Biochemie und Chemie
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Institute
- Biochemie und Chemie (1975)
- Medizin (83)
- Exzellenzcluster Makromolekulare Komplexe (68)
- Biowissenschaften (64)
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- Zentrum für Biomolekulare Magnetische Resonanz (BMRZ) (63)
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- MPI für Biophysik (49)
- Sonderforschungsbereiche / Forschungskollegs (48)
- Georg-Speyer-Haus (22)
Structural biology and life sciences in general, and NMR in particular, have always been associated with advanced computing. The current challenges in the post-genomic era call for virtual research platforms that provide the worldwide research community with both user-friendly tools, platforms for data analysis and exchange, and an underlying e-Infrastructure. WeNMR, a three-year European Commission co-funded project started in November 2010, groups different research teams into a worldwide virtual research community. It builds on the established eNMR e-Infrastructure and its steadily growing virtual organisation, which is currently the second largest VO in the area of life sciences. WeNMR provides an e-Infrastructure platform and Science Gateway for structural biology. It involves researchers from around the world and will build bridges to other areas of structural biology.
Die vorliegende Arbeit befasste sich in erster Linie mit der Regulation des P2X2 Rezeptors (P2X2R) durch Phosphoinositide (PI). P2X Rezeptoren sind durch extrazelluläres ATP aktivierte Kationenkanäle, die ubiquitär unter Vertebraten, v. a. im zentralen wie peripheren Nervensystem exprimiert werden. Bis heute sind 7 verschiedene Untereinheiten dieser Rezeptorfamilie bekannt, die nach homo- oder heterotrimerer Assemblierung unterschiedliche funktionelle Phänotypen ausbilden. Die P2X Rezeptoren sind an einer Vielzahl von physiologischen und pathophysiologischen Prozessen beteiligt. Für ihre Beteiligung am zellulären Signalgeschehen wurde in der Vergangenheit der Begriff der purinergen Signaltransduktion geprägt. PI4,5P2 ist ein zelluläres, an der Innenseite der Plasmamembran verankertes Phospholipid, dem zahlreiche, essentielle Funktionen zukommen. Dass es auch Signalfunktion besitzen kann, wurde erst spät (1980) bekannt; dass es darüber hinaus zudem membranäre Transportsysteme reguliert, konnte erst in den letzten Jahren gezeigt werden. Die ersten Kanäle, für die eine Phosphoniositid (PI)-Beeinflussung nachgewiesen wurde, waren die einwärts gleichrichtenden K+-Kanäle. 2006 wurden die ersten vorläufigen Hinweise publiziert, dass auch die Kanalfunktion der P2X Rezeptoren durch Phosphoinositide beeinflusst werden kann. Darauf aufbauend wurde in der vorliegenden Arbeit der P2X2R nach Expression in Xenopus Oozyten elektrophysiologisch auf eine mögliche Regulation durch PIPns untersucht. Um die in der Oozyte vorliegenden PI-Level gezielt während der Messung ändern zu können, wurde die spannungsgesteuerte Phosphoinositid-Phosphatase Ci-VSP coexprimiert. Ci-VSP, die der PTEN-Phosphatase strukturell sehr ähnlich ist, wurde 2005 aus der Schlauchascidie Ciona intestinalis kloniert. In der veröffentlichten Klonierungsarbeit wurde bereits gezeigt, dass Ci-VSP in der Lage ist, bekannte PI4,5P2-sensitive Membrankanäle, wie z. B. bestimmte K+-Kanäle, spannungsabhängig zu inhibieren. Es konnte in TEVC-Experimenten gezeigt werden, dass die durch Depolarisation induzierte Aktivierung dieser Phosphatase den P2X2 Rezeptorstrom in seiner Desensibilisierung sowohl beschleunigt als auch verstärkt. Dieser Effekt war spannungsabhängig und nahm mit höherer Depolarisation zu. Die ermittelte Spannungsabhängigkeit stimmte dabei mit dem sensitiven Potentialbereich der spannungsgesteuerten Ci-VSP-Domäne, gemessen an ihren gating-Strömen, überein. Der „Ci-VSP-Effekt“ auf den P2X Rezeptor konnte nur in Anwesenheit von ATP, d.h. bei aktiviertem Rezeptor, beobachtet werden. Wurden die Oozyten mit Wortmannin, einem PI4-Kinase(PI4K)-Inhibitor, behandelt, zeigte sich eine vergleichbare Veränderung des Rezeptorstroms. Eine PI4K-Inhibition zielt demnach offensichtlich auf die gleichen Regulationsmechanismen wie die Ci-VSP-Aktivierung. In weiterführenden zellfreien Patch Clamp-Messungen an Oozytenmembranen wurden sowohl Einzelkanal- als auch makroskopische Ströme des P2X2R unter Einfluss verschiedener, intrazellulär verabreichter PIs und PI-beeinflussender Enzyme untersucht. Einzig die Zugabe von PI4,5P2 hatte einen deutlich aktivierenden Einfluss auf den makroskopischen Rezeptorstrom, andere getestete PIs (wie auch PI3-Kinase und PTEN-Phosphatase) zeigten keinerlei Wirkung. Vergleichbare Ergebnisse konnten in vorläufigen Einzelkanal-Messungen an diesem Rezeptor Subtyp beobachtet werden. Da die PI4-Kinase offensichtlich an der beobachteten Beeinflussung der P2X2R Desensibilisierung beteiligt ist, wurde die P2X2-Rezeptorsequenz auf potentielle - über sogenannte SH3-Epitope vermittelte - PI4K-Interaktionsbereiche hin untersucht. Diese SH3-Epitope kommen in vielen zellulären Proteinen vor, um Protein-Protein-Interaktionen zu vermitteln. Nach Sequenzanalyse des maßgeblich am Desensibilisierungsgeschehen beteiligten C-Terminus des P2X2R konnte im distalen Teil ein SH3-Bindungsmotiv lokalisiert werden, das daraufhin durch gerichtete Mutagenese (P2X2-P451A/P454A) unwirksam gemacht wurde. Dieser mutierte Rezeptor verhielt sich in seiner Desensibilisierung wie der Wildtyp nach Wortmannin-Behandlung, zeigte also eine intrinsisch verstärkte Desensibilisierung. Eine Wortmannin-Behandlung der Oozyten, die den mutierten Rezeptor exprimierten, führte hingegen zu keiner weiteren Beeinflussung des Rezeptorstroms. Somit konnte letztlich der Schluss gezogen werden, dass die PI4K, und das mit ihr in direkter Verbindung stehende PI4,5P2, einen maßgeblichen Einfluss auf das Desensibilisierungsverhalten des P2X2R hat. Auf Basis der erarbeiteten Befunde wurde ein kinetisches Reaktionsmodell des P2X2R erstellt, das bisher aufgestellte Modelle mit den Ergebnissen dieser Arbeit vereint, aber auch in teilweisem Gegensatz zu dem von FUJIWARA & KUBO [2006] steht. Des Weiteren wurde im Verlauf dieser Arbeit die reversible Inhibition des P2X2R durch eine Reihe von Aminoglykosid-Antibiotika untersucht. Durch Analyse der Dosis-Wirkungs-Beziehungen, der Spannungs- sowie wie ATP-Konzentrations-Abhängigkeit der Inhibition konnte gezeigt werden, dass es sich dabei um einen nicht-kompetitiven open pore block handelte. Durch weiterführende Untersuchungen an einer nicht-desensibilisierenden P2X2/1 Rezeptorchimäre wurde gezeigt, dass eine Aminoglykosid-Inhibition die ATP-Dissoziation von der Rezeptorbindungsstelle signifikant verlangsamte. Dieser Befund deutet auf eine im Vergleich zum geschlossenen Zustand erhöhte Affinität des offenen Zustands für ATP hin. Neben den hier untersuchten Aminglykosiden sind bislang keine weiteren Substanzklassen bekannt, die den P2X2R durch einen derartigen Mechanismus hemmen.
Redirection of miRNA‐argonaute complexes to specific target sites by synthetic adaptor molecules
(2020)
Dysregulation of miRNAs is connected with a multitude of diseases for which antagomirs and miRNA replacement are discussed as therapeutic options. Here, we suggest an alternative concept based on the redirection of RISCs to non‐native target sites. Metabolically stable DNA‐LNA mixmers are used to mediate the binding of RISCs to mRNAs without any direct base complementarity to the presented guide RNA strand. Physical redirection of a dye‐labeled miRNA model and of specific miRNA‐programmed RISC fractions present in HeLa extracts is demonstrated by pull‐down experiments with biotinylated capture oligonucleotides.
