Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many biological phenomena are dependent on mechanisms that fine-tune the expression levels of particular genes. This can be achieved by altering the relative activity of a single transcription factor, by post-translational modifications or by interaction with regulatory molecules. An alternative mechanism is based on competition between two or more differently active isoforms of the same transcription factor. We found that FHX, a recently characterized human fork-head transcriptional activator, may show such a mechanism for balancing its activity by expressing two differently sized isoforms, FHX.S and FHX.L, encoded by a single gene located on human chromosome 12. FHX. L and FHX.S showed different transcriptional capacities, the larger form, FHX.L, behaving as the more potent transactivator. A transactivation domain of the acidic type present only in FHX.L would account for this functional difference. The relative concentrations of these two FHX isoforms appear to vary in a number of cell types, a circumstance that may regulate the final activity of this transcription factor.
 ...
PMID:FHX.L and FHX.S, two isoforms of the human fork-head factor FHX (FOXJ2) with differential activity. 1096 86

FHX (FOXJ2) is a recently characterized human fork head transcriptional activator that binds DNA with a dual sequence specificity. We have cloned the cDNA for the mouse orthologue Foxj2 and characterized its expression in the gonads and along the early pre-implantation development of the mouse. In the testis, Foxj2 is expressed from pachytene spermatocytes to round spermatids, but not in spermatogonia. In addition to the germ lineage, only Sertoli cells of the testis showed expression of Foxj2. In the ovary, only granulosa cells of the follicles express the factor. Neither mature spermatozoa nor oocytes showed expression of Foxj2. Foxj2 expression is early activated in zygotic development, being detected since as early as 8-cell stage embryos. Both cell layers of the blastocyst: the trophectoderm (TE) and the inner cell mass (ICM), express Foxj2.
 ...
PMID:Fhx (Foxj2) expression is activated during spermatogenesis and very early in embryonic development. 1102 17

FOXJ2 is a fork head transcriptional activator, the expression of which starts very early in embryonic development and it is distributed widely in the adult. Here, we describe the characterization of domains that are important for its function. FOXJ2 is localized constitutively at the nucleus of the cell. Two tyrosine residues and a stretch of basic amino acid residues at the N and C-terminal ends of the fork head domain, respectively, are important for its nuclear targeting. These residues are conserved strongly among all members of the fork head family, suggesting that they could be involved in the nuclear translocation mechanism of all fork head factors. In addition to the AB domain, we have found, at least, two other transactivation domains: Domain I, at the N terminus, and the H/P domain, rich in histidine and proline residues. Although the AB domain shows the strongest transactivation capacity, all three domains are required for full FOXJ2 transcriptional activity. Furthermore, a fourth region rich in proline and glutamine residues and with no intrinsic transactivation function, the P/Q domain, appears to play an important role in the FOXJ2-mediated transactivation mechanism. Although FOXJ2 can be phosphorylated in two serine residues, this post-translational modification did not appear to be essential for transactivation. Finally, we have found that the W2 wing of the fork head domain of FOXJ2 is dispensable for specific DNA binding, although it could have a weak stabilizing role for the DNA-FOXJ2 complex.
 ...
PMID:Functional domains of FOXJ2. 1278 65