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Priprava referenčnega materiala za genotipizacijo polimorfizma (TA)n ponovitev v genu UGT1A1 z uporabo molekularnega kloniranja : diplomska naloga
ID Šavli, Jerneja (Author), ID Ostanek, Barbara (Mentor) More about this mentor... This link opens in a new window, ID Mlakar, Vid (Comentor)

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Abstract
Gilbertov sindrom je najpogostejša dedna motnja v presnovi bilirubina, ki je posledica sprememb nukleotidnega zaporedja v genu za uridindifosfat-glukuronil-transferazo 1A1 (UGT1A1). Največkrat gre za spremembo znotraj nekodirajoče promotorske regije eksona 1A1 v zaporedju A(TA)6TAA. V zaporedje se vrineta eden ali dva dodatna para TA. Gre za benigno motnjo, ki sama po sebi ne zahteva posebnega zdravljenja. Diagnostika Gilbertovega sindroma je kljub temu zelo pomembna, saj so ti bolniki veliko bolj dovzetni za stranske učinke nekaterih zdravilnih učinkovin kot je irinotekan. Na žalost ni javno dostopnih referenčnih materialov, ki bi nam bili v pomoč pri določanju ponovitev (TA)n in bi imeli certifikat o ustreznosti ter s sekvenciranjem določeno nukleotidno zaporedje. Cilj diplomske naloge je bil pripraviti referenčni material, ki bo nepogrešljiv del molekularne analize polimorfizma ponovitev (TA)n in ga bomo lahko s pomočjo bakterij pomnožili v poljubno velikih količinah, si tako zagotovili njegove neomejene zaloge, ter ga uporabili tudi za nadaljnje proučevanje in izdelavo še hitrejših in učinkovitejših metod za določanje dolžin mikrosatelitov kot so ponovitve (TA)n. V prvi stopnji smo optimizirali pogoje verižne reakcije s polimerazo in pomnožili odsek gena UGT1A1, v katerem se nahaja tandemska ponovitev (TA)n. Pomnoženi odsek smo izolirali iz agaroznega gela, cepili z restrikcijskimi endonukleazami in vgradili v plazmidni vektor. Plazmidni konstrukt smo transformirali v kompetentne bakterijske celice in jih nanesli na selekcijsko gojišče. Iz naključnih bakterijskih kolonij smo izolirali plazmidno DNA. Nato smo pomnožili odsek plazmidne DNA, ki je vseboval polimorfizem in s fragmentno analizo določili velikost in na podlagi tega število ponovitev (TA)n v plazmidu. Po enemu plazmidu z vsako ponovitvijo (TA)n smo določili nukleotidno zaporedje in tako dodatno preverili njihovo ustreznost za uporabo kot referenčni material. Izdelati nam je uspelo plazmide s 4, 5, 6, 7 in 8 ponovitvami (TA)n, ki jih lahko sestavimo v katerekoli heterozigotne ali homozigotne genotipe. Referenčni material nam bo služil kot interni standard, ki bo omogočil oceno pravilnega poteka analize, hkrati pa bomo z njegovo pomočjo lažje interpretirali rezultate analize vzorca z neznanimi ponovitvami (TA)n. Izdelani konstrukti bodo služili tudi kot pripomoček za izdelavo novih analiznih postopkov za genotipizacijo, občutljivih tudi za redke ponovitve (TA)n, ki jih do sedaj nismo imeli v zadostnih količinah za optimizacijo ostalih možnih genotipizacijskih metod.

Language:Slovenian
Keywords:gen UGT1A1, genetske preiskave, Gilbertov sindrom, diagnostika, referenčni material
Work type:Undergraduate thesis
Typology:2.11 - Undergraduate Thesis
Organization:FFA - Faculty of Pharmacy
Place of publishing:Ljubljana
Publisher:[J. Šavli]
Year:2012
Number of pages:VIII, 59 f., [26 f.] pril.
PID:20.500.12556/RUL-121147 This link opens in a new window
UDC:577.2+616-074(043.2)
COBISS.SI-ID:3225969 This link opens in a new window
Publication date in RUL:30.09.2020
Views:1012
Downloads:118
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Secondary language

Language:English
Title:Preparation of reference material for UGT1A1 (TA)n repeat polymorphism genotyping using molecular cloning
Abstract:
Gilbert's syndrome is the most common inherited genetic disorder of bilirubin metabolism, resulting from changes in nucleotide sequence in the uridine diphosphate-glucuronyl-transferase 1A1 gene (UGT1A1). The most common change is the insertion of one or two additional TA pairs into the A(TA)6TAA sequence located in the non-coding promoter region of exon 1A1. Gilbert’s syndrome is a benign disorder, which does not require specific treatment. However, its diagnosis is still very important, because these patients are more susceptible to side effects of certain drugs such as irinotecan. Unfortunately, there are no commercially available certified reference materials, that would be helpful in determining the number of (TA)n repeats and whose nucleotide sequence would be determined by sequencing. The goal of this thesis was to prepare reference material which would be an indispensable part of the molecular analysis of (TA)n repeat polymorphism and which could be produced in large quantities using bacteria, thus ensuring its unlimited supply. The reference material could also be used to further explore and develop even faster and more efficient methods for the determination of microsatellite lengths such as (TA)n repeat. First, the conditions for polymerase chain reaction were optimized and the segment of UGT1A1 gene containing the (TA)n repeat was amplified. Amplified segment was isolated from agarose gel, cleaved with restriction endonucleases and inserted into the plasmid vector. Plasmid constructs were transformed into competent bacterial cells and inoculated onto the selective plates. Random bacterial colonies were chosen and their plasmid DNA was isolated. We then amplified segment of plasmid DNA, which contained the polymorphism and analyzed it using fragment analysis to determine the size and therefore the number of (TA)n repeats in the plasmid. Sequence was determined for selected plasmids for each (TA)n repeat to further verify their suitability for use as a reference material. We were able to produce plasmids with 4, 5, 6, 7 and 8 (TA)n repeats, which can be assembled in any heterozygous or homozygous genotype. Reference material will serve as an internal standard, which will allow evaluation of analysis quality. At the same time it will help with the interpretation of analysis results of samples with unknown number of (TA)n repeats. Produced plasmid constructs will be used as a tool to create new analytical methods for genotyping, which will allow to discriminate rare (TA)n repeats, which until now were not available in sufficient amounts to optimize other potential genotyping methods.


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