The title compound, C25H22O5, was obtained by a dehydrogenative carbonylation reaction. It crystallizes with one half-molecule in the asymmetric unit. The molecules have crystallographic C2 symmetry and the two atoms of the carbonyl group are located on the rotation axis. The methoxy groups are coplanar with the benzene ring to which they are attached [C-C-O-C = 1.0 (6)°]. The two furan rings are inclined at 17.3 (3)° with respect to each other and the dihedral angle between the furan ring and the benzene ring is 75.83 (12)°. The crystal structure is stabilized by C-H...O hydrogen bonds. Key indicators: single-crystal X-ray study; T = 183 K; mean ( σ(C–C) = 0.006 Å; R factor = 0.081; wR factor = 0.195; data-to-parameter ratio = 13.4.
In the paper by Bolte [Acta Cryst. (2006), E62, m1609-m1610], the chemical name in the title and the chemical diagram are incorrect. The correct title is {5-[4'-(2,2,5,5-Tetramethyl-3-pyrroline-1-oxyl-3-carbonyloxy)biphenyl-4-ylethynyl]-2,3,7,8,12,13,17,18-octaethylporphyrinato}copper(II) benzene solvate' and the correct diagram is given below.
The isolation of transcribed DNA sequences of P815 cells and the partial characterization with respect to their sequence composition and relative rates of enzymatic DNA methylation are reported in this paper. Transcribed regions were purified by affinity chromatography using immobilized heterogenous nuclear RNA of P815 cells. About 10% of total genome was found in this fraction. Reassociation analyses showed differences in sequence composition of transcribed versus non-transcribed DNA fractions. The relative proportion of inverted repeats was doubled in the transcribed fraction whereas ordinary highly repetitive sequences comprising mainly of satellite DNA were found almost exclusively in the non-transcribed regions of the P815 genome. About 70% of transcribed portions corresponds to unique and intermediary DNA sequences. After labelling of cells with L-[Methyl-3H]methionine and [14C]deoxycytidine relative rates of enzymatic DNA methylation were computed for different kinetic components of transcribed and non- transcribed portions of P815 genome. No difference was found except in inverted repeats. In transcribed DNA the relative rate of enzymatic DNA methylation was only about 40% of that of the non-transcribed ones. We have quantitated this hypomethylation and found that there is, in average, about one 5-methylcytosine residue in 100 nucleotides of transcribed inverted repeats, compared to about 2.5 5-methylcytosines in non-transcribed fractions. In view of these data we propose that the enzymatic methylation of inverted DNA repeats negatively controls the transcriptional process in a given genomic region.
A specific class of DNA sequences, the inverted repetitive sequences, forms a double-stranded structure within a single linear polynucleotide chain in denatured DNA. The reassociation process is unimolecular and occurs very fast. Quantitative analyses have shown that these sequences com-E rise about 4-5% of the nuclear DNA of various mammalian cells (P815 mouse mastocytoma, Hela, L cells, Raji and Chang cells, and human embryonic hepatocytes) and are interspersed within sequences of other degrees of repetitiveness.
After labeling the cells with L-[Metnyl-3H]methionine and [14C]deoxycytidine, relative rates of enzymic DNA methylation were computed on the basis of 3H and 14C radioactivities found in py rimidine residues of the nuclear DNA. The results indicate that DNA of inverted repetitive sequences is methylated to a level about 50% higher than the ordinary repetitive sequences and to about 300% higher than the unique and intermediary sequences.
The biological function of the inverted repeats as well as the role of their enzymic hypermethyl ation is unknown.
The sequence complexity of nuclear RNA from mouse liver, mouse spleen and highly malignant P815 mastocytoma was measured by nRNA driven hybridization to unique DNA sequences of P815 cells. The unique DNA sequences represent 63% of the total nuclear DNA of P815 cells and their availibility in hybridization experiments was found to be 76%. Of these sequences 7.8% formed hybrids with nuclear RNA of this cell, about 11.5% with mouse spleen and about 14.5% with mouse liver nuclear RNA. Assuming an asymmetrical transcription, the complexities of these transcripts are 2.8 × 108 nucleotides for mouse P815 mastocytoma, 4.3 × 108 for mouse spleen and about 5.3 × 108 nucleotides for mouse liver.
Cellular specifity of the transcribed information was analyzed in additivity experiments, in which unique DNA sequences, not complementary to the nuclear RNA of one cell were annealed to the nuclear RNAs of the two other tissues/cells. In these experiments most of the nuclear RNA se quences of P815 cells were found to be also present in the nucleus of mouse liver and spleen. Only a small portion of the unique DNA sequences of P815 mastocytoma (about 1.2% corresponding to 4.4 ×107 nucleotides) was found to be complementary only to P815 mastocytoma nuclear RNA.
In den letzten zwei Dekaden wurde die Rolle der RNA in biologischen Prozessen intensiv untersucht. Man erkannte immer deutlicher, dass ihre Funktion über die einfache Vermittlung von Information von der DNA hin zum Protein weit hinausgeht. So spielt sie eine entscheidende Rolle bei der Genexpression und besitzt darüber hinaus auch katalytische Eigenschaften. Die Entdeckung der reversen Transcriptase beim HI-Virus konnte zeigen, dass genetische Informationen nicht nur in Richtung von DNA zu RNA, sondern auch in Entgegengesetzter Richtung übertragen werden kann. Diese Schlüsselrolle in vielen wichtigen biochemischen Prozessen macht die RNA zu einem viel versprechenden Ziel für die Entwicklung neuer Wirkstoffe, um in diese Prozesse eingreifen zu können. RNA bildet eine Vielzahl von stabilen Sekundär- und Tertiärstrukturen aus, die es Proteinen und Antibiotika ermöglicht, sie zu adressieren. Die bis heute wohl mit Ausnahme des Ribosoms und der tRNAs am besten aufgeklärte Struktur einer RNA ist die der HIV TAR-RNA (transaktivierende Region). Ein essentieller Bestandteil für die virale Genexpression ist die so genannte TAR-RNA. Diese befindet sich am 5-Ende aller viraler Transcripte und bildet eine aus 59 Basen bestehende stem-bulge-loop hairpin Struktur. Diese tritt in Wechselwirkung mit dem tat-Protein. Die Grundlage für die Erkennung des hierbei entstehenden Komplexes ist eine Wechselwirkung von tat mit der bulge- und loop-Region von TAR. Durch Interaktion mit der loop- Region kommt es zur Ausbildung eines CyclinT1/tat Komplexes, der im weiteren dafür verantwortlich ist, dass sich die Rate der Transkription um das mehrere hundertfache erhöht. Ziel der vorliegenden Arbeit war es, Liganden zu synthetisieren, die spezifische Bindungen mit der TAR-RNA aus HIV-1 eingehen. Durch eine solche Bindung ist es möglich, den viralen Replikationszyklus zu unterbrechen. Ausgehend von einem relativ rudimentären Design, basierend auf dem Arginin-Fork-Model von Frankel, gelang es, mit Triaminopyrazol und verschiedenen seiner Derivaten dieses Ziel zu erreichen. Nach erfolgreicher Synthese der Zielstrukturen wurden diese in einem FRET-Assay im Hinblick auf ihre Affinität zu der TAR-RNA getestet. 3,4,5-Triaminopyrazol übertraf trotz seiner geringen Größe und Ladung mit einem IC50-Wert von 30 µM die Werte vieler tetrakationischer Tripeptide (FRET). Nach erfolgreicher Bestimmung der TAR-Affinität von Triaminopyrazol wurde seine Wirkung auf HIV-infizierte Hela P4-Zellen untersucht, die ein Tat-TAR-kontrolliertes Reportergen exprimierten. Dabei zeigte Triaminopyrazol eine Inhibierung mit IC50 = 50 µM. Bis zu einer Konzentration von 500 µM traten hierbei keine toxischen Effekte auf. Dies legt die Vermutung nahe, dass es sich bei Triaminopyrazol tatsächlich um einen tat- Antagonisten handelt. Ebenso konnte gezeigt werden, dass die Wirkung von Triaminopyrazol nicht die eines Entryinhibitors ist, sondern dass die Verbindung in der Lage ist, die Zellmembran zu durchdringen.
