Wim J.M. Van de Ven scite author profile

We recently showed that the 1.7 megabase multiple aberration region (MAR) on human chromosome 12q15 harbours recurrent breakpoints frequently found in a variety of benign solid tumours. We now report a candidate gene within MAR suspected to be of pathogenetical relevance. Using positional cloning, we have identified the high mobility group protein gene HMGI-C within a 175 kilobase segment of MAR and characterized its genomic organization. By FISH analysis, we show the majority of the breakpoints of eight different benign solid tumour types fall within this gene. By Southern blot and 3'-RACE analysis, we demonstrate consistent rearrangements in HMGI-C and/or expression of altered HMGI-C transcripts. These results suggest a link between a member of the HMG gene family and benign solid tumour development.

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Regulation of gene expression by alternative promoters

Ayoubi

1996

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Promoters have been defined as modulatory DNA structures containing a complex array of cis-acting regulatory elements required for accurate and efficient initiation of transcription and for controlling expression of a gene. It is becoming increasingly evident that they also constitute prime target elements through which diversity and flexibility in the complex patterns of gene expression in multicellular organisms are created. The use of multiple promoters and transcription start sites is apparently a frequently used mechanism, whereas at the same time there is considerable variation and complexity in the patterns of alternative promoter usage. This review discusses the use of alternative promoters as a versatile mechanism to create diversity and flexibility in the regulation of gene expression. Alternative promoter usage can influence gene expression in very diverse ways. The level of transcription initiation can vary between alternative promoters, the turnover or translation efficiency of mRNA isoforms with different leader exons can differ, alternative promoters can have different tissue specificity and react differently to some signals, and finally, alternative promoter usage can lead to the generation of protein isoforms differing at the amino terminus.

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LPP, an Actin Cytoskeleton Protein Related to Zyxin, Harbors a Nuclear Export Signal and Transcriptional Activation Capacity

Petit

Fradelizi

Golsteyn

et al. 2000

MBoC

140

190

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The LPP gene is the preferred translocation partner of the HMGIC gene in a subclass of human benign mesenchymal tumors known as lipomas. Here we have characterized the LPP gene product that shares 41% of sequence identity with the focal adhesion protein zyxin. LPP localizes in focal adhesions as well as in cell-to-cell contacts, and it binds VASP, a protein implicated in the control of actin organization. In addition, LPP accumulates in the nucleus of cells upon treatment with leptomycin B, an inhibitor of the export factor CRM1. The nuclear export of LPP depends on an N-terminally located leucine-rich sequence that shares sequence homology with well-defined nuclear export signals. Moreover, LPP displays transcriptional activation capacity, as measured by GAL4-based assays. Altogether, these results show that the LPP protein has multifunctional domains and may serve as a scaffold upon which distinct protein complexes are assembled in the cytoplasm and in the nucleus.

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Wim J.M. Van de Ven

Recurrent rearrangements in the high mobility group protein gene, HMGI-C, in benign mesenchymal tumours

Regulation of gene expression by alternative promoters

LPP, an Actin Cytoskeleton Protein Related to Zyxin, Harbors a Nuclear Export Signal and Transcriptional Activation Capacity

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