TY - JOUR A1 - Bangalore, Disha M. A1 - Heil, Hannah S. A1 - Mehringer, Christian F. A1 - Hirsch, Lisa A1 - Hemmen, Katharina A1 - Heinze, Katrin G. A1 - Tessmer, Ingrid T1 - Automated AFM analysis of DNA bending reveals initial lesion sensing strategies of DNA glycosylases JF - Scientific Reports N2 - Base excision repair is the dominant DNA repair pathway of chemical modifications such as deamination, oxidation, or alkylation of DNA bases, which endanger genome integrity due to their high mutagenic potential. Detection and excision of these base lesions is achieved by DNA glycosylases. To investigate the remarkably high efficiency in target site search and recognition by these enzymes, we applied single molecule atomic force microscopy (AFM) imaging to a range of glycosylases with structurally different target lesions. Using a novel, automated, unbiased, high-throughput analysis approach, we were able to resolve subtly different conformational states of these glycosylases during DNA lesion search. Our results lend support to a model of enhanced lesion search efficiency through initial lesion detection based on altered mechanical properties at lesions. Furthermore, its enhanced sensitivity and easy applicability also to other systems recommend our novel analysis tool for investigations of diverse, fundamental biological interactions. KW - atomic-force microscopy KW - base pairs KW - molecular structure KW - crystal structure KW - structural basis KW - repair KW - recognition KW - 8-oxoguanine KW - thymine KW - mismatches Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-231338 VL - 10 ER - TY - JOUR A1 - Braunschweig, Holger A1 - Ewing, William C. A1 - Ghosh, Sundargopal A1 - Kramer, Thomas A1 - Mattock, James D. A1 - Östreicher, Sebastian A1 - Vargas, Alfredo A1 - Werner, Christine T1 - Trimetallaborides as starting points for the syntheses of large metal-rich molecular borides and clusters JF - Chemical Science N2 - Treatment of an anionic dimanganaborylene complex ([{Cp(CO)\(_2\)Mn}\(_2\)B]\(^-\)) with coinage metal cations stabilized by a very weakly coordinating Lewis base (SMe\(_2\)) led to the coordination of the incoming metal and subsequent displacement of dimethylsulfide in the formation of hexametalladiborides featuring planar four-membered M\(_2\)B\(_2\) cores (M = Cu, Au) comparable to transition metal clusters constructed around four-membered rings composed solely of coinage metals. The analogies between compounds consisting of B\(_2\)M\(_2\) units and M\(_4\) (M = Cu, Au) units speak to the often overlooked metalloid nature of boron. Treatment of one of these compounds (M = Cu) with a Lewis-basic metal fragment (Pt(PCy\(_3\))\(_2\)) led to the formation of a tetrametallaboride featuring two manganese, one copper and one platinum atom, all bound to boron in a geometry not yet seen for this kind of compound. Computational examination suggests that this geometry is the result of d\(^{10}\)-d\(^{10}\) dispersion interactions between the copper and platinum fragments. KW - anionic dimetalloborylene complexes KW - trimetallaborides KW - tetrametallaborides KW - Boron KW - metallaboranes KW - crystal structure KW - metal borylene complexes Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-191511 VL - 7 IS - 1 ER - TY - JOUR A1 - Braunschweig, Holger A1 - Kramer, T. T1 - Crystal structure of μ-1κC:2(\(η^2\))-carbonyl-carbonyl-1κC-chlorido-2κCl-μ-chloridoborylene-1:2\(κ^2\) B:B-[1(\(η^5\))-pentamethylcyclopentadienyl](tricyclohexylphosphane-2κP)iron(II)platinum(II) benzene monosolvate N2 - In the mol­ecular structure of the dinuclear title compound \([η^5-(C_5(CH_3)_5)(CO)Fe{(μ-BCl)(μ-CO)}PtCl(P(C_6H_{11})_3)]·C_6H_6\), the two metal atoms, iron(II) and platinum(II), are bridged by one carbonyl (μ-CO) and one chlorido­borylene ligand (μ-BCl). The \(Pt^{II}\) atom is additionally bound to a chloride ligand situated trans to the bridging borylene, and a tri­cyclo­hexyl­phosphane ligand \((PCy_3)\) trans to the carbonyl ligand, forming a distorted square-planar structural motif at the \(Pt^{II}\) atom. The \(Fe_{II}\) atom is bound to a penta­methyl­cyclo­penta­dienyl ligand \([η^5-C_5(CH_3)_5]\) and one carbonyl ligand (CO), forming a piano-stool structure. Additionally, one benzene solvent mol­ecule is incorporated into the crystal structure, positioned staggered relative to the penta­methyl­cyclo­penta­dienyl ligand at the \(Fe^{II}\) atom, with a centroid–centroid separation of 3.630 (2) Å. KW - platinum KW - oxidative addition KW - borylene KW - heterodinuclear compound KW - crystal structure Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-120120 VL - 70 IS - 11 ER - TY - JOUR A1 - Capra, Valérie A1 - Busnelli, Marta A1 - Perenna, Alessandro A1 - Ambrosio, Manuela A1 - Accomazzo, Maria Rosa A1 - Galés, Celine A1 - Chini, Bice A1 - Rovati, G. Enrico T1 - Full and Partial