Pulsed electron-electron double resonance (PELDOR) is a well established method concerning nanometer distance measurements involving two nitroxide spin-labels. In this thesis the applicability of this method to count the number of spins is tested. Furthermore, this work explored the limits, up to which PELDOR data obtained on copper(II)-nitroxide complexes can be quantitatively interpreted. Spin counting provides access to oligomerization studies – monitoring the assembly of homo- or hetero-oligomers from singly labeled compounds. The experimental calibration was performed using model systems, which contain one to four nitroxide radicals. The results show that monomers, dimers, trimers, and tetramers can be distinguished within an error of 5% in the number of spins. Moreover, a detailed analysis of the distance distributions in model complexes revealed that more than one distance can be extracted from complexes bearing several spins, as for example three different distances were resolved in a model tetramer – the other three possible distances being symmetry related. Furthermore, systems exhibiting mixtures of oligomeric states complicate the analysis of the data, because the average number of spin centers contributes nonlinearly to the signal and different relaxation behavior of the oligomers has to be treated explicitly. Experiments solving these problems are proposed in the thesis. Thus, for the first time spin counting has been experimentally calibrated using fully characterized test systems bearing up to four spins. Moreover, the behavior of mixtures was quantitatively interpreted. In addition, it has been shown that several spin-spin distances within a molecule can be extracted from a single dataset. In the second part of the thesis PELDOR experiments on a spin-labeled copper(II)-porphyrin have been quantitatively analyzed. Metal-nitroxide distance measurements are a valuable tool for the triangulation of paramagnetic metal ions. Therefore, X-band PELDOR experiments at different frequencies have been performed. The data exhibits only weak orientation selection, but a fast damping of the oscillation. The experimental data has been interpreted based upon quantitative simulations. The influence of orientation selection, conformational flexibility, spin-density distribution, exchange interaction J, as well as anisotropy and strains of the g-tensor has been examined. An estimate of the spin-density delocalization has been obtained by density functional theory calculations. The dipolar interaction tensor was calculated from the point-charge model, the extension of the point-dipole approximation to several spin bearing centers. Even assuming asymmetric spin distributions induced by an ensemble of asymmetrically distorted porphyrins the effect of delocalization on the PELDOR time trace is weak. The observed damping of dipolar oscillations has been only reproduced by simulations, if a small distribution in J was assumed. It has been shown that the experimental damping of dipolar modulations is not solely due to conformational heterogeneity. In conclusion the quantitative interpretation of PELDOR data is extended to copper-nitroxide- and multi-spin-systems. The influence of the mean distance, of the number of coupled spins, of the conformational flexibility, of spin-density distribution and of the electronic structure of the spin centers has been analyzed using model systems. The insights on model compounds mimicking spin-labeled biomacromolecules – in oligomeric or metal bound states – calibrate the method with respect to the information that can be deduced from the experimental data. The resulting in-depth understanding allows correlating experimental results (from for example biological systems) with models of structure and dynamics. It also opens new fields for PELDOR as for example triangulation of metal centers and oligomerization studies. In general, this thesis has demonstrated that modern pulsed electron paramagnetic resonance techniques in combination with quantitative data analysis can contribute to a detailed insight into molecular structure and dynamics.
Erfolgreich wurde die biochemische Synthese eines Kernbereiches der spleißosomalen U4/U6-RNA etabliert und die Sekundärstruktur mittels NMR-spektroskopischer Methoden charakterisiert. Die Konformationen von zwei molekularen Regeleinheiten, des auf Gramicidin A basierenden Ionenkanals Minigramicidin sowie einem aus zwei cis-Dekalinen aufgebautenmolekularen Schalters konnten in unterschiedlichen Umgebungen mit Hilfe der NMR-Spektroskopie erfolgreich bestimmt werden. Die Synthese des RNA-Konstruktes u4u6a46phh2 erfolgte durch Transkription von plasmidischer Templat-DNA mit T7-Polymerase und anschließender Aufreinigung mittels Gelelektrophorese und Homogenisierung am 3’-Ende mit Hilfe eines passenden Hammerhead-Ribozyms. u4u6a46phh2-RNA kann als Konstrukt für die Synthese von 13C/15N-gelabelter RNA dienen, da die Schneidreaktion und die daraus resultierende RNA definiert ist und die Integrale der Iminoprotonen für eine einzige Konformation der RNA sprechen. Das von Dr. Hans-Dieter Arndt in der Arbeitsgruppe von Prof. Dr. Koert an der Humboldt-Universität zu Berlin hergestellte Minigramicidin ist aus zwei verkürzten Gramicidin A-Einheiten aufgebaut, die in einer Kopf-an-Kopf Anordnung durch einen Bernsteinsäure-Linker kovalent verknüpft sind. In dieser Arbeit wurden die Strukturen von Minigramicidin in zwei unterschiedlichen Umgebungen aufgeklärt: in Benzol/Aceton (10:1, v/v) ohne Zusatz von Kationen und in gesättigter Cäsiumchlorid-Chloroform/Methanol (3:1, v/v)-Lösung. Im ersten Fall findet man ein doppelt helikales linksgängiges Dimer von Minigramicidin mit ca. 5.7 Resten pro Windung. Diese Struktur hat eine Länge von ca. 38 Å und einen Durchmesser von ca. 1.2 Å. Mit Cäsium-Kationen liegt die Verbindung als Monomer vor. Sie bildet eine rechtsgängige pi-Helix mit ca. 6.3 Resten pro Windung. Die Struktur hat eine Länge von 17 Å und einen Durchmesser von ca. 4.5 Å. Es konnte erstmals eine zur ionenkanalaktiven Form des gA ähnliche Konformation eines auf gA basierenden künstlichen Ionenkanals in organischen Lösemitteln nachgewiesen werden. Der von Dr. Michael Karle aus der Arbeitsgruppe von Prof. Koert an der Philipps-Universität Marburg synthetisierte molekulare Schalter besteht aus zwei cis-Dekalineinheiten, die durch einen 14-gliedrigen Bislactam-Ring miteinander gekoppelt sind. Der Schaltprozeß wurde dabei durch die saure Spaltung des Ley-Acetals in 13 ausgelöst. Es wurde für die Verbindung 13 eine all-axial Stellung für den Makrozyklus gefunden. Diese Struktur wird auch durch die gefundenen Kopplungskonstanten gestützt. Nach dem Schaltprozeß wurde die Struktur von 16 ermittelt. Wie erwartet, wurde durch das Lösen der konformativen Klammer ein Doppelringflip im linken Dekalingerüst ausgelöst und durch den Makrozyklus auf das rechte Dekalingerüst übertragen. Die gefundenen ROE-Abstände und Kopplungskonstanten für bestimmte Dekalinprotonen bestätigen die umgeschaltete Struktur.
The following mixed-stack donor/acceptor complexes {D···A}∞ have been crystallized and their structures determined: {hexamethylbenzene···3,5-dicyano-1-nitrobenzene hexamethylbenzene···3,5-dinitro-1-cyanobenzene}∞, {pyrene···3,5-dinitro-1-cyanobenzene}∞, {anthracene···(3,5-dinitro-1-cyanobenzene)2}∞, {N,N-dimethylanilin···3,5-dinitro- 1-cyanobenzene}∞ and { 1-3-phenylenediamine···3,5-dinitro-1-cyanobenzene}∞. Their lattice packing consists of parallel layers, which contain either donors and acceptors as for hexamethylbenzene and pyrene or composite ones as in the 1:2 complex of anthracene with each one of the acceptors above and below its peripheral rings. The isostructural hexamethylbenzene complexes exhibit almost identical packing coefficients as well as a hexagonal coplanar arrangement of the C6(CH3)6 donors. Weak intermolecular van der Waals interactions are also observed between antiparallel cyano substituents. The interplanar n distances range between 334 and 353 pm, i. e. around 340 pm of two van der Waals n radii. In none of the complexes, however, significant structural changes in either the donor or the acceptor components due to the complex formation are observed. In both the crystals as well as in solution, the donor/acceptor complexes exhibit colours between yellow and red; their long-wavelength charge transfer absorption maxima, therefore, correspond to a lowering in excitation energy of only up to 1 eV relative to that of the components. The different charge transfer in the ground and the CT excited states is also discussed referring to other data such as vertical first ionization energies or interplanar distances {D···A}, as well as to results from semiempirical calculations based on the crystal structure data determined and including approximate configuration interaction.
