Functional properties of a Drosophila homolog of the E2F1 gene.

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Mol Cell Biol. 1994 March; 14(3): 1603-1612

Functional properties of a Drosophila homolog of the E2F1 gene.

K Ohtani and J R Nevins

Section of Genetics, Howard Hughes Medical Institute, Duke University Center, Durham, North Carolina 27710.

ABSTRACT

A variety of studies have now implicated the cellular transcriptionfactor E2F as a key participant in transcription control duringthe cell growth cycle. Although the recent isolation of molecularclones encoding proteins that are components of the E2F activity(E2F1 and DP-1) provides an approach to defining the specificinvolvement of E2F in these events, definitive experiments remaindifficult in the absence of appropriate genetic systems. Wehave now identified a Drosophila equivalent of E2F1 that wehope will allow an eventual genetic approach to the role ofE2F in cellular regulatory events. A cDNA clone was isolatedfrom a Drosophila cDNA library by using a probe containing sequencefrom the E2F1 DNA binding domain. The sequence of the clone,which we term drosE2F1, demonstrates considerable homology tothe human E2F1 sequence, with over 65% identity in the DNA bindingregion and 50% identity in the region of E2F1 known to interactwith the retinoblastoma gene product. A glutathione S-transferase-drosE2F1fusion protein was capable of binding specifically to an E2Frecognition site, and transfection assays demonstrated thatthe drosE2F1 product was capable of transcription activation,dependent on functional E2F sites as well as sequences withinthe C terminus of the protein. Finally, we have also identifiedE2F recognition sequences within the promoter of the DrosophilaDNA polymerase alpha gene, and we demonstrate that the drosE2F1product activates transcription of a test gene under the controlof this promoter. We conclude that the drosE2F1 cDNA encodesan activity with extensive structural and functional similarityto the human E2F1 protein.

Mol Cell Biol. 1994 March; 14(3): 1603-1612

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