ISSN:
0749-503X
Keywords:
Saccharomyces cerevisiae
;
adenine/thymine-rich segment
;
PHO regulon
;
Pho2p
;
PHO promoter
;
upstream activation site (UAS)
;
Life and Medical Sciences
;
Genetics
Source:
Wiley InterScience Backfile Collection 1832-2000
Topics:
Biology
Notes:
Transcription of the genomic PHO5, PHO81 and PHO84 genes of the PHO regulon requires Pho4p and Pho2p activity, whereas transcription of PHO8 is directed by Pho4p alone. Pho4p binds to two 9-bp motifs, 5′-GCACGTGGG-3′ (type 1, e.g. UASp2 of PHO5 and site D of PHO84) and 5′-GCACGTTTT-3′ (type 2, e.g. UASp1 of PHO5 and site E of PHO84) in the PHO promoter. Experiments were performed to evaluate the ability of these 9-bp motifs to function as upstream activation sites (UASs) by insertion of various 36-bp fragments bearing the 9-bp motif in a CYC1-lacZ fusion gene. No expression of the lacZ gene was detected with the 36-bp fragment bearing UASp2 of PHO5, whereas similar 36-bp fragments bearing UASp1 of PHO5 and sites D and E of PHO84 showed UAS activity in response to Pi concentration in the medium and to the pho2 mutation. The Pho2p-responsive UASs are flanked by one or two copies of an A/T-rich segment, whereas UASp2 is not. Gel retardation and competition experiments performed using a T7-Pho2p-His chimeric protein showed that Pho2p binds to the 36-bp fragments bearing A/T-rich segment(s) but not appreciably to the 36-bp fragments not bearing such segment(s). Thus, the A/T segments flanking the PHO UASs are Pho2p binding sites and play an important role in PHO regulation. © 1997 John Wiley & Sons, Ltd.
Additional Material:
3 Ill.
Type of Medium:
Electronic Resource
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