Raney nickel, a highly reactive and air-sensitive solid, if prepared and investigated under oxygen-free conditions, exhibits interesting catalytic properties. Using photoelectron spectroscopy for real-time gas analysis in a flow reactor, the following results are obtained with alkyl and acylhalides: Dehydrohalogenation temperatures are lowered relative to thermal HHal elimination up to 350 K. Monochloro and bromo propanes and butenes yield propene and butadiene, respectively. 1,1-Dichloro ethane or 1,1-dibromo propane only split off one HHal and form chloroethene or 1-bromopropene-2. HCl elimination from 2-methyl propionic acid chloride, expectedly, produces dimethyl ketene. Most interesting, however, is the ring opening of monobromo cyclobutane to 1-bromo-butene-3, observed already at room temperature, which strongly suggests the intermediate formation of a chemisorbed surface carbene at Raney nickel. The formation of hexadiene-1,5 as a by-product in the HCl elimination of 1-chloropropane, i. e. a surface carbene dimer, indicates their presence also in other dehydrohalogenations heterogeneously catalyzed by Raney nickel.
Raney nickel, a highly reactive and air-sensitive solid, if prepared and investigated under oxygen-free conditions, exhibits interesting catalytic properties. Using photoelectron spectroscopy for real-time gas analysis in a flow reactor, the following results are obtained with alkyl and acylhalides: Dehydrohalogenation temperatures are lowered relative to thermal HHal elimination up to 350 K. Monochloro and bromo propanes and butenes yield propene and butadiene, respectively. 1,1-Dichloro ethane or 1,1-dibromo propane only split off one HHal and form chloroethene or l-brom opropene-2. HCl elim ination from 2-methyl propionic acid chloride, expectedly, produces dimethyl ketene. Most interesting, how ever, is the ring opening of monobromo cyclobutane to 1-brom o-butene-3, observed already at room temperature, which strongly suggests the intermediate formation of a chem isorbed surface carbene at Raney nickel. The formation of hexadiene-1,5 as a by-product in the HCl elim ination of 1-chloropropane, i.e. a surface carbene dimer, indicates their presence also in other dehydrohalogenations heterogeneously catalyzed by Raney nickel.
The following mixed-stack donor/acceptor complexes {D · · · A }∞ have been crystallized and their structures determined: { 1 ,2,4,5-tetramethylbenzene · · · tetrabromo-p -benzoquinone}∞ , {hexamethylbenzene · · · tetrabromo-p-benzoquinone}∞ , { ( 1 ,2 ,4,5-tetramethyl-benzene)2 · · · tetrachloro -p -benzoquinone}∞ , {pyrene · · · tetrafluoro-p-benzoquinone}∞ , {pyrene · · · tetrabromo-p-benzoquinone}∞ and {perylene · · · tetrabromo-p-benzoquinone}∞ . They exhibit an interesting lattice packing, especially the 2:1 tripeldecker sandwich of tetrachloro-p-benzoquinone, which crystallizes in a herringbone pattern. Their interplanar distances are around 340 pm, i. e. two van der Waals π radii. None of them , however, exhibits in neither the donor nor the acceptor components significant structural changes due to complex formation. Their colours range from orange-red to black in the crystal and to green in H2CCl2 solution. Their long-wavelengths charge transfer absorption maxim a correspond to a lowering in excitation energy of up to 2 eV relative to that of the components. The different charge transfer in the ground and excited states of the donor/acceptor complexes investigated is further discussed referring to data such as cyclovoltammetric reduction potentials as w ell as to results from semiempirical calculations based on the crystal structure data determined and including configuration interaction.
The neutral title compound, 8,8-bis(dimethylamino)dibenzo-[a,d]-heptafulvene, exhibits a first vertical ionization potential of only 6.98 eV and, therefore, can also be oxidized by AlCl3 in H2CCl2 solution. The radical cation generated shows a complex multiplet signal pattern, which is assigned based on additional ENDOR measurements. The photoelectron (PE) and ESR spectra of the 112 valence electron molecule are interpreted by “pararneter-optimized” HMO and by geometry-optimized MNDO calculations, which both suggest a non-planar π-type ground state with most of the charge and the spin distributed over the dibenzoheptatriene part of the radical cation.
Di(methylthio)acetylene H3CS-C≡C-SCH3 reacts with S2C12 in AlCl3/H2CCl2 solution to the tetra(thiomethyl)thiophene radical cation (H3CS)4C4S·⊕ and with H3CSCl to the tetra(thiomethyl)ethene radical cation (H3CS)2C·=⊕C(SCH3)3. Their ESR spectra are assigned by comparison with literature data or those of analogous products obtained from other acetylene derivatives R-C≡C-R with R = SCH2CH3, CH3, C6H5 as well as based on HMO arguments. The possible course of the oxidative sulfuration is discussed.
The structures of seven di- or tetrasubstituted p-benzoquinone derivatives O=C(XC=CH )2C=O and O=C(XC=CX)2C=O with substituents X = -OCH3, -N(CH2)5, - N(CH2CH2)2O, -Cl, -CN and -⊕N(HC=CH)2C-N(CH3)2 are presented and discussed in comparison with published ones substituted by X = -Si(CH3)3, -C6H5, -N(CH3)2, -⊕N(HC=CH)2CN(CH3)2, -O⊖ , and - NO2. Based on the introduction, in which halfwave-reduction potentials, geometry-optimized quantum-chemical calculations on substituent perturbation and known structural data of p-benzoquinone derivatives are used to characterize their molecular ground states. The structural changes indicate how substituent perturbations might be rationalized. Of the categories defined - imperturbed, donor, donor/acceptor and acceptor perturbed - the donorsubstituted p-benzoquinones do exhibit the largest differences, often called cyanine distorsion. In very satisfactory agreement with extensive semiempirical calculations, all effects determined experimentally are discussed in terms of varying charge distribution. With respect to the biochemical importance of p-benzoquinone derivatives, this first structural summary points out important facets.
From the electron and proton transfer equilibria network of quinones in solution a novel intermediate can be prepared by deprotonation of 2,5-bis(trimethylsilyl)hydroquinone to its monoanion using sodium metal. The sodium salt crystallizes in polymer strings connected via O⊖···(H)O hydrogen bridges, which are capped additionally by twofold dimethoxy-ethanesolvated Na⊕ countercations. The single crystal structure determination reveals one of the shortest O⊕ ··· HO distances observed so far of only 246 pm. MNDO calculations further confirm the assignment of hydroquinone monoanion building blocks in the polymer chain. For structural comparison as well as for attempts of its sodium reduction, 2,5-bis(trimethylsilyl)-p- benzoquinone has been synthesized. Its single crystal structure is reported, which does not show any cyanine distortion.
Chelate complexes of 1,2-dimesitoylbenzene radical anion with alkali metal cations exhibit in aprotic solution extremely large ESR /ENDOR metal coupling constants. For rationalization, structures of both the neutral molecule (H3C)3H2C6 - CO - C6H4 - CO - C6H2(CH3)3, in which the two carbonyl groups are twisted out of the benzene ring plane by dihedral angles of ± 3̄7̄°, and a sodium contact ion quadruple have been determined. One of the dimers [dimesitoylbenzeneH⊖ (Na⊕H2N H2C - CH2NH2)]2, although generated by Na metal mirror reduction of 1,2-dimesitoylbenzene in aprotic DME solution with added ethylendiamine for better electron transfer, surprisingly contains two 245 pm short (!) hydrogen bridges ⊖O ··· (H)O and in addition two solvation bridges e ⊖O ··· Na⊕(H2NH2C - CH2NH2) ··· O⊖. Results of MNDO calculations based on the experimental coordinates support the proposed concept.
Crystals of lemon yellow dipotassium nitranilate and of yellow disodium nitranilate dihydrate have been grown and their structures determined at 290 and 200 K. The six-member- ed, O2N-disubstituted rings show a pronounced cyanine distortion with all four CO bonds identical and the two (OCC(NO2)CO)⊖ chains connected by single CC bonds of each 156 pm length. In the anhydrous K⊕ salt, the ring is planar, but in the Na⊕ hydrate salt it exhibits a twist conformation. Quantum chemical calculations allow to reproduce the structure in every detail, demonstrate strong charge alternation along the cyanine chains with considerable delocalization into the O2N acceptor substituents, and suggest that the rather long connecting CC bonds contain positively charged carbon centers on both ends. In addition, metal ion coordination effects as well as the rather high pKa value of nitranilic acid are rationalized.
