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Draft genome sequence of silver nanoparticle producing bacterium Paenibacillus anseongense MAH-34T

미생물학회지 2020년 56권 4호 p.394 ~ 396
Siddiqi Muhammad Zubair, Srinivasan Sathiyaraj, Subramani Ramesh, 임완택, Huq Md. Amdadul,
소속 상세정보
 ( Siddiqi Muhammad Zubair ) - Hankyong National University Department of Biotechnology
 ( Srinivasan Sathiyaraj ) - Seoul Women’s University College of Natural Science Department of Bio and Environmental Technology
 ( Subramani Ramesh ) - University of the South Pacific Faculty of Science, Technology and Environment School of Biological and Chemical Sciences
임완택 ( Im Wan-Taek ) - Hankyong National University Department of Biotechnology
 ( Huq Md. Amdadul ) - Chung-Ang University Department of Food and Nutrition

Abstract


A bacterial strain MAH-34T was isolated from rhizosphere soil of magnolia flower tree. The isolate can grow on R2A agar/ broth at 10~37°C with optimum growth at 28~30°C and pH 7.0 without NaCl supplement. The MAH-34T was responsible for the silver nanoparticle (AgNP) production via hydrolysis of AgNO3. Thus, to know about the nitrate reductase genes, the genome analysis of Paenibacillus anseongense MAH-34T was carried out. The assembled genome of MAH-34T consists of 42 scaffolds with a total of 8,647,101?bp with N50 and N75 values of 553,491 and 230,930, respectively. The DAN G + C content was 46.0 mol%. Additionally, the genome annotation also shows the nitrate and/or nitrite reductase genes using the Rapid Annotation using Subsystem Technology (RAST), which may be responsible for the production of silver nanoparticle (AgNP) through the hydrolysis of AgNO3.

키워드

Paenibacillus anseongense; genome analysis; nitrate reductase; RAST; rhizosphere soil

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