Drosophila Med6 Is Required for Elevated Expression of a Large but Distinct Set of Developmentally Regulated Genes

Autor: Changwon Kang, Young Joon Kim, Byung Soo Gim, Jin Mo Park, Jeong Ho Yoon
Rok vydání: 2001
Předmět:
Transcriptional Activation
DNA
Complementary
Saccharomyces cerevisiae Proteins
Time Factors
Transcription
Genetic
Cell Survival
Recombinant Fusion Proteins
Green Fluorescent Proteins
Biology
Polymerase Chain Reaction
MED1
Fungal Proteins
Mediator
Coactivator
Transcriptional regulation
Animals
Drosophila Proteins
Tissue Distribution
Cloning
Molecular
Promoter Regions
Genetic
Molecular Biology
Alleles
Polymorphism
Single-Stranded Conformational
Locus control region
Oligonucleotide Array Sequence Analysis
Cell Nucleus
Transcriptional Regulation
Genetics
Mediator Complex
General transcription factor
Reverse Transcriptase Polymerase Chain Reaction
Homozygote
Promoter
Cell Biology
Blotting
Northern
Luminescent Proteins
Phenotype
Lac Operon
DNA Nucleotidyltransferases
Mutation
Trans-Activators
Nuclear receptor coactivator 2
Drosophila
Cell Division
Zdroj: Molecular and Cellular Biology. 21:5242-5255
ISSN: 1098-5549
DOI: 10.1128/mcb.21.15.5242-5255.2001
Popis: Mediator is the evolutionarily conserved coactivator required for the integration and recruitment of diverse regulatory signals to basal transcription machinery. To elucidate the functions of metazoan Mediator, we isolated Drosophila melanogaster Med6 mutants. dMed6 is essential for viability and/or proliferation of most cells. dMed6 mutants failed to pupate and died in the third larval instar with severe proliferation defects in imaginal discs and other larval mitotic cells. cDNA microarray, quantitative reverse transcription-PCR, and in situ expression analyses of developmentally regulated genes in dMed6 mutants showed that transcriptional activation of many, but not all, genes was affected. Among the genes found to be affected were some that play a role in cell proliferation and metabolism. Therefore, dMed6 is required in most cells for transcriptional regulation of many genes important for diverse aspects of Drosophila development. The development of multicellular organisms, even at the level of a single cell, demands a complex array of transcriptional regulation mechanisms for proper proliferation and development. To meet the demand, eukaryotic cells utilize transcriptional machinery comprising dozens of proteins that recognize and initiate RNA synthesis from promoters and that regulate the efficiency of transcription using thousands of specialized transcription factors. In addition, a number of coactivator complexes working at diverse stages of transcription add to the depth of regulatory complexity to achieve the orchestrated developmental control of gene expression in higher eukaryotes. Although these coactivator proteins appear to be required for transcriptional regulation in general, different groups of genes show different coactivator requirements. In addition, these coactivator functions are carried out by a number of complexes. Therefore, each coactivator complex appears to have unique and specific roles in transcriptional regulation of diverse developmental processes.
Databáze: OpenAIRE
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