A binuclear zinc transcription factor binds the host isoflavonoid-responsive element in a fungal cytochrome p450 gene responsible for detoxification

doi:10.1046/j.1365-2958.2003.03552.x

If you are seeing this message, you may be experiencing temporary network problems. Please wait a few minutes and refresh the page. If the problem persists, you may wish to report it to your local Network Manager.

It is also possible that your web browser is not configured or not able to display style sheets. In this case, although the visual presentation will be degraded, the site should continue to be functional. We recommend using the latest version of Microsoft or Mozilla web browser to help minimise these problems.

Wiley InterScience

Molecular Microbiology

Volume 49 Issue 1, Pages 117 - 130

Published Online: 30 May 2003

< Previous Abstract | Next Abstract >

Save Article to My Profile Download Citation Request Permissions

Abstract | References | Full Text: HTML, PDF (Size: 516K) | Related Articles | Citation Tracking

A binuclear zinc transcription factor binds the host isoflavonoid-responsive element in a fungal cytochrome p450 gene responsible for detoxification

Rana Khan ¹ ^† , Reynold Tan ² , Amanda Galvez Mariscal ³ and David Straney ^1,2 *

¹ Molecular and Cellular Biology Program, University of Maryland, College Park, MD 20742, USA.
² Department of Cell Biology and Molecular Genetics, University of Maryland, College Park, MD 20742–5815, USA.
³ Depto. de Alimentos y Biotecnologia, Facultad de Quimica, UNAM, Cd. Universitaria, Mexico D. F. 04510.

Correspondence to *E-mail Straney@umd.edu; Tel. (+1) 301 405 1622; Fax (+1) 301 314 9082..

†Present address: USDA/ARS, PSI, Bldg. 006, Room 118, BARC-West, 10300 Baltimore Ave. Beltsville, MD 20705–2350, USA

Summary

The PDA1 gene of the filamentous fungus Nectria haematococca MPVI (anamorph: Fusarium solani) encodes pisatin demethylase, a cytochrome P450. Pisatin is a fungistatic isoflavonoid produced by garden pea (Pisum sativum), a host for this fungus. Pisatin demethylase detoxifies pisatin and functions as a virulence factor for this fungus. Pisatin induces PDA1 expression both in cultured mycelia as well as during pathogenesis on pea. The regulatory element within PDA1 that provides pisatin-responsive expression was identified using a combination of in vivo functional analysis and in vitro binding analysis. The 40 bp pisatin-responsive element is located 635 bp upstream of the PDA1 transcription start site. This element was sufficient to provide strong pisatin-induced expression to a minimal promoter in vivo and was required for pisatin regulation of the PDA1 promoter. A gene encoding a DNA-binding protein specific to this 40 bp element was isolated from a N. haematococca cDNA library using the yeast one-hybrid screen. The cloned gene possesses sequence motifs found in the binuclear zinc (Cys 6-Zn 2) family of transcription factors unique to fungi. The results suggest that it is a regulator of this fungal cytochrome P450 gene and may provide pisatin-responsive regulation.