Synthesis of β,γ-diamino acids and their use to design new analogues of the antimicrobial peptide Gramicidin Septide antimicrobien, la Gramicidine S / Synthèse d'acidesβ,γ -diaminés et leur utilisation pour concevoir de nouveaux analogues d‟un peptide antimicrobien, la Gramicidine S

Wan, Yang

21 November 2017

Dans notre groupe, nous nous intéressons au développement de peptides contenant des acides γ-aminés. Comme d’autres peptides contenant des acides aminés non naturels, ils ont montré leur capacité à posséder des conformations stables et/ou des propriétés biologiques intéressantes. De plus, ces peptides sont généralement résistant à la protéolyse. Dans l’objectif de synthétiser des acides -diaminés sous la forme d’un seul stéréoisomère, nous avons développé une voie de synthèse reposant sur une réaction de Blaise suivie d’une réduction diastéréosélective. En appliquant cette méthode, nous avons synthétisé des acides β,γ-diaminés dérivés de la D-phénylalanine et de l’acide L-glutamique. Le premier a été utilisé pour concevoir des analogues d’un peptide antimicrobien, la gramicidine S. Comparé à la molécule parent, les analogues ont montré une cytotoxicité beaucoup moins importante pour les cellules hôtes tout en conservant une activité antibactérienne intéressante. Cette étude nous a donné de meilleures connaissances pour développer d’autres analogues de la gramicidine S ainsi que d’autres peptides antimicrobiens. Nous avons également effectué de nombreuses optimisations pour synthétiser de façon efficace des acides β,γ-diaminés cycliques à partir de l’acide L-glutamique. Les oligomères incorporant ces acides β,γ-diaminés et des acides α-aminés ont montré un fort potentiel pour l’adoption de conformations stables. Ces études vont être poursuivies. / In our group, we are interested in developing peptides containing β,γ-diamino acids . Along with many other peptides containing unnatural amino acids, they have shown the ability to possess stable conformations and/or interesting biological activities. Moreover, those peptides are usually more resistant to proteolysis. In order to synthesize stereopure γ-amino acids, we have developed a synthetic route using Blaise reaction and subsequent diastereoselective reduction as key reactions. Through applying this method, we have synthesized β,γ-diamino acids derived from D-phenylalanine and L-glutamic acid. The former β,γ-diamino acid was used for designing antimicrobial peptide gramicidin S analogues. Compared with mother molecule, the analogues exerted much less host cell cytotoxicity while remaining interesting antibacterial activity. Meanwhile, it gave us more knowledge for further developing analogues of gramicidin S as well as other antimicrobial peptides. We also paid lots of effort to efficiently synthesize cyclic β,γ-diamino acids starting from L-glutamic acid. Interestingly, when oligomers incorporating this β,γ-diamino acids and α-amino acids, they have shown the potential to adopt stable conformations. The following studies will be continuously investigated.

D’acides bêta.gamma-Diaminés

Gramicidine S

Peptide antimicrobien

Foldamère

Étude conformationnelle

Beta;gamma-Amino Acid

Gramicidin S

Antimicrobial peptide

Foldamer

Conformational study

Fluorinated Peptidomimetics : Synthesis, Conformational Studies and Evaluation as Amyloid Proteins Aggregation Modulators / eptidomimétiques Fluorés : synthèse, études conformationnelles et évaluation comme modulateurs de l'agrégation de protéines amyloïdes

