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Abstrak :
Pada penelitian ini dilakukan studi pembentukan DNA adduct 8-Hidroksi-2';-Deoksiguanosin 8-OHdG sebagai biomarker kerusakan DNA dengan mereaksikan basa DNA 2';-deoksiguanosin dengan t-BHQ melalui Fenton Like Reaction Cr III dan H2O2 pada variasi suhu 37°C dan 60°C, pH 7,4 dan pH 8,4, dengan waktu inkubasi 7 jam dan 12 jam. Hasil adduct dianalisis menggunakan instrumen HPLC reversed phase dengan detektor UV pada panjang gelombang 254 nm. Pembentukan DNA Adduct 8-OHdG dari senyawa t-BHQ terdeteksi pada reaksi 2'dG dan t-BHQ pada suhu 60°C waktu inkubasi 12 jam, reaksi antara 2'dG, Cr III terdeteksi pada waktu inkubasi 7 jam, pH 8,4, 37°C, pada suhu 60°C pH 7,4 dan 8,4 serta waktu inkubasi 12 jam pada suhu 37°C dan 60°C. Reaksi antara 2'dG, t-BHQ, H2O2 hanya terdeteksi pada suhu 60°C waktu inkubasi 12 jam, dan reaksi antara 2'dG, Cr III, H2O2, dan 2'dG, t-BHQ, Cr III, serta 2'dG dengan reaksi Fenton terdeteksi baik pada waktu inkubasi 7 dan 12 jam. ...... ChemistryTitle In Vitro Study of DNA Adduct 8 Hydroxy 2' Deoxyguanosine 8 OHdG Formation with Tert Butyl Hydroquinone t BHQ Through Fenton Like Reaction In this research, DNA adduct formation of 8 hydroxy 2 39 Deoksiguanosin 8 OHdG as biomarkers of DNA damage which conducted by reacting the DNA bases 2'-deoxyguanosine base DNA with t BHQ through the Fenton Like Reaction Cr III and H2O2 with variation of temperature 37°C and 60°C, pH pH 7,4 and pH 8,4, and incubation time 7 hours, and 12 hours studied. The adduct results were analyzed using instruments reversed phase HPLC with UV detector at a wavelength of 254 nm. The formation of DNA Adduct 8 OHdG of t BHQ compound is detected in the reaction of 2'dG, t BHQ at the temperature of 60°C with incubation time at 12 hours, reaction of 2'dG, Cr III is detected when incubation time at 7 hours, pH 8,4 and temperature at 37°C, when the temperature at 60°C with pH 7,4 and 8,4 and when incubation time is at 12 hours with the temperature at 37°C and 60°C. Reaction of 2' dG, t BHQ, H2O2 only detected at the temperature of 60 C with incubation time at 12 hours, and the reaction of 2'dG, Cr III, H2O2, and 2'dG, t BHQ, Cr III, also 2'dG with Fenton reaction are detected either when incubation time at 7 and 12 hours.

Abstrak :
Tert-butylhydroquinone TBHQ dan Sinar UV-A dilaporkan menjadi faktor penyebab dari terganggunya replikasi dan transkripsi DNA normal karenanya senyawa ini dapat menyebabkan terjadinya kerusakan pada biomolekul seperti DNA. Penelitian ini bertujuan untuk menganalisis terbentuknya DNA Adduct 8-OHdG akibat kerusakan oksidatif DNA yang disebabkan oleh paparan senyawa TBHQ secara in vitro dilakukan dengan mereaksikan 2'-deoksiguanosin dengan TBHQ,H2O2, sinar UV-A pada pH 7 4, pada suhu 37 °C serta waktu inkubasi 5 dan 7 jam serta studi in vivo dilakukan dengan menggunakan sampel urin tikus putih (Rattus Norvegicus) yang dipaparkan senyawa TBHQ selama 28 hari. Pembentukan 8-OHdG dianalisis menggunakan instrumen HPLC (High Performance Liquid Chromatography) dengan kromatografi fase terbalik. Hasil studi in vitro pada dG+H2O2+TBHQ dengan waktu paparan sinar UV-A 7 jam menghasilkan konsentrasi 8-OHdG terbanyak. Hasil studi in vivo juga menunjukan paparan senyawa TBHQ pada tikus menyebabkan pembentukan DNA adduct 8-OHdG.

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TBHQ and UV-A rays are known as the factor of normal DNA disruption of replication and transcription which can cause the damage to biomolecules including DNA . This study aims to analyze the formation of DNA adduct 8-OHdG due to oxidative DNA damage caused by TBHQ and UV-A rays through in vitro reaction, carried out by incubating at 2'-deoxiguanosin with TBHQ, H2O2, in the presence/without presence UV-A rays at pH 7.4 and at temperature 37 °C for 5 and 7 hours. in vivo studies were carried out using urine samples of white rat (Rattus Norvegicus) exposed by TBHQ. The formation of 8-OHdG was analyzed using HPLC instrument (High Performance Liquid Chromatography) with reverse phase chromatography. The formation of DNA adduct generated from the studies is biomarker of DNA damage due to oxidative stress. The results of in vitro studies on dG + H2O2 + TBHQ with UV-A light with a 7-hour exposure time showed the highest concentration of 8-OHdG. The results of studies in vivo also show exposure to TBHQ in rats causing the formation of 8-OHdG DNA adduct.