Analysis of the rat ribosomal DNA promoter: characterization of linker-scanning mutants and of the binding of UBF

Xie, Wen; O’Mahony, Donagh; Smith, S D; Lowe, David; Rothblum, Lawrence I.

doi:10.1093/nar/20.7.1587

Cited by 12 publications

(6 citation statements)

References 36 publications

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“…2A, lane 3). These findings confirm previous studies that have demonstrated that the guanine at -7 is essential for transcription by RNA polymerase I from the 45S promoter in vivo (34). They also indicate that the expression of pSMECAT must to be due to transcription by RNA polymerase I rather than spurious initiation from cryptic polymerase II or III promoters.…”

Section: Methodssupporting

confidence: 91%

Overexpression of the transcription factor UBF1 is sufficient to increase ribosomal DNA transcription in neonatal cardiomyocytes: implications for cardiac hypertrophy.

Hannan

Stefanovsky

Taylor

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

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The accelerated protein accumulation characteristic of cardiomyocyte hypertrophy results from increased cellular protein synthetic capacity (elevated ribosome content). The rate limiting step in ribosome accumulation is transcription of the rRNA genes. During neonatal cardiomyocyte hypertrophy induced by norepinephrine or spontaneous contraction, changes in the expression of a ribosomal DNA transcription factor, UBF, correlated with increased rates of ribosome biogenesis. We hypothesized that elevated expression of UBF was part of the mechanism by which these hypertrophic stimuli effected increases in the rate of transcription from the rDNA promoter. In this study, we have

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Section: Methodssupporting

confidence: 91%

Overexpression of the transcription factor UBF1 is sufficient to increase ribosomal DNA transcription in neonatal cardiomyocytes: implications for cardiac hypertrophy.

Hannan

Stefanovsky

Taylor

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

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“…Each rDNA unit consists of a transcribed sequence and an external non-transcribed spacer (Hadjiolov 1985 ; Liau and Perry 1969 ) in which all the sequences necessary for proper RNA pol I transcription such as proximal promoters, spacer promoters and terminators are located (Hadjiolov 1985 ). In the rDNA promoter two important elements have been described, a CORE element and an upstream control element (UCE) (Haltiner et al 1986 ; Windle and Sollner-Webb 1986 ; Xie et al 1992 ) that function synergistically to recruit a transcriptionally competent RNA pol I complex. This complex contains in addition to RNA pol I, the upstream binding factor (UBF) (Pikaard et al 1989 ; Voit et al 1992 ), the selectivity factor protein complex SL1 (Learned et al 1985 ) also called TIF-1B in mouse cells (Clos et al 1986 ), consisting of the TATA-binding protein (TBP) and four transcription activating factors [TAF I s110, 63, 48 and 41 (Comai et al 1994 ; Gorski et al 2007 ; Zomerdijk et al 1994 )], the transcription initiation factor TIF-IA, the mouse homolog of Rrn3p (Bodem et al 2000 ; Moorefield et al 2000 ) and the transcription termination factor TTF-1 (Bartsch et al 1988 ).…”

Section: Control Of Rdna Transcription During Cell Cyclementioning

confidence: 99%

Nucleolus: the fascinating nuclear body

Sirri

Urcuqui-Inchima

Roussel

et al. 2007

Histochem Cell Biol

342

326

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Nucleoli are the prominent contrasted structures of the cell nucleus. In the nucleolus, ribosomal RNAs are synthesized, processed and assembled with ribosomal proteins. RNA polymerase I synthesizes the ribosomal RNAs and this activity is cell cycle regulated. The nucleolus reveals the functional organization of the nucleus in which the compartmentation of the diVerent steps of ribosome biogenesis is observed whereas the nucleolar machineries are in permanent exchange with the nucleoplasm and other nuclear bodies. After mitosis, nucleolar assembly is a time and space regulated process controlled by the cell cycle. In addition, by generating a large volume in the nucleus with apparently no RNA polymerase II activity, the nucleolus creates a domain of retention/sequestration of molecules normally active outside the nucleolus. Viruses interact with the nucleolus and recruit nucleolar proteins to facilitate virus replication. The nucleolus is also a sensor of stress due to the redistribution of the ribosomal proteins in the nucleoplasm by nucleolus disruption. The nucleolus plays several crucial functions in the nucleus: in addition to its function as ribosome factory of the cells it is a multifunctional nuclear domain, and nucleolar activity is linked with several pathologies. Perspectives on the evolution of this research area are proposed.

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“…pSMECAT-7 was used in place of pSMECAT in some experiments. pSMECAT-7 contains a G to A substitution at 77 in the rDNA promoter which inhibits transcription by RNA polymerase I (Xie et al, 1992). Thus, pSMECAT-7 is a control for the possibility that CAT expression results from transcription by RNA polymerase II or RNA polymerase III.…”

Section: Transfections and Cat Assaysmentioning

confidence: 99%

“…These proteins are generated by alternative splicing of the transcripts of one gene (Hisatake et al, 1991;O'Mahony and Rothblum, 1991;Putnam and Pikaard, 1992;Kuhn et al, 1994;Paule, 1994). UBF is not absolutely required for speci®c initiation on the rDNA promoter in vitro, although its addition to UBFdepleted extracts increases the eciency of transcription in a dose dependent manner (Jantzen et al, 1990;Xie et al, 1992;Smith et al, 1990;1993). In addition, overexpression of UBF1 in either immortal cells or primary cultures of cardiomyocytes is sucient to directly increase transcription of a reporter for rDNA transcription (Hannan et al, 1996b;.…”

Section: Introductionmentioning

confidence: 99%

Rb and p130 regulate RNA polymerase I transcription: Rb disrupts the interaction between UBF and SL-1

et al. 2000

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We have previously demonstrated that the protein encoded by the retinoblastoma susceptibility gene (Rb) functions as a regulator of transcription by RNA polymerase I (rDNA transcription) by inhibiting UBFmediated transcription. In the present study, we have examined the mechanism by which Rb represses UBFdependent rDNA transcription and determined if other Rb-like proteins have similar eects. We demonstrate that authentic or recombinant UBF and Rb interact directly and this requires a functional A/B pocket. DNase footprinting and band-shift assays demonstrated that the interaction between Rb and UBF does not inhibit the binding of UBF to DNA. However, the formation of an UBF/Rb complex does block the interaction of UBF with SL-1, as indicated by using the 48 kDa subunit as a marker for SL-1. Additional evidence is presented that another pocket protein, p130 but not p107, can be found in a complex with UBF. Interestingly, the cellular content of p130 inversely correlated with the rate of rDNA transcription in two physiological systems, and overexpression of p130 inhibited rDNA transcription. These results suggest that p130 may regulate rDNA transcription in a similar manner to Rb. Oncogene (2000) 19, 4988 ± 4999.

show abstract

Analysis of the rat ribosomal DNA promoter: characterization of linker-scanning mutants and of the binding of UBF

Cited by 12 publications

References 36 publications

Overexpression of the transcription factor UBF1 is sufficient to increase ribosomal DNA transcription in neonatal cardiomyocytes: implications for cardiac hypertrophy.

Overexpression of the transcription factor UBF1 is sufficient to increase ribosomal DNA transcription in neonatal cardiomyocytes: implications for cardiac hypertrophy.

Nucleolus: the fascinating nuclear body

Rb and p130 regulate RNA polymerase I transcription: Rb disrupts the interaction between UBF and SL-1

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