Xu, Yaochun

12 December 2016

La maladie d'Alzheimer représente un défi mondial pour la société. Il n'y a pas à ce jour de traitement efficace pour traiter ou ralentir les symptômes de la maladie d'Alzheimer. Cette maladie est caractérisée par une perte de synapses, une augmentation du nombre de plaques extracellulaires d'Abêta et une augmentation de Tau hyperphosphorylée agrégée intracellulaire (neurodégénérescence fibrillaire). Il est communément admis que la maladie d'Alzheimer est principalement liée à l’oligomérisation et à la fibrillation de peptides amyloïdes bêta, et que les oligomères Abêta solubles et les fibres sont des espèces neurotoxiques. Une stratégie pour réduire la présence de ces espèces toxiques de Abêta est l'utilisation de peptides ou de peptidomimétiques pour inhiber l'agrégation de Abêta, soit par interaction avec les oligomères d'Abêta pour empêcher davantage son agrégation en fibres ou en stabilisant les conformations hélicoïdales transitoires de Abêta pour empêcher sa transition vers des structures en feuillets bêta. Dans un premier temps, sur la base des résultats encourageants de glycopeptides contenant un élément polaire casseur de feuillets bêta pour moduler l'agrégation du peptide Abêta, et des propriétés uniques du groupe trifluoromethylhydroxyle, nous avons conçu et synthétisé des mimes de pentapeptides contenant la séquence (Boc) Ala-Val-X-Val-Leu-OMe (X = Ser, Thr, (2S, 3R)-CF3 Thr et (2S, 3S)-CF3 Thr), pour interagir avec le site de nucléation du peptide Abêta dans sa forme monomérique ou oligomérique de manière à perturber l'auto-assemblage en oligomères toxiques. Des études conformationnelles par RMN 2D et par modélisation moléculaire ont indiqué que ces peptides adoptent des conformations étendues dans des solvants polaires (eau et méthanol). Nous avons constaté expérimentalement et théoriquement que les pentapeptides contenant l’acide aminé non naturel (2S, 3S)-CF3-thréonine sont plus étendus que les pentapeptides contenant les acides aminés naturels L-sérine et L-thréonine. Nous avons également observé que les pentapeptides (2S, 3S)-CF3-Thr ont une propension à s’auto-associer en formant des brins bêta intermoléculaires. La capacité de ces pentapeptides à inhiber la formation de fibres amyloïdes a été évaluée sur les peptides Abêta 1-42 et IAPP (impliqué dans le diabète de type II) par des essais de fluorescence à la thioflavine T (ThT). Il a été constaté qu'aucun de ces pentapeptides ont un effet d'inhibition de l'agrégation des peptides Abêta 1-42 et IAPP. Au contraire, certains composés ont montré un effet d'accélération de l'agrégation de IAPP. Accélérer l'agrégation est moins intuitif mais cette stratégie a plus récemment suscité un intérêt. Il pourrait être intéressant d'étudier plus en détail l’intérêt de cette accélération de l'agrégation de IAPP par des techniques complémentaires.Dans une deuxième partie de cette thèse, nous avons assemblé une unité amino acide basée sur un motif CF3-1,4 disubstituted-1,2,3-triazole en homo-oligomères (trimères et tétramères) et en peptidomimétiques. Des études conformationnelles de ces oligomères fluorés ont été menées par RMN 2D et par des simulations de modélisation moléculaire. Nos études préliminaires de modélisation moléculaire prévoient des structures hélicoïdales avec des trimères et des tétramères d'acides aminés à base de ces CF3-triazoles. L'analyse par RMN 2D du tétramère affiche des corrélations NOE très intéressantes, ce qui indique une structure repliée. La capacité de ces oligomères fluorés à moduler la formation de fibres amyloïdes des peptides Abêta 1-42 et IAPP a été évaluée par test de fluorescence à la ThT. Nous