Agonists of Thromboxane Prostanoid Receptor Unveil Fine Tuning of Receptor Superactive Conformation and G Protein Activation JF - PLoS ONE N2 - The intrahelical salt bridge between \(E/D^{3.49}\) and \(R^{3.50}\) within the E/DRY motif on helix 3 (H3) and the interhelical hydrogen bonding between the E/DRY and residues on H6 are thought to be critical in stabilizing the class A G protein-coupled receptors in their inactive state. Removal of these interactions is expected to generate constitutively active receptors. This study examines how neutralization of \(E^{3.49/6.30}\) in the thromboxane prostanoid (TP) receptor alters ligand binding, basal, and agonist-induced activity and investigates the molecular mechanisms of G protein activation. We demonstrate here that a panel of full and partial agonists showed an increase in affinity and potency for E129V and E240V mutants. Yet, even augmenting the sensitivity to detect constitutive activity (CA) with overexpression of the receptor or the G protein revealed resistance to an increase in basal activity, while retaining fully the ability to cause agonist-induced signaling. However, direct G protein activation measured through bioluminescence resonance energy transfer (BRET) indicates that these mutants more efficiently communicate and/or activate their cognate G proteins. These results suggest the existence of additional constrains governing the shift of TP receptor to its active state, together with an increase propensity of these mutants to agonist-induced signaling, corroborating their definition as superactive mutants. The particular nature of the TP receptor as somehow "resistant" to CA should be examined in the context of its pathophysiological role in the cardiovascular system. Evolutionary forces may have favored regulation mechanisms leading to low basal activity and selected against more highly active phenotypes. KW - coupled receptor KW - ligand binding KW - intracellular loop KW - molecular dynamics KW - Beta(1)-adrenergic receptor KW - ionic look KW - Beta(2)-adrenergic receptor KW - crystal structure KW - constitutive activity Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-131013 VL - 8 IS - 3 ER - TY - JOUR A1 - Gessner, Viktoria H. T1 - Diphenyl[(phenylsulfanyl)methyl]-\(λ^5\)-phosphanethione JF - Acta Crystallographica, Section E: Structure Reports N2 - The title compound, \(C_{19}H_{17}PS_2\), results from the direct deprotonation of di­phenyl­methyl­phosphine sulfide and subsequent reaction with diphenyl di­sulfide. The C-P and C-S bond lengths of 1.8242 (18) and 1.8009 (18) Å, respectively, of the central P-C-S linkage are comparable to those found in the sulfonyl analogue, but are considerably longer than those reported for the dimetallated sulfonyl compound. The dihedral angle between the benzene rings of the di­phenyl­methyl moiety is 69.46 (7)°. No distinct inter­molecular inter­actions are present in the crystal structure. KW - crystal structure Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-120174 VL - 70 IS - 3 ER - TY - JOUR A1 - Hanft, Anna A1 - Lichtenberg, Crispin T1 - Dimerization of 2-[(2-((2-aminophenyl)thio)phenyl)amino]-cyclohepta-2,4,6-trien-1-one through hydrogen bonding, C\(_{19}\)H\(_{16}\)N\(_2\)OS JF - Zeitschrift für Kristallographie - New Crystal Structures N2 - C\(_{19}\)H\(_{16}\)N\(_2\)OS, triclinic, P (1) over bar (no. 2), a= 8.1510(3) angstrom, b = 8.8021(3) angstrom, c =11.3953(5) angstrom, alpha =72.546(2)degrees, beta=84.568(2)degrees, gamma =80.760(2)degrees, V =768.86(5) angstrom(3), Z =2, R\(_{gt}\)(F) = 0.0491, WR\(_{ref}\)(F-2) = 0.1494, T =100 K. KW - crystal structure KW - complexes KW - ligands KW - tropocoronands KW - mononuclear KW - chemistry Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-229482 VL - 235 IS - 4 ER - TY - JOUR A1 - Klammert, Uwe A1 - Müller, Thomas D. A1 - Hellmann, Tina V. A1 - Wuerzler, Kristian K. A1 - Kotzsch, Alexander A1 - Schliermann, Anna A1 - Schmitz, Werner A1 - Kuebler, Alexander C. A1 - Sebald, Walter A1 - Nickel, Joachim T1 - GDF-5 can act as a context-dependent BMP-2 antagonist JF - BMC Biology N2 - Background Bone morphogenetic protein (BMP)-2 and growth and differentiation factor (GDF)-5 are two related transforming growth factor (TGF)-β family members with important functions in embryonic development and tissue homeostasis. BMP-2 is best known for its osteoinductive properties whereas GDF-5—as evident from its alternative name, cartilage derived morphogenetic protein 1—plays an important role in the formation of cartilage. In spite of these differences both factors signal by binding to the same subset of BMP receptors, raising the question how these different functionalities are generated. The largest difference in receptor binding is observed in the interaction with the type I receptor BMPR-IA. GDF-5, in contrast to BMP-2, shows