Síntese e estrutura do peptídeo antimicrobiano Pantinina-3 e de seus análogos /

Conceição, Milena Barbosa da.

January 2018

Orientador: Reinaldo Marchetto / Coorientador: Edson Crusca Junior / Banca: Saulo Santesso Garrido / Banca: José Luiz de Souza Lopes / Resumo: O peptídeo antimicrobiano Pantinina-3 (P3) possui 13 resíduos e é derivado do veneno do escorpião africano Pandinus imperator. Ele apresenta alta atividade antimicrobiana contra bactérias Gram-positivas, principalmente Enterococcus resistente à vancomicina (VRE-S13) in vitro. Entretanto, este peptídeo também possui atividade hemolítica. Neste contexto, foram desenhados e sintetizados cinco análogos de P3 a partir de substituições pontuais de resíduos específicos por um resíduo de lisina, os quais foram denominados L2K, I5K, N7K, I9K e L13K. O objetivo da criação destes análogos foi estudar a relação de estrutura e atividade do peptídeo P3, a fim de investigar o efeito da modificação de suas características biofísicas em sua atividade biológica. Para isso, os peptídeos foram sintetizados por meio da técnica de síntese em fase sólida (SPFS), purificados por cromatografia líquida de alta eficiência em coluna de fase reversa (CLAE-FR) e identificados por espectrometria de massas (SM). Os peptídeos purificados foram testados quanto à sua atividade biológica e foi verificado que o análogo L2K apresentou atividade somente para a bactéria Gram-negativa testada, o análogo N7K mostrou ser mais ativo que P3 tanto para Gram-positivas quanto para Gram-negativas e os outros análogos não apresentaram atividade antimicrobiana. Foi avaliada também a atividade hemolítica dos peptídeos, e foi verificado que o único análogo que apresentou atividade contra eritrócitos foi N7K. A hidrofobicidade d... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The antimicrobial peptide Pantinin-3 (P3) has 13 residues and is derived from the venom of the African scorpion Pandinus imperator. It has high antimicrobial activity against Gram-positive bacteria, mainly vancomycin-resistant Enterococcus (VRE-S13) in vitro. However, this peptide also has hemolytic activity. In this context, five P3 analogs were designed and synthesized from point substitutions of specific residues by a lysine residue, which were named L2K, I5K, N7K, I9K and L13K. The objective of the creation of these analogues was to study the structure and activity relationship of the P3 peptide in order to investigate the effect of the modification of its biophysical characteristics on its biological activity. For this, the peptides were synthesized using the solid-phase peptide synthesis technique (SPPS), purified by high performance liquid chromatography on a reverse phase column (HPLC-RF) and identified by mass spectrometry (MS). The purified peptides were tested for their biological activity and it was found that the L2K analog showed activity only for the Gram-negative bacteria tested, the N7K analog showed to be more active than P3 for both Gram-positive and Gram-negative and the others did not present antimicrobial activity. The hemolytic activity of the peptides was also evaluated, and it was verified that the only analog that showed activity against erythrocytes was N7K. The hydrophobicity of the peptides was analyzed by the retention time obtained by HPLC-RF an... (Complete abstract click electronic access below) / Mestre

Peptídeos catiônicos antimicrobianos.

Espectroscopia de fluorescencia.

Dicroísmo circular.

Biofísica.

Peptídeos - Síntese.

Antimicrobial peptides.

Fluorescence spectroscopy.

Circular dichroism.

Membrane mimetics.

Membrane peptides.

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.

Characterisation of structure and stability differences between the C-lobes of human and P. falciparum calmodulin in the presence of calmidazolium

Blagojevic, Igor, Enockson, Klara, Miras Landelius, Marcus, Strid Holmertz, Ylva, Weinesson, Emelie, Örnelöw, Emma

January 2022

Malaria is a serious disease that can lead to fatal consequences if not treated. It is mainly spread via Plasmodium falciparum, a parasite carried by mosquitoes as host organisms. As a potential way of treating malaria, research is being done on possible inhibitors of calmodulin (CaM) in the parasite. CaM is a highly conserved protein found in all eukaryotes, and is important in many essential biochemical reactions. The potential inhibitor analysed in this study is calmidazolium (CZM). This study aims to characterise structure and stability differences between the C-lobes of human and P. falciparum CaM, while analysing the effect of the presence of CZM.  Previous studies have proven that CZM acts as an inhibitor to human CaM by binding to the C-lobe, with a dissociation constant in the nano molar range. In other studies, thermal stability measurements have shown that the secondary structure of P. falciparum CaM is more stable than that of human CaM.  In this study, the stability measurements showed that for the ANS binding site and around tyrosines, the C-lobe of human CaM was more stable than the C-lobe of P. falciparum CaM, knowledge which was previously unknown. When studying the entire secondary structure, the C-lobe of P. falciparum CaM was found to be more stable, which is in agreement with previous studies for the secondary structure of the complete CaM variants. For binding, the dissociation constants for both the C-lobe of human CaM and for the C-lobe of P. falciparum CaM were proven to be at a lower range than micro molar, most likely in the nano molar range. This is in agreement with earlier findings regarding the entire human CaM. Furthermore, CaM and CZM were proven to have their absorbance at the same wavelengths. Finally, several amino acid differences between the C-lobes of human and P. falciparum CaM were found that could play a role in binding and stability. One specific amino acid that was suggested to contribute to the stabilisation of the C-lobe of P. falciparum CaM was isoleucine. In the C-lobe of human CaM, these isoleucines were exchanged to threonine and arginine. Another amino acid difference that could potentially play a key role was the valine versus isoleucine, where valine might contribute to the stabilisation of the ANS binding site of the C-lobe of human CaM. To perform this study, the methods fluorescence spectroscopy, UV spectroscopy and circular dichroism were used, as well as several bioinformatic tools.  Overall, both stability and structure analyses have helped determine several differences between the two CaM variants, opening up possibilities to find an inhibitor that targets only the CaM of P. falciparum. CZM still remains as an interesting potential inhibitor, and can hopefully be a part of future research in malaria treatment.

