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Feng Q  Zhang Y  Li Y  Liu Z  Zuo J  Fang F 《Biochimie》2006,88(3-4):319-328
Soluble adenylyl cyclase (sAC) is a newly identified source of cyclic adenosine 3',5'-monophosphate (cAMP). Unlike the well-known transmembrane adenylyl cyclases (tmACs), sAC locates to the nucleus, mitochondria and microtubules. For most cAMP-signaling microdomains, there is always an AC nearby, for example tmAC. But it was until the discovery of sAC that there was not known cAMP resource in the nucleus. sAC associates with nuclear cAMP-signaling microdomains, which were once considered to depend on the diffusion of cAMP produced by tmAC. In this report, we focus on the truncated soluble adenylyl cyclase (tsAC), the most common existence form of sAC in tissues. Two domains (145-200 aa and 257-318 aa) related with sAC nuclear localization were present here. The findings provide evidence that these two domains are critical for the nuclear localization of sAC and they collocated with the catalytic domains.  相似文献   

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Several mammalian proteins involved in chromatin and DNA modification contain CXXC zinc finger domains. We compared the structure and function of the CXXC domains in the DNA methyltransferase Dnmt1 and the methylcytosine dioxygenase Tet1. Sequence alignment showed that both CXXC domains have a very similar framework but differ in the central tip region. Based on the known structure of a similar MLL1 domain we developed homology models and designed expression constructs for the isolated CXXC domains of Dnmt1 and Tet1 accordingly. We show that the CXXC domain of Tet1 has no DNA binding activity and is dispensable for catalytic activity in vivo. In contrast, the CXXC domain of Dnmt1 selectively binds DNA substrates containing unmethylated CpG sites. Surprisingly, a Dnmt1 mutant construct lacking the CXXC domain formed covalent complexes with cytosine bases both in vitro and in vivo and rescued DNA methylation patterns in dnmt1−/− embryonic stem cells (ESCs) just as efficiently as wild type Dnmt1. Interestingly, neither wild type nor ΔCXXC Dnmt1 re-methylated imprinted CpG sites of the H19a promoter in dnmt1−/− ESCs, arguing against a role of the CXXC domain in restraining Dnmt1 methyltransferase activity on unmethylated CpG sites.  相似文献   

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The Drosophila protein HP1 is a 206 amino acid heterochromatin- associated nonhistone chromosomal protein. Based on the characterization of HP1 to date, there are three properties intrinsic to HP1: nuclear localization, heterochromatin binding, and gene silencing. In this work, we have concentrated on the identification of domains responsible for the nuclear localization and heterochromatin binding properties of HP1. We have expressed a series of beta- galactosidase/HP1 fusion proteins in Drosophila embryos and polytene tissue and have used beta-galactosidase enzymatic activity to identify the subcellular localization of each fusion protein. We have identified two functional domains in HP1: a nuclear localization domain of amino acids 152-206 and a heterochromatin binding domain of amino acids 95- 206. Both of these functional domains overlap an evolutionarily conserved COOH-terminal region.  相似文献   

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Neural zinc finger factor 1 (NZF-1) is a nonclassical zinc finger protein involved in neuronal development. NZF-1 contains multiple copies of a unique CCHHC zinc-binding domain that recognize a promoter element in the β-retinoic acid receptor gene termed β-retinoic acid receptor element (β-RARE). Previous studies have established that a two-domain fragment of NZF-1 bound with zinc is sufficient for specific DNA binding. Proper functioning of the nervous system relies heavily on iron and misregulation of this highly redox active metal has serious consequences. Several classes of zinc finger proteins have been shown to bind other metal ions, including iron. To determine if ferrous iron can coordinate to the metal-binding sites of NZF-1 and assess the functional consequences of such coordination, a fragment of NZF-1 that contains two zinc-binding domains, NZF-1 double finger (NZF-1-DF), was prepared. UV–vis spectroscopy experiments demonstrated that Fe(II) is capable of binding to NZF-1-DF. Upon reconstitution with either Fe(II) or Zn(II), NZF-1-DF binds selectively and tightly (nanomolar affinity) to its target β-RARE DNA sequence, whereas apo-NZF-1-DF does not bind to DNA and instead aggregates.  相似文献   

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The UvrB protein is the central recognition protein in bacterial nucleotide excision repair. We have shown previously that the highly conserved beta-hairpin motif in Bacillus caldotenax UvrB is essential for DNA binding, damage recognition, and UvrC-mediated incision, as deletion of the upper part of the beta-hairpin (residues 97-112) results in the inability of UvrB to be loaded onto damaged DNA, defective incision, and the lack of strand-destabilizing activity. In this work, we have further examined the role of the beta-hairpin motif of UvrB by a mutational analysis of 13 amino acids within or in the vicinity of the beta-hairpin. These amino acids are predicted to be important for the interaction of UvrB with both damaged and non-damaged DNA strands as well as the formation of salt bridges between the beta-hairpin and domain 1b of UvrB. The resulting mutants were characterized by standard functional assays such as oligonucleotide incision, electrophoretic mobility shift, strand-destabilizing, and ATPase assays. Our data indicated a direct role of Tyr96, Glu99, and Arg123 in damage-specific DNA binding. In addition, Tyr93 plays an important but less essential role in DNA binding by UvrB. Finally, the formation of salt bridges between the beta-hairpin and domain 1b, involving amino acids Lys111 bound to Glu307 and Glu99 bound to Arg367 or Arg289, are important but not essential for the function of UvrB.  相似文献   

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