https://www.selleckchem.com/ Interestingly, the activity of 9-HODEs was less than that of other regio-isomers, and 9-(E,E)-HODE tended to decrease PPARγ-target gene expression during the maturation of 3T3-L1 cells. In addition, 10- and 12-(Z,E)-HODEs, which we previously proposed as biomarkers for early-stage diabetes, exerted PPARγ agonist activity. These results indicate that all HODE isomers have PPARγ-binding affinity; however, they have different PPARγ agonist activity. Our findings may help to understand the biological function of lipid peroxidation products. Copyright 2020 The Author(s).The N6-methyladenosine modification at position 43 (m6A43) of U6 snRNA is catalyzed by METTL16, and is important for the 5'-splice site recognition by U6 snRNA during pre-mRNA splicing. Human METTL16 consists of the N-terminal methyltransferase domain (MTD) and the C-terminal vertebrate conserved region (VCR). While the MTD has an intrinsic property to recognize a specific sequence in the distinct structural context of RNA, the VCR functions have remained uncharacterized. Here, we present structural and functional analyses of the human METTL16 VCR. The VCR increases the affinity of METTL16 toward U6 snRNA, and the conserved basic region in VCR is important for the METTL16-U6 snRNA interaction. The VCR structure is topologically homologous to the C-terminal RNA binding domain, KA1, in U6 snRNA-specific terminal uridylyl transferase 1 (TUT1). A chimera of the N-terminal MTD of METTL16 and the C-terminal KA1 of TUT1 methylated U6 snRNA more efficiently than the MTD, indicating the functional conservation of the VCR and KA1 for U6 snRNA biogenesis. The VCR interacts with the internal stem-loop (ISL) within U6 snRNA, and this interaction would induce the conformational rearrangement of the A43-containing region of U6 snRNA, thereby modifying the RNA structure to become suitable for productive catalysis by the MTD. Therefore, the MTD and VCR in METTL16 cooperatively facilitate the m