Promoter influences transcription elongation -: TATA-box element mediates the assembly of processive transcription complexes responsive to cyclin-dependent kinase 9

Pausing of RNA polymerase II ( RNAPII) during transcript elongation is an important mechanism for regulating gene expression at many genes. In this study we investigated the mechanism of regulated elongation of c-myc and human immunodeficiency virus-1 ( HIV-1) using an in vitro elongation assay that reproduces the conditional block to elongation. We found that HIV-1 Tat can activate the RNAPII transcription complexes paused on c-myc by enhancing their elongation efficiency. We determined that cyclin-dependent kinase 9 ( CDK9), the kinase subunit of positive transcription elongation factor b ( P-TEFb) complex, regulates transcriptional elongation of c-myc and is present in transcription pre-initiation complexes formed on the c-myc promoter, which emphasizes a common mechanism of elongation control between HIV-1 and c-myc genes. We also investigated the roles of upstream elements of the HIV-1 and c-myc promoters in CDK9-activated transcriptional elongation. We found that the TATA-box element mediates the assembly of processive transcription complexes responsive to CDK9 and that specific combinations of upstream activation binding sites contribute to the recruitment of these complexes. We propose a common mechanism for elongation control at the c-myc and HIV-1 genes with an essential role for the TATA-box and specific modulatory contribution of upstream regulatory sequences, derived from the unique structure of the promoters, to form a composite surface for efficient recruitment of elongation-competent transcription complexes.