avons constaté que le trimère est un faible inhibiteur de l'agrégation de Abêta 1-42, mais aussi un promoteur d'agrégation de IAPP. Le tétramère a été trouvé capable de moduler l'agrégation de Abêta 1-42 et de IAPP, mais non d'une manière classique d'inhibition ou de promotion. / It has been widely recognized that Alzheimer’s disease (AD) represents an unsettling, worldwide challenge for society. By far, there has been no effective cure for AD. Pathologically, AD is characterized by a loss of synapses, an increase in the number of extracellular Abeta plaques and an increase in intracellular aggregated hyperphosphorylated Tau (neurofibrillary tangles). It is commonly believed that AD is primarily linked to oligomerization and fibrillization of amyloid beta peptides, and the soluble Abeta oligomers and fibrils are neurotoxic species.One strategy to reduce the Abeta fibrils is the use of peptides or peptidomimetics to inhibit the Abeta aggregation either by interaction with the Abeta oligomers to prevent its further aggregation into fibrils, or by stabilizing the transient Abeta α-helical conformations to prevent its transition to beta-sheet structures.In the first direction, based on the encouraging results of the glycopeptides containing the polar sugar beta-sheet breaker element to modulate Abeta peptide aggregation and the unique properties of trifluoromethylhydroxyl group, we designed and synthesized pentapeptide mimics with the sequence (Boc) Ala-Val-X-Val-Leu-OMe (X = Ser, Thr, (2S, 3R)-CF3-Thr and (2S, 3S)-CF3-Thr) to interact with the nucleation site of Abeta peptide in its monomeric or oligomeric form so as to disrupt the self-assembly into toxic oligomeric form. Both 2D NMR and molecular modelling studies indicated that these peptides in polar solvent (water and methanol) adopt mainly extended backbone conformations. It is found both experimentally and theoretically that, the (2S, 3S)-CF3-threonine-containing pentapeptides are more extended than the L-serine- and L- threonine-containing pentapeptides. It is also observed that the (2S, 3S)-CF3-Thr pentapeptides have a propensity to self-associate of by forming intermolecular beta-strand contacts. The ability of these pentapeptides to inhibit amyloid fibril formation was evaluated on Abeta1-42 and IAPP peptides by ThT fluorescence assay. It was found that none of these pentapeptides have any inhibition effect in Abeta1-42 peptide and IAPP aggregation. On the contrary, some compounds showed an acceleration effect in IAPP aggregation. Accelerating the aggregation pathways is less intuitive but this strategy has more recently aroused interest. It could be interesting to further study the effect of accelerating IAPP aggregation by complementary techniques.In the other direction, we have assembled novel a CF3-1,4-triazole-based amino acid mimic into homo-oligomers (trimer and tetramer) and peptidomimetics. The fluorinated oligomers were investigated both by NMR conformational studies and molecular modelling simulations. Our preliminary modelling studies predict helical structures with trimer and tetramers of CF3-1,4-disubstituted- 1,2,3- triazole-based amino acid. NMR analysis of tetramer displayed very interesting NOE correlations, indicating a folded structure. The ability of these fluorinated oligomers to modulate the amyloid fibril formation of Abeta1-42 and IAPP peptides were evaluated by ThT fluorescence assay. It was found that trimer was a weak inhibitor of Abeta1-42 aggregation but also a promoter of IAPP aggregation. The tetramer was found able to modulate the aggregation of Abeta1-42 and IAPP but not in a classical inhibition or promotion manner.

