Secondary literature sources for MADF
The following references were automatically generated.
- Pile LA, Cartwright IL
- GAGA factor-dependent transcription and establishment of DNase hypersensitivity are independent and unrelated events in vivo.
- J Biol Chem. 2000; 275: 1398-404
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Using a Drosophila transgenic system we investigated the ability of GAGA factor, a putative anti-repressor, to modulate transcription-related events in the absence or presence of a bona fide activator, the Adf-1 transcription factor. In contrast to previous in vitro and in vivo data linking the binding of GAGA factor to the acquisition of DNase hypersensitivity at heat shock promoters, we observed that inserting multiple GAGA binding motifs adjacent to a minimal alcohol dehydrogenase (Adh) promoter led to strongly elevated embryonic transcription without creation of a promoter-associated DNase-hypersensitive (DH) site. Establishment of DNase hypersensitivity required the presence of both GAGA and Adf-1 binding sites and was accompanied by a further, synergistic increase in transcription. Because Adf-1 is capable neither of establishing a DH site nor of promoting efficient transcription by itself in embryos, it is likely that DH site formation depends on a GAGA factor-mediated binding of Adf-1 to chromatin, perhaps facilitated by a locally remodeled downstream promoter region. More generally we suggest that GAGA factor-binding sequences may operate in a promoter-specific context, with transcriptional activation, polymerase pausing, and/or DH site formation critically dependent on the nature of the sequences (and their binding partners) linked in cis.
- Cutler G, Perry KM, Tjian R
- Adf-1 is a nonmodular transcription factor that contains a TAF-binding Myb-like motif.
- Mol Cell Biol. 1998; 18: 2252-61
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Adf-1 is an essential Drosophila melanogaster sequence-specific transactivator that binds the promoters of a diverse group of genes. We have performed a comprehensive mapping of the functional domains of Adf-1 to study the role of transactivators in the process of gene activation. Using a series of clustered point mutations and small deletions we have identified regions of Adf-1 required for DNA binding, dimerization, and activation. In contrast to most enhancer-binding factors, the Adf-1 activation regions are nonmodular and depend on an intact protein, including the Adf-1 DNA-binding domain, for activity. Like many transcriptional activators, Adf-1 contains a TFIID-binding domain that can interact with specific TAF subunits. Although TAFs are required for Adf-1-directed activation, TAF binding is not sufficient, suggesting that Adf-1 may direct multiple essential steps during activation. Interestingly, both the TAF-binding domain and the DNA-binding domain contain sequences homologous to those of the Myb family of DNA-binding domains. Thus, Adf-1 has evolved an unusual structure containing two versions of the Myb motif, one that binds DNA and one that binds proteins.
- McKenzie RW, Brennan MD
- cis-Acting sequences controlling the adult-specific transcription pattern of the Drosophila affinidisjuncta Adh gene.
- Dev Genet. 1998; 23: 119-27
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The cis-acting sequences required for the adult-specific expression pattern of the alcohol dehydrogenase (Adh) gene of the Hawaiian picture-winged fruit fly, Drosophila affinidisjuncta were analyzed by germline transformation. Normally this gene produces two developmentally regulated transcripts. The upstream (distal) promoter produces a distal transcript, which makes up about 80% of the total in adults, while the downstream (proximal) promoter produces a corresponding proximal transcript, which accounts for the remainder. Previously constructed genes lacking regions corresponding to regulatory elements within the Drosophila melanogaster Adh gene or regions known to be required for full expression of the D. affinidisjuncta Adh gene in larvae were analyzed by introduction into the germline of D. melanogaster followed by RNase-protection analysis of RNA levels. In addition, to test a model of preferential promoter utilization by which transcription at the proximal promoter is inhibited by transcription initiated at the upstream distal promoter, a construction lacking the distal promoter was analyzed. Sequences homologous to the adult enhancer of the Adh gene of D. melanogaster appear to play a similar role in the D. affinidisjuncta gene. In contrast to what has been reported for other Drosophila Adh genes, this and some other regulatory elements are shared by the two promoters of the D. affinidisjuncta gene. Taken together, the results favor a model of stage-specific switching between the two promoters of the D. affinidisjuncta gene that involves competition for limiting components stimulating transcription, rather than interference by read-through from the upstream promoter.
