Microbiotech
https://microbiotech.ppj.unp.ac.id/index.php/mcrobio
<p><strong>e_ISSN : </strong><br /><strong>p_ISSN : </strong><strong> </strong><br /><strong>Frequency : </strong>Microbiotech publishing an article are biannual, in November and May.<br /><strong>E-mail : </strong>microbiotech@ppj.unp.ac.id<br /><strong>Publisher :</strong> Biology Departement, Faculty of Mathematics and Natural Sciences, Universitas Negeri Padang<br /><strong>Focus & Scope : </strong>This journal dedicated to research publications related to the advancement of tropical biology studies in the South East Asia Region. It published research articles, short communication, and reviews on microbiology and biotechnology.</p> <p><span style="font-weight: 400;"> </span></p>Universitas Negeri Padangen-USMicrobiotechArticle Review : Acid Stress in Soybean (Glycine max L.)
https://microbiotech.ppj.unp.ac.id/index.php/mcrobio/article/view/47
<p>This study aims to identify soybean varieties that are adaptive to acid stress and evaluate the effect of acid stress on soybean growth and yield based on parameters such as plant height, number of nodes, dry weight, number of pods, seed weight, and root weight. The method used is a literature review using Google Scholar and Google Books databases. The results showed that acid stress significantly affected several growth parameters, such as plant height and dry seed weight, with the highest results on soil with a pH of 6. However, acid stress did not significantly affect the number of branches and root weight. Additionally, the inoculation of <em>Rhizobium</em> sp. and phosphate-solubilizing bacteria did not significantly increase soybean production in saline soil. The conclusion of this study suggests that developing soybean varieties tolerant to acid stress is crucial for improving soybean productivity in acidic soil conditions.</p>Nia DaniatiViolita
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2024-09-192024-09-1924Article Review: Mutation Breeding of Soybean (Glycine max L.) Anjasmoro Variety Using Gamma Radiation Co-60
https://microbiotech.ppj.unp.ac.id/index.php/mcrobio/article/view/48
<p>This study examines the utilization of gamma radiation, particularly from the Co-60 source, for mutation breeding in soybean plants (<em>Glycine max</em> L.), with a focus on the Anjasmoro variety. Gamma radiation has the capability to induce genetic mutations that can enhance genetic diversity and desirable traits in plants. The determination of optimal radiation doses, indicated by Lethal Dose (LD) values, is a critical factor in the success of mutation breeding. LD50 and LD20 are often used as parameters to evaluate the effectiveness of induced mutations. The Anjasmoro variety is known for its superior characteristics, such as tolerance to waterlogged conditions, high seed yield, and elevated protein and fat content. The application of gamma radiation to this variety aims to further improve the productivity and quality of soybean crops in Indonesia.</p>Tesa BeliyaViolita
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2024-09-192024-09-1924Articel Review : Metode Deteksi Human Papillomavirus (HPV)
https://microbiotech.ppj.unp.ac.id/index.php/mcrobio/article/view/49
<p>Human Papillomavirus (HPV) merupakan salah satu penyebab utama kanker serviks dan beberapa jenis kanker lainnya, seperti kanker orofaring dan kanker anus. Deteksi dini HPV sangat penting dalam pencegahan penyakit ini, mengingat besarnya dampak kesehatan masyarakat. Artikel ini mengevaluasi berbagai metode deteksi HPV, termasuk Polymerase Chain Reaction (PCR), Hybrid Capture, sekuensing DNA, dan teknologi biosensor terbaru. Analisis dilakukan berdasarkan sensitivitas, spesifisitas, biaya, serta kemudahan implementasi. Hasil menunjukkan bahwa PCR merupakan metode paling sensitif, sementara biosensor menjanjikan untuk digunakan dalam skrining massal di masa depan. Artikel ini menyimpulkan bahwa pemilihan metode deteksi harus disesuaikan dengan kebutuhan klinis, ketersediaan sumber daya, dan tujuan dari skrining atau diagnosis.</p>Revita SariAfifatul Achyar
Copyright (c) 2024 Microbiotech
2024-09-192024-09-1924