Clustering of aqueous aminoacids and similar molecules in the presence of phospholipid monolayers
Agregace aminokyselin a podobných molekul v přítomnosti fosfolipidové monovrstvy
diploma thesis (DEFENDED)
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http://hdl.handle.net/20.500.11956/82926Identifiers
Study Information System: 162902
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- Kvalifikační práce [10691]
Author
Advisor
Consultant
Jungwirth, Pavel
Referee
Berka, Karel
Faculty / Institute
Faculty of Mathematics and Physics
Discipline
Biophysics and Chemical Physics
Department
Institute of Physics of Charles University
Date of defense
8. 9. 2016
Publisher
Univerzita Karlova, Matematicko-fyzikální fakultaLanguage
English
Grade
Very good
Keywords (Czech)
Langmuirova monovrstva, klastr, aminokyseliny, aromatický kruhKeywords (English)
Langmuir monolayer, aggregates, amino acid, aromatic ringCílem této práce bylo prohloubit naše znalosti o chování fenylalaninu a strukturně chemicky podobných aromatických molekul (tyrosin, fenylglycin, kyselina fenyloctová) pomocí metod molekulové dynamiky. Počítačové simulace byly provedeny na rozhraní voda-vzduch a na rozhraní voda-DPPC-vzduch. Na rozhraní voda-vzduch fenylalanin, tyrosin a kyselina fenyloctová projevují povrchovou aktivitu, tyrosin se jeví jako povrchově neaktivní molekula. Na rozhraní voda-DPPC-vzduch byla pozorována interakce mezi všemi molekulami a DPPC. Powered by TCPDF (www.tcpdf.org)
Amino acid phenylalanine plays a key role in numerous biological processes and is also involved in amyloid fibril diseases. The aim of the thesis is to deepen our understanding of its behavior and partitioning at interfaces, and to investigate its clustering. Classical atomistic molecular dynamics simulations were performed for phenylalanine and three other aromatic molecules which chemical structure is derived from it - phenylglycine, phenylacetic acid and tyrosine. Molecules are simulated at both water-air and at water-DPPC-air interfaces. Phenylalanine, phenylglycine and phenylacetic acid demonstrate surface activity at the water-air interface, whereas tyrosine is not surface active. All molecules interact with the lipid monolayer at the water-DPPC-air interface but only phenylalanine penetrates deep into the monolayer. Formation of transient clusters is observed in the interfacial regions, mostly for phenylalanine. Powered by TCPDF (www.tcpdf.org)