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"Perkembangan teknologi menyebabkan praktik pencampuran produk makanan menggunakan substansi non-halal. Dokumen (International Standardization Organization/ Technical Specification) ISO/TS 20224-3: 2020 digunakan sebagai prosedur standar uji deteksi kehalalan berbasis Deoxyribonucleic Acid (DNA) memanfaatkan metode Quantitative Polymerase Chain Reaction (qPCR) yang berlaku secara internasional melalui gen Beta actin (ACTB) sebagai gen target. Namun, kemampuan gen ACTB sebagai gen target belum banyak teruji langsung melalui reaksi PCR sehingga dibutuhkan evaluasi potensi gen target alternatif lain melalui optimasi primer seperti gen Cytochrome b (Cytb) untuk mendeteksi kandungan babi domestik (Sus scrofa domesticus) dan babi hutan (Sus scrofa). Metode yang digunakan terdiri atas desain primer dan probe, optimasi suhu annealing primer dan probe, uji spesifisitas in silico, uji sensitivitas in vitro, serta pengolahan dan analisis data. Adapun sampel yang digunakan untuk uji sensitivitas in vitro adalah pig genomic DNA. Berdasarkan pengujian yang dilakukan, primer dan probe gen Cytb memiliki suhu annealing optimal pada suhu 55°C. Uji spesifisitas in silico membuktikan bahwa sekuens primer dan probe gen Cytb memiliki kemampuan deteksi pada sekuens babi domestik dan babi hutan. Uji sensitivitas menggunakan qPCR pada gen ACTB membentuk kurva standar dengan nilai y=-3,6541x +38,385 dan R2=0,9967, serta LoD sebesar 5 pg/uL. Nilai linearitas (0,9967) dan efisiensi (87,78%) yang dihasilkan masuk ke dalam rentang standar sesuai literatur karena berada ≥0,98 untuk linearitas dan rentang 80%—120% untuk efisiensi. Sementara itu, uji sensitivitas menggunakan qPCR pada gen Cytb membentuk kurva standar dengan nilai y=-2,7222x + 32,196 dan R2= 0,9867, serta LoD sebesar 1 pg/uL. Nilai linearitas (0,9867) yang dimiliki masuk ke dalam rentang standar, tetapi nilai efisiensi (132,99%) melebihi rentang persentase yang baik akibat kemungkinan konsentrasi serial dilusi yang kurang sesuai dan protokol yang belum optimal. Gen Cytb memiliki jangkauan sensitivitas yang lebih baik dibandingkan gen ACTB. Keseluruhan grafik hasil membentuk kurva sigmoid yang valid sebagai hasil uji qPCR. Oleh karena itu, berdasarkan uji spesifisitas in silico dan sensitivitas in vitro yang dilakukan dapat disimpulkan bahwa gen Cytb berpotensi dijadikan gen target altenatif sebagai pengembangan halal kit.

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Technological developments have led to the practice of mixing food products using non-halal substances. Document (International Standardization Organization/Technical Specification) ISO/TS 20224-3: 2020 is used as a standard procedure for Deoxyribonucleic Acid (DNA)-based halal detection test that is internationally applicable through the Beta actin gene (ACTB) as the target gene. However, the ability of the ACTB gene as a target gene has not been tested directly through PCR reactions, so it is required to evaluate the potential of other alternative target genes through primer optimization such as the Cytochrome b (Cytb) gene to detect domestic pig (Sus scrofa domesticus) and wild boar (Sus scrofa) containment. The method used was comprised of primer and probe design, primer and probe annealing temperature optimization, in silico specificity test, in vitro sensitivity test, and data processing and analysis. The sample used for the in vitro sensitivity test is pig genomic DNA. Based on the tests conducted, primers and probes of the Cytb gene have an optimal annealing temperature at 55°C. The in silico specificity test proved that the primer sequences and Cytb gene probes have the ability to detect domestic pig and wild boar sequences. The sensitivity test using qPCR on the ACTB gene forming a standard curve with a value of y=-3.6541x +38.385 and R2=0.9967, and LoD of 5 pg/uL. The linearity (0.9967) and efficiency (87.78%) values generated are in the standard range according to the literature because they are ≥0.98 for linearity and 80%—120% range for efficiency. Meanwhile, the sensitivity test using qPCR on the Cytb gene is forming a standard curve with a value of y= -2.7222x + 32.196 and R2= 0.9867, and LoD of 1 pg/uL. The linearity value (0.9867) is within the standard range, but the efficiency value (132.99%) exceeds the good percentage range as a result of the possibility of inappropriate serial dilution concentrations and an unoptimal protocol. The Cytb gene has a better sensitivity range than the ACTB gene. The overall result graph forms a sigmoid curve which is valid as a qPCR test result. Therefore, based on the in silico specificity and in vitro sensitivity tests, it can be concluded that the Cytb gene has the potential to be used as an alternative target gene as a halal kit development."

