Functional analysis of GC element binding and transcription in the hamster dihydrofolate reductase gene promoter

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Nucleic Acids Research, 1989, Vol. 17, No. 22 9291-9304
© 1989

MOLECULAR BIOLOGY

Functional analysis of GC element binding and transcription in the hamster dihydrofolate reductase gene promoter

Andrew G. Swick¹, Michael C. Blake¹^,3, Jeanne W. Kahn¹ and Jane Clifford Azizkhan¹^,2^,3^,*

¹Lineberger Cancer Research Center, University of North Carolina Chapel Hill, NC 27599-7295, USA ²Department of Pediatrics and Pharmacology, University of North Carolina Chapel Hill, NC 27599-7295, USA ³Curriculum in Genetics, University of North Carolina Chapel Hill, NC 27599-7295, USA

^*To whom correspondence should be addressed

Received July 13, 1989. Revised October 4, 1989. Accepted October 4, 1989.

Dihydrofolate reductase (DHFR) gene expression is required forcell growth. The DHFR gene promoter contains several GC elementscapable of binding the transcription factor Sp1 In this reportwe have characterized the effect of protein(s) binding to thesesequence elements in the Chinese hamster DHFR promoter on transcription.We have constructed a series of deletions containing from 896to 103 bp 5' to the start of translation. The protein bindingdomains have been mapped by DNAse I footprint analysis usingHeLa nuclear extract, and the function of the protein-bindingelements has been assessed by in vitro transcription and transientCAT expression. Maximal transcription in vitro and CAT expressionis obtained with a construct containing 3 GC elements extendingto position -184. Removal of GC element binding factor(s), bycompetition with an oligonucleotide containing an Sp1 bindingsite, completely abolishes transcription in vitro and significantlydiminishes CAT expression. Ten-fold higher molar excess of competitoris required to abolish SV40 early transcription, suggestingthat the GC element interactions in the DHFR promoter are differentfrom those in the SV40 early region. Co-transfection of a DHFRCAT construct with an expressor of Sp1 dramatically increasedCAT expression in Drosophila cells.

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