Datin, a yeast poly(dA:dT)-binding protein, behaves as an activator of the wild-type ILV1 promoter and interacts synergistically with Reb1p
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Datin, a yeast poly(dA:dT)-binding protein, behaves as an activator of the wild-type ILV1 promoter and interacts synergistically with Reb1p. / Moreira, José Manuel Alfonso; Remacle, J E; Kielland-Brandt, Morten; Holmberg, S.
I: Molecular and General Genetics, Bind 258, Nr. 1-2, 1998, s. 95-103.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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T1 - Datin, a yeast poly(dA:dT)-binding protein, behaves as an activator of the wild-type ILV1 promoter and interacts synergistically with Reb1p
AU - Moreira, José Manuel Alfonso
AU - Remacle, J E
AU - Kielland-Brandt, Morten
AU - Holmberg, S
PY - 1998
Y1 - 1998
N2 - A cis-acting element required for GCN4-independent basal-level transcription of ILV1 was previously identified in our laboratories as a binding site for the REB1 protein (Reb1p). Further deletion analysis of the ILV1 promoter region identified a second element also required for GCN4-independent basal-level ILV1 expression. This second element is an A.T-rich tract (26 As out of 32 nucleotides) situated 15 bp downstream of the Reb1p-binding site. Deletion of both the Reblp site and the poly(dA:dT) element totally eliminates basal activity of the ILV1 promoter. We show that the two elements act synergistically to control ILV1 expression and that the synergistic effect is distance dependent. We demonstrate that (i) datin (Dat1p), the only known poly (dA:dT)-binding protein in yeast, specifically binds to the ILV1 poly(dA:dT) element in vitro; (ii) Dat1p functions as a trans-activating factor in the ILV1 context; and (iii) the synergistic activation observed in vivo between the Reb1p site and the poly(dA:dT) element depends on the presence of the structural gene for Dat1p, DAT1.
AB - A cis-acting element required for GCN4-independent basal-level transcription of ILV1 was previously identified in our laboratories as a binding site for the REB1 protein (Reb1p). Further deletion analysis of the ILV1 promoter region identified a second element also required for GCN4-independent basal-level ILV1 expression. This second element is an A.T-rich tract (26 As out of 32 nucleotides) situated 15 bp downstream of the Reb1p-binding site. Deletion of both the Reblp site and the poly(dA:dT) element totally eliminates basal activity of the ILV1 promoter. We show that the two elements act synergistically to control ILV1 expression and that the synergistic effect is distance dependent. We demonstrate that (i) datin (Dat1p), the only known poly (dA:dT)-binding protein in yeast, specifically binds to the ILV1 poly(dA:dT) element in vitro; (ii) Dat1p functions as a trans-activating factor in the ILV1 context; and (iii) the synergistic activation observed in vivo between the Reb1p site and the poly(dA:dT) element depends on the presence of the structural gene for Dat1p, DAT1.
KW - Base Sequence
KW - DNA-Binding Proteins
KW - Dopamine Plasma Membrane Transport Proteins
KW - Fungal Proteins
KW - Gene Expression Regulation
KW - Membrane Glycoproteins
KW - Membrane Transport Proteins
KW - Molecular Sequence Data
KW - Nerve Tissue Proteins
KW - Poly dA-dT
KW - Promoter Regions, Genetic
KW - Saccharomyces cerevisiae Proteins
KW - Threonine Dehydratase
M3 - Journal article
C2 - 9613577
VL - 258
SP - 95
EP - 103
JO - Molecular General Genetics
JF - Molecular General Genetics
SN - 0026-8925
IS - 1-2
ER -
ID: 205238