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Razvoj sistema za iskanje interakcijskih partnerjev DNA na osnovi označevanja bližnjih molekul z biotinom
ID Habič, Andreja (Author), ID Pavšič, Miha (Mentor) More about this mentor... This link opens in a new window

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Abstract
Odkrivanje in preučevanje interakcij protein–DNA je izrednega pomena, saj usmerjajo delovanje številnih celičnih procesov. Omenjene interakcije so lahko stabilne ali prehodne oz. močne ali šibke in so odvisne od pogojev, v katerih se kompleks protein–DNA nahaja. Dve ključni omejitvi klasičnih metod za iskanje proteinskih interakcijskih partnerjev znane DNA sta, da ne omogočajo preučevanja interakcij in vivo in da niso primerne za zaznavanje vseh vrst interakcij, tj. tudi šibkih in prehodnih. Z namenom, da bi omejitvi presegli, smo razvili nov pristop za iskanje interakcijskih partnerjev DNA, ki je osnovan na metodi označevanja bližnjih molekul z biotinom in omogoča izvedbo kromatinske imunoprecipitacije. Temelji na uporabi trikomponentnega sistema, ki ga sestavljajo nukleotidno zaporedje F-DNA ter fuzijska proteina Tus-link72-TurboID in GAL4(1–147)-link45-sfGFP. F-DNA predstavlja osrednjo komponento sistema, ki vsebuje preučevano zaporedje oz. sekundarno strukturo DNA in omogoča kolokalizacijo njegovih interakcijskih partnerjev s fuzijskima proteinoma. Tus-link72-TurboID vsebuje encim biotin ligazo in omogoča biotinilacijo kolokaliziranih proteinov, GAL4(1–147)-link45-sfGFP pa služi kot notranja kontrola delovanja sistema. Sistem lahko uporabimo tako in vivo kot in vitro. Da bi dokazali njegovo delovanje, smo zasnovali kontrolni in vitro sistem z znanim interakcijskim partnerjem. Tarčnih proteinov po izvedbi poskusa nismo mogli dokazati, na podlagi česar smo postavili hipotezo, da rekombinantno pripravljena biotin ligaza v fuziji Tus-link72-TurboID nima enakih kinetičnih lastnosti, kot jih ima v pogojih in vivo. Pred nadaljnjo optimizacijo sistema je zato potrebno najprej preveriti delovanje encima in določiti njegove kinetične lastnosti. Da bo sistem uporaben in komercialno dostopen, je potrebno optimizirati tudi pripravo komponent trikomponentnega sistema.

Language:Slovenian
Keywords:interakcijski partnerji, F-DNA, Tus-link72-TurboID, GAL4(1–147)-link45-sfGFP, biotinilacija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2019
PID:20.500.12556/RUL-109460 This link opens in a new window
COBISS.SI-ID:1538309571 This link opens in a new window
Publication date in RUL:03.09.2019
Views:1224
Downloads:320
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Secondary language

Language:English
Title:Development of a system for DNA-protein interaction partners discovery based on biotin proximity labeling
Abstract:
Detection and study of protein–DNA interactions are of great importance for they govern many cellular processes. Interactions might be stable or transient, strong or weak and depend on several conditions which can influence our experimental results. There are two major limitations of classical methods to detect protein interactions partners of a known DNA. First, they do not allow us to study interactions under in vivo conditions, and second, they are not suitable for detection of transient and weak ones. With the aim of making those two things possible we set on to develop a novel approach for DNA-protein partners discovery, which is based on a three-component system that enables enzyme-catalysed proximity labeling of proteins with biotin and also serves as a practical tool to perform chromatin immunoprecipitation. The system consists of a nucleotide fragment F-DNA and two chimeric proteins, namely Tus-link72-TurboID and GAL4(1–147)-link45-sfGFP. F-DNA represents the core element of the system, which contains DNA sequence or secondary structure of interest and enables colocalization of its interaction partners with chimeric proteins. Tus-link72-TurboID contains a mutant biotin ligase which biotinylates colocalised proteins on F-DNA, whereas GAL4(1–147)-link45-sfGFP represents the internal control of the system. The system can be used either in vivo or in vitro. To test its functionality, we constructed a proof-of-concept in vitro system involving a known interaction partner. However, we were not able to detect target proteins after their isolation. Our hypothesis is that the recombinant biotin ligase in Tus-link72-TurboID has slower kinetics as we expected based on its activity in vivo. Before proceeding with optimization of the system, we should therefore first test activity of the enzyme and determine its kinetics. In order to make the system useful and commercially available, we should also optimize the preparation of its components.

Keywords:interaction partners, F-DNA, Tus-link72-TurboID, GAL4(1–147)-link45-sfGFP, biotinylation

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