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Načrt in karakterizacija inducibilne dimerizacije svežnja štirih vijačnic v sesalski celični liniji HEK293T
ID Malovrh, Benjamin (Author), ID Jerala, Roman (Mentor) More about this mentor... This link opens in a new window, ID Plavec, Janez (Comentor)

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Abstract
Sintezna biologija je veda, ki se ukvarja z načrtovanjem novih biomolekularnih komponent, signalnih poti in kaskad, ter uporabo le-teh za uravnavanje delovanja celic, reprogramiranje organizacije tkiv in organizmov. Primer takšnega modula je tudi de novo načrtovan sintetični protein, ki tvori motiv svežnja štirih vijačnic (angl. four-helical bundle). Modul sestavljajo štiri α-vijačnice obvite med seboj. De novo načrtovani svežnji štirih vijačnic imajo lahko aplikativno vrednost tudi v sesalskih celičnih linijah kot nove dimerizacijske, trimerizacijske ali tetramerizacijske domene. Z ustreznim načrtovanjem sistema smo pokazali, da je mogoče regulirati inducibilno 1:3 dimerizacijo α-vijačnic v sveženj štirih vijačnic, preko cepitve z eno izmed ortogonalnih virusnih proteaz. Katalitično aktivna proteaza cepi vstavljeno cepitveno mesto med dimerizacijskimi moduli svežnja štirih vijačnic in s tem sproži dimerizacijo. Virusne proteaze smo uporabili tudi v razcepljeni neaktivni obliki, aktivnost katerih se ob ustrezni prostorski razporeditvi povrne. Prostorsko približevanje cepljenih domen smo izvedli preko sistema kemijsko uravnane dimerizacije dveh različnih domen, ki imata preko peptidnega povezovalca vezane domene razcepljenih proteaz. Ob dodatku ustreznega kemijskega induktorja, je prišlo do dimerizacije domen receptorja za induktor, prostorskega približevanja cepljenih proteaznih domen in s tem povrnitve katalitične aktivnosti. Časovna odzivnost pripravljenega sistema je hitrejša od transkripcijske regulacije in omogoča štirikratno povišanje signala v časovnem razponu 2 h. Uspešnost dimerizacije svežnja štirih vijačnic smo preverjali s povrnitvijo luciferazne aktivnosti. Luciferazni reporter je mogoče nadomestiti z drugimi celičnimi komponentami in tako preko svežnja štirih vijačnic uravnavati ali zaznavati številne celične procese.

Language:Slovenian
Keywords:de novo, sveženj štirih vijačnic, inducibilna dimerizacija, časovna odzivnost
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2021
PID:20.500.12556/RUL-135049 This link opens in a new window
COBISS.SI-ID:90909187  This link opens in a new window
Publication date in RUL:18.02.2022
Views:821
Downloads:58
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Secondary language

Language:English
Title:Design and characterization of inducible dimerization of four-helix bundle in mammalian cell line HEK293T
Abstract:
Synthetic biology is a field of science that deals with design of new biomolecular components, signalling pathways, cascades, and their use to regulate cell function, reprogramming tissue, and organism organizations. An example of a module is de novo designed synthetic protein, which forms the motif of a four helical bundle. The module is represented by four α-helices wrapped together. De novo designed four helical bundles also have applicative use in mammalian cell lines as dimerization, trimerization or tetramerization modules. With proper system design, we have shown that it is possible to regulate the inducible 1: 3 dimerization of α-helices in four helical bundle that can be regulated via orthogonal viral proteases. The catalytically active protease cleaves the inserted cleavage site between the dimerization modules of the four helical bundle and thus induces dimerization. Viral proteases were also used in a cleaved inactive form, the activity of which is restored with appropriate proximity manipulation. Spatial approximation was performed via a system of exogenously regulated dimerization of heterodimerization domains having linker-linked cleaved protease units. With the addition of an appropriate chemical inducer, the dimerization domains bind. This results in the spatial approximation of the protease units, and thus the restoration of its catalytic activity. Time response of the prepared system is faster than the transcriptional regulation. And it allows a fourfold increase in signal over a time span of 2 h. The inducible dimerization of the four helical bundle was designed and characterized on the luciferase reporter system. The luciferase reporter can be replaced with other cellular components and thus regulate or detect several cellular processes via four helical bundle.

Keywords:de novo, four helical bundle, inducible dimerization, time response

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