- Gao J, Benyajati C
- Specific local histone-DNA sequence contacts facilitate high-affinity, non-cooperative nucleosome binding of both adf-1 and GAGA factor.
- Nucleic Acids Res. 1998; 26: 5394-401
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Sequence-specific transcription factors need to gain access to regulatory sequences in chromatin. Previous studies utilizing model systems have suggested many mechanisms involved in this process. It is unclear however how these findings relate to natural promoters. The Drosophila alcohol dehydrogenase ( Adh ) gene distal promoter is organized into an ordered nucleosome array before multiple transcription factors recognize their sites within this nucleosomal context and activate transcription. Here we used a purified in vitro system to study the binding of the ubiquitous Drosophila transcription factors Adf-1 and GAGA factor to the Adh distal promoter in chromatin. Several nucleosome core particles were assembled on 150 bp DNA fragments containing the Adh distal cis -acting elements in the natural promoter context but different DNA-histone environments. We found that the Adh distal promoter regulatory sequences can position nucleosomes in the same rotational setting as observed in vivo. In one particular nucleosome position, the wrapping of the Adf-1 and adjacent GAGA factor binding sitesaround the histone octamer creates a unique local DNA conformation. High-affinity but non-cooperative nucleosome binding of Adf-1 and GAGA factortherefore occurs, in contrast to the inhibition of Adf-1 and GAGA factor binding in other nucleosome positions. Thus, local histone-DNA sequence contact giving rise to a specific asymmetric nucleosome structure may play important roles in modulating the affinities of transcription factors for their nucleosomal sites.
- Hu J, Qazzaz H, Brennan MD
- A transcriptional role for conserved footprinting sequences within the larval promoter of a Drosophila alcohol dehydrogenase gene.
- J Mol Biol. 1995; 249: 259-69
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All Drosophila alcohol dehydrogenase (Adh) genes that are expressed in larvae display strong transcription in the larval fat body. To identify and characterize elements needed for Adh promoter function, footprinting analysis of the Drosophila affinidisjuncta Adh gene was performed with stage-specific nuclear proteins from embryos and larvae. Multiple sites upstream of the larval promoter were protected from deoxyribonuclease digestion by both embryonic and larval extracts. Comparison with foot-printing results for Adh genes from other Drosophila species revealed only one nuclease-protected region that is conserved in both sequence and position. Clustered point mutations in this sequence were analyzed by footprinting analysis, transient transformation and in vitro transcription. Two separate sequences in this footprinting region exerted positive effects on transcription from the Adh proximal promoter in the larval fat body. The effects of these sequences on gene expression were synergistic. One of these sequences, TGATAA, bound in vitro to Drosophila melanogaster box A binding factor protein, as shown by gel mobility shift assays. This is the first direct demonstration of specific protein-DNA interactions influencing transcription of a Drosophila Adh gene in the larval fat body.
- Hansen SK, Tjian R
- TAFs and TFIIA mediate differential utilization of the tandem Adh promoters.
- Cell. 1995; 82: 565-75
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The D. melanogaster alcohol dehydrogenase (Adh) gene is transcribed from two tandem promoters that are differentially utilized at various stages during development. To determine the mechanism of promoter selectivity, we have analyzed the activity of the Adh promoters both in vitro and in transfected cells. We found that selective promoter utilization is controlled by distinct initiator elements. Reconstitution of Adh transcription with purified components requires a specific TBP-TAF complex that, in concert with TFIIA, directs differential Adh promoter transcription. Fractionation of this TBP-TAF complex reveals that TAFII150 is required for discrimination between the proximal and distal promoters. We propose a mechanism for regulating differential promoter utilization during Drosophila development that involves the recognition of specific initiator elements by TAFs in the TFIID complex.