preferential binding to the isoform BMPR-IB, which is abrogated by a single amino acid (A57R) substitution. The resulting variant, GDF-5 R57A, represents a “BMP-2 mimic” with respect to BMP receptor binding. In this study we thus wanted to analyze whether the two growth factors can induce distinct signals via an identically composed receptor. Results Unexpectedly and dependent on the cellular context, GDF-5 R57A showed clear differences in its activity compared to BMP-2. In ATDC-5 cells, both ligands induced alkaline phosphatase (ALP) expression with similar potency. But in C2C12 cells, the BMP-2 mimic GDF-5 R57A (and also wild-type GDF-5) clearly antagonized BMP-2-mediated ALP expression, despite signaling in both cell lines occurring solely via BMPR-IA. The BMP-2- antagonizing properties of GDF-5 and GDF-5 R57A could also be observed in vivo when implanting BMP-2 and either one of the two GDF-5 ligands simultaneously at heterotopic sites. Conclusions Although comparison of the crystal structures of the GDF-5 R57A:BMPR-IAEC- and BMP-2:BMPR-IAEC complex revealed small ligand-specific differences, these cannot account for the different signaling characteristics because the complexes seem identical in both differently reacting cell lines. We thus predict an additional component, most likely a not yet identified GDF-5-specific co-receptor, which alters the output of the signaling complexes. Hence the presence or absence of this component then switches GDF-5′s signaling capabilities to act either similar to BMP-2 or as a BMP-2 antagonist. These findings might shed new light on the role of GDF-5, e.g., in cartilage maintenance and/or limb development in that it might act as an inhibitor of signaling events initiated by other BMPs. KW - growth and differentiation factor 5 KW - ligand-receptor complex KW - crystal structure KW - antagonist Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125550 VL - 13 IS - 77 ER - TY - JOUR A1 - Lorenz, Sonja A1 - Bhattacharyya, Moitrayee A1 - Feiler, Christian A1 - Rape, Michael A1 - Kuriyan, John T1 - Crystal Structure of a Ube2S-Ubiquitin Conjugate JF - PLoS ONE N2 - Protein ubiquitination occurs through the sequential formation and reorganization of specific protein-protein interfaces. Ubiquitin-conjugating (E2) enzymes, such as Ube2S, catalyze the formation of an isopeptide linkage between the C-terminus of a “donor” ubiquitin and a primary amino group of an “acceptor” ubiquitin molecule. This reaction involves an intermediate, in which the C-terminus of the donor ubiquitin is thioester-bound to the active site cysteine of the E2 and a functionally important interface is formed between the two proteins. A docked model of a Ube2S-donor ubiquitin complex was generated previously, based on chemical shift mapping by NMR, and predicted contacts were validated in functional studies. We now present the crystal structure of a covalent Ube2S-ubiquitin complex. The structure contains an interface between Ube2S and ubiquitin in trans that resembles the earlier model in general terms, but differs in detail. The crystallographic interface is more hydrophobic than the earlier model and is stable in molecular dynamics (MD) simulations. Remarkably, the docked Ube2S-donor complex converges readily to the configuration seen in the crystal structure in 3 out of 8 MD trajectories. Since the crystallographic interface is fully consistent with mutational effects, this indicates that the structure provides an energetically favorable representation of the functionally critical Ube2S-donor interface. KW - crystal structure KW - protein ubiquitination KW - Ubiquitin-conjugating (E2) enzymes KW - Ube2S Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-167265 VL - 11 IS - 2 ER - TY - THES A1 - Luckner, Sylvia T1 - Towards the development of high affinity InhA and KasA inhibitors with activity against drug-resistant strains of Mycobacterium tuberculosis T1 - Entwicklung von hoch-affinen InhA und KasA Inhibitoren gegen resistente Stämme von Mycobacterium tuberculosis N2 - Mycobacterium tuberculosis is the causative agent of tuberculosis and responsible for more than eight million new infections and about two million deaths each year. Novel chemotherapeutics are urgently needed to treat the emerging threat of multi drug resistant and extensively drug resistant strains. Cell wall biosynthesis is a widely used target for chemotherapeutic intervention in bacterial infections. In mycobacteria, the cell wall is comprised of mycolic acids, very long chain fatty acids that provide protection and allow the bacteria to persist in the human macrophage. The type II fatty acid biosynthesis pathway in Mycobacterium tuberculosis synthesizes fatty acids with a length of up to 56 carbon atoms that are the precursors of the critical mycobacterial cell wall components mycolic acids. KasA, the mycobacterial