HIGHLIGHTS
- who: Simó from the Institute of Bioscience and Bioresources (CNR), Italy Yangtze University, China have published the Article: De novo transcriptome assembly and functional analysis reveal a dihydrochalcone 3-hydroxylase(DHC3H) of wild Malus species that produces sieboldin in vivo, in the Journal: (JOURNAL)
- what: The authors aimed to identify candidate genes that may account for the 3-hydroxylation of phloretin, that could be involved in DHC formation of wild Malus species. Combining transcriptomic, metabolic and functional analyses, the work reports for the first time a 3-hydroxylase of Malus species that convert phloretin . . .
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