- Potter JJ, Mezey E, Yang VW
- The adult enhancer factor-1, a Drosophila melanogaster transcriptional repressor, modulates the promoter activity of the rat class-I alcohol dehydrogenase-encoding gene.
- Gene. 1994; 149: 325-30
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Expression of the Drosophila melanogaster alcohol dehydrogenase-encoding gene (ADH) in the adult fat body is controlled by the ADH adult enhancer site (AAE). The D. melanogaster transcription repressor, adult enhancer factor-1 (AEF-1), binds to AAE at a site which overlaps with a sequence recognized by the mammalian transcription factor, CCAAT/enhancer-binding protein alpha [C/EBP alpha; Falb and Maniatis, Genes Dev. 6 (1992a) 454-465]. C/EBP alpha also activates the promoter of the rat class-I ADH gene in a sequence-specific manner [Potter et al., Arch. Biochem. Biophys. 285 (1991a) 246-251]. In this study, we explored the possibility that D. melanogaster AEF-1 influences transcription of the rat class-I ADH. By DNase I footprint analysis, bacterially produced AEF-1 protects a region of DNA between nucleotides (nt) -22 and -36 of the rat class-I ADH promoter (pADH), just 5' to the binding site of C/EBP alpha, a result confirmed by the electrophoretic mobility shift assay (EMSA). Co-transfection of a rat pADH-CAT reporter construct with expression vectors containing C/EBP alpha, AEF-1, or both, indicates that AEF-1 inhibits induction of the rat pADH by C/EBP alpha. Moreover, rat liver nuclear extracts appear to contain AEF-1-like-binding activities to AAE by EMSA. These experiments suggest an evolutionarily conserved mechanism by which AEF-1 modulates expression of the D. melanogaster and rat ADH genes.
- Ananthan J et al.
- Synergistic activation of transcription is mediated by the N-terminal domain of Drosophila fushi tarazu homeoprotein and can occur without DNA binding by the protein.
- Mol Cell Biol. 1993; 13: 1599-609
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Synergistic activation of transcription by Drosophila segmentation genes in tissue culture cells provides a model with which to study combinatorial regulation. We examined the synergistic activation of an engrailed-derived promoter by the pair-rule proteins paired (PRD) and fushi tarazu (FTZ). Synergistic activation by PRD requires regions of the homeodomain or adjacent sequences, and that by FTZ requires the first 171 residues. Surprisingly, deletion of the FTZ homeodomain does not reduce the capacity of the protein for synergistic activation, although this mutation abolishes any detectable DNA-binding activity. This finding suggests that FTZ can function through protein-protein interactions with PRD or other components of the homeoprotein transcription complex, adding a new layer of mechanisms that could underlie the functional specificities and combinatorial regulation of homeoproteins.
- Abel T, Michelson AM, Maniatis T
- A Drosophila GATA family member that binds to Adh regulatory sequences is expressed in the developing fat body.
- Development. 1993; 119: 623-33
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We have identified a Drosophila transcription factor that binds a sequence element found in the larval promoters of all known alcohol dehydrogenase (Adh) genes. DNA sequence analysis of cDNA clones encoding this protein, box A-binding factor (ABF), reveals that it is a member of the GATA family of transcriptional regulatory factors. ABF-binding sites within the D. mulleri and D. melanogaster larval Adh promoters function as positive regulatory elements and in cotransfection experiments, ABF functions as a transcriptional activator. In further support of a role for ABF in the regulation of Adh expression, ABF mRNA is expressed in the embryonic fat body, a tissue that contains high levels of Adh mRNA. Our studies demonstrate that the fat body develops from segmentally repeated clusters of mesodermal cells, which later expand and coalesce to form the mature fat body. These observations establish ABF as the earliest known fat body precursor marker in the Drosophila embryo. Together with the established role of GATA factors during mammalian development, these results suggest that ABF may play a key role in the organogenesis of the fat body.