Peptidomimétiques fluorés

Modélisation moléculaire

Rmn

Études conformationnelles

Peptide amyloïde bêta 1-42

Iapp

Fluorinated peptidomimetic

Molecular modelling

Nmr

Conformational study

A beta 1-42 peptide

Iapp

Ultraviolet and Infrared Spectroscopy of Synthetic Peptides and Natural Products in the Gas Phase

Karl Blodgett (8775833)

29 April 2020

<p>The hydrogen bond is one of nature’s ubiquitous molecular interactions. Its role ranges from that of a static provider of structural integrity in proteins to that of a dynamic coordinate, along which excited state deactivation in sunscreen molecules is achieved. The work in this dissertation employs a supersonic expansion to collisionally cool peptide oligomers and a sunscreen chromophore to the zero-point vibrational level of their low lying conformational minima. These species are interrogated using high-resolution, conformer-specific ultraviolet and infrared laser spectroscopic techniques with the aim of elucidating their intrinsic conformational preferences, hydrogen bonding networks, and excited state deactivation mechanisms.</p><p>Synthetic foldamers are oligomers composed of non-natural building blocks, such as b- and g-amino acids. Incorporation of such residues into a peptide backbone results in secondary and tertiary structures that are distinct from those found in nature. Herein, the folding propensity of a series of mixed a/b and pure b-peptides is presented. In each case, both the left- and right-handed emergence of mixed-helical secondary structures, the 11/9- and the 12/10-helix, are observed. Next, the intrinsic conformational preferences of a series of increasingly complex asparagine-containing peptides are characterized. Asparagine, with its flexible carboxamide sidechain, is omnipresent within the prion forming domain of the misfolded proteins associated with several neurodegenerative diseases. Asparagine’s propensity for b-turn structures is discussed and compared with that of analogous peptide sequences found in nature.</p><p>Methyl anthranilate is a natural product that contains an identical electronic chromophore to the sunscreen agent, meradimate. The excited state deactivation mechanism of methyl anthranilate and its water complex is determined with extensive ultraviolet spectroscopic characterization, and is discussed within the broader context of its role as a sunscreen agent. Vibronic analysis coupled with computational results indicate extensive heavy-atom rearrangement leading to hydrogen atom dislocation, rather than full transfer, on the S₁ surface. This phenomenon is further characterized with infrared spectroscopy and theoretical modeling, in which the NH stretch is adiabatically separated from other internal coordinates. Extensive dilution of the dislocated NH stretch oscillator strength over many transitions and ~1,300 cm^-1 is predicted. These results may have implications for similar molecules, such as salicylic acid and its derivatives.</p>

laser spectroscopy

conformational isomers

foldamers

mixed helix

methyl anthranilate

peptide spectroscopy

complexity gap

secondary structure

physical chemistry

hydrogen atom dislocation

Teorie a aplikace optických spektroskopických metod pro strukturní studie molekul / Theory and application of optical spectroscopic methods for structural molecular studies

Hudecová, Jana

January 2018

Title: Theory and application of optical spectroscopic methods for structural molecular studies Author: RNDr. Jana Hudecová Department / Institute: Institute of Organic Chemistry and Biochemistry Supervisor of the doctoral thesis: Prof. RNDr. Petr Bouř, DSc. Abstract: In the thesis, methods of the chiroptical spectroscopy (Raman optical activity, electronic and vibrational circular dichroism, circularly polarized luminescence) were utilized to obtain information on structure of chiral molecules. In four main projects, we focused on improving accuracy of quantum-chemical computations used for interpretation of experimental spectra by including anharmonic effects, solvent, molecular flexibility and dynamics. In the first project, the normal mode geometry optimization method was investigated and a suitable frequency limit providing realistic vibrational band broadening was found. Then the ability of harmonic and anharmonic computational approaches to describe the C-H stretching vibrations was explored for three terpene molecules and four spectroscopic methods. In the third project, we estimated the role of dispersion forces and different organic solvents for conformer equilibria and dynamics of cyclic dipeptides containing tryptophan. In the last project, circularly polarized luminiscence spectra, which were...

Studium konformačního chování krátkých peptidových fragmentů metodami kvantové chemie / Conformational Behaviour of Small Peptide Fragments Studied by the Quantum Chemical Methods

Kalvoda, Tadeáš

January 2020

To what extent conformational preference of short peptide sequences within proteins determine their three-dimensional structure? Large-scale quantum chemical calculations coupled with modern solvation methods represent unique set of tools to elucidate key determinants of the biomolecular structure ab initio. Full conformational sampling was performed on model systems representing short peptide fragments. The computed data reveal some of the underlying physico-chemical principles determining the spatial structure of proteins, and provide very important data for finding and tuning the optimal algorithm that may provide a full coverage of (ideally all) low-energy conformers. Keywords: Conformational space, peptide fragments, protein structure, solvation methods, Ramachandran plot, DFT-D3 methods

