Elektrophysiologische Charakterisierung der Proteintranslokationsporen der Äußeren Mitochondrienmembran

Becker, Lars

07 July 2008

In der vorliegenden Arbeit konnte am rekombinanten Tom40 aus Neurospora crassa und aus Saccharomyces cerevisiae gezeigt werden, dass in beiden Spezies ein einziges Tom40-Molekül in der Lage ist ein membrandurchspannendes Beta-Barrel Protein aus 16 transmembranen Beta-Strängen auszubilden. Tom40 aus beiden Spezies bildet einen kationenselektiven Kanal dessen charakteristischer Hauptleitwert eine gute Übereinstimmung zu publizierten Werten zeigt und genau einer porenbildenden Einheit im TOM-Komplex entspricht. Ein generell unterschiedliches Verhalten von Tom40 durch eine Fehlfaltung des zuvor denaturierten Proteins, kann also ausgeschlossen werden. Der Kanal interagiert seitenabhängig mit aminoterminalen mitochondrialen Präsequenzen. Die Spezifität der Wechselwirkung mit Tom40 ist jedoch geringer als die mit dem TOM-Komplex. In elektrophysiologischen Untersuchungen des SAM-Komplexes aus Saccharomyces cerevisiae konnte gezeigt werden, dass Sam50 die charakteristische porenbildende Einheit im Komplex darstellt. Sam50 aus Saccharomyces cerevisiae und Homo sapiens bilden kationenselektive Kanäle, wobei der Hauptleitwert im humanen Protein signifikant größer als im Hefe-Protein ist. Der evolutiv konservierte C-Terminus von Sam50 reicht hierbei aus diese Pore zu bilden, ist aber im Vergleich zum Volllängenprotein stark im Schaltverhalten beeinträchtigt. Die elektrophysiologischen Eigenschaften von Sam50, spiegeln exemplarisch die Werte verwandter Poren der Omp85-Familie wider. Der Sam50-Kanal wird im SAM-Komplex durch die ebenfalls essenzielle Komponente Sam35 reguliert. Es konnte gezeigt werden, dass sich durch eine Interaktion von Sam35-Protein mit einem konservierten Beta-Signalpeptid der Komplex in einen aktiven Zustand größerer Leitfähigkeit überführen lässt, der sich durch ein dynamisches Schaltverhalten und das Auftreten multipler Leitwerte auszeichnet, wobei im Komplex mehrere Porenproteine am Stromfluss beteiligt sind.

Proteintransport

Mitochondrien

Circular Dichroismus

Porin

Ionenkanäle

Elektrophysiologie

32 - Biologie

ddc:570

Teorie a aplikace optické aktivity biomolekul / Theory and applications of optical activity of biomolecules

Krupová, Monika

January 2021

Title: Theory and Applications of Optical Activity of Biomolecules Author: Monika Krupová Supervisor: prof. RNDr. Petr Bouř, DSc. Institutions: Faculty of Mathematics and Physics, Charles University, and Institute of Organic Chemistry and Biochemistry, Academy of Sciences of the Czech Republic Abstract: This thesis describes how we used several chiroptical spectroscopic methods to study chiral molecules: vibrational circular dichroism (VCD), circularly polarized luminescence (CPL) and magnetic circular dichroism (MCD). VCD and induced lanthanide CPL were used to study the structure of amyloid protein fibrils. We found out that VCD is very sensitive to their structure and supramolecular chirality. It could be used to distinguish between various polymorphic fibrils. On the other hand, induced lanthanide CPL provided information on the local structure. VCD was also used to study the hydration polymorphism of nucleoside crystals. Due to the crystal packing, the VCD signal was strong and specific for different types of crystals. Finally, electronic structure of hydrated Ln3+ ions was studied by MCD. Molecular dynamics simulations together with crystal field theory (CFT) and multistate complete active space calculations with second order perturbation correction (MS-CASPT2) were used to interpret the spectra. CFT...

Simulace procesů v buněčných membránách / Simulation of processes in cellular membranes

Timr, Štěpán

January 2013

Probing orientations of fluorescent molecules embedded in or attached to cell membranes has a great potential to reveal information on membrane structure and processes occurring in living cells. In this thesis, we first describe one- and two-photon linear dichroism measurements on a fluorescent probe embedded in a phospholipid membrane with a well- defined lipid composition. On the basis of experimental data, we determine the distribution of the angle between the one-photon transition dipole moment of the probe and the membrane normal. At the same time, we perform molecular dynamics simulations of the fluorescent probe and quantum calculations of its one-photon and two-photon absorption properties. By comparing the orientational distribution gained from experiments with that predicted by simulations, we test the ability of linear dichroism measurements to report on the orientation of a fluorescent molecule in a lipid membrane. We also examine the applicability of molecular simulations as a basis for the interpretation of experimental data.

Studium magneticky uspořádaných materiálů pomocí optické spektroskopie / Investigation of magnetically-ordered materials by optical spectroscopy

Saidl, Vít

January 2013

In this work we study thin epilayers of new antiferromagnetic semimetal CuMnAs by time- resolved magneto-optical experiments. In 10 nm layers of CuMnAs, we observed a harmonic dependence of the dynamical magneto-optical signal on the orientation of probe pulse linear polarization. This shows that in this 10 nm layer there is an in-plane uniaxial magnetic anisotropy which can be detected due to a quadratic magneto-optical effect - magnetic linear dichroism. From the measured data we also estimated the Néel temperature and the spectral variation of the magneto-optical coefficient describing the magnitude of the magnetic linear dichroism in this sample.

