基于宏基因组指导的类似物合成得到了改良的革兰氏阴性活性的 Albicidin 和 Cystobactamid 型抗生素。
Metagenome-Guided Analogue Synthesis Yields Improved Gram-Negative-Active Albicidin- and Cystobactamid-Type Antibiotics.
机构信息
Laboratory of Genetically Encoded Small Molecules, The Rockefeller University, 1230 York Avenue, New York, NY, 10065, USA.
Department of Medicine, Center for Emerging and Re-emerging Pathogens, Rutgers University-New Jersey Medical School, Newark, NJ, 07103, USA.
出版信息
Angew Chem Int Ed Engl. 2021 Oct 4;60(41):22172-22177. doi: 10.1002/anie.202104874. Epub 2021 Sep 7.
Abstract
Natural products are a major source of new antibiotics. Here we utilize biosynthetic instructions contained within metagenome-derived congener biosynthetic gene clusters (BGCs) to guide the synthesis of improved antibiotic analogues. Albicidin and cystobactamid are the first members of a new class of broad-spectrum ρ-aminobenzoic acid (PABA)-based antibiotics. Our search for PABA-specific adenylation domain sequences in soil metagenomes revealed that BGCs in this family are common in nature. Twelve BGCs that were bio-informatically predicted to encode six new congeners were recovered from soil metagenomic libraries. Synthesis of these six predicted structures led to the identification of potent antibiotics with changes in their spectrum of activity and the ability to circumvent resistance conferred by endopeptidase cleavage enzymes.
摘要
天然产物是新型抗生素的主要来源。在这里,我们利用宏基因组衍生的同系物生物合成基因簇(BGC)中包含的生物合成指令来指导改良抗生素类似物的合成。Albicidin 和 cystobactamid 是一类新型广谱 ρ-氨基苯甲酸(PABA)类抗生素的首批成员。我们在土壤宏基因组中寻找 PABA 特异性氨酰化酶结构域序列,结果表明该家族的 BGC 在自然界中很常见。从土壤宏基因组文库中回收了 12 个 BGC,生物信息学预测它们编码 6 种新的同系物。这 6 种预测结构的合成导致了具有不同活性谱的强效抗生素的鉴定,并且能够规避由内切蛋白酶切割酶赋予的抗性。
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