Krzysztof Pluta scite author profile

Although yeast RNA polymerase III (Pol III) and the auxiliary factors TFIIIC and TFIIIB are well characterized, the mechanisms of class III gene regulation are poorly understood. Previous studies identified MAF1, a gene that affects tRNA suppressor efficiency and interacts genetically with Pol III. We show here that tRNA levels are elevated in maf1 mutant cells. In keeping with the higher levels of tRNA observed in vivo, the in vitro rate of Pol III RNA synthesis is significantly increased in maf1 cell extracts. Mutations in the RPC160 gene encoding the largest subunit of Pol III which reduce tRNA levels were identified as suppressors of the maf1 growth defect. Interestingly, Maf1p is located in the nucleus and coimmunopurifies with epitope-tagged RNA Pol III. These results indicate that Maf1p acts as a negative effector of Pol III synthesis. This potential regulator of Pol III transcription is likely conserved since orthologs of Maf1p are present in other eukaryotes, including humans.The yeast RNA polymerase III (Pol III) transcription system is well characterized. Small untranslated RNAs with essential housekeeping functions, such as tRNAs, 5S rRNA, or the U6 small nuclear RNA (snRNA) that is required for mRNA splicing, are synthesized by Pol III with the help of two general auxiliary factors, TFIIIC and TFIIIB. The large TFIIIC factor (six subunits) binds to the DNA promoter elements and assembles the initiation factor TFIIIB (three components) upstream of the start site. Once TFIIIB is in position, it recruits the Pol III enzyme (17 subunits) and directs accurate and multiple rounds of transcription. All of the polypeptide components of the Pol III apparatus (ϳ1,500 kDa) have been characterized and found to be essential for cell viability (8,23). The identification of the components of the Pol III system has facilitated the description of a cascade of protein-protein interactions that leads to the recruitment of the Pol III enzyme (reviewed in reference 55).Detailed knowledge of the yeast Pol III transcription system contrasts with the limited information available on the control of class III gene expression in yeast. Cellular tRNA levels respond to cell growth rate (48,49), to a nutritional upshift (27,48) or to nitrogen starvation (36) but only modestly to amino acid starvation (41). Finally, Pol III transcription is repressed in secretion-defective cells (30). Although the mechanism of repression is not clear, it does involve activation of the cell integrity pathway (30). The effect of growth conditions on Pol III transcription is well mimicked in vitro with whole-cell extracts (11, 39). tRNA synthesis is downregulated in dense cell cultures approaching stationary phase, a result due essentially to reduced TFIIIB activity. The TFIIIB component Brf/ TFIIIB70 was found to be the limiting factor in extracts from such cells (39). However, the occupancy of the TFIIIB binding site on the SUP53 gene encoding tRNA Leu does not decrease in stationary-phase cells. Rather, in vivo footprinting data suggest reduced p...

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Tight control of transgene expression by lentivirus vectors containing second‐generation tetracycline‐responsive promoters

Pluta

Luce

Bao

et al. 2005

The Journal of Gene Medicine

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Use of HIV as a gene transfer vector.

Pluta

Kacprzak

2009

Acta Biochim Pol

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Despite the extensive research efforts over the past 25 years that have focused on HIV, there is still no cure for AIDS. However, tremendous progress in the understanding of the structure and biology of the HIV virus led to the development of safe and potent HIV-based transgene delivery vectors. These genetic vehicles are referred to as lentiviral vectors. They appear to be better suited for particular applications, such as transgene delivery into stem cells, compared to other viral- and non-viral vectors. This is because Lentivirus-based vectors can efficiently infect nondividing and slowly dividing cells. In the present review article, the current state of understanding of HIV-1 is discussed and the main characteristics that had an impact on vector design are outlined. A historical view on the vector concept is presented to facilitate discussion of recent results in vector engineering in a broader context. Subsequently, a state of the art overview concerning vector construction and vector production is given. This review also touches upon the subject of lentiviral vector safety and related topics that can be helpful in addressing this issue are discussed. Finally, examples of Lentivirus-based gene delivery systems and their applications are presented, with emphasis on animal transgenesis and human gene therapy.

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Analysis of the Cytotoxicity of Carbon-Based Nanoparticles, Diamond and Graphite, in Human Glioblastoma and Hepatoma Cell Lines

et al. 2015

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Nanoparticles have attracted a great deal of attention as carriers for drug delivery to cancer cells. However, reports on their potential cytotoxicity raise questions of their safety and this matter needs attentive consideration. In this paper, for the first time, the cytotoxic effects of two carbon based nanoparticles, diamond and graphite, on glioblastoma and hepatoma cells were compared. First, we confirmed previous results that diamond nanoparticles are practically nontoxic. Second, graphite nanoparticles exhibited a negative impact on glioblastoma, but not on hepatoma cells. The studied carbon nanoparticles could be a potentially useful tool for therapeutics delivery to the brain tissue with minimal side effects on the hepatocytes. Furthermore, we showed the influence of the nanoparticles on the stable, fluorescently labeled tumor cell lines and concluded that the labeled cells are suitable for drug cytotoxicity tests.

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Krzysztof Pluta

Maf1p, a Negative Effector of RNA Polymerase III in Saccharomyces cerevisiae

Tight control of transgene expression by lentivirus vectors containing second‐generation tetracycline‐responsive promoters

Use of HIV as a gene transfer vector.

Analysis of the Cytotoxicity of Carbon-Based Nanoparticles, Diamond and Graphite, in Human Glioblastoma and Hepatoma Cell Lines

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