Arabidopsis Class A and B HSFs Show a Spectrum of Transcriptional Activity

Czarnecka-Verner, Eva; Gurley, William B.

doi:0860-7796

- ris
- BibTeX
- EndNote
- Csv

Arabidopsis Class A and B HSFs Show a Spectrum of Transcriptional Activity Czarnecka-Verner, EvaGurley, William B.

Object structure

Arabidopsis Class A and B HSFs Show a Spectrum of Transcriptional Activity

Czarnecka-Verner, Eva ; Gurley, William B.

Komitet Biotechnologii PAN ; Instytut Chemii Bioorganicznej PAN

2002

biotechnologia

A plethora of heat shock transcription factors (HSFs) has been obtainedfrom various plant species (33,45-48,50,51). The Arabidopsis genome sequencingproject provided confirmation of the existence of at least twenty one HSFswhich were classified into three major classes. A, B and C, and numerous subclasses (9). Members of HSF class A displayed differential transcriptional activities in tobacco protoplasts that varied from 15- to 50-fold above the controllevel. This diversity of activity levels may reflect HSF variations regarding theirtranscriptional activation functions- some of the members might be the majorheat inducible HSFs (class A1 HSFs), while others act in an auxiliary capacity asHSF activity boosters (38). Two new class B HSFs showed no transcriptional activation potential. Reporter activities due to endogenous tobacco HSFs were inhibited by a class B HSFs showing high expression levels. This suppression ofendogenous HSFs by class B members provides further evidence that class BHSFs are not transcriptional activators, but are able to trons-attenuate thetranscriptional activity of bona fide activator HSFs (34,41). The transcriptionalcompetency of class C HSFs has not been determined.

Biotechnologia, vol.58, 3 (2002)-.