- Benyajati C, Ewel A, McKeon J, Chovav M, Juan E
- Characterization and purification of Adh distal promoter factor 2, Adf-2, a cell-specific and promoter-specific repressor in Drosophila.
- Nucleic Acids Res. 1992; 20: 4481-9
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Chromatin footprinting in Drosophila tissue culture cells has detected the binding of a non-histone protein at +8 of the distal Adh RNA start site, on a 10-bp direct repeat motif abutting a nucleosome positioned over the inactive Adh distal promoter. Alternatively the active promoter is bound by a transcription initiation complex. We have characterized and purified a protein Adf-2 that binds specifically to this direct repeat motif 5'TCTCAGTGCA3', present at +8 and -202 of the distal RNA start site. DNase I footprinting, methylation interference, and UV-crosslinking analyses showed that both direct repeats interact in vitro with a nuclear protein of approximately 120 kilodaltons (kDa). We purified Adf-2 through multiple rounds of sequence-specific DNA affinity chromatography. Southwestern analysis showed that the purified 120 KDa polypeptide binds the Adf-2 motif efficiently as a monomer or homomultimer. In vivo titrations of Adf-2 activity with the Adf-2 motif by transient co-transfection competitions in different Drosophila cell lines suggested that Adf-2 is a cell-specific repressor. Adf-2 has been detected ubiquitously in vitro, but is functional in vivo as a sequence-specific DNA binding protein and repressor only in the cells that have the inactive distal promoter. We discuss the possibility that an activation process is required for Adf-2 protein to bind DNA and function in vivo.
- England BP, Admon A, Tjian R
- Cloning of Drosophila transcription factor Adf-1 reveals homology to Myb oncoproteins.
- Proc Natl Acad Sci U S A. 1992; 89: 683-7
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The Drosophila sequence-specific DNA binding protein, Adf-1, is capable of activating transcription of the alcohol dehydrogenase gene, Adh, and is implicated in the transcriptional control of other developmentally regulated genes. We have cloned the cDNA encoding Adf-1 by generating specific DNA probes deduced from partial amino acid sequence of the protein. Several cDNA clones encoding an extended open reading frame were isolated from a phage lambda library. The complete amino acid sequence of Adf-1 deduced from the longest cDNA reveals structural similarities to the putative helix-turn-helix DNA binding motif of Myb and Myb-related proteins. DNA sequence analysis of genomic clones and Northern blot analysis of mRNA suggest that Adf-1 is a single-copy gene encoding a 1.9-kb transcript. Purified recombinant Adf-1 expressed in Escherichia coli binds specifically to Adf-1 recognition sites and activates transcription of a synthetic Adh promoter in vitro in a manner indistinguishable from the protein purified from Drosophila. Temporally staged Drosophila embryos immunochemically stained with affinity-purified anti-Adf-1 antibodies indicate that Adf-1 protein is not detectable in very early embryos and does not appear to be maternally inherited. During later stages of embryogenesis, Adf-1 appears to be expressed in the nucleus of most somatic cells in the embryo with possibly higher concentrations found in some tissues.
- England BP, Heberlein U, Tjian R
- Purified Drosophila transcription factor, Adh distal factor-1 (Adf-1), binds to sites in several Drosophila promoters and activates transcription.
