Tzortzakakis Emmanuel A, Cantalapiedra-Navarrete Carolina, Archidona-Yuste Antonio, Kormpi Maria, Palomares-Rius Juan E, Castillo Pablo
Department of Viticulture, Vegetable Crops, Floriculture and Plant Protection, Institute of Olive Tree, Subtropical Crops and Viticulture, N.AG.RE.F., Hellenic Agricultural Organization-DEMETER , Heraklion , Greece.
Institute for Sustainable Agriculture (IAS), CSIC , Avenida Menéndez Pidal s/n, 14004, Córdoba , Spain.
J Nematol. 2019;51:1-4. doi: 10.21307/jofnem-2019-010.
Cultivated Cretan mountain tea or Malotira ( L.) was found to be infected by and in the island of Crete. The authors provide the first molecular characterization of in Greece and the first report of Cretan mountain tea or Malotira as a host of species worldwide. In addition, was found infecting aloe (Andros island) and corn (Drama, North Greece) consisting the first reports of natural infection of these plants by in Europe. Furthermore, infection of corn by and soybean by (Drama, North Greece) are reported for the first time in Greece. Integrative taxonomical approach based on perineal pattern and EP/st ratio, as well as the region of the mitochondrial genome between the cytochrome oxidase subunit II () and 16S rRNA mitochondrial DNA (mtDNA) genes was used to differentiate species. Cultivated Cretan mountain tea or Malotira ( L.) was found to be infected by and in the island of Crete. The authors provide the first molecular characterization of in Greece and the first report of Cretan mountain tea or Malotira as a host of species worldwide. In addition, was found infecting aloe (Andros island) and corn (Drama, North Greece) consisting the first reports of natural infection of these plants by in Europe. Furthermore, infection of corn by and soybean by (Drama, North Greece) are reported for the first time in Greece. Integrative taxonomical approach based on perineal pattern and EP/st ratio, as well as the region of the mitochondrial genome between the cytochrome oxidase subunit II () and 16S rRNA mitochondrial DNA (mtDNA) genes was used to differentiate species.
在克里特岛发现人工种植的克里特山茶或马洛蒂拉(L.)感染了[具体病菌名称1]和[具体病菌名称2]。作者提供了希腊[具体病菌名称1]的首次分子特征描述,以及克里特山茶或马洛蒂拉作为全球[具体病菌名称2]寄主的首次报道。此外,还发现[具体病菌名称1]感染了芦荟(安德罗斯岛)和玉米(希腊北部德拉马),这是欧洲这些植物被[具体病菌名称1]自然感染的首次报道。此外,希腊首次报道了玉米被[具体病菌名称3]感染以及大豆被[具体病菌名称4](希腊北部德拉马)感染。基于会阴模式和EP/st比率以及细胞色素氧化酶亚基II()和16S rRNA线粒体DNA(mtDNA)基因之间的线粒体基因组区域的综合分类方法被用于区分[具体病菌名称5]物种。在克里特岛发现人工种植的克里特山茶或马洛蒂拉(L.)感染了[具体病菌名称1]和[具体病菌名称2]。作者提供了希腊[具体病菌名称1]的首次分子特征描述,以及克里特山茶或马洛蒂拉作为全球[具体病菌名称2]寄主的首次报道。此外,还发现[具体病菌名称1]感染了芦荟(安德罗斯岛)和玉米(希腊北部德拉马),这是欧洲这些植物被[具体病菌名称1]自然感染的首次报道。此外,希腊首次报道了玉米被[具体病菌名称3]感染以及大豆被[具体病菌名称4](希腊北部德拉马)感染。基于会阴模式和EP/st比率以及细胞色素氧化酶亚基II()和16S rRNA线粒体DNA(mtDNA)基因之间的线粒体基因组区域的综合分类方法被用于区分[具体病菌名称5]物种。