1,4-Bis(trimethylsiloxy)benzene has been crystallized both by vacuum sublimation and from «-heptane solution, which each yielded colourless plates with identical monoclinic unit cell dimensions (P2/n, Z = 4). The conformation of C[ symmetry shows the two (H3C)3SiO-substituents to be conrotationally twisted around the O-( C6H4)-O axis by dihedral angles o f ± 60°. According to the photoelectron spectroscopic ionisation pattern and its Koopmans’ assignment, IEVn = -εJAM 1, by AM 1 eigenvalues, the gas phase structure should also be of C, symmetry. The results of geometry-optimized MNDO , AM 1 or PM 3 calculations for the monosubstituted derivative H5C6-OS i(CH3)3 are compared with respect to the quality of their fit to the measured data.
The reduction potentials of 40 aromatic nitro compounds Rπ(NO2)n with Rπ = benzene, naphthalene, anthracene, fluorene and carbazole and n = 1 to 4 nitro groups are determined by cyclic voltammetry in DMF under aprotic conditions. The perturbation by the strongly electron accepting substituents can be rationalized via correlation with HMO eigenvalues. Based on reversibility criteria, the electrochemical behaviour is discussed and the compounds are classified with respect to reversible or irreversible one-electron transfer as well as up to 4 (quasi)-reversible reduction steps. The CV data measured can be used to predict redox reactions of aromatic nitro compounds in inert solvents.
UV/VIS and ESR spectra of electron transfer reaction products in aprotic (cH⊕ < 0,1 ppm) solution can be measured in an especially designed and sealed glass apparatus and provide information on unknown facets of the microscopic pathway through the network of interdependent equilibria. For tetraphenyl-p-benzoquinone in tetrahydrofuran, single-electron reduction by a sodium metal mirror produces a red solution and, unexpectedly, after addition of 2.2.2. cryptand, contact with a potassium metal mirror generates a green (!) one. For both, ESR/ENDOR spectra prove the presence of tetraphenyl-p-benzoquinone radical anion. UV/VIS measurements provide the clue: In the equilibrium revealed by repetetive spectra recording, M·⊖solv + Me⊕solv ⇄ [M·⊖···Me⊖]solv, the radical anion is green (vm = 16900 cm-1) and the contact ion pair red (vm=18900 cm-1 ). On ion pair formation, therefore, the excitation energy of the radical anion increases by 0.25 eV.
In an especially designed and sealed glass apparatus, a combination of UV/VIS and ESR spectroscopy measurements are performed to follow electron transfer reactions in aprotic (cH⊕ < 0,1 ppm) solution. For the sodium metal reductions of the tetracyano-substituted title compounds, the novel technique provides the following detailed information: 1,2,4,5- tetracyanobenzene is uniformly reduced to its radical anion, for which additional geometryoptimized MNDO calculations predict an already significant cyanine disortion. For 7,7,8,8- tetracyano-p-quinodimethane, UV/VIS band shape analysis allows to detect in the saturated THF reduction solution the 16300 cm-1 absorption of the donor/acceptor complex formed in the equilibrium TCNQ·⊖ + TCNQ ⇆ {TCNQ·⊖···TCNQ}, which according to a literature search has been crystallized and structurally characterized in paramagnetic salts such as [Me2⊕ (TCNQ·⊖)2(TCNQ)].
Novel radical anions of trimethylstannyl substituted naphthalenes and their ESR spectra are reported. Both 119 Sn and 117 Sn coupling can be assigned unequivocally. The perturbation of π systems by R3X substituents of group IV b elements X = C, Si, Ge, Sn and Pb is discussed with respect to photoelectron ionization potentials, charge transfer excitations, half-wave reduction potentials and ESR spin distribution.
The photoelectron (PE) spectra of bis(dialkylamino) acetylenes R2N-C≡C-NR2 and of tetrakis(dialkylamino) allenes (R2N)2C=C=C(NR2)2 with R = CH3, C2H5 exhibit characteristic ionization patterns which are assigned to π radical cation states of the two molecular halves twisted against each other. The low first ionization potentials between 7.0 eV and 7.7 eV stimulated attempts to oxidize using AlCl3 in H2CCl2 or D2CCl2. The hyperfine structured ESR spectra observed can be unequivocally assigned to the ethylene radical cations R2N-HC=CH -NR2˙⊕ which are formed from the obviously non-persistent species R2N-C≡C-NR2˙⊕ via a hydrogen transfer. During the oxidation of the dialkylamino-substituted allenes no paramagnetic intermediates could be detected, presumably due to a rapid dimerisation of the allene radical cation (R2N)2C=C=C(NR2)2˙⊕.
The one-electron transfer to large π-delocalized hydrocarbons provides an interesting possibility to crystallize solvent-separated ion-pair salts containing optimally solvated cations. Accordingly, the reduction of 9.9′-bianthryl in aprotic 1.2-dimethoxyethane (DME) solution at a sodium metal mirror allows to grow dark blue, brick-like crystals of its radical anion and threefold DME-solvated sodium cation. The structure of the radical anion is very similar to that recently published for the neutral molecule. According to AM 1 enthalpy hypersurface calculations based on the structural data, the torsion angle between 60° and 120° is determined by the lattice packing and the negative charge is -π-delocalized predominantly within only one anthracene subunit. The counter cation [Na⊕(DME)3], reported only three times so far, shows a sixfold propeller-like coordination of approximate D3 skeletal symmetry with contact distances Na⊕···O between 232 and 243 pm and angles ≮ONa⊕O varying between 69° and 159°. Due to the small repulsion between the chelating DME molecules, the isodesmically calculated Na⊕ solvation enthalpy is more negative than that of the analogous tetrahydrofuran complex [Na⊕(THF)6] - as confirmed by the laboratory experience that salts of less stable anions are preferentially crystallized from a strongly cation solvating DME solution.
Tetraphenyl-p-benzoquinone, according to its single crystal structure, shows some steric congestion: its quinone ring is distorted by 7° to a chair conformation, and its phenyl substituents are twisted around their CC axes between 46° and 72°. The half-wave reduction potentials of -0.57 and -1.25 V in acetonitrile confirm negligible π interaction of the phenyl substituents. Addition of alkalimetal tetraphenylborate salts lowers the second reduction potential due to contact ion formation, which can be confirmed by UV/VIS spectra recorded under aprotic conditions. Extensive ESR/ENDOR investigations prove the formation of the following species in THF solution: Tetraphenyl-p-benzosemiquinone radical anion contact ion pairs [M·⊖ Me⊕solv]' (Me⊕: Li⊕, Na⊕, Rb⊕, Cs⊕) and contact triple ion radical cations both with identical cations [M·⊖ (Me⊕solv)2]·⊕ (Me⊕: Li⊕, Na⊕, Cs⊕) and different cations [M·⊖ (Li⊕solv)(Me⊕solv)]·⊕ (Me⊕: Na⊕, Cs⊕). Addition of crown ethers can lead to external solvation of the Me⊕ counter cations, whereas cryptands form internal solvation complexes. The radical anion of 2,6-diphenyl-p-benzosemiquinone adds cations at its phenyl-free molecular half. The radical anion salt [tetraphenyl-p-benzosemiquinone·⊖ (Na⊕(tetrahydropyrane) 2)] could be crystallized and its structure determined at 200 K. In agreement with the Hirota sign rules for contact radicals in solution, the Na⊕ ion is found 62 pm above the π plane and 29° outside the axis of the CO bound, which is elongated due to one-electron reduction by 5 pm to 127 pm.
Cyclovoltammetric measurements of solutions containing the rather basic tetra-(2′-pyridyl)pyrazine allow to detect even traces of water and thus can be used as a touchstone for aprotic (cH⊕ < 1 ppm) conditions. On exchange of the “innocent” tetrabutylammonium R4N⊕ as supporting electrolyte cation by “interactive” ones such as Li⊕) or Na⊕, considerable changes in the reduction potentials are observed due to ion pair formation.
The structurally different radical anions M⊖ of peralkylated 1-sila-2,5-diazacyclopentane-3,4-dithione and of tetrakis(isopropylthio)-p-benzoquinone are generated by reduction with potassium/2.2.2-cryptand under aprotic conditions in THF solution. On addition of Li⊕B(C6H5)4⊖, both form hitherto elusive sulfur-containing contact ion pairs, which are characterized by their ESR/ENDOR spectra.
