Figure 5
Figure 5. MYL9 and MYH9 are direct target genes of RUNX1 in MKs. (A) Schematic representation of MYL9 and MYH9 promoters. Gray numbers indicate genomic location in UCSC database (GRCh37/hg19). Gray box indicate RUNX1 putative binding sites (MYL9_1, MYL9_2, MYH9_1, MYH9_2) and black lines show MYL9_A, MYH9_A and MYH9_B amplicon fragments studied in ChIP experiment, respectively localized in position: chr20:35169598-35169802, chr22:36784345-36784527, chr22:36785559-36785780. TSS indicates transcription start site and ATG translational start site. (B) Quantitative ChIP analysis was performed in MKs. Primers encompassing (MYL9_A, MYH9_A,_B) or not (control) RUNX1 site were used to amplify input genomic DNA and the DNA precipitated by antibodies against either normal IgG or RUNX1. A genomic region without RUNX1 binding site was used as negative control sequence (control). Values are normalized to input genomic DNA. Values obtained for fold enrichment using MYH10_A and _B were statistically significant as indicated. Data are representative of 3 independent experiments performed in duplicate (n = 3, P < .001, error bars represent SD of duplicate). (C) MYL9-promoter luciferase assay with mutated RUNX1 binding sites (plucMYL9mut1, plucMYL9mut2, plucMYL9mut1/2) or with WT promoter (plucMYL9) in HEL cells. Luciferase assay was performed by transient HEL cell cotransfection with 500 ng of MPI vector containing RUNX1 WT and pEF6/V5-His-TOPO vector con-aining CBFβ. Luciferase levels are shown as fold change relative to cells transfected with the promoter construct (plucMYL9, plucMYL9mut1, plucMYL9mut2) or plucMYL9mut1/2 alone. The total amount of transfected DNA was kept constant by transfection with an empty vector. (C) Illustrates 1 representative experiment (n = 3, P < .01, error bars represent SD of triplicate). (D) MYH9-promoter luciferase assay with (plucMYH9mut1) or without mutated RUNX1 binding site (plucMYH9) in HEL cells. (D) Illustrates 1 representative experiment (n = 3, P < .001, error bars represent SD of triplicate).

MYL9 and MYH9 are direct target genes of RUNX1 in MKs. (A) Schematic representation of MYL9 and MYH9 promoters. Gray numbers indicate genomic location in UCSC database (GRCh37/hg19). Gray box indicate RUNX1 putative binding sites (MYL9_1, MYL9_2, MYH9_1, MYH9_2) and black lines show MYL9_A, MYH9_A and MYH9_B amplicon fragments studied in ChIP experiment, respectively localized in position: chr20:35169598-35169802, chr22:36784345-36784527, chr22:36785559-36785780. TSS indicates transcription start site and ATG translational start site. (B) Quantitative ChIP analysis was performed in MKs. Primers encompassing (MYL9_A, MYH9_A,_B) or not (control) RUNX1 site were used to amplify input genomic DNA and the DNA precipitated by antibodies against either normal IgG or RUNX1. A genomic region without RUNX1 binding site was used as negative control sequence (control). Values are normalized to input genomic DNA. Values obtained for fold enrichment using MYH10_A and _B were statistically significant as indicated. Data are representative of 3 independent experiments performed in duplicate (n = 3, P < .001, error bars represent SD of duplicate). (C) MYL9-promoter luciferase assay with mutated RUNX1 binding sites (plucMYL9mut1, plucMYL9mut2, plucMYL9mut1/2) or with WT promoter (plucMYL9) in HEL cells. Luciferase assay was performed by transient HEL cell cotransfection with 500 ng of MPI vector containing RUNX1 WT and pEF6/V5-His-TOPO vector con-aining CBFβ. Luciferase levels are shown as fold change relative to cells transfected with the promoter construct (plucMYL9, plucMYL9mut1, plucMYL9mut2) or plucMYL9mut1/2 alone. The total amount of transfected DNA was kept constant by transfection with an empty vector. (C) Illustrates 1 representative experiment (n = 3, P < .01, error bars represent SD of triplicate). (D) MYH9-promoter luciferase assay with (plucMYH9mut1) or without mutated RUNX1 binding site (plucMYH9) in HEL cells. (D) Illustrates 1 representative experiment (n = 3, P < .001, error bars represent SD of triplicate).

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