzymology , RNA, Transfer/chemistry , RNA, Transfer/metabolism , Serine/chemistry , Solvents/chemistry , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization , Substrate Specificity , Trypsin/chemistry , Tyrosine/chemistry , tRNA Methyltransferases/metabolism
15.
Nucleic Acids Res ; 34(9): 2483-94, 2006.
Article in English | MEDLINE | ID: mdl-16687654

ABSTRACT

The tRNA:m2(2)G10 methyltransferase of Pyrococus abyssi (PAB1283, a member of COG1041) catalyzes the N2,N2-dimethylation of guanosine at position 10 in tRNA. Boundaries of its THUMP (THioUridine synthases, RNA Methyltransferases and Pseudo-uridine synthases)--containing N-terminal domain [1-152] and C-terminal catalytic domain [157-329] were assessed by trypsin limited proteolysis. An inter-domain flexible region of at least six residues was revealed. The N-terminal domain was then produced as a standalone protein (THUMPalpha) and further characterized. This autonomously folded unit exhibits very low affinity for tRNA. Using protein fold-recognition (FR) methods, we identified the similarity between THUMPalpha and a putative RNA-recognition module observed in the crystal structure of another THUMP-containing protein (ThiI thiolase of Bacillus anthracis). A comparative model of THUMPalpha structure was generated, which fulfills experimentally defined restraints, i.e. chemical modification of surface exposed residues assessed by mass spectrometry, and identification of an intramolecular disulfide bridge. A model of the whole PAB1283 enzyme docked onto its tRNA(Asp) substrate suggests that the THUMP module specifically takes support on the co-axially stacked helices of T-arm and acceptor stem of tRNA and, together with the catalytic domain, screw-clamp structured tRNA. We propose that this mode of interactions may be common to other THUMP-containing enzymes that specifically modify nucleotides in the 3D-core of tRNA.


Subject(s)
Archaeal Proteins/chemistry , Pyrococcus abyssi/enzymology , RNA, Transfer/chemistry , RNA-Binding Proteins/chemistry , tRNA Methyltransferases/chemistry , Amino Acid Sequence , Archaeal Proteins/isolation & purification , Archaeal Proteins/metabolism , Mass Spectrometry , Models, Molecular , Molecular Sequence Data , Protein Folding , Protein Structure, Tertiary , RNA, Transfer/metabolism , RNA-Binding Proteins/isolation & purification , RNA-Binding Proteins/metabolism , Sequence Alignment , tRNA Methyltransferases/isolation & purification , tRNA Methyltransferases/metabolism
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