Reduction of naturally occurring para-and ortho-benzoquinone derivatives M to their respective radical anions M·⊖ can be accomplished under largely aprotic conditions either by cautious low-temperature reaction in THF containing an excess of (2.2.2) cryptand at a potassium mirror or by using the "mild" single electron transfer reagent tetrabutylammonium boranate R4N⊕BH4⊖ in DMF. On addition of soluble alkali tetraphenylborates Me⊕[B(C6H5)4]⊖ , their hitherto unknown radical ion pairs [M·⊖ Me⊕]· and/or triple ion radical cations [Me⊕M·⊖Me⊕]·⊕ form, which might be of biological relevance in molecular carrier and "turn off -turn on" switch processes. On addition of metal perchlorates Me⊕n(ClO4⊖)n with multiply charged counter cations Me⊕n the respective paramagnetic species [M·⊖Me⊕n]·(n-1)⊕ result. Assuming exclusive one-electron transfer reductions without any redox fragmentation reactions, ESR, ENDOR and GENERAL TRIPLE spectra are presented and discussed for the following radical anions and radical ion pairs: mitomycin C (M·⊖ and [M·⊖Mex⊕]·(x-1)⊕ with Me⊕ = Li⊕, Na⊕), streptonigrine (M·⊖ and [M·⊖Lix⊕]·(x-1)⊕), Entobex® (M·⊖ and [M·⊖Me⊕n]·(n-1)⊕ with Me⊕n = Li⊕, Na⊕, Cd⊕⊕, (H5C6)2Tl⊕) as well as brucinequinone ([M·⊖ Me⊕n]·(n-1)⊕ with Me⊕n = Li⊕, Cd⊕⊕, Pb⊕⊕, La⊕⊕⊕).
The radical anion of dimesityltetraketone (ERed, I = -0.40 V) is easily generated in THF by potassium mirror/[2.2.2]-cryptand reduction. Its contact ion pairs with Na⊕, Cs⊕ and Ba⊕⊕ counter cations, prepared in THF solution by single electron transfer from the respective metals, are characterized by their ESR/ENDOR spectra, which exhibit temperature-dependent metal couplings of aNa⊕ = 0.061 mT (190 K), aCs⊕ = 0.021 mT (190 K), and aBa⊕⊕ = 0.145 mT (295 K).
Ion pairs of 1,10-phenanthrolin-5,6-dione radical anion [M · ⊖Me⊕n] ·⊕(n−1) with Me⊕n = Mg⊕⊕, Ca⊕⊕, Sr⊕⊕, Zn⊕⊕, Cd⊕⊕, Pb⊕⊕ and La⊕⊕⊕ are advantageously prepared in aprotic DMF solution containing appropriate metal salts Me⊕nX⊖ by using the ‘mild’ single-electron reducing agent tetra(n-butyl)ammonium-boranate R4N⊕BH4⊖ . For comparison, the ‘naked’ radical anion with the largely interaction-free [K⊕(2.2.2)-cryptand]⊕ counter cation is chosen, which is formed on reduction with potassium in THF solution of (2.2.2)-cryptand. Addition of excess Na⊕[B(C6H5)4]⊖ to the reduction solution only yields a solvent-separated ion pair (M · ⊖)DMF ··· (Na⊕)DMF, whereas in the presence of multiply charged counter cations Me⊕n the respective contact ion pair radical cations [M · ⊖Me⊕n] · ⊕(n−1) are formed. Their g values decrease with increasing nuclear charge of Me⊕n and their metal-s-spin densities increase with the effective counter cation charge n⊕/rMe⊕n. The ESR /ENDOR data recorded suggest Me⊕n complexation by the δ⊖OC -COδ⊖ chelate tongs and the ion pair stability, which is modified by the dielectric properties of the solvent used, may be rationalized by the Coulombic attraction between the radical anion M · ⊖ and the counter cations Me⊕n.
Conditions for ENDOR measurem ents of organosulfur radical cations are discussed and tested. The one electron oxidation of a variety of aromatic sulfur com pounds comprising benzene-1,2-dithiole, 1,4-dithiine, thianthrene and diphenylsulfide derivatives as well as 33S isotope-marked bis(2,5-dimethoxyphenyl)disulfide is accomplished using the oxygen-free, powerful and selective AlCl3/H2CCl2 reagent. Partly with substantial structural changes, paramagnetic M⊕ species of 1,2-benzodithiete, 1,4-dithiine, thianthrene and diphenyl sulfide result. Their temperature-dependent ENDOR signal patterns provide numerous information e.g. on radical cation structure and dynamics, on the rather high sulfur spin populations or on the spin rotation interaction dominated relaxation behaviour. Accordingly, to obtain optimum ENDOR effects in organosulfur radical cations low temperature measurements are required, and especially for still undiscovered 33S ENDOR couplings, small g factor anisotropies and 33S spin densities appear to be necessary.
For the first time, 107,109Ag ENDOR measurements in solution are reported. In addition, the formation of the known paramagnetic contact ion pair [Ag⊕(PR3)2(R2H2C6O2·⊖] on reduction of 3,5-di(tert-butyl)-o-benzoquinone in THF solution containing soluble silver salts and triphenylphosphine is studied by cyclic voltammetry.
The sodium salt of the most simple polynitro-substituted hydrocarbon anion. Na⊕⊖C(NO2)3, (for a hazard warning cf. [***]) crystallizes from ether solutions without and with addition of 18-crown-6 either in a polymer band. [(Na⊕⊖C(NO2)3)dioxane]∞, or as a solvent- separated ion pair, [(Na⊕/18-crown-6)(THF2]⊕[(Na⊕/18-crown-6)(O2N-C⊖(NO2)2)2]⊖. The Na⊕ cations are each 8-fold coordinated in hexagonal bipyramidal arrangement. According to extensive quantum-chemical calculations based on the structure coordinates, the formation of these novel salts can be traced back to the charge distribution in the anions ⊖C(NO2)3. which due to negatively charged oxygen centers are favorable complex ligands. The structure determining effects of solvation are discussed.
The reversible one-electron insertion into mono- and 1,4-di-substituted benzene derivatives is favored by dialkoxyboron and especially by dialkylboron groups. The assumption that it should be the symmetric e2u benzene molecular orbital which is occupied in the resulting radical anions can be supported by comparison of ESR coupling constants.
The PE spectra of the nitrogen-rich title compounds cyanogen azide NC-N3, azodicarbonitrile NC - N = N - CN, azidoacetonitrile NC - H2C - N3, tetrazolo[1,5-a]pyridine (H4C5N)(N )3 and trimethylenetetrazole (H2C)3(CN4) are presented and assigned by radical cation state comparison with related compounds or by Koopmans’ correlation with MNDO eigenvalues. In a low pressure flow system the compounds decompose at higher temperatures, with elimination of the thermodynamically favorable N2 molecule. PE-spectroscopic real-time analysis reveals as further products: NC - N3 → C∞, NC - N = N - CN → NC - CN , NC - H2C - N3 → 2HCN (+ traces NC - HC = NH?) and (H2C)3(CN4) → H2C = N - CN + H2C = CH2. For tetrazolo[1,5-a]pyridine, a preceding ring opening to the corresponding 2-azidopyridine is observed.
Trifluoromethyl azide decomposes in a low-pressure flow system at rather high temperatures by splitting off N2. The nature of the resulting products depends largely on the wall material of the pyrolysis tube: using molybdenum above 1120 K, FCN is observed exclusively. Neither F2C=NF nor F3C-N=N-CF3 can be detected as intermediates by comparing their PE spectra with those continuously recorded while increasing the temperature. F3C-N = N - CF3 fragments already at 870 K to give N2 and F3C-CF3. The PE spectra of F3CN3 and F2C=NF are assigned based on MNDO calculations.
Photoelektronen-Spektren und Moleküleigenschaften, 110 [1,2]. Tricyanmethan-Derivate X—C(CN)3
(1987)
The photoelectron spectra of tricyanomethane derivatives X-C(CN)3 with substituents X = H, CH3, Br and C6H5 have been recorded and are assigned based on MNDO calculations as well as on radical cation state comparison with the iso(valence)electronic P(CN)3, within the series of cyanomethanes H4-nC(CN)n, and with each other. For HC(CN)3, no traces of the isomeric dicyano, ketimine HN = C=C(CN)2 are detected in the gas phase. Tricyanomethylbenzene, H5C6-C(CN)3, exhibiting the highest first ionization energy of any known singly acceptor substituted phenyl derivative, demonstrates the tremendous electron withdrawing effect of the -C(CN)3 group.
The HCl elimination from β-chloroethyl azide (1-azido-2-chloroethane) over potassium tert. butanolate at 350 K in a low pressure flow system is optimized using PE spectroscopic real-time gas analysis. The highly explosive vinyl azide formed can be purified by cool-trapping the by-products. Its subsequent and virtually hazard-free pyrolysis yields 2H-azirine, which can be isolated at temperatures below 240 K.
