Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.1.21 (thymidine kinase)
 7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sea urchin early histone genes are active in preblastula embryos; late histone genes are maximally expressed during subsequent stages of embryogenesis. We used the Xenopus laevis oocyte to assay for trans-acting factors involved in this differential regulation. Sea urchin nuclear proteins were prepared by extracting gastrula-stage chromatin successively with 0.45, 1, and 2 M NaCl. We injected three fractions into oocytes along with plasmids bearing sea urchin early and late H2b histone genes. While neither the 0 to 0.45 M nor the 1 to 2 M salt fraction affected H2b gene expression, the 0.45 to 1 M salt fraction stimulated early and late H2b mRNA levels significantly. Late H2b gene expression was stimulated preferentially when the early and late genes were coinjected into the same oocytes. This extract did not stimulate the accumulation of transcripts of injected herpesvirus thymidine kinase genes or of the sea urchin Spec 1 gene, suggesting that the stimulatory activity is not a general transcription factor. We localized the DNA sequence required for the stimulatory effect to a region of the late H2b gene located between -43 and +62 relative to the transcription start site. A component of the 0.45 to 1 M salt wash fraction specifically bound to the 105-base-pair late gene DNA sequence and to the corresponding early gene fragment. The abundance of this binding activity decreased on a per genome basis during early development of the sea urchin.
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PMID:Differential stimulation of sea urchin early and late H2B histone gene expression by a gastrula nuclear extract after injection into Xenopus laevis oocytes. 336 8

The sole immediate-early (IE) gene of equine herpesvirus 1 encodes a 1,487-amino-acid (aa) regulatory phosphoprotein that independently activates expression of early viral genes. Coimmunoprecipitation assays demonstrated that the IE protein physically interacts with the general transcription factor TFIIB. Using a variety of protein-binding assays that employed a panel of IE truncation and deletion mutants expressed as in vitro-synthesized or glutathione S-transferase fusion proteins, we mapped a TFIIB-binding domain to aa 407 to 757 of the IE protein. IE mutants carrying internal deletions of aa 426 to 578 and 621 to 757 were partially defective for TFIIB binding, indicating that aa 407 to 757 may harbor more than one TFIIB-binding domain. The interaction between the IE protein and TFIIB is of physiological importance, as evidenced by transient-cotransfection assays. Partial deletion of the TFIIB-binding domain within the IE protein inhibited its ability to activate expression of the viral thymidine kinase gene, a representative early promoter, and of the IR5 gene, a representative late promoter, by greater than 20 and 50%, respectively. These results indicate that the interaction of the IE protein with TFIIB is necessary for its full transactivation function and that the IE-TFIIB interaction may be part of the mechanism by which the IE protein activates transcription.
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PMID:Mapping the sequences that mediate interaction of the equine herpesvirus 1 immediate-early protein and human TFIIB. 1158 90

The discovery of germ cell-specific general transcription factor and coactivator variants has suggested that reproductive tissues control gene expression somewhat differently than somatic tissues. One of these factors, ALF (TFIIAtau), was first described as a testis-specific counterpart of the large (alpha/beta) subunit of TFIIA. Here we characterize endogenous ALF and TFIIA activities in the African clawed frog Xenopus laevis. ALF is present in both testis and ovary in this organism, and it completely replaces TFIIA in immature oocytes. When oocytes undergo progesterone-induced maturation, ALF activity disappears, and TFIIA activity is restored. Reactivation occurs through the translational up-regulation of two maternal TFIIAalpha/beta mRNAs and involves polyadenylation of a conserved 3'-untranslated region module. The effects of ALF overexpression and ALF immunodepletion on a thymidine kinase promoter construct demonstrate that this factor serves as an active replacement for TFIIA. In contrast, overexpression of TFIIA inhibits transcription, indicating that the somatic factor fails to function properly in the context of the oocyte transcription machinery. Overall, the results show that the translationally regulated reciprocal expression of ALF and TFIIA allows for the production of an active TFIIA-like general transcription factor throughout oogenesis.
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PMID:Expression of the germ cell-specific transcription factor ALF in Xenopus oocytes compensates for translational inactivation of the somatic factor TFIIA. 1292 89