ß-ketoacyl synthase and InhA, the mycobacterial enoyl reductase, are essential enzymes in the fatty acid biosynthesis pathway and validated drug targets. In this work, KasA was expressed in Mycobacterium smegmatis, purified and co-crystallized in complex with the natural thiolactone antibiotic thiolactomycin (TLM). High-resolution crystal structures of KasA and the C171Q KasA variant, which mimics the acyl enzyme intermediate of the enzyme, were solved in absence and presence of bound TLM. The crystal structures reveal how the inhibitor is coordinated by the enzyme and thus specifically pinpoint towards possible modifications to increase the affinity of the compound and develop potent new drugs against tuberculosis. Comparisons between the TLM bound crystal structures explain the preferential binding of TLM to the acylated form of KasA. Furthermore, long polyethylene glycol molecules are bound to KasA that mimic a fatty acid substrate of approximately 40 carbon atoms length. These structures thus provide the first insights into the molecular mechanism of substrate recognition and reveal how a wax-like substance can be accommodated in a cytosolic environment. InhA was purified and co-crystallized in complex with the slow, tight binding inhibitor 2-(o-tolyloxy)-5-hexylphenol (PT70). Two crystal structures of the ternary InhA-NAD+-PT70 were solved and reveal how the inhibitor is bound to the substrate binding pocket. Both structures display an ordered substrate binding loop and corroborate the hypothesis that slow onset inhibition is coupled to loop ordering. Upon loop ordering, the active site entrance is more restricted and the inhibitor is kept inside more tightly. These studies provide additional information on the mechanistic imperatives for slow onset inhibition of enoyl ACP reductases. N2 - Mycobacterium tuberculosis, der Erreger der Tuberkulose ist für mehr als acht Millionen Neu-Infektionen und ungefähr zwei Millionen Todesfälle jedes Jahr verantwortlich. Besonders die Entwicklung von multiresistenten und extrem resistenten Stämmen macht die Entwicklung neuer Medikamente gegen Tuberkulose dringend erforderlich. Die Zellwandbiosynthese ist ein validiertes Ziel für die Chemotherapie bei bakteriellen Infektionen. Bei Mycobakterien besteht die Zellwand zum Großteil aus Mykolsäuren, sehr langkettigen Fettsäuren, die den Bakterien Schutz bieten und ihnen ermöglichen, in Makrophagen zu überleben. Mycobakterien synthetisieren in der Fettsäurebiosynthese II (FAS-II) Fettsäuren bis zu einer Länge von 56 Kohlenstoffatomen, die Bestandteile der Mykolsäuren sind. KasA, die mycobakterielle ß-ketoacyl Synthase und InhA, die mycobakterielle enoyl Reductase, sind essentielle Enzyme der FAS-II und geeignete Ziele für die Entwicklung neuer Antibiotika. In dieser Arbeit wurde KasA in Mycobacterium smegmatis exprimiert und aufgereinigt. Das Protein wurde im Komplex mit dem natürlich vorkommenden Thiolacton-Antibiotikum Thiolactomycin (TLM) co-kristallisiert. Kristallstrukturen von KasA und der C171Q KasA Variante, die das acylierte Enzym-Intermediat darstellt, wurden als apo-Strukturen und im Komplex mit gebundenem TLM aufgeklärt. Die Kristallstrukturen zeigen, wie der Inhibitor an das Enzym gebunden ist und deuten darauf hin, wie das TLM Molekül verändert werden könnte, um seine Affinität für das Protein zu erhöhen und damit ein wirksames Medikament gegen Tuberkulose zu entwickeln. Vergleiche zwischen den TLM gebundenen Kristallstrukturen erklären, warum TLM bevorzugt an die acylierte Form des Enzyms bindet. Des Weiteren sind lange Polyethylenglykol-Moleküle an KasA gebunden, die ein Fettsäuresubstrat einer Länge von etwa 40 Kohlenstoff-Atomen nachahmen. Die Strukturen geben damit zum ersten Mal einen Einblick in den molekularen Mechanismus der Substrat-Erkennung und zeigen, wie eine wachsartige Substanz in einem cytosolischen Umfeld aufgenommen werden kann. InhA wurde aufgereinigt und im Komplex mit dem „slow binding“ Inhibitor 2-(o-tolyloxy)-5-hexylphenol (PT70) co-kristallisiert. Zwei Kristallstrukturen des ternären InhA-NAD+-PT70 Komplexes wurden gelöst und zeigen wie der Inhibitor in der Substratbindetasche gebunden ist. Beide Strukturen, weisen geordnete Substrat-Binde-Loops auf, die den Eingang zur „Active Site“ schließen und damit den gebundenen Inhibitor in der Tasche festhalten. Die Strukturen bestätigen damit die Hypothese, dass „Slow Binding Inhibition“ mit der Ordnung des Loops zusammenhängt. Diese Studien können als Basis für die Entwicklung weiterer „Slow Binding“ Inhibitoren verwendet werden. KW - Tuberkelbakterium KW - Multidrug-Resistenz KW - Arzneimitteldesign KW - Fettsäure-Synthase KW - Zellwand KW - Kristallstruktur KW - tuberculosis KW - multi-drug-resistance KW - drug development KW - fatty acid synthesis KW - cell wall KW - crystal structure KW - structure based drug design Y1 - 2009 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-43621 ER - TY - JOUR A1 - Merget, Benjamin A1 - Sotriffer, Christoph A. T1 - Slow-Onset Inhibition of Mycobacterium tuberculosis InhA: Revealing Molecular Determinants of Residence Time by MD Simulations JF - PLoS One N2 - An important kinetic parameter for drug efficacy is the residence time of a compound at a drug target, which is related to the dissociation rate constant koff. For the essential antimycobacterial target InhA, this parameter is most likely governed by the ordering of the flexible substrate binding loop (SBL). Whereas the diphenyl ether inhibitors 6PP and triclosan (TCL) do not show loop ordering and thus, no slow-binding inhibition and high koff values, the slightly modified PT70 leads to an ordered loop and a residence time of 24 minutes. To assess the structural differences of the complexes from a dynamic point of view, molecular dynamics (MD) simulations with a total sampling time of 3.0 µs were performed for three ligand-bound and two ligand-free (perturbed) InhA systems. The individual simulations show comparable conformational features with respect to both the binding pocket and the SBL, allowing to define five recurring conformational families. Based on their different occurrence frequencies in the simulated systems, the conformational preferences could be linked to structural differences of the respective ligands to reveal important determinants of residence time. The most abundant conformation besides the stable EI* state is characterized by a shift of Ile202 and Val203 toward the hydrophobic pocket of InhA. The analyses revealed potential directions for avoiding this conformational change and, thus, hindering rapid dissociation: (1) an anchor group in 2'-position of the B-ring for scaffold stabilization, (2) proper occupation of the hydrophobic pocket, and (3) the introduction of a barricade substituent in 5'-position of the diphenyl ether B-ring. KW - crystal structure KW - ethers KW - oxygen KW - cofactors (biochemistry) KW - binding analysis KW - biochemical simulations KW - hydrogen bonding mycobacterium tuberculosis Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-125607 VL - 10 IS - 5 ER - TY - JOUR A1 - Rakette, Sonja A1 - Donat, Stefanie A1 - Ohlsen, Knut A1 - Stehle, Thilo T1 - Structural Analysis of Staphylococcus aureus Serine/Threonine Kinase PknB JF - PLoS One N2 - Effective treatment of infections caused by the bacterium Staphylococcus aureus remains a worldwide challenge, in part due to the constant emergence of new strains that are resistant to antibiotics. The serine/threonine kinase PknB is of particular relevance to the life cycle of S. aureus as it is involved in the regulation of purine biosynthesis, autolysis, and other central metabolic processes of the bacterium. We have determined the crystal structure of the kinase domain of PknB in complex with a non-hydrolyzable analog of the substrate ATP at 3.0 angstrom resolution. Although the purified PknB kinase is active in solution, it crystallized in an inactive, autoinhibited state. Comparison with other bacterial kinases provides insights into the determinants of catalysis, interactions of PknB with ligands, and the pathway of activation. KW - SER/THR kinase KW - domain KW - subunit KW - dependent protein-kinase KW - mycobacterium-tuberculosis KW - activation mechanism KW - crystal structure KW - antibiotic resistance KW - catalytic KW - methicillin KW - inhibitor Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-135369 VL - 7 IS - 6 ER - TY - JOUR A1 - Riad, Noura M. A1 - Zlotos, Darius P. A1 - Holzgrabe, Ulrike T1 - Crystal structure of 5,11-dihydropyrido[2,3-b][1,4]benzodiazepin-6-one. JF - Acta Crystallographica Section E Crystallographic Communications N2 - The title compound, C\(_{12}\)H\(_{9}\)N\(_{3}\)O, is an inter­mediate in the synthesis of the muscarinic M2 receptor antagonist AFDX-384. The seven-membered ring adopts a boat conformation and the dihedral angle between the planes of the aromatic rings is 41.51 (9)°. In the crystal, mol­ecules are linked into [001] chains of alternating inversion dimers formed by pairs of N-H・・・O hydrogen bonds and pairs of N-H・・・N hydrogen bonds. In both cases, R\(_{2}\)\(^{2}\)(8) loops are generated. KW - crystal structure KW - pyridobenzodiazepine KW - boat conformation KW - hydrogen bonding Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-149627 VL - E71 ER - TY - JOUR A1 - Schmitt, Dominik R. A1 - Kuper, Jochen A1 - Elias, Agnes A1 - Kisker, Caroline T1 - The Structure of the TFIIH p34 Subunit Reveals a Von Willebrand Factor A Like Fold JF - PLoS ONE N2 - RNA polymerase II dependent transcription and nucleotide excision repair are mediated by a multifaceted interplay of subunits within the general transcription factor II H (TFIIH). A better understanding of the molecular