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Testiranje in optimizacija večtarčnega pristopa za ovrednotenje integritete nukleinskih kislin
ID Deurič, Jana (Author), ID Dobnik, David (Mentor) More about this mentor... This link opens in a new window

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Abstract
Tehnologija digitalne verižne reakcije s polimerazo (dPCR) je novejša metoda s številnimi prednostmi glede na ostale PCR tehnike, kot o večja občutljivost, natančnost in specifičnost (Quan in sod., 2018). dPCR omogoča tudi večtarčni pristop s katerim lahko hkrati ciljamo in kvantificiramo različne dele v istem genomu (Furuta-Hanawa in sod., 2019). Namen magistrske naloge je bil pripraviti, testirati in optimizirati večtarčni pristop s katerim bi lahko ovrednotili integriteto izbrane nukleinske kisline. Kot raziskovalni objekt nukleinskih kislin smo uporabili umetno sintetiziran konstrukt dvoverižne DNA (gBlock). Predmet raziskovanja sta bila dva umetna konstrukta v katera smo združili sekvence 4 oz. 5 že predhodno objavljenih amplikonov, ter mednje umestili prepoznavna mesta za restrikcijske encime. V prvem delu smo pri gBlocku s štirimi amplikoni pokazali, da z dPCR lahko določimo integriteto nukleinskih kislin, kar smo potrdili s testiranjem različno fragmentiranih vzorcev. V drugem delu smo za analizo uporabili gBlock s petimi amplikoni, ki je na obeh koncih imel enako tarčno zaporedje (regijo obrnjenih terminalnih ponovitev, ITR), kar posnema strukturo z adenovirusom povezanih virusov (AAV). Ugotovili smo, da ta gBlock ni primeren za analizo z dPCR, ker ne moremo določiti ali ITR signal prihaja iz konca ali začetka gBlocka. Primerjali smo tudi rezultate dveh dPCR sistemov QX ONE in QIAcuity ter ugotovili, da rezultati sovpadajo, manjše razlike opazimo zaradi različnega načina postavljanja baznih mej. Drugi vzrok za odstopanja od pričakovanih rezultatov so naključni lomi krhkih koncev gBlocka ali nepopoln razrez pri pripravi fragmentov. Prikazali smo tudi, da s povečevanjem koncentracije tarč dobimo navidezno boljšo integriteto, ker se lahko več fragmentov razporedi v isto particijo.

Language:Slovenian
Keywords:dPCR, nukleinske kisline, integriteta, testiranje
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:BF - Biotechnical Faculty
Publisher:[J. Deurič]
Year:2023
PID:20.500.12556/RUL-150425 This link opens in a new window
ISBN:164707587
UDC:57.088.7(043.2)
COBISS.SI-ID:164707331 This link opens in a new window
Publication date in RUL:17.09.2023
Views:763
Downloads:72
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Secondary language

Language:English
Title:Testing and optimization of multiplex approach for nucleic acid integrity evaluation
Abstract:
The digital polymerase chain reaction (dPCR) is a novel method with numerous advantages over conventional PCR techniques, such as increased sensitivity, accuracy and specificity (Quan et. all, 2018). dPCR also enables multiplex approach, where multiple targets can be simultaneously detected and quantified within the same genome (Furuta-Hanawa et. all, 2019). The aim of this master's thesis was to develop, test and optimize a multiplex approach for evaluating the integrity of a chosen nucleic acid. As the nucleic acid research object, we used artificially synthesized construct double stranded DNA (gBlock). The objects of research were two artificial constructs in which we combined the sequence of 4 or 5 previously published amplicons and among them inserted target sites for the restriction enzymes. In the first part, with a gBlock with four amplicons, we showed that dPCR can determine the integrity of nucleic acids, what was confirmed by testing differently fragmented samples. In the second part, we used the gBlock containing five amplicons in which both ends consisted of the same target sequence (ITR region) mimicking the structure of adenovirus like viruses (AAV). We found that this gBlock is not suitable for dPCR analysis as we cannot determine if the ITR signal comes from beginning or end of gBlock. We also compared the results of two dPCR systems, QX ONE and QIAcuity, found that results coincide with minor differences due to variations in setting the baseline threshold. Another cause of deviations from expected results was random breaks at the fragile ends of the gBlock or imperfect cuts in the preparation of fragments. We also showed that increasing the concentration of targets gives better integrity due to more fragments can be arranged in the same partition.

Keywords:dPCR, nucleic acid, integrity, testing

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