Marcus Schuermann scite author profile

We have identified a gene, fos B, encoding a nuclear protein of 338 amino acids presenting a 70% homology with c‐fos, whose expression is activated during G0/G1 transition. Growth factor stimulation of quiescent cells leads to a rapid and transient accumulation of fos B mRNA, with kinetics similar to those of c‐fos. The induction of fos B mRNA levels is in part due to a dramatic increase in the transcription of the gene. The half‐life of fos B mRNA is in the order of 10‐15 min. Both transcriptional activation and mRNA stability are substantially increased in the presence of protein synthesis inhibitors. Immunoprecipitation studies showed that fos B as c‐fos protein, forms a complex in vitro with c‐jun and jun B proteins in the absence of a target binding sequence. Gel retardation assays demonstrated that fos B protein positively influences the binding of c‐jun and jun B proteins to an AP‐1 binding consensus sequence, suggesting that fos B protein plays a role in control of gene expression.

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The leucine repeat motif in Fos protein mediates complex formation with Jun/AP-1 and is required for transformation

Schuermann¹,

Neuberg²,

Hunter³

et al. 1989

Cell

283

138

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Differential Frequencies of p16^INK4a Promoter Hypermethylation, p53 Mutation, and K-ras Mutation in Exfoliative Material Mark the Development of Lung Cancer in Symptomatic Chronic Smokers

Kersting¹,

Friedl²,

Kraus³

et al. 2000

JCO

169

113

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p16(INK4a) promoter hypermethylation and p53 mutations can occur in chronic smokers before any clinical evidence of neoplasia and may be indicative of an increased risk of developing lung cancer or of early disease. K-ras mutations occur exclusively in the presence of clinically detectable neoplastic transformation. Molecular analysis of sputum for such markers may provide an effective means of screening chronic smokers to enable earlier detection and therapeutic intervention of lung cancer.

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Alternative splicing of fosB transcripts results in differentially expressed mRNAs encoding functionally antagonistic proteins.

Mumberg¹,

Lucibello²,

Schuermann³

et al. 1991

Genes Dev.

132

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