Molekulové mechanismy homocystinurie: prostorové uspořádání lidské cystathionin β-synthasy / Molecular mechanisms in homocystinuria: spatial arrangement of human cystathionine β-synthase

Hnízda, Aleš

January 2012

Protein misfolding is considered to be the major pathogenic mechanism in homocystinuria due to cystathionine beta-synthase (CBS) deficiency. The aim of this work was to study molecular mechanisms underlying protein misfolding of CBS mutants. Firstly, we studied spatial arrangement of normal human CBS protein. Using data from differential covalent labeling of solvent-exposed aminoacid residues, we identified interdomain contact area between the catalytic core and the regulatory domain in human CBS, and we subsequently generated the structural model of the full-length CBS. In the next step, we studied evolutionary divergence of CBS protein structures. We performed phylogenetic analysis that revealed unique spatial arrangement of CBS enzyme in nematodes; the domain architecture of CBS in Caenorhabditis elegans was studied experimentally in more detail. Finally, we determined conformational properties of a representative set of human CBS mutants that exhibited in various extent affected formation of tetramers and decreased catalytic activity. Using thermolysin-based proteolytic techniques for analysis of nine mutants expressed in E.coli, we found that an unfolded structure is a common intermediate occurring in CBS misfolding. The importance of protein unfolding for pathogenesis of CBS deficiency was...

DETERMINATION OF THE STRUCTURE AND SEQUENCE OF GAS-PHASE PEPTIDES USING SPECTROSCOPIC AND MASS SPECTROMETRIC METHODS

Joshua L Fischer (11115042)

22 July 2021

The function of many biological processes depends on the structure and composition of the biomolecules involved. Both spectroscopy and mass spectrometry provide complimentary information regarding the three-dimensional conformation and the composition, respectively, as well as many other things. Here, double resonance conformer specific spectroscopy coupled with the latest ab inito computational methods is used to make structural assignments at the atomic resolution as well obtain information regarding propensities of intramolecular interactions. Additionally, rapid cooling in conjunction with IR excitation to modulate and measure the relative populations of conformers present in the expansion. Two different designer peptide systems are studied, including an achiral acylated 𝛼-aminoisobutryic acid dipeptide (Ac-AIB2-R) with various C-terminal protecting groups (R=NHBn, NHBnF, 𝛼-methylbenzylamine) and an acylated 𝛾4-phenylalanine (Ac-𝛾4Phe-NHMe) with the a methyl amine C-terminal protecting group. Mass spectrometry is used to determine the kinetics of gas-phase covalent tagging reactions used to enhance the sequence coverage. The covalent modification reactions utilize click chemistry between NHS or HOBt substituted sulfobenzoic acid tags with nucleophiles present on the residues of the amino acids composing the backbone. Effective temperatures are approximated using the Tolmachev model, which relates the statistical average internal energy of the molecule to a temperature.

Analytical Spectrometry

spectroscopy characterizations

Conformational Analyses

Mass Spectrometric Analysis

Reaction Kinetics

chemistry

Determining Protein Conformational Ensembles by Combining Machine Learning and SAXS / Bestämning av konformationsensembler hos protein genom att kombinera maskininlärning med SAXS

