Sequence Elements Essential for Function of the <i>Xenopus laevis</i> Ribosomal DNA Enhancers

We have developed a novel system to study transcription by yeast RNA polymerase I (Pol I) of mutated rDNA units within the chromosomal context. For this, complete rDNA units carrying specific oligonucleotide tags in both the 17S and 26S rRNA genes were integrated into the chromosomal rDNA locus. Using this novel system, we analysed the action of the rDNA enhancer in stimulating transcription within the chromosomal context. We found that the enhancer acts as a stimulatory element in both directions, mainly on its two most proximal rRNA operons. Deletion of the sequences between the enhancer and the Pol I promoter in the tagged, integrated unit indicated that this part of the intergenic spacer contains no other transcriptional regulatory elements for Pol I. We also applied the system to study the function of the rDNA binding protein RBP1/REB1. For this purpose, we analysed tagged units in which either one or both of the binding sites for this protein have been inactivated. We found that mutations of both binding sites strongly diminish the transcription of the adjacent operon. The protein is hypothesized to play a crucial role in keeping the chromosomal rDNA units in an optimal spatial configuration by anchoring consecutive enhancers and promoters to the nucle(ol)ar matrix.

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Structural analysis of two length variants of the rDNA intergenic spacer from Eruca sativa

Lakshmikumaran

Negi

1994

Plant Mol Biol

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Restriction enzyme analysis of the rRNA genes of Eruca sativa indicated the presence of many length variants within a single plant and also between different cultivars which is unusual for most crucifers studied so far. Two length variants of the rDNA intergenic spacer (IGS) from a single individual E. sativa (cv. Itsa) plant were cloned and characterized. The complete nucleotide sequences of both the variants (3 kb and 4 kb) were determined. The intergenic spacer contains three families of tandemly repeated DNA sequences denoted as A, B and C. However, the long (4 kb) variant shows the presence of an additional repeat, denoted as D, which is a duplication of a 224 bp sequence just upstream of the putative transcription initiation site. Repeat units belonging to the three different families (A, B and C) were in the size range of 22 to 30 bp. Such short repeat elements are present in the IGS of most of the crucifers analysed so far. Sequence analysis of the variants (3 kb and 4 kb) revealed that the length heterogeneity of the spacer is located at three different regions and is due to the varying copy numbers of repeat units belonging to families A and B. Length variation of the spacer is also due to the presence of a large duplication (D repeats) in the 4 kb variant which is absent in the 3 kb variant. The putative transcription initiation site was identified by comparisons with the rDNA sequences from other plant species.

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Sequence Elements Essential for Function of the Xenopus laevis Ribosomal DNA Enhancers

Cited by 28 publications

References 21 publications

Polymerase I Transcription

Polymerase I Transcription

A system to study transcription by yeast RNA polymerase I within the chromosomal context: functional analysis of the ribosomal DNA enhancer and the RBP1/REB1 binding sites.

Structural analysis of two length variants of the rDNA intergenic spacer from Eruca sativa

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