In contrast, the direct pyrolysis of β-chloroethyl azide requires temperatures above 710 K and results in a simultaneous split-off of both HCl and N2, yielding acetonitrile as the main thermolysis product. No intermediates such as β-chloroethanimine or ketenimine are observed, a result which is interpreted in terms of chemical activation.
Organodisulfide radical cations R2S2′⊕ and R2C2S2 ′⊕ can be generated from aliphatic as well as aromatic cyclic polysulfides in AlCl3/H2CCl2 solutions and characterized by their ESR spectra. Examples presented are the oxidations of 1,2,3-trithiolanes to 1.2-dithiolane radical cations, in which energetically favored planarized 3 electron/2 center bonds are formed.
Thermal decompositions of azo compounds in the gas phase under reduced pressure are further investigated using photoelectron spectroscopic gas analysis. Passing diallyl, diphenyl and phenylmethyl derivatives either through a short-pathway pyrolysis (SPP) apparatus or through an external thermal reactor (ETR) results in the following fragmentations: Under nearly unimolecular conditions (SPP, 10-4 mbar pressure), diallyldiazene decomposes above 600 K to N2 and hexadiene-1,5 with the allyl radical as a detectable intermediate. The PE spectra recorded for diphenyldiazene above 1000 K (ETR, 1-2 mbar pressure) show N2, benzene, as well as traces of diphenyl. Phenylmethyldiazene yields above 800 K (SPP) predominantly N2, toluene, diphenyl and ethane with the methyl radical as the only detectable intermediate. Insertion of quartz wool into the pyrolysis tube (ETR) lowers the fragmentation temperatures, and in addition, above 850 K, HCN and aniline are PE spectroscopically identified. Surprisingly, this second reaction channel can be heterogeneously catalyzed: phenylmethyldiazene decomposes under 10-2 mbar pressure at a [Ni/SiO2] catalyst surface selectively to HCN and aniline.
In the pyrolysis of 1,2,3-benzoselenodiazole using a short-distance furnace, a short-lived intermediate is detected photoelectron spectroscopically. Mass spectra recorded under similar conditions suggest an isomer C6H4Se rearranging to the more stable final product 6-fulveneselone. The ionization pattern obtained by computerized spectra stripping is assigned to benzselenirene by molecular radical cation state comparison based on MNDO calculations.
Tetraphenylbutatriene is reduced under aprotic conditions to its ESR/ENDOR-spectroscopically characterized radical anion and to its dianion, with both electron transfers quasireversible according to cyclovoltammetric measurements. The alkali cation salts, the red contact ion pair [(H5C6)4C4·⊖][Na⊕ (H3COCH2CH2OCH3)3] and the dark violet contact ion triple [(H5C6)4C4⊖⊖][Li⊕(H3COCH2CH2OCH3)3]2 can be prepared by single electron reduction at a sodium metal mirror or by twofold de-protonation of 1,1,4,4-tetraphenylbutyne-2 using lithium-n-butyl. Their single crystal structures as well as that of the parent acetylene have been determined at low temperatures. The essential structural changes observed are the twisting of both molecular halves (H5C6)2CC relative to each other with increasing negative charge. The simultaneously resulting bond alternancy >C = C = C = C< → >C⊖ - C ≡ C⊖ - C < within the cumulene chain is discussed based on MNDO calculations for the structures determined.
The two-electron reduction of tetraphenyl-p-quinodimethane M via its radical anion M⊖ to its dianion M⊖⊖ is explored both by cyclovoltammetry and ESR/ENDOR spectroscopy. Contact of the diglyme solution with added 15-crown-5 under aprotic conditions with a sodium metal mirror yields black crystals of a solvent-separated contact ion triple [M⊖⊖][Na⊕(OCH2CH2)5(H3CO(CH2CH2O)2CH3)]2. The two-electron-insertion into the pquinodimethane derivative R2C⊖=C(HC=CH)2C=CR2 changes its structure drastically to that of a twofold carbanion substituted benzene, R2C⊖ -(C6H4)- ⊖CR2. MNDO calculations provide a rationale for both the tremendous solvation of a Na⊕ center coordinated to seven oxygen centers of 15-crown-5 and of one diglyme molecule and the structural changes as well as the charge distribution in the unique Tetraphenyl-p-quinodimethane dianion (H5C6)2C⊖-(C6H4)- ⊖C(C6H5)2, in which the two negative charges are largely localized at the carbanion center of the benzene -substituents.
The lysosomal polypeptide transporter TAPL belongs to the superfamily of ATP-binding cassette transporters. TAPL forms a homodimeric transport complex, which translocates oligo- and polypeptides into the lumen of lysosomes driven by ATP hydrolysis. Although the structure and the function of ABC transporters were intensively studied in the past, details about the single steps of the transport cycle are still elusive. Therefore, we analyzed the coupling of peptide binding, transport and ATP hydrolysis for different substrate sizes. Although longer and shorter peptides bind with the same affinity and are transported with identical Km values, they differ significantly in their transport rates. This difference can be attributed to a higher activation energy for the longer peptide. TAPL shows a basal ATPase activity, which is inhibited in the presence of longer peptides. Uncoupling between ATP hydrolysis and peptide transport increases with peptide length. Remarkably, also the type of nucleotide determines the uncoupling. While GTP is hydrolyzed as good as ATP, peptide transport is significantly reduced. In conclusion, TAPL does not differentiate between transport substrates in the binding process but during the following steps in the transport cycle, whereas, on the other hand, not only the coupling efficiency but also the activation energy varies depending on the size of peptide substrate.
The ATP-binding cassette transporter TAPL translocates polypeptides from the cytosol into the lysosomal lumen. TAPL can be divided into two functional units: coreTAPL, active in ATP-dependent peptide translocation, and the N-terminal membrane spanning domain, TMD0, responsible for cellular localization and interaction with the lysosomal associated membrane proteins LAMP-1 and LAMP-2. Although the structure and function of ABC transporters were intensively analyzed in the past, the knowledge about accessory membrane embedded domains is limited. Therefore, we expressed the TMD0 of TAPL via a cell-free expression system and confirmed its correct folding by NMR and interaction studies. In cell as well as cell-free expressed TMD0 forms oligomers, which were assigned as dimers by PELDOR spectroscopy and static light scattering. By NMR spectroscopy of uniformly and selectively isotope labeled TMD0 we performed a complete backbone and partial side chain assignment. Accordingly, TMD0 has a four transmembrane helix topology with a short helical segment in a lysosomal loop. The topology of TMD0 was confirmed by paramagnetic relaxation enhancement with paramagnetic stearic acid as well as by nuclear Overhauser effects with c6-DHPC and cross-peaks with water.
