Concentration-dependent transcriptional activation or repression by Krüppel from a single binding site
- 1 October 1991
- journal article
- Published by Springer Science and Business Media LLC in Nature
- Vol. 353 (6344), 563-566
- https://doi.org/10.1038/353563a0
Abstract
One of the gap class of segmentation genes, Krüppel (Kr), is required for normal thorax and abdominal development of the Drosophila embryo. Its gene product, a zinc-finger type protein, forms a bell-shape concentration gradient in a central position of the blastoderm. Genetic and molecular studies suggested that the Kr protein (KR) may act both as a positive and as a negative regulator of transcription on several other genes of the zygotic segmentation hierarchy. We have examined the regulatory potential of Kr by a series of cotransfection experiments in the Drosophila Schneider cell line system. Different doses of Kr expression plasmid were tested for their ability to drive reporter gene expression mediated by a single 11-base pair KR in vitro binding site common to several putative Kr target genes. Our results show that low amounts of Kr expression plasmid lead to transcriptional activation, whereas high amounts result in repression. Distinct portions of KR other than the DNA-binding domain are required for gene activation and repression, suggesting that KR itself can act as a concentration-dependent positive and negative regulator of transcription.Keywords
This publication has 28 references indexed in Scilit:
- Activation and repression of transcription by the gap proteins hunchback and Krüppel in cultured Drosophila cells.Genes & Development, 1991
- Drosophila Krüppel protein is a transcriptional represserNature, 1990
- Gradients of Krüppel and knirps gene products direct pair-rule gene stripe patterning in the posterior region of the drosophila embryoCell, 1990
- Krüppel requirement for knirps enhancement reflects overlapping gap gene activities in the Drosophila embryoNature, 1989
- The products of the Drosophila gap genes hunchback and Krüppel bind to the hunchback promotersNature, 1989
- Sequence-specific DNA-binding activities of the gap proteins encoded by hunchback and Krüppel in DrosophilaNature, 1989
- The molecular genetics of embryonic pattern formation in DrosophilaNature, 1988
- Temporal pattern of alcohol dehydrogenase gene transcription reproduced by Drosophila stage-specific embryonic extractsNature, 1988
- Structural homology of the product of the Drosophila Krüppel gene with Xenopus transcription factor IIIANature, 1986
- Characterization of drosophila transcription factors that activate the tandem promoters of the alcohol dehydrogenase geneCell, 1985