In various human diseases, altered gene expression patterns are often the result of deregulated gene-specific transcription factor activity. To further understand disease on a molecular basis, the comprehensive analysis of transcription factor signaling networks is required. We developed an experimental approach, combining chromatin immunoprecipitation (ChIP) with a yeast-based assay, to screen the genome for transcription factor binding sites that link to transcriptionally regulated target genes. We used the tumor suppressor p53 to demonstrate the effectiveness of the method. Using primary and immortalized, nontransformed cultures of human mammary epithelial cells, we isolated over 100 genomic DNA fragments that contain novel p53 binding sites. This approach led to the identification and validation of novel p53 target genes involved in diverse signaling pathways, including growth factor signaling, protein kinase/phosphatase signaling, and RNA binding. Our results yield a more complete understanding of p53-regulated signaling pathways, and this approach could be applied to any number of transcription factors to further elucidate complex transcriptional networks.
Wood-decay fungi depend upon recycling of nitrogen-containing molecules to maintain growth in nitrogen-deficient environments. One of the pools that can support growth in these organisms is the pool of free amino acids. The free amino acid (AA) composition of Schizophyllum commune mycelium grown on the surface of nitrogen-rich (M = 6.6 mM L-asparagine) and nitrogen-poor medium (M01 = 0.06 mM L-asparagine) has been examined: When mycelium is grown on M, alanine, glutamate, and asparagine account for almost 2/3 of the amino acid pool. The free amino acid concentration is reduced by 75% for mycelium grown on the M01 medium, with alanine and glutamate predominating. In addition, free NH4+ increases by 60% in nitrogen-deprived mycelia. Except for asparagine, which is absorbed by the apices, the concentration of all free amino acids is higher in the centers of M-grown, 4-day-old mycelia than in the apices. Hyphae grown to exponential growth on M and transferred to M01 for 12 h show greater free amino acid and NH4+ concentrations in the apices, most likely indicating increased translocation to the apices.
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