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机译:对蚊子微生物组生物合成基因集群的系统分析显示,减少蚊香的抗疟散体
Department of Chemistry Duke University;
Department of Biology Molecular Biology Program New Mexico State University;
Department of Molecular Genetics and Microbiology Duke University;
Department of Molecular Genetics and Microbiology Duke University;
Department of Chemistry Duke University;
Department of Chemistry Konstanz Research School Chemical Biology Zukunftskolleg University of Konstanz;
Department of Chemistry Duke University;
Department of Biology Molecular Biology Program New Mexico State University;
Department of Chemistry Konstanz Research School Chemical Biology Zukunftskolleg University of Konstanz;
Department of Biology Molecular Biology Program New Mexico State University;
Department of Chemistry Duke University;
mosquito-microbiome; biosynthetic gene cluster; siderophores; Anopheles; Plasmodium;
机译:对蚊子微生物组生物合成基因集群的系统分析显示,减少蚊香的抗疟散体
机译:从根治杆菌C58的Xieredophore Biosynethet基因簇的鉴定和分析
机译:链霉菌ATCC 11455制霉菌素生物合成基因簇中调控基因的体内分析揭示了其对抗生素生物合成的差异控制。
机译:宿主-遗传回路相互作用的系统分析揭示了宿主特异性上位性对大肠杆菌中基因表达的影响
机译:炭疽芽孢杆菌与毒力相关的铁载体Petrobactin的生物合成成分的详细分析。
机译:对人类微生物组中生物合成基因簇的系统分析揭示了一个常见的抗生素家族
机译:对蚊子微生物组生物合成基因集群的系统分析显示,减少蚊香的抗疟散体