structure of TFIIH is the key to unravel the mechanism of action of this versatile protein complex within these vital cellular processes. The importance of this complex becomes further evident in the context of severe diseases like xeroderma pigmentosum, Cockayne's syndrome and trichothiodystrophy, that arise from single point mutations in TFIIH subunits. Here we describe the structure of the p34 subunit of the TFIIH complex from the eukaryotic thermophilic fungus Chaetomium thermophilum. The structure revealed that p34 contains a von Willebrand Factor A (vWA) like domain, a fold which is generally known to be involved in protein-protein interactions. Within TFIIH p34 strongly interacts with p44, a positive regulator of the helicase XPD. Putative protein-protein interfaces are analyzed and possible binding sites for the p34-p44 interaction suggested. KW - sequence motif analysis KW - iodides KW - protein-protein interactions KW - protein domains KW - molecular structure KW - electron density KW - protein structure KW - crystal structure Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-119471 SN - 1932-6203 VL - 9 IS - 7 ER - TY - JOUR A1 - Schäfer, Nadine A1 - Friedrich, Maximilian A1 - Jørgensen, Morten Egevang A1 - Kollert, Sina A1 - Koepsell, Hermann A1 - Wischmeyer, Erhard A1 - Lesch, Klaus-Peter A1 - Geiger, Dietmar A1 - Döring, Frank T1 - Functional analysis of a triplet deletion in the gene encoding the sodium glucose transporter 3, a potential risk factor for ADHD JF - PLoS ONE N2 - Sodium-glucose transporters (SGLT) belong to the solute carrier 5 family, which is characterized by sodium dependent transport of sugars and other solutes. In contrast, the human SGLT3 (hSGLT3) isoform, encoded by SLC5A4, acts as a glucose sensor that does not transport sugar but induces membrane depolarization by Na\(^{+}\) currents upon ligand binding. Whole-exome sequencing (WES) of several extended pedigrees with high density of attention-deficit/hyperactivity disorder (ADHD) identified a triplet ATG deletion in SLC5A4 leading to a single amino acid loss (ΔM500) in the hSGLT3 protein imperfectly co-segregating with the clinical phenotype of ADHD. Since mutations in homologous domains of hSGLT1 and hSGLT2 were found to affect intestinal and renal function, respectively, we analyzed the functional properties of hSGLT3[wt] and [ΔM500] by voltage clamp and current clamp recordings from cRNA-injected Xenopus laevis oocytes. The cation conductance of hSGLT3[wt] was activated by application of glucose or the specific agonist 1-desoxynojirimycin (DNJ) as revealed by inward currents in the voltage clamp configuration and cell depolarization in the current clamp mode. Almost no currents and changes in membrane potential were observed when glucose or DNJ were applied to hSGLT3[ΔM500]-injected oocytes, demonstrating a loss of function by this amino acid deletion in hSGLT3. To monitor membrane targeting of wt and mutant hSGLT3, fusion constructs with YFP were generated, heterologously expressed in Xenopus laevis oocytes and analyzed for membrane fluorescence by confocal microscopy. In comparison to hSGLT3[wt] the fluorescent signal of mutant [ΔM500] was reduced by 43% indicating that the mutant phenotype might mainly result from inaccurate membrane targeting. As revealed by homology modeling, residue M500 is located in TM11 suggesting that in addition to the core structure (TM1-TM10) of the transporter, the surrounding TMs are equally crucial for transport/sensor function. In conclusion, our findings indicate that the deletion [ΔM500] in hSGLT3 inhibits membrane targeting and thus largely disrupts glucose-induced sodium conductance, which may, in interaction with other ADHD risk-related gene variants, influence the risk for ADHD in deletion carriers. KW - Xenopus laevis oocytes KW - ADHD KW - glucose KW - cell membranes KW - membrane proteins KW - membrane potential KW - crystal structure KW - amino acid analysis Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-176495 VL - 13 IS - 10 ER - TY - JOUR A1 - Tacke, R. A1 - Strecker, M. A1 - Sheldrick, W. S. A1 - Heeg, E. A1 - Berndt, B. A1 - Knapstein, K. M. T1 - Sila-Pharmaka, 14. Mitt. Darstellung und Eigenschaften sowie Kristall-und Molekülstruktur von Sila-Difenidol JF - Zeitschrift für Naturforschung B N2 - Sila-difenidol (6b), a sila-analogue of the drug difenidol (6a), was synthesized according to Scheme 1. 6b and its new precursors 3 and 5 were characterized by their physical and chemical properties, and their structures confirmed by elementary analyses, 1H NMR and mass spectroscopy. 