Calmodulin

Calmidazolium

Plasmodium falciparum

Malaria

Fluorescence spectroscopy

UV spectroscopy

CD

Circular dichroism

bioinformatics

Biological Sciences

Biologiska vetenskaper

Synthesis of Novel π-Conjugated Compounds Based on Tetrasubstituted [2.2]Paracyclophane / 四置換シクロファンを基軸とした新規共役系化合物の創成

Gon, Masayuki

25 January 2016

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19406号 / 工博第4122号 / 新制||工||1635(附属図書館) / 32431 / 京都大学大学院工学研究科高分子化学専攻 / (主査)教授 中條 善樹, 教授 澤本 光男, 教授 赤木 和夫 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Conjugated compound

[2.2]Paracyclophane

Through-space conjugation

Conjugated microporous polymer

Planar chirality

Circular dichroism

Circularly polarized luminescence

500

Characterization of Azobenzene Derivatives with Respect to Photoswitching and Aggregation Properties

Day, Aaron M.

January 2020

No description available.

Chemistry

Organic Chemistry

supramolecular aggregation

azobenzene

photoswitches

photoswitching aggregates

UV-Vis spectroscopy

circular dichroism spectroscopy

azobenzene derivatives

Spectroscopic Studies of Proteins in Alkylammonium Formate Ionic Liquids

Wei, Wenjun

23 April 2009

No description available.

Analytical Chemistry

ionic liquids

alkylammonium formate

MAF

EAF

circular dichroism

fluorescence

cytochrome c

lysozyme

human serum albumin

hexokinase

spectroscopy

STRUCTURAL AND FUNCTIONAL ALTERATION OF FULL LENGTH PPARα AND LXRα BY FATTY ACIDS AND THEIR THIOESTERS

Balanarasimha, Madhumitha

January 2011

No description available.

Biochemistry

Molecular Biology

PPAR&945

, LXR&945

Membrane binding properties of Disabled-2

Alajlouni, Ruba

10 May 2011

Disabled-2 (Dab2) is an adapter protein that interacts with cell membranes and it is involved in several biological processes including endocytosis and platelet aggregation. During endocytosis, the Dab2 phosphotyrosine-binding (PTB) domain mediates protein binding to phosphatidylinositol 4,5-bisphosphate (PIP2) at the inner leaflet of the plasma membrane and helps co-localization with clathrin coats. Dab2, released from platelet alpha granules, inhibits platelet aggregation by binding to the °IIb? integrin receptor on the platelet surface through an Arg-Gly-Asp (RGD) motif located within the PTB domain. Alternatively, Dab2 binds sulfatides on the platelets surface, and this binding partition Dab2 in two pools (sulfatide and integrin receptor-bound states), but the biological consequences of lipid binding remain unclear. Dab2 binds sulfatides through two basic motifs located on its N-terminal region including the PTB domain (N-PTB). We have characterized the binding of Dab2 to micelles, which are widely used to mimic biological membranes. These micellar interactions were studied in the absence and presence of Dab2 lipid ligands, sulfatides and PIP2. By applying multiple biochemical, biophysical, and structural techniques, we found that whereas Dab2 N-PTB binding to PIP2 stabilized the protein but did not contribute to the penetration of the protein into micelles, sulfatides induced conformational changes and facilitated penetration of Dab2 N-PTB into micelles. This is in agreement with previous observation that sulfatides, but not PIP2, protect Dab2 N-PTB from thrombin cleavage. By studying the mechanism by which Dab2 targets membranes, we will have the opportunity to manipulate its function in different lipid-dependent biological processes. / Master of Science

5-bisphosphate

Circular Dichroism

Micelles

Sulfatide

Tryptophan Fluorescence

Disabled-2

Nuclear Magnetic Resonance

Phosphatidylinositol 4

Acrylamide quenching

A study of magnetic properties of hard and soft magnetic materials by Lorentz transmission electron microscopy and magnetic x-ray circular dichroism

Pickford, Rachael Anne

January 2001

No description available.

530.41

Surface studies of magnetic thin films

Zeybek, Orhan

January 2000

No description available.

530.41