Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20226 (TATA-binding protein)
 1,297 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

TATA-binding protein (TBP) forms complexes with various nuclear proteins and plays roles in all eukaryotic transcription. We previously identified TBP-interacting protein 120 (TIP120) from rat liver. TIP120 stimulates in vitro transcription generally. Homologs of TIP120 exist in various higher eukaryotes including D. melanogaster, C. elegans, and A. thaliana. Here, we isolated cDNA of a novel rat TIP120-like protein, named TIP120B. Rat TIP120B was composed of 1,235 amino acids and was 60% identical to the original TIP120 (re-named TIP120A). However, TIP120B gene was expressed specifically in the muscle tissues, which was contrary to the ubiquitous expression of TIP120A. Moreover, TIP120B protein was observed exclusively in the muscle tissues. TIP120B is therefore suggested to be a muscle-specific protein. Northern blot analysis of the mouse embryo revealed that the expression of TIP120B was temporarily increased during the embryogenesis, whereas TIP120A maintained a constant expression level. Pull-down assay using GST-fused TBP demonstrated that TBP specifically associated with TIP120B in the nuclear extract. These results indicate that TIP120B is a muscle-specific TIP120 family protein and can also interact with TBP. TIP120B is supposed to have a specific role in muscle tissues, which may be diffrerent from that of TIP120A.
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PMID:TIP120B: a novel TIP120-family protein that is expressed specifically in muscle tissues. 1044 24

The SCF complex, which consists of the invariable components Skp1, Cul1, and Rbx1 as well as a variable F-box protein, functions as an E3 ubiquitin ligase. The mechanism by which the activity of this complex is regulated, however, has been unclear. The application of tandem affinity purification has now resulted in the identification of a novel Cul1-binding protein: TATA-binding protein-interacting protein 120A (TIP120A, also called CAND1). Immunoprecipitation, immunoblot, and immunofluorescence analyses with mammalian cells revealed that TIP120A physically associates with Cul1 in the nucleus and that this interaction is mediated by a central region of Cul1 distinct from its binding sites for Skp1 and Rbx1. Furthermore, TIP120A was shown to interact selectively with Cul1 that is not modified by NEDD8. The Cul1-TIP120A complex does not include Skp1, raising the possibility that TIP120A competes with Skp1 for binding to Cul1. These observations thus suggest that TIP120A may function as a negative regulator of the SCF complex by binding to nonneddylated Cul1 and thereby preventing assembly of this ubiquitin ligase.
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PMID:Preferential interaction of TIP120A with Cul1 that is not modified by NEDD8 and not associated with Skp1. 1268 64

Ubiquitin-protein ligases (E3s) of the HECT family share a conserved catalytic region that is homologous to the E6-AP C terminus. The HECT domain defines a large E3 family, but only a handful of these enzymes have been defined with respect to substrate specificity or biological function. We showed previously that the C-terminal domain of one family member, KIAA10, catalyzes the assembly of polyubiquitin chains, whereas the N-terminal domain binds to proteasomes in vitro (You, J., and Pickart, C. M. (2001) J. Biol. Chem. 276, 19871-19878). We show here that KIAA10 also associates with proteasomes within cells but that this association probably involves additional contacts with proteasome subunits other than the one (S2/Rpn1) identified in our previous work. We report that the N-domain of KIAA10 also mediates an association with TIP120B (TATA-binding protein-interacting protein 120B), a putative transcriptional regulator. Biochemical and co-transfection studies revealed that TIP120B, but not the closely related protein TIP120A, is a specific substrate of KIAA10 in vitro and within C2C12 myoblasts but not in Cos-1 cells. KIAA10 and TIP120B are both highly expressed in human skeletal muscle, suggesting that KIAA10 may regulate TIP120B homeostasis specifically in this tissue.
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PMID:Proteolytic targeting of transcriptional regulator TIP120B by a HECT domain E3 ligase. 1269 29