Faculty of Pharmacy and Pharmaceutical Sciences, Fukuyama University, Sanzo,1 Gakuen-cho, Fukuyama, Hiroshima, 729-0292, Japan.
Research Center for Pharmaceutical Ingredients and Traditional Medicine, National Research and Innovation Agency (BRIN), Jalan Raya Bogor Km 46, Cibinong, Bogor, 16911, Indonesia.
J Nat Med. 2023 Sep;77(4):916-927. doi: 10.1007/s11418-023-01709-7. Epub 2023 May 29.
We compared the endophytic compositions of Artemisia plant from different environments (Japan and Indonesia) to demonstrate that the endophytic filamentous fungi in both species differed based on their environments. To prove that the species were identical, both Artemisia plants were identified by comparing the scanning electron micrographs of their pollens, as well as the nucleotide sequences (ribosomal internal transcribed spacer and mitochondrial maturase K) of the two gene regions. After isolating the endophytic filamentous fungi from each plant, we observed that those from Japan and Indonesia comprised 14 and 6 genera, respectively. We assumed that the genera, Arthrinium and Colletotrichum, which exist in both Artemisia species, were species-specific filamentous fungi, while the other genera were environment-dependent. In the microbial-conversion reaction with artemisinin as a substrate using Colletotrichum sp., the peroxy bridge of artemisinin, which is an active site for achieving antimalarial effect, was converted into an ether bond. However, the reaction using the environment-dependent endophyte did not eliminate the peroxy bridge. These endophytic reactions indicated the different roles of endophytes within Artemisia plants.
我们比较了来自不同环境(日本和印度尼西亚)的青蒿植物的内生真菌组成,以证明这两个物种的内生丝状真菌因其环境而异。为了证明这两个物种是相同的,我们通过比较它们花粉的扫描电子显微镜照片以及两个基因区域(核糖体内部转录间隔区和线粒体成熟酶 K)的核苷酸序列,对两种青蒿植物进行了鉴定。从每种植物中分离出内生丝状真菌后,我们观察到日本和印度尼西亚的内生真菌分别包含 14 和 6 个属。我们假设存在于两种青蒿植物中的属 Arthrinium 和 Colletotrichum 是种特异性的丝状真菌,而其他属则是依赖环境的。在用 Colletotrichum sp. 作为青蒿素的底物进行微生物转化反应时,青蒿素的过氧桥(实现抗疟作用的活性部位)被转化为醚键。然而,使用依赖环境的内生菌进行的反应并没有消除过氧桥。这些内生反应表明了内生菌在青蒿植物中的不同作用。
