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Izdelava podatkovne zbirke genov za diabetično retinopatijo in določanje zanesljivejših biooznačevalcev
ID Tajnšek, Špela (Author), ID Kunej, Tanja (Mentor) More about this mentor... This link opens in a new window, ID Petrovič, Danijel (Comentor)

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Abstract
Diabetična retinopatija (DR) je bolezen mrežnice in posledica dolgotrajne in slabo urejene sladkorne bolezni tipa 1 in 2. Razvoj terapije in zdravil za zmanjševanje napredovanja bolezni temelji na raziskavah genetike, patofiziologije in proteinskih interakcij. Podatki v literaturi so zelo razpršeni in neenotni zato je raziskovanje in razumevanje bolezni oteženo in dolgotrajno. Urejena podatkovna zbirka genov povezanih z razvojem DR še ne obstaja, bi pa z njeno pomočjo lahko določili biooznačevalce, na podlagi katerih bi lahko predvidevali nadaljnji razvoj bolezni pri bolniku ali prilagodili zdravljenje. Namen raziskave je zato bil: 1. razviti podatkovno zbirko genov za DR, 2. določiti zanesljivejše biooznačevalce z uporabo bioinformacijskih metod in 3. vzpostaviti test za genotipizacijo izbranega gena z uporabo metode KASP (angl. KBioscience Competitive Allele-Specific PCR Amplification). S podatkovnim rudarjenjem smo pridobili 389 člankov, katere smo ročno pregledali in pridobljene podatke uredili v podatkovno zbirko, imenovano DRdb. S podatki iz genomskih brskalnikov smo poenotili terminologijo za gene in različice nukleotidnih zaporedij. Podatkom smo dodali identifikacijske številke genov, bolezni, znanstvenih objav in taksonomske številke vrste. Zbirka DRdb vsebuje 244 genov, povezanih z DR, raziskanih pri človeku in na živalskih modelih. Za določitev zanesljivejših biooznačevalcev smo uporabili 189 genov povezanih z DR pri človeku in izvedli obogatitveno analizo z uporabo bioinformacijskih orodij. Določili smo 15 kritičnih regij za razvoj DR v genomu človeka, kjer so geni na medsebojni razdalji manj kot 1 Mbp. Na podlagi analize biološke poti, povezanih z 189 geni smo kot najzanesljivejšega biooznačevalca predlagali gen selektin E (SELE). Razvili smo prvo podatkovno zbirko z geni za DR in jo uporabili za določanje zanesljivejšega označevalca za bolezen in prispevali k raziskovanju molekularnih mehanizmov DR v prihodnosti.

Language:Slovenian
Keywords:Biotehnologija, genetika, mapiranje genov, oftalmologija, očesne bolezni
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:BF - Biotechnical Faculty
Place of publishing:Ljubljana
Publisher:[Š. Tajnšek]
Year:2021
PID:20.500.12556/RUL-131480 This link opens in a new window
UDC:601.4:575.116.4:575.112:617.7(043.2)
COBISS.SI-ID:78240259 This link opens in a new window
Publication date in RUL:28.09.2021
Views:1566
Downloads:124
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Secondary language

Language:English
Title:Development of database of genes associated with diabetic retinopathy and identification of potencial biomarkers
Abstract:
Diabetic retinopathy (DR) is retinal disease and a condition that develops after long lasting and poorly handled diabetes type 1 or 2. The development of treatment and medicine for reducing disease progression refers on genetics, pathophysiology and protein interactions research. Data in literature is very heterogeneous and not coherent, thus the research and understanding of the disease is challenged and time comsuming. Curated database of genes associated with DR does not yet exist, but with such we could potentially chose biomarkers, which can be used to potentially forsee the development of the disease and adjust the treatment for patient. Aims of the research were: 1. development of database of genes associated with DR, 2. determine reliable biomarkers using bioinformatics tools and 3. develop a test for genotyping of a chosen gene with KASP (KBioscience Competitive Allele-specific PCR Amplification) method. By text mining we obtained 389 articles which were manually checked and obtained data was ordered in database named DRdb. The data from genomic databases was used to unify the names of genes and polymorphisms. Then we added identification numbers (IDs) of genes, diseases, publications and taxonomic IDs of species. Final DRdb consists of 244 genes associated with DR researched in human and animal species. For identification of potential biomarkers we analysed 189 genes from DRdb associated with DR on human, performed enrichment analysis using publicly available bioinformatics tools and determined 15 critical regions in human genome where the distance between genes is less than 1 Mbp. Based on the analysis of biological pathways associated with 189 we proposed gene selectin E (SELE) as potential biomarker for DR. We developed first detailed database with an overview on genes associated with DR, which was then used for identification of potential biomarker. The research will contribute to the understanding of molecular mechanisms of DR in the future.

Keywords:Biotechnology, genetics, gene mapping, ophtalmology, eye disease

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