- J Biol Chem. 1990; 265: 5086-94
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Adh distal factor-1 (Adf-1) is a sequence-specific DNA-binding activity originally identified in Drosophila tissue culture cells and embryos. Adf-1 binds to upstream recognition elements in each of the two promoters of the Drosophila alcohol dehydrogenase gene (Adh), and binding of Adf-1 to the Adh distal promoter site activates transcription. We have carried out a mutational analysis of the Adh distal promoter using both an in vitro transcription assay and a transient transfection assay in Drosophila tissue culture cells, and in both cases find that deletion of sequences required for Adf-1 binding leads to a 3-4-fold drop in transcription. We have purified Adf-1 and demonstrate by a sodium dodecyl sulfate-gel renaturation assay that it is a 34-kDa protein. Purified Adf-1 activates Adh distal promoter transcription in vitro in a binding site-dependent manner. DNase I footprint analysis shows that the purified protein binds not only to the two previously characterized sites in Adh but also to transcriptional regulatory elements in the dopa decarboxylase (Ddc) and Antennapedia (Antp) P1 promoters. Thus, it appears that Adf-1 may play an important role not only in the regulation of Adh expression but also in the transcription of other Drosophila genes as well.
- Strand DJ, McDonald JF
- Insertion of a copia element 5' to the Drosophila melanogaster alcohol dehydrogenase gene (adh) is associated with altered developmental and tissue-specific patterns of expression.
- Genetics. 1989; 121: 787-94
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The Drosophila melanogaster alcohol dehydrogenase gene (adh) is under the control of two separate promoters (proximal and distal) which are preferentially utilized at the larval and adult life stages, respectively. A variant alcohol dehydrogenase allele (RI-42) isolated from a natural population contains a copia retroviral-like transposable element inserted 240 bp upstream from the distal (adult) adh transcriptional start site. Levels of adh transcripts in the RI-42 variant are reduced in tissues and at life stages where copia is actively expressed and are affected in trans- by mutant alleles at the suppressor-of-white-apricot (su(wa] and suppressor-of-forked (su(f] loci. These suppressor genes have no effect on adh expression in wild-type Drosophila.
- Corbin V, Maniatis T
- Role of transcriptional interference in the Drosophila melanogaster Adh promoter switch.
- Nature. 1989; 337: 279-82
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The Drosophilia melanogaster alcohol dehydrogenase (Adh) gene is transcribed from two closely linked promoters, which are regulated by two upstream enhancers. The proximal promoter is active primarily in first to early third-instar larvae, whereas the distal promoter is active in late third-instar larvae and adults. The Adh larval enhancer and the proximal promoter are separated by the Adh adult enhancer and the distal promoter. Because the proximal promoter is turned off just as the distal promoter is turned on, we considered the possibility that the distal promoter or adult enhancer has a role in the downregulation of the proximal promoter. We report here that transcription from the distal promoter is required to shut off the proximal promoter. In the absence of the distal promoter, the proximal promoter is active throughout larval development and in adults. The proximal promoter is also aberrantly active in adults when placed upstream of the distal promoter. These results suggest that the developmental switch from proximal to distal promoter is regulated by the stage-specific activation of the distal promoter, and the subsequent repression of the proximal promoter by transcriptional interference.
- Dynlacht BD, Attardi LD, Admon A, Freeman M, Tjian R
- Functional analysis of NTF-1, a developmentally regulated Drosophila transcription factor that binds neuronal cis elements.
- Genes Dev. 1989; 3: 1677-88
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In an effort to characterize sequence-specific transcription factors that regulate gene expression during Drosophila development, we identified and purified a novel DNA-binding activity (NTF-1). The purified protein consists of several polypeptides that bind selectively to a functionally important cis-control element of the Ultrabithorax (Ubx) promoter and to the neurogenic elements of both the dopa decarboxylase (Ddc) and fushi tarazu (ftz) promoter/enhancer regions. Purified NTF-1 activates transcription in vitro in a binding site-dependent manner through upstream sequences of the Ubx promoter. A cDNA clone encoding the open reading frame of NTF-1 was isolated, and the deduced primary amino acid sequence of NTF-1 includes a glutamine-rich region reminiscent of the transcriptional activation domains found in Sp1 but no recognizable DNA-binding domain. NTF-1 expression is temporally regulated during embryonic development. In addition, in situ hybridization experiments revealed that NTF-1 is transcribed in a spatially restricted pattern in the embryo, with the highest level of expression observed in the epidermis and a subset of cells in the CNS. Expression of the NTF-1 cDNA in mammalian cells yields a protein that displays DNA-binding and transcriptional activities indistinguishable from that of the collection of proteins isolated from Drosophila embryos. These findings suggest that NTF-1 is a member of a family of developmentally regulated transcription factors that may be involved in directing the expression of genes such as Ubx, Ddc, and ftz in neuronal cells.