6 b crystallizes orthorhombic \(P2_12_12_1\) with a = 11.523(1), b = 14.366(4), c = 11.450(1) Å, Z = 4, \(D_{ber} = 1.14 gcm^{-3}\). The structure was refined to R = 0.050 for 1897 reflexions. A strong nearly linear intramolecular O-H···N hydrogen bond of 2.685 Å is observed. The anticholinergic, histaminolytic and musculotropic spasmolytic activities of 6 a and 6 b are reported. KW - sila-difenidol KW - syntheses KW - crystal structure KW - molecular structure KW - biological activity Y1 - 1979 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-128391 VL - 34 IS - 9 ER - TY - JOUR A1 - Tacke, Reinhold A1 - Lopez-Mras, A. A1 - Becht, J. A1 - Sheldrick, W. S. T1 - Synthese sowie Kristall- und Molekülstruktur von Tetrafluoro[2-(pyrrolidinio)ethyl]silicat T1 - Synthesis and Crystal and Molecular Structure of Tetrafluoro[2-(pyrrolidinio)etbyl]silicate N2 - Das zwitterionische Tctratluoro[2-(pyrrolidinio) ethyl]silicat (4) wurde durch Reaktion von Trimethoxy( 2-pyrrolidinoethyl)silan (5) mit Fluorwasserstoff in einem Ethanol/Flußsäure-Gemisch bei 0 °C synthetisiert. Die Kristall- und Molekülstruktur von 4 wurde bei - 100 °C mittels einer Einkristall-Röntgenstrukturanalyse untersucht. Außerdem wurde 4 durch NMR-Untersuchungen in Lösung charakterisiert (CD\(_3\)CN: \(^1\)H, \(^{13}\)C). N2 - The zwitterionic tetrafluoro[2-(pyrrolidinio) ethyl]silicate (4) was synthesized by reaction of trimethoxy( 2-pyrrolidinoethyl)silane (5) with hydrogen fluoride in elhanollhydrofluoric acid at 0 °C. The crystal and mo1ecular structure of 4 was studied at - 100 °C by singlc-crystal X-ray diffraction. ln addition, 4 was characterized by solution-state NMR sturlies (CD\(_3\)CN: \(^1\)H, \(^{13}\)C). KW - Anorganische Chemie KW - Zwitterionic KW - Lambda5-organofluorosilicate KW - pentacoordinate silicon KW - crystal structure Y1 - 1993 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-64269 ER - TY - JOUR A1 - Tacke, Reinhold A1 - Sperlich, Jörg A1 - Strohmann, Carsten A1 - Frank, Brigitta A1 - Mattern, Günter T1 - Bis[3,4,5,6-tetrabrom-1,2-benzoldiolato(2-)]-(pyrrolidiniomethyl)silicat-Acetonitril-Solvat [(C6Br4O2)2SiCH2(H)NC4H8 · CH3CN]: Synthese sowie Kristall- und Molekülstruktur eines zwitterionischen [lambda]5-Spirosilicats N2 - Single crystal X-ray studies on bis[3,4,5,6-tetrabromo-1 ,2-benzenediolato(2- )](pyrrolidiniomethyl)silicate acetonitrile solvate [(C6Br40 2hSiCH2(H)NC4H8 · CH3CN; monoclinic, P2t/c, a = 808.5(4), b = 1533.0(8), c = 2212.6(1) pm, ß = 97.67(2)0 , Z = 4] revealed a zwitterionic structure with a pentacoordinate, formally negatively charged silicon atom and a positively charged ammonium moiety. The silicon atom is surrounded by four oxygen atoms and one carbon atom in a trigonalbipyramidal fashion, with the carbon atom in an equatorial position. The structure is displaced by 7.0% from the trigonal bipyramid towards the square pyramid. The zwitterion and the CH3CN molecule form intermolecular N-H · · · N hydrogen bonds. KW - Kristallstruktur KW - Spirosilicate KW - crystal structure KW - zwitterionic spirosilicate Y1 - 1992 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-86884 ER - TY - THES A1 - Weber, Dionys A. T1 - Aufklärung der Struktur und Charakterisierung des ternären Komplexes aus BMP-2, BMPR-IA und ActR-IIB T1 - Structure determination and characterisation of the ternary complex of BMP-2, BMPR-IA and ActR-IIB N2 - „Bone Morphogenetic Proteins“ (BMPs) kontrollieren eine Vielzahl unterschiedlichster Prozesse bei der Embryonalentwicklung und der postnatalen Gewebehomöostase. Wie TGF­-betas, Activine und andere Mitglieder der TGF-beta Superfamilie vermitteln BMPs ihr Signal durch die Bildung eines aus dem Liganden und zwei Rezeptorsubtypen bestehenden Signalkomplexes. Für die Rezeptoraktivierung ist ein Zwei-Schritt Mechanismus allgemein akzeptiert. Bisher wurde nur der erste Schritt, die Bindung des Liganden an seinen hochaffinen Rezeptor, strukturell untersucht. Der molekulare Mechanismus der anschließenden Rekrutierung des niederaffinen Rezeptortyps war bisher nicht bekannt. Die vorliegende Arbeit beschreibt die Präparation, Kristallisation und Strukturaufklärung des ternären Komplexes aus BMP-2 und den extrazellulären Domänen von BMPR-IA und ActR-IIB. Mit der Kristallstruktur dieses ternären Komplexes kann erstmals der Mechanismus der BMP Rezeptoraktivierung von der Bindung des Liganden bis hin zur Transaktivierung untersucht werden. Der Ligand BMP-2 präsentiert sich hier, im Gegensatz zu anderen Mitgliedern der TGF-beta Superfamilie, als nahezu starre Komponente, um welche die beiden Rezeptortypen symmetrisch angelagert werden. Zwischen den extrazellulären Domänen der Rezeptoren können keine direkten Kontakte beobachtet werden. Die in Zellen beobachtete Kooperativität bei der Rekrutierung des niederaffinen Rezeptors im BMP-2 System ist folglich weder durch allosterische Effekte, noch durch direkte Rezeptor-Rezeptor-Kontakte erklärbar. Vielmehr repräsentiert die Bindung des niederaffinen Rezeptors von BMP-2 einen Minimalmechanismus, bei dem Kooperativität über die Verringerung der Freiheitsgrade durch Lokalisation des Liganden in der