Eriksson Lidbrink, Samuel

January 2023

In structural biology, immense effort has been put into discovering functionally relevant atomic resolution protein structures. Still, most experimental, computational and machine learning-based methods alone struggle to capture all the functionally relevant states of many proteins without very involved and system-specific techniques. In this thesis, I propose a new broadly applicable method for determining an ensemble of functionally relevant protein structures. The method consists of (1) generating multiple protein structures from AlphaFold2 by stochastic subsampling of the multiple sequence alignment (MSA) depth, (2) screening these structures using small-angle X-ray scattering (SAXS) data and a structure validation scoring tool, (3) simulating the screened conformers using short molecular dynamics (MD) simulations and (4) refining the ensemble of simulated structures by reweighting it against SAXS data using a bayesian maximum entropy (BME) approach. I apply the method to the T-cell intracellular antigen-1 (TIA-1) protein and find that the generated ensemble is in good agreement with the SAXS data it is fitted to, in contrast to the original set of conformations from AF2. Additionally, the predicted radius of gyration is much more consistent with the experimental value than what is predicted from a 450 ns long MD simulation starting from a single structure. Finally, I cross-validate my findings against small-angle neutron scattering (SANS) data and find that the method-generated ensemble, although not in a perfect way, fits some of the SANS data much better than the ensemble from the long MD simulation. Since the method is fairly automatic, I argue that it could be used by non-experts in MD simulations and also in combination with more advanced methods for more accurate results. I also propose generalisations of the method by tuning it to different biological systems, by using other AI-based methods or a different type of experimental data. / Inom strukturbiologi har ett stort arbete lagts på att bestämma funktionellt relevanta proteinstrukturer på atomnivå. Dock så har de flesta experimentella, simuleringsbaserade och maskinlärningsbaserade metoderna svårigheter med att ensamma bestämma alla funktionellt relevanta strukturer utan väldigt involverade och system-specifika tekniker. I den här masteruppsatsen föreslår jag en ny allmänt applicerbar metod för att bestämma ensembler av funktionellt relevanta proteinstrukturer. Metoden består utav (1) generering av ett flertal proteinkonformationer från AlphaFold2 (AF2) genom att stokastiskt subsampla djupet för multisekvenslinjering, (2) välja ut en delmängd av dessa konformationer med hjälp av small angle X-ray scattering (SAXS) och ett strukturvalideringsverktyg, (3) simulera de utvlada konformationerna med hjälp av korta molekyldynamiksimuleringar (MD-simuleringar) och (4) förfina ensemblen av simulerade konformationer genom att vikta om dem utgående från SAXS-data med en Bayesian Maximum Entropy-metod. Jag applicerar min föreslagna metod på proteinet T-cell intracellular antigen-1 och finner att den genererade ensemblen har en god anpassning till den SAXS-profil den är anpassad till, till skillnad från ensemblen av konformationer direkt genererade av AF2. Dessutom är den förutspådda tröghetsradien mycket mer konsekvent med den experimentellt förutspådda radien än vad som förutspås utifrån en 450 ns lång MD-simulering utgående från en ensam struktur. Slutgiltigen korsvaliderar jag mina upptäckter mot data från small-angle neutron scattering (SANS) och finner att den metod-genererade ensemblen, om än inte på ett perfekt sätt, passar en del av SANS-datan mycket bättre än ensemblen från den långa MD simulationen. Då metoden är ganska automatisk så argumenterar jag för att den med fördel kan användas av icke-experter inom MD simuleringar och dessutom kombineras med mer avancerade metoder för ännu bättre resultat. Jag föreslår också generaliseringar av metoden genom att kunna anpassa den till olika biologiska system, genom att använda andra AI-baserade metoder eller att använda andra typer av experimentell data.

AlphaFold

AlphaFold2

SAXS

protein conformational ensembles

machine learning

protein conformations

reweighting

SAXS

AlphaFold

AlphaFold2

proteinkonformationsensembler

maskininlärning

proteinkonformationer

omviktning

Physical Sciences

Fysik

A Study of Weak Noncovalent Interactions

Xue, Xiaowen

20 September 2005

No description available.

Chemistry, Organic

Weak noncovalent interaction

pi-pi interaction

lone pair-pi interaction

C-H...O hydrogen bonding

conformational equilibrium reporter

VT NMR

Mutant Rhodopsins in Autosomal Dominant Retinitis Pigmentosa Display Variable Aggregation Properties

Gragg, Megan Ellen

31 May 2018

No description available.

Molecular Biology

Biochemistry

rhodopsin

retinitis pigmentosa

fluorescence resonance energy transfer

aggregation

retinal degeneration

G-protein coupled receptor

protein misfolding

conformational disease

membrane protein

protein structure

oligomerization