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Digitale Medien

The osteocalcin gene: a model for multiple parameters of skeletal-specific transcriptional control (1997)

Stein, Gary S. ; Lian, Jane B. ; van Wijnen, André J. ; [weitere]

Springer

Molecular biology reports 24 (1997), S. 185-196

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ISSN: 1573-4978

Schlagwort(e): chromatin structure ; differentiation ; nuclear matrix ; osteoblast ; transcription ; vitamin D

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Influences of promoter regulatory elements that are responsive to basal and tissue-restricted transactivation factors, steroid hormones, growth factors and other physiologic mediators has provided the basis for understanding regulatory mechanisms contributing to developmental expression of osteocalcin, tissue specificity and biological activity (reviewed in [1–3]). These regulatory elements and cognate transcription factors support postproliferative transcriptional activation and steroid hormone (e.g. vitamin D) enhancement at the onset of extracellular matrix mineralization during osteoblast differentiation. Three parameters of nuclear structure contribute to osteocalcin gene transcriptional control. The linear representation of promoter elements provides competency for physiological responsiveness within the contexts of developmental as well as phenotype-dependent regulation. Chromatin structure and nucleosome organization reduce distances between independent regulatory elements providing a basis for integrating components of transcriptional control. The nuclear matrix supports gene expression by imposing physical constraints on chromatin related to three dimensional genomic organization. In addition, the nuclear matrix facilitates gene localization as well as the concentration and targeting of transcription factors. Several lines of evidence are presented which are consistent with involvement of multiple levels of nuclear architecture in tissue-specific gene expression during differentiation. Growth factor and steroid hormone responsive modifications in chromatin structure, nucleosome organization and the nuclear matrix are considered which influence transcription of the bone tissue-specific osteocalcin gene during progressive expression of the osteoblast phenotype.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1006803615430

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Digitale Medien

Nuclear matrix associated DNA-binding proteins of ocular lens epithelial cells (1998)

Bagchi, Mihir ; Ansari, Shamim A. ; Lindenmuth, Danielle M. ; [weitere]

Springer

Molecular biology reports 25 (1998), S. 13-19

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ISSN: 1573-4978

Schlagwort(e): gene expression ; nuclear matrix proteins ; ocular lens epithelial cells ; transcription factors

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Association of transcription factors with the nuclear matrix represents a mechanism by which nuclear architecture may influence transcriptional control of gene expression. This investigation examines nuclear matrix associated proteins (NMP's) isolated from ocular lens epithelial cells by monitoring DNA binding activities using consensus oligonucleotides recognized by the transcription factors YY1, AML-1, AP-1, SP-1 and ATF. The nuclear matrix fractions tested included an immortilized human lens epithelial cell line containing the SV40 large T-antigen, and two mouse lens epithelial cell lines derived from either a normal mouse or a cataract mouse. A rabbit epidermal epithelial cell line and HeLa cells were also included in this study for comparison. The data from these experiments reveal that ubiquitously represented and tissue restricted regulatory proteins are associated with nuclear matrix of lens epithelial cells. The functional significance of the nuclear matrix association of these transcription factors remains to be determined. However, our findings raise the possibility that the transcription factors associated with the nuclear matrix could have specific roles in gene regulation and eye tissue development.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1006886110771

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Digitale Medien

The homeodomain transcription factor CDP/cut interacts with the cell cycle regulatory element of histone H4 genes packaged into nucleosomes (1999)

Last, Thomas J. ; van Wijnen, André J. ; de Ridder, Marleen C. ; [weitere]

Springer

Molecular biology reports 26 (1999), S. 185-194

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ISSN: 1573-4978

Schlagwort(e): cell cycle ; chromatin ; histone ; homeodomain ; nucleosome ; tanscription

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract The homeodomain transcription factor CDP/cut contains four separate DNA binding domains and interacts with large segments of DNA. Thus, CDP/cut has the potential to function as an architectural protein and perhaps to support modifications in chromatin structure and nucleosomal organization. To begin to examine the ability of CDP/cut to interact with chromatin, we analyzed binding of CDP/cut to the histone H4 gene promoter (−90 to +75) reconstituted into nucleosome cores. The −90 to +75 region encompasses the cell cycle regulatory element (Site II) that controls histone H4 gene transcription, a CDP/cut binding site and a nuclease hypersensitive region. Using electrophoretic mobility shift assays and DNase I footprinting experiments, we show that CDP/cut specifically interacts with its recognition motif in a nucleosomal context without displacing the nucleosome core. The competency of CDP/cut to interact with nucleosomes suggests that this transcription factor may facilitate chromatin remodeling in response to cell cycle regulatory and/or developmental cues.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1007058123699

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Digitale Medien

The integrated activities of IRF-2 (HiNF-M), CDP/cut (HiNF-D) and H4TF-2 (HiNF-P) regulate transcription of a cell cycle controlled human histone H4 gene: mechanistic differences between distinct H4 genes (1998)

Aziz, Farah ; van Wijnen, André J. ; Vaughan, Patricia S. ; [weitere]

Springer

Molecular biology reports 25 (1998), S. 1-12

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ISSN: 1573-4978

Schlagwort(e): histone H4 ; cell cycle ; interferon regulatory factor ; homeodomain protein ; transcription

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Maximal transcription of a prototypical cell cycle controlled histone H4 gene requires a proliferation-specific in vivo genomic protein/DNA interaction element, Site II. Three sequence-specific transcription factors interact with overlapping recognition motifs within Site II: interferon regulatory factor IRF-2 (HiNF-M), the putative H4 subtype-specific protein H4TF-2 (HiNF-P), and HiNF-D which represents a complex of the homeodomain protein CDP/cut, CDC2, cyclin A and pRB. However, natural sequence variation in the Site II sequences of different human H4 genes abolishes binding of specific trans-acting factors; the functional consequences of these variations have not been investigated. To address the precise contribution of H4 promoter factors to the level of H4 gene transcription, we performed a systematic mutational analysis of Site II transcriptional motifs. These mutants were tested for ability to bind each of the Site II cognate proteins, and subsequently evaluated for ability to confer H4 transcriptional activity using chimeric H4 promoter/CAT fusion constructs in different cell types. We also analyzed the effect of over-expressing IRF-2 on CAT reporter gene expression driven by mutant H4 promoters and assessed H4 transcriptional control in cells nullizygous for IRF-1 and IRF-2. Our results show that the recognition sequence for IRF-2 (HiNF-M) is the dominant component of Site II and modulates H4 gene transcription levels by 3 fold. However, the overlapping recognition sequences for IRF-2 (HiNF-M), H4TF-2 (HiNF-P) and CDP/cut (HiNF-D) together modulate H4 gene transcription levels by at least an order of magnitude. Thus, maximal activation of H4 gene transcription during the cell cycle in vivo requires the integrated activities of multiple transcription factors at Site II. We postulate that the composite organization of Site II supports responsiveness to multiple signalling pathways modulating the activities of H4 gene transcription factors during the cell cycle. Variations in Site II sequences among different H4 genes may accomodate differential regulation of H4 gene expression in cells and tissues with unique phenotypic properties.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1023/A:1006888731301

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