Charakterizace sekundární struktury polyproline I pomocí metod vibrační a chiroptické spektroskopie a kvantově mechanických simulací / Characterisation of polyproline I secondary structure by means of vibrational and chiroptical spectroscopy methods and quantum mechanical simulations

Vančura, Martin

January 2020

Our investigation was focused on a secondary protein structure called polyproline I. This helical structure has been known for a long time, but its occurrence and significance in nature is not yet fully known. In this thesis, we use Raman spectroscopy and chiral sensitive Raman optical activity. These methods are sensitive to the structure of proteins but are more informative and sensitive to the local arrangement than the commonly used ECD and UV absorption. We were able to obtain polyproline I Raman and ROA spectra that have not yet been published. We have described important differences between the spectra of polyproline I and II and observed the process of mutarotation. The experimental part of the work is supplemented by quantum chemistry calculations of spectra using the transfer of molecular property tensor. The calculated spectra corresponded very well with the experimental spectra.

Studium spinové polarizace pomocí laserové spektroskopie / Investigation of spin polarization by laser spectroscopy

Kuchařík, Jiří

January 2015

Spintronics is a new branch of electronics, which uses not only the charge of electron but also its spin for transfer and processing of information. For re- al applications it is necessary to understand, how the magnetic state of matter changes not only in time but also in space. This diploma thesis is therefore de- voted to the imaging of magnetic domains in ferromagnetic semiconductors by purely optical methods, which are based on the usage of the magneto-optical ef- fects. In first part of the thesis we concentrated on the optimalization of existing polarizing microscope, whose function is based solely on the polar Kerr effect. After the optimalization we try to use this setup to observe magnetic domains in ferromagnetic semiconductor GaMnAs by the means of the magnetic linear dichroism. 1

Laserová spektroskopie materiálů pro spintroniku / Laser spectroscopy of materials for spintronics

Brajer, Martin

January 2015

In these diploma thesis magnetically ordered materials are studied with the prospect of their application in spintronics. Specifically, we investigated metallic alloy FeRh, which undergoes a magnetic phase transition from antife- romagnetic phase to feromagnetic one around 100◦ C. This phenomenon can be readily used in memory devices. Laser spectroscopy is used as a nondestructive method without need of any electrical contacts. Magnetic properties of FeRh are studied by magnetooptical effects including quadratic magnetic linear dichroism. The measured polarization rotations are of the order of miliradians, therefore, the detection is realized by an optical bridge. At first, we concentrated on discrimina- ting of various magnetooptical effects from each other. The second part is focused on the phase transition induced by different means. Firstly, by heating the whole sample, secondly by illuminating the sample locally by continuous laser.

Studium komplexů lanthanoidů pomocí spektroskopických metod / Studies of Lanthanide Complexes by a Combination of Spectroscopic Methods

Krupová, Monika

January 2014

Studies of Lanthanide Complexes by a Combination of Spectroscopic Methods Monika Krupová (Department of Physical and Macromoecular Chemistry, Faculty of Science, Charles University in Prague) Since conventional structural analysis offers rather limited means for the chirality detection, a series of lanthanide tris-(β-diketonates) are investigated as effective receptors for a better chirality sensing in biomolecular substrates. These lanthanide complexes containing β-diketonate ligands are electrically neutral; they can further coordinate with various small organic molecules such as chiral alcohols, amino alcohols or amino acids in organic solvents and produce a strong chiral signal. Previously, a resonance in Raman scattering was observed in the studied systems due to the correspondence of europium electronic transition energy to the laser excitation wavelength, about a 100-fold signal enhancement if compared to non-resonant vibrational ROA was observed. This enabled shorter detection times as well as lower sample concentrations. In the current work, interaction of the Eu(FOD) complex with (R)- and (S)- enantiomer of 1-phenylethanol in n-hexane was studied using IR spectroscopy, Raman spectroscopy and Raman optical activity (ROA), UV-Vis spectroscopy and ultraviolet circular dichroism (UVCD). Only...

Charakterizace molekulárního složení genomu obaleče jablečného, \kur{Cydia pomonella}, s využitím reasociační kinetiky / Characterization of molecular composition of the codling moth (\kur{Cydia pomonella}) genome using reassociation kinetics

BLAŽKOVÁ, Barbora

January 2012

In this study, the reassociation kinetics of codling moth (Cydia pomonella) was performed in order to characterize the molecular composition of the codling moth (Cydia pomonella) genome and to isolate highly repetitive and unique DNA components. The effectivity of distinct repetitive DNA fractions as a specific competitor in fluerescence in situ hybridization was tested.

Vibrační optická aktivita biomolekul / Vibrational optical activity of biomolecules

Ješko, Eduard

January 2016

The thesis aims at the study of conformation of a dimethyl tartrate molecule using the methods of vibrational optical activity (VOA), namely vibrational circular dichroism (VCD) and Raman optical activity (ROA). Based on the theoretical background of both VOA methods and current state of research of the studied molecule there was a sample of dimethyl tartrate dissolved in different solvents and its properties were measured using VCD and ROA spectrometers. In addition to the experiment, ab initio calculations were carried out in order to compare calculated and experimental spectra. Based on the comparison, the possible conformations present in water solution of the studied molecule are described in detail.