Eine in vivo Modifizierung von Blutstammzellen wäre für eine Reihe gentherapeutischer Therapieansätze vorteilhaft. Dies würde voraussetzen, dass retrovirale Vektoren gezielt auf Blutstammzellen ausgerichtet werden können. Für dieses sogenannte Zelltargeting bietet sich das vom Milznekrose-Virus von Vögeln (SNV) abgeleitete Vektorsystem an, bei dem die Rezeptorbindungsdomäne des Env-Proteins modifiziert werden kann. Im Rahmen der vorliegenden Arbeit sollte ein SNV-basierter retroviraler Zelltargeting-Vektor entwickelt werden, der einen selektiven Gentransfer in die primären humanen CD34-positiven hämatopoetischen Zellen ermöglicht. Zur weitergehenden Charakterisierung des SNV-Vektorsystems sollte geklärt werden, ob das Env-Protein des SNV ein mit anderen gamma-retroviralen Env-Proteinen vergleichbares R-Peptid aufweist, dessen mögliche Rolle bei viralem Zelleintritt ebenfalls untersucht werden sollte. Um eine Zielzell-Spezifität des SNV-Vektors zu erreichen, wurde die gesamte SU-Domäne des SNV-Env-Proteins mit einem einkettigen Antikörperfragment (scFv) ersetzt, das gegen das CD34 Molekül gerichtet ist,. Mit diesem modifizierten Env gelang es, [(antiCD34-TM)SNV]-Vektorpartikel herzustellen, die spezifisch CD34-positive Zellen transduzierten. Essentiell für die Erzeugung solcher Vektoren war die Etablierung einer stabilen Verpackungszelllinie, die Vektorpartikel mit einem Titer von 2x105 i.E./ml produzierte. In Transduktionsexperimenten mit verschiedenen Zelllinien wurde gezeigt, dass [(antiCD34-TM)SNV]-Vektoren eine deutliche Präferenz für CD34+-Zellen und nicht für CD34--Zellen besitzen, wobei der Unterschied in der Transduktionseffizienz zwischen CD34-positiven und –negativen Zellen um den Faktor 100 lag. [(antiCD34-TM)SNV]-Vektoren waren in der Lage, den Reportergentransfer auch in primäre humane Stammzellen zu bewirken. Hierzu wurde ein Transduktionsprotokoll so optimiert, dass die aus dem Nabelschnurblut isolierten CD34+-Zellen transduziert werden konnten. Der für diese Zielzellen bestimmte Vektortiter betrug bis zu 2x106 i.E./ml. In einem Gemisch von primären CD34+- und CD34--Zellen konnte der Vektor zwischen dem Target- und Nontarget-Zellen unterscheiden. Somit wurde zum ersten Mal nicht nur Spezifität, sondern auch Selektivität des SNV-Vektorsystems demonstriert. Dieses Ergebnis ist für eine Weiterentwicklung des Vektors für die in vivo Anwendung in Rahmen einer Gentherapie eine wichtige Voraussetzungen. Im zweiten Teil der Arbeit wurde der Fusionsvorgang bei Virus-Eintritt näher untersucht. Anlass dafür war die experimentelle Beobachtung, dass das Env-Protein des SNV bei der Virusknospung von einer viralen Protease innerhalb der zytoplasmatischen Domäne proteolytisch gespalten wird. Ein Sequenz-Vergleich des SNV TM-Proteins mit dem MLV TM-Protein ergab Hinweise darauf, dass es sich um die Abspaltung des sogenannten R-Peptides analog zu MLV handeln könnte. Die Expression von SNV-Env- Mutanten mit einem entsprechend verkürzten C-Tail (Env delta R) führte zur Synzytien-Bildung. Die bildung hochfusogener Oberflächenhüllproteine durch die Abspaltung des R-Peptids konnte auch für andere gamma-Retroviren gezeigt werden. Die Synzytienbildung konnte quantitativ unter den Env delta R-Varianten verschiedener gamma-Retroviren in einem etablierten Fusionsassay verglichen werden. Das Env delta R des endogenen Retrovirus des Schweins (PERV) des Typs A erwies sich als potentestes Fusionsagens. Als Folge der Ergebnisse der vorliegenden Arbeit wurde postuliert, dass die Abspaltung des R-Peptides ein allgemeiner Mechanismus bei der Partikelreifung der gamma-Retroviren ist und eine fusionsregulierende Rolle besitzt. Eine Weiterentwicklung fusionsaktiver Env-Varianten als mögliche therapeutische Gene für eine Tumor-Gentherapie ist somit diskutierbar.
Das wachsende Verständnis für das fein abgestimmte Zusammenspiel aus Struktur und Funktion von Nukleinsäuren resultiert aus unzähligen Forschungsprojekten. Forschende stehen dabei vor der Herausforderung, dass die zu untersuchenden Oligonukleotide sowohl modifiziert als auch in ausreichender Menge und Reinheit dargestellt werden müssen. Die chemische Festphasensynthese ist ein bewährtes Mittel zur Synthese hochmodifizierter DNA und RNA. Allerdings werden Oligonukleotide mit zunehmender Länge unzugänglicher, da die einzelnen Kupplungsreaktionen nicht quantitativ ablaufen, was zu schwer abtrennbaren Abbruchsequenzen führt. Hinzu kommt, dass während der chemischen Synthese harsche Reaktionsbedingungen nötig sind, denen die gewünschten Modifikationen standhalten müssen. (Chemo-) enzymatische Methoden können diese Hürden überwinden und somit den Zugang zu biologisch interessanten, längeren modifizierten Sequenzen ermöglichen. Jedoch erfolgt der enzymatische Einbau von Modifikationen ohne aufwendige Optimierung lediglich statistisch verteilt. Um weitere Erfolge im Bereich der Strukturaufklärung zu erzielen, werden somit Synthesemethoden benötigt, die sich zum positionsspezifischen Einbau von Modifikationen eignen und gleichzeitig den Zugang zu längeren Oligonukleotiden ermöglichen. Zur Untersuchung der Zusammenhänge zwischen Struktur und Funktion haben sich in den letzten Jahren lichtadressierbare Verbindungen als gefragte Modifikationen erwiesen. Der Einsatz von Licht als mildes, nicht-invasives Auslösesignal stellt besonders im biologischen Kontext eine interessante Herangehensweise dar. Um hochwertige Aussagen über das Verhalten von Oligonukleotiden in komplexer biologischer Umgebung machen zu können, muss durch die gezielte Platzierung lichtaktivierbarer Verbindungen ein effizientes AN/AUS-Verhältnis geschaffen werden. Der Einbau photolabiler Schutzgruppen erlaubt eine vorübergehende Beeinflussung der Oligonukleotidstruktur, die durch Abspaltung der Schutzgruppe irreversibel (re-) aktiviert werden kann. Im Gegensatz dazu ermöglicht der Einbau von Photoschaltern eine reversible Adressierbarkeit durch Isomerisierungsprozesse. Die Synthese komplexer gezielt-markierter Oligonukleotide erfolgt zumeist chemisch und ist daher längenlimitiert.
Ziel dieser Doktorarbeit war es, beide Fragestellungen zu vereinen und eine chemo-enzymatische Methode zur RNA-Synthese zu untersuchen, die zum einen die positionsspezifische Modifizierung mit lichtaktivierbaren Einheiten erlaubt und darüber hinaus die Längenlimitierung der chemischen Festphasensynthese überkommt. Im Zentrum der Methode stehen drei enzymatische Reaktionsschritte zum Einbau von photolabil- und photoschaltbar-modifizierten Nukleosid-3‘,5‘-Bisphosphaten: I) eine 3‘-Verlängerung, in der die modifizierten Bisphosphate mit T4 RNA Ligase 1 mit dem 3‘-Ende einer RNA verknüpft werden; II) die Dephosphorylierung des 3‘-Phosphats mit Shrimp Alkaline Phophatase und III) die Verknüpfung der 3‘-terminal modifizierten RNA mit einem zweiten 5‘-phosphorylierten RNA-Fragment, wodurch eine Gesamtsequenz mit gezielt platzierter Modifikation entsteht (Abb. I).
Im ersten Teilprojekt wurden in kollaborativer Arbeit zunächst benötigte photolabile NPE- und photoschaltbare Azobenzol-C-Nukleosid-3‘,5‘-Bisphosphate synthetisiert und grundlegende Bedingungen der enzymatischen Reaktionen erarbeitet. Hierbei konnte der enzymatische Syntheseansatz erfolgreich in Lösung umgesetzt und der chemo-enzymatische Einbau aller synthetisierten Bausteine nachgewiesen werden. Aufbauend auf diesen Erkenntnissen wurde die Methode in eigenständigen Arbeiten weiterverfolgt, um den multiplen Einbau NPE-modifizierter Nukleosid-3‘,5‘-Bisphosphate in direkter Nachbarschaft sowie deren Einbau in DNA/RNA-Mixmere mit Phosphodiester- oder Phosphorthioatrückgrat zu untersuchen. Es konnte gezeigt werden, dass die verwendeten Enzyme neben lichtaktivierbaren Modifikationen zusätzliche Anpassungen der Phosphateinheit sowie unterschiedliche Ribosebausteine in Kombination tolerieren. Da exogene RNA schnell von Exonukleasen abgebaut und somit unwirksam wird, werden zahlreiche stabilisierende Anpassungen an synthetischen RNAs vorgenommen. Zu den häufigsten zählen Phosphorthioate und Modifikationen der Ribose. Mit der erfolgreichen Modifikation der chimären Oligonukleotide eröffnet die erarbeitete Methode einen wichtigen Zugang zu therapeutisch interessanten Oligonukleotiden. Ein weiterer wichtiger Schritt in Richtung biologisch relevanter Anwendungsmöglichkeiten konnte mit der Synthese, Charakterisierung und Umsetzung eines DEACM-geschützten Uridin-3‘,5‘-Bisphosphates (pUDEACMp) errungen werden. Im Vergleich zur verwendeten NPE-Schutzgruppe ist das Absorptionsspektrum der DEACM-Schutzgruppe bathochrom-verschoben, was eine Abspaltung mit Wellenlängen > 400 nm erlaubt. Dadurch können Zellschäden vermieden und Oligonukleotide mit NPE- und DEACM-Modifikation wellenlängenselektiv angesprochen werden...