Previously, we have shown that the vimentin 3' untranslated region (3'UTR) contains a highly conserved region, which is sufficient for the perinuclear localization of a reporter mRNA. This region was shown to specifically bind protein(s) by band shift analyses. UV-cross-linking studies suggest these proteins are 46- and 35-kDa in mass. Here, we have used this sequence as 'bait' to isolate RNA binding proteins using the yeast three-hybrid method. This technique relies on a functional assay detecting bona fide RNA-protein interaction in vivo. Three cDNA isolates, HAX-1, eEF-1gamma and hRIP, code for proteins of a size consistent with in vitro cross- linking studies. In all cases, recombinant proteins were capable of binding RNA in vitro. Although hRIP is thought to be a general mRNA binding protein, this represents an unreported activity for eEF-1gamma and HAX-1. Moreover, HAX-1 binding appears to be specific to vimentin's 3'UTR. Both in vivo synthesized eEF-1gamma and HAX-1 proteins were 'pulled out' of HeLa whole cell extracts by binding to a RNA affinity column comprised of vimentin's 3'UTR. Moreover, size-fractionation of extracts results in the separation of large complexes containing either eEF-1gamma or HAX-1. Thus, in addition to their known functions, both eEF-1gamma and HAX-1 are RNA binding proteins, which suggests new roles in mRNA translation and/or perinuclear localization.
Methylotrophic yeast Pichia pastoris has proved to be especially useful for production of various heterologous proteins. In biotechnology it is very important to maintain the balance between high levels of heterologous gene expression and cell viability. Decisive understanding of gene regulation mechanisms is essential for reaching this goal. In this study, we investigated the effect of different nitrogen sources and phosphate concentration in media on methanol utilization. It was shown that expression levels of main genes, which are involved in methanol utilization (MUT genes) and in functioning of peroxisomes (PEX genes), are maximal when ammonium sulphate is used as a nitrogen source. Expression of these genes is decreased in media with poor nitrogen sources, such as proline. Addition of rapamycin to the media completely removed repression of AOX1 promoter in media with proline, which allows proposing that Tor-kinase is involved in establishing of nitrogen regulation of this gene. It was also shown that MUT genes expression levels get higher, when the phosphate concentration in media is increased.
Herein, we report unusual four-center interactions in the novel cage-like phosphane, 1,4,7-triaza-9-phosphatricyclo[5.3.2.1(4,9) ]tridecane (CAP). This water-soluble ligand, the first example of a tris(homoadamantane) ring system, can be considered a macrocyclic homologue of the well-known PTA (1,3,5-triaza-7-phosphaadamantane). However, (31) P NMR spectroscopic anomalies of CAP follow those typical for the bi-/tricyclic atrane systems. Another atrane-like feature of CAP is the ability of one nitrogen atom to undergo out-in pyramidal inversion. The latter is associated with a substantial decrease in the intracage N-N and P-N distances. Analysis of electron density distribution [molecular electrostatic potential (MESP) and atoms-in-molecules (AIM) approaches] suggests that the P and N atoms in the pyramidally inverted CAP derivatives are involved in interactions resulting in accumulation of electron density at the center of the phosphane cage. The latter can reliably explain the stereoelectronic and NMR anomalies of the new ligand. The semi-flexible CAP cage populates the structural niche between the rigid adamantine skeleton of PTA and flexible atrane systems and can be regarded as an alternative to PTA in aqueous coordination chemistry.
Acid phosphatases of budding yeast have been studied for more than forty years. This paper covers biochemical characteristics of acid phosphatases and different aspects in expression regulation of eukaryotic genes, which were researched using acid phosphatases model. A special focus is devoted to cyclin-dependent kinase Pho85p, a negative transcriptional regulator, and its role in maintaining mitochondrial genome stability and to pleiotropic effects of pho85 mutations.
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