- Winslow GM, Hayashi S, Krasnow M, Hogness DS, Scott MP
- Transcriptional activation by the Antennapedia and fushi tarazu proteins in cultured Drosophila cells.
- Cell. 1989; 57: 1017-30
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Drosophila homeodomain proteins bind to specific DNA sequences in vitro and are hypothesized to regulate the transcription of other genes during development. Using a cotransfection assay, we have shown that homeodomain proteins encoded by the homeotic gene Antennapedia (Antp) and the segmentation gene fushi tarazu, as well as a hybrid homeodomain protein, are activators of transcription from specific promoters in cultured Drosophila cells. Sequences downstream of the Antp P1 and Ultrabithorax transcription start sites mediate the observed activation. A TAA-rich DNA sequence to which the Antp protein binds in vitro is sufficient to confer regulation on a heterologous promoter. The results demonstrate that homeodomain proteins are transcriptional regulators in vivo and that in cultured cells, different homeodomain-containing proteins can act upon a common sequence to modulate gene transcription.
- Biggin MD, Tjian R
- A purified Drosophila homeodomain protein represses transcription in vitro.
- Cell. 1989; 58: 433-40
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even-skipped (eve) is a homeodomain-encoding gene that is a genetically defined repressor of Ultrabithorax (Ubx), fushi-tarazu (ftz), and wingless (wg). Here we report that purified eve protein represses transcription in vitro at the Ubx promoter, in a DNA binding site-dependent manner. eve protein represses transcription when bound either upstream or downstream of the RNA start site or when DNA binding sites are in either orientation. We also show that eve represses expression from the Ubx promoter in Drosophila tissue culture cells, again in a binding site-dependent manner. Deletion of eve DNA binding sites does not alter transcription in the absence of eve, and so repression is not likely to be the result of eve competitively inhibiting an activator protein from binding to the same DNA element. Instead, we propose that eve protein is probably interfering with the function of proteins bound at other locations in the promoter. The biochemical demonstration that a Drosophila homeodomain protein can directly regulate RNA synthesis strengthens the view that this class of regulators act as transcription factors to control development.
- Brennan MD, Dickinson WJ
- Complex developmental regulation of the Drosophila affinidisjuncta alcohol dehydrogenase gene in Drosophila melanogaster.
- Dev Biol. 1988; 125: 64-74
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During development, the alcohol dehydrogenase genes of Drosophila melanogaster and D. affinidisjuncta are expressed in similar, yet distinct, tissue- and stage-specific patterns. Transcripts from both of these genes arise from two promoters (distal and proximal) that also display tissue and stage specificity. We used P-element-mediated transformation to introduce the D. affinidisjuncta Adh gene into the germ line of D. melanogaster. We show that the D. affinidisjuncta Adh gene is expressed at comparable overall levels in both species and that the tissue- and stage-specific expression for this gene (including promoter utilization) is similar in the donor and the host species. However, in some details, the expression of the D. affinidisjuncta gene in D. melanogaster resembles the host pattern, and one novel tissue-specific expression phenotype is displayed by transformants. In general, our results suggest that there has been strong conservation of cis- and trans-acting regulatory factors since the divergence of the two species but that this conservation has not been perfect.
- Biggin MD, Bickel S, Benson M, Pirrotta V, Tjian R
- Zeste encodes a sequence-specific transcription factor that activates the Ultrabithorax promoter in vitro.