Zellmembran erzeugt wird. Die durchgeführten Mutations-/Interaktionsanalysen erlauben vertiefende Einblicke wie Affinität und Spezifität im BMP/Activin-System generiert werden. Es zeigt sich, dass sowohl bei der niederaffinen Interaktion von ActR-IIBecd mit BMP-2 bzw. BMP-7 als auch bei der hochaffinen Bindung von ActA mit ActR-IIBecd ein Großteil der freien Bindungsenergie von denselben hydrophoben Interaktionen getragen wird. Während polare Interaktionen bei der niederaffinen Bindung der BMPs an ActR-IIBecd kaum eine Rolle spielen, stellt die zentrale Wasserstoffbrücke zwischen ActA Ser90(OG) und ActR-IIB Leu61(N) bei der Bildung des Komplexes ActA/ActR-IIBecd eine entscheidende Determinante der hochaffinen Bindung dar. BMP-2 bindet an die Typ II Rezeptoren BMPR-II, ActR-II und ActR-IIB mit nahezu identischer Affinität, daher wird eine promiske Verwendung dieser Rezeptoren angenommen. In dieser Arbeit konnte gezeigt werden, dass die spezifische Erkennung und Bindung der Typ II Rezeptoren durch den Austausch einzelner Aminosäuren modulierbar ist. Mit den hier gewonnenen Kenntnissen über den molekularen Mechanismus der Typ II Rezeptorerkennung ist nun eine Generierung von BMPs mit definierter Typ II Rezeptorspezifität möglich. Diese BMP-2 Varianten können als Werkzeuge zur Aufklärung von Typ II Rezeptor-spezifischen Signalwegen verwendet werden. Ebenso wäre es denkbar, BMP-2 Varianten mit ausgeprägter Typ II Rezeptor Spezifität in vivo zur Modulation TypII Rezeptor spezifischer Signalwege zu benutzen. Beispielsweise könnte ein auf BMP-2 basierendes ActR-IIB-spezifisches Protein als Myostatin-Antagonist zur Behandlung von Muskeldystrophie eingesetzt werden. N2 - Bone morphogenetic proteins are key regulators of embryonic development and postnatal homeostasis of tissues and organs. Like TGF-betas, Activins, GDFs and other members of the TGF-beta superfamily, BMPs transmit their signals by assembling two types of serine-/threonine-kinase receptors. A two-step mechanism for receptor activation is generally accepted. To date, only the molecular basis of the first step, binding of the ligand to a high affinity receptor has been analyzed by structure determination. The molecular mechanism of the subsequent low affinity receptor recruitment remained elusive. This study describes the preparation, crystallization and structure determination of the ternary ligand-receptor complex consisting of BMP-2 and the extracellular domains of BMPR-IA and ActR-IIB. The structure of this ternary complex allowed us to study BMP-2 receptor activation from ligand recruitment to transactivation. In contrast to other ligands of the TGF-beta superfamily, BMP-2 acts as a nearly rigid scaffold binding to the extracellular domains of both receptor subtypes. There are no direct contacts observed between the extracellular domains of the receptors. Therefore the cooperativity observed for BMP-2 low affinity receptor recruitment on whole cells could not be explained by allosteric effects nor by direct receptor-receptor contacts. The BMP receptor assembly possibly presents a basic mode for generating cooperativity employing the reduction of dimensionality in the membrane to faciliate low affinity receptor recuitment Mutagenesis/interaction studies enabled us to understand how affinity and specificity in the BMP/ Activin system are generated. A majority of the free binding energy in low and high affinity interaction of ActR-IIBecd with BMP-2/-7 or ActR-IIBecd with ActA, respectively, is dominated by the same subset of hydrophobic residues. Polar interactions play only a minor role in low-affinity binding of BMPs to ActR-IIBecd. However in the complex ActA/ActR-IIBecd, the central hydrogen bond between ActA Ser90(OG) and ActR-IIBecd Leu61(N) is the key determinant for switch from low to high affinity binding. Type II receptor binding is termed promiscous since BMP-2 binds to its type II receptors BMPR-II, ActR-II and ActR-IIB with almost similar affinity. This study clearly shows that binding and recruitment of a particular type II receptor could be modulated just by the exchange of single amino acid residues. These insights into the molecular mechanism of type II receptor recognition allow the generation of highly type II receptor specific BMPs. These BMP-2 variants could serve as valuable tools for the determination or the modulation of type II receptor specific signaling pathways. A BMP-2 based mutant protein which is highly specific for ActR-IIB binding could be used for example as a myostatin antagonist for the treatment of muscle dystrophy. KW - Knochen-Morphogenese-Proteine KW - Ternärkomplex KW - Ternärer Komplex KW - Kristallstruktur KW - BMP-2 KW - ActR-IIB KW - BMPR-IA KW - ternary complex KW - crystal structure KW - BMP-2 KW - BMPR-IA KW - ActR-IIB Y1 - 2006 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-20735 ER -