Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P05412 (c-Jun)
 11,453 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

QM is a 214 amino acid polypeptide, encoded by a gene (DXS648) in Xq28, that contains a high percentage of charged amino acids and has been found to bind c-Jun and DNA. Searches of the GenBank database revealed no matches between QM and any other known transcription factors. However, we and others have isolated QM homologs from a diverse array of eukaryotes. Alignment of these sequences indicated a high degree of conservation throughout the first 175 residues of the protein and revealed several interesting features. Most notable is the considerable conservation of charged amino acids within specific regions of the protein. Secondary structure analysis suggests that two of these regions form amphipathic alpha-helices, one basic and one acidic. A third conserved charged domain, comprising the N-terminal 30 amino acids, is both basic and proline rich. The rate of sequence divergence of the various homologs was found to be slow (of the order of 1% change every 22 million years), consistent with a critical role for QM in eukaryotic cells. A role for QM as a novel class of transcription regulatory protein is suggested.
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PMID:Extreme evolutionary conservation of QM, a novel c-Jun associated transcription factor. 808 58

QM, a novel gene that was originally identified as a putative tumor suppressor gene, has since been cloned from species encompassing members of the plant, animal, and fungal kingdoms. Sequence comparison indicates that QM has been highly conserved throughout eukaryotic evolution. QM is a member of a multigene family in both mouse and man, is expressed in a broad range of tissues, and is downregulated during adipocyte differentiation. Jif-1, a chicken homolog of QM, has been reported to interact with the protooncogene c-Jun, and to inhibit transactivation of AP-1 regulated promoters in vitro. Furthermore, disruption of the yeast QM homolog is lethal. Although these studies suggest that the QM gene product plays an important role within the normal cell, the precise role of QM has remained elusive. In this study, a thorough analysis of the pattern of QM expression during mouse development was undertaken, using the techniques of whole mount in situ hybridization and whole mount immunohistochemistry, in combination with conventional immunohistochemical analysis of tissue sections. QM is expressed in numerous embryonic tissues, and is differentially expressed throughout the embryo. The cytoplasmic localization of QM is consistent with its reported association with ribosomes, and inconsistent with its previously hypothesized function as a direct modulator of the nuclear protooncogene c-Jun. QM is expressed in the developing epidermis, and is particularly strong within developing limbs. Analysis of embryos of various stages of gestation indicate that QM is downregulated in the surface ectoderm of the embryo as development proceeds. QM protein is not detectable within either nucleated or enucleated red blood cell precursors. QM is strongly expressed within chondrocytes within the transition zone of developing limb cartilage, as well as within differentiated keratinocytes of the suprabasal regions of the epidermis. Furthermore, within both cartilage and skin, there is an inverse relationship between QM expression and proliferative capacity. This pattern of QM expression suggests that this novel gene product may be involved in processes such as posttranslational protein processing which are essential for differentiation of specific tissues during embryogenesis.
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PMID:Analysis of the pattern of QM expression during mouse development. 1023 13