- Cell. 1988; 53: 713-22
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Zeste is a Drosophila regulatory gene that is required for transvection at the bithorax complex. Here we find that purified zeste protein binds to multiple sites just 5' of the initiation site of Ubx RNA. Zeste protein purified from Drosophila cells or from E. coli expressing the zeste gene activates Ubx transcription in vitro. This activation is dependent on the presence of zeste protein binding sites, as it is not observed with a Ubx promoter lacking these sites or with an Adh promoter. These results suggest that transvection involves regulatory elements that act at the level of transcriptional initiation and may be mechanistically similar to activation of transcription by enhancer elements, except that transvection occurs across paired chromosomes. These findings are consistent with the hypothesis that zeste may play a more important role in the normal regulation of Ubx and its other target genes than current genetic evidence implies.
- Rowan RG, Dickinson WJ
- Nucleotide sequence of the genomic region encoding alcohol dehydrogenase in Drosophila affinidisjuncta.
- J Mol Evol. 1988; 28: 43-54
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The DNA sequence of a 3886-bp genomic region containing the alcohol dehydrogenase (Adh) gene from Drosophila affinidisjuncta, and the RNA sequences of the D. affinidisjuncta Adh transcripts, are presented. These data support the conclusion that two Adh promoters generate distinct, developmentally regulated Adh transcripts. Correlations between these sequences and the transcription map are discussed. Comparisons between these and equivalent data from D. melanogaster are also presented. We note the following observations: (1) Except at the extreme 3' end, the two genes are identically organized. (2) Drosophila Adh protein accumulates amino acid replacements at the rate of approximately 0.5 per million years. (3) Among the non-protein-coding DNA sequences, putative homologies occur in the two promoter regions.
- Benyajati C, Ayer S, McKeon J, Ewel A, Huang J
- Roles of cis-acting elements and chromatin structure in Drosophila alcohol dehydrogenase gene expression.
- Nucleic Acids Res. 1987; 15: 7903-20
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The alcohol dehydrogenase (Adh) gene of D. melanogaster is transcribed from two different promoters during fly development: the distal (adult) and the proximal (embryonic-larval). Certain aspects of Adh gene regulation are represented in Drosophila continuous cell lines. We have used Drosophila tissue culture cells in an in vivo transient expression assay to delimit cis-acting sequences affecting Adh expression, and to investigate the role of chromatin structure in Adh gene regulation. These studies show that positive cis-acting elements of the distal promoter can exist in at least 2 alternative chromatin configurations. There is a close correlation between specific transcriptional activity of the Adh distal promoter and a defined, localized chromatin structural change that indicates altered DNA-protein interactions. Thus, chromatin structure appears to play a role in regulating the accessibility of defined positive cis-acting regulatory sequences of Adh to transcription factors and the transcription machinery.
- Heberlein U, England B, Tjian R
- Characterization of Drosophila transcription factors that activate the tandem promoters of the alcohol dehydrogenase gene.
- Cell. 1985; 41: 965-77
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Fractionation of a nuclear extract derived from Drosophila tissue culture cells reveals the presence of multiple components involved in accurate transcription of both distal and proximal promoters of the alcohol dehydrogenase (Adh) gene. Transcription of deletion mutants indicates that a region between -24 and -85 upstream of the distal start site contains sequences required for RNA synthesis in vitro. Moreover, sequences that overlap this same upstream control region are specifically bound and protected from DNAase digestion by a promoter-specific transcription factor, Adf-1. Analysis of proximal promoter mutants identified multiple upstream elements that influence transcription, and DNAase footprint analysis detected three specific binding regions. Adf-1 binds at least one of these proximal promoter regions but interaction at this site is not specifically required for transcription. Our results suggest that multiple sequence-specific DNA binding proteins interact differentially with the proximal and distal promoters of Adh to activate transcription.