"Kura-kura leher ular rote (Chelodina mccordi, Rhodin 1994) merupakan spesies endemik Pulau Rote, Nusa Tenggara Timur, Indonesia, dengan status konservasi kritis (critically endangered and Possibly Extinct in the Wild). Upaya reintroduksi kura-kura tersebut sudah dilakukan, tetapi keberadaan individu C. mccordi tetap tidak terdeteksi di alam. Pendekatan environmental DNA (eDNA) menjadi metode nonivasit alternatif untuk pendeteksian dan pemantauan spesies tersebut. Pengembangan metode pendeteksian eDNA C. mccordi memerlukan markah (primer) spesies spesifik agar dapat mengidentifikasi dengan akurat keberadaan DNA target pada sampel. Penelitian bertujuan untuk mengembangkan primer spesies spesifik untuk markah gen Cytochrome b (Cyt b) dalam pendeteksian eDNA C. mccordi. Primer dirancang berdasarkan urutan nukleotida gen Cyt b dari C. mccordi dengan spesies Chelodina lain. Pengujian primer dilakukan menggunakan sampel air yang mengandung DNA target untuk mengevaluasi spesifitas dan sensitivitas primer. Sampel air yang sudah terekstrak kemudian diproses dengan teknik Quantitative Polymerase Chain Reaction (qPCR) dan High Resolution Melting (HRM). Hasil penelitian menunjukkan bahwa primer desain (UI_Cm_Cytb) berhasil mengidentifikasi keberadaan C. mccordi dalam sampel. Nilai sensitivitas dan spesifitas primer tergolong tinggi, yaitu 87,5% dan 100%, serta primer tersebut dapat digunakan dalam pendeteksian eDNA C. mccordi dari sampel air. Primer perlu dilakukan optimasi lebih lanjut terkait pendeteksian kelimpahan individu.

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The Rote snake-necked turtle (Chelodina mccordi) is an Indonesia endemic species with critically endangered and Possibly Extinct in the Wild status. Attempts to reintroduce this turtle have been conducted, however the tracking of C. mccordi individuals in their natural habitat has not been observed. The environmental DNA (eDNA) is an alternative non-invasive method for detection and monitoring of this species. The development of an eDNA method for detection of C. mccordi requires species-specific markers in order to accurately identify the presence of target DNA in the sample. This study aims to develop species-specific primers using the Cytochrome b (Cyt b) as molecular marker for the detection of eDNA from C. mccordi. The specificity and sensitivity of the primers were evaluated using water samples containing C. mccordi and their related species. The extracted eDNA from water samples are then processed using Quantitative Polymerase Chain Reaction (qPCR) and High-Resolution Melting (HRM) techniques. The results showed that the design primer (UI_Cm_Cytb) was successful for detection the presence of C. mccordi from the samples. The sensitivity and specificity values of the primers are relatively high, namely 87.5% and 100%. Futhermore, the primer needs to be optimized and tested regarding the individual abundance in sample."

"Penelitian ini mengembangkan metode deteksi spesies babi (Sus scrofa) pada sampel daging campuran menggunakan automasi ekstraksi DNA magLEAD gC. DNA dianalisis menggunakan PCR dan TaqMan probe RT-PCR dengan primer spesifik untuk gen Cytochrome c oxidase I (COI), Cytochrome b (Cytb), dan NADH5 dehydrogenase 5 (ND5). Hasil menunjukkan bahwa ekstraksi DNA otomatis menghasilkan konsentrasi DNA 129,4–388,5 ng/μL pada daging mentah dan 66,4–89,5 ng/μL pada bakso dengan rasio kemurnian A260/A280 dan 260/A230 > 1,8. Primer COI, Cytb dan ND5 dapat mendeteksi DNA babi. PCR dan RT-PCR in vitro menunjukkan ketiga primer hanya mendeteksi DNA babi. Efisiensi amplifikasi RT-PCR primer COI, Cytb, dan ND5 adalah 144,14% (R2=0,982), 88,05% (R2=0,998), dan 81,25% (R2=0,997) dengan batas deteksi 0,0001 ng/μL, 0,001 ng/μL, dan 0,001 ng/μL. Primer/probe Cytb dan ND5 mendeteksi bakso dengan campuran daging babi hingga 0,1% (w/w).

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This study developed a method to detect pig species (Sus scrofa) in mixed meat samples using automated DNA extraction with the magLEAD gC. DNA was analyzed using PCR and TaqMan probe RT-PCR with specific primers for the genes Cytochrome c oxidase I (COI), Cytochrome b (Cytb), and NADH5 dehydrogenase 5 (ND5). Results showed that automated DNA extraction produced DNA concentrations of 129.4–388.5 ng/μL in raw meat and 66.4–89.5 ng/μL in processed meatballs with purity ratios A260/A280 dan 260/A230 > 1.8. The COI, Cytb and ND5 primers could be used to detect pig DNA. In vitro PCR and RT-PCR showed that all three primers only detected pig DNA. The RT-PCR amplification efficiency for COI, Cytb, and ND5 primers were 144,14% (R2=0,982), 88,05% (R2=0,998), dan 81,25% (R2=0,997) with detection limits of 0.0001 ng/μL, 0.001 ng/μL, and 0.001 ng/μL. The Cytb and ND5 primers/probes detected meatballs with pig meat content as low as 0.1% (w/w)."