Invariant amino acids essential for decoding function of polypeptide release factor eRF1

In eukaryotic ribosome, the N domain of polypeptide release factor eRF1 is involved in decoding stop signals in mRNAs. However, structure of the decoding site remains obscure. Here, we specifically altered the stop codon recognition pattern of human eRF1 by point mutagenesis of the invariant Glu55 and Tyr125 residues in the N domain. The 3D structure of generated eRF1 mutants was not destabilized as demonstrated by calorimetric measurements and calculated free energy perturbations. In mutants, the UAG response was most profoundly and selectively affected. Surprisingly, Glu55Arg mutant completely retained its release activity. Substitution of the aromatic ring in position 125 reduced response toward all stop codons. This result demonstrates the critical importance of Tyr125 for maintenance of the intact structure of the eRF1 decoding site. The results also suggest that Tyr125 is implicated in recognition of the 3d stop codon position and probably forms an H-bond with Glu55. The data point to a pivotal role played by the YxCxxxF motif (positions 125–131) in purine discrimination of the stop codons. We speculate that eRF1 decoding site is formed by a 3D network of amino acids side chains

A new assay for measuring chromosome instability (CIN) and identification of drugs that elevate CIN in cancer cells.

BACKGROUND: Aneuploidy is a feature of most cancer cells that is often accompanied by an elevated rate of chromosome mis-segregation termed chromosome instability (CIN). While CIN can act as a driver of cancer genome evolution and tumor progression, recent findings point to the existence of a threshold level beyond which CIN becomes a barrier to tumor growth and therefore can be exploited therapeutically. Drugs known to increase CIN beyond the therapeutic threshold are currently few in number, and the clinical promise of targeting the CIN phenotype warrants new screening efforts. However, none of the existing methods, including the in vitro micronuclei (MNi) assay, developed to quantify CIN, is entirely satisfactory. METHODS: We have developed a new assay for measuring CIN. This quantitative assay for chromosome mis-segregation is based on the use of a non-essential human artificial chromosome (HAC) carrying a constitutively expressed EGFP transgene. Thus, cells that inherit the HAC display green fluorescence, while cells lacking the HAC do not. This allows the measurement of HAC loss rate by routine flow cytometry. RESULTS: Using the HAC-based chromosome loss assay, we have analyzed several well-known anti-mitotic, spindle-targeting compounds, all of which have been reported to induce micronuclei formation and chromosome loss. For each drug, the rate of HAC loss was accurately measured by flow cytometry as a proportion of non-fluorescent cells in the cell population which was verified by FISH analysis. Based on our estimates, despite their similar cytotoxicity, the analyzed drugs affect the rates of HAC mis-segregation during mitotic divisions differently. The highest rate of HAC mis-segregation was observed for the microtubule-stabilizing drugs, taxol and peloruside A. CONCLUSION: Thus, this new and simple assay allows for a quick and efficient screen of hundreds of drugs to identify those affecting chromosome mis-segregation. It also allows ranking of compounds with the same or similar mechanism of action based on their effect on the rate of chromosome loss. The identification of new compounds that increase chromosome mis-segregation rates should expedite the development of new therapeutic strategies to target the CIN phenotype in cancer cells

Environmental aspects implementation of high-granulation equipment for the production of nitrogen fertilizers

Приведены основные преимущества использования вращающихся вибрационных грануляторов (метод приллирования) и вихревых грануляторов (метод гранулирования во взвешенном слое) в производстве минеральных удобрений. Предложены конструктивные решения для модернизации этих аппаратов с целью получения продукта более высокого качества и уменьшения выбросов пыли в атмосферу. На основании данных сравнения качественных показателей продукции доказана целесообразность замены ранее используемых грануляторов на конструкцию рассматриваемого оборудования. Результаты испытаний также показали снижение концентрации пыли в отходящих из этих аппаратов газах по сравнению с существующими аналогами оборудования.The main advantages of using the rotating oscillating granulator (prilling method) and vortex pellet (method in fluidized bed granulation) in the production of mineral fertilizers. Constructive solutions for the modernization of these devices in order to obtain higher product quality and reduce dust emissions. On the basis of comparison of qualitative products is justified by replacing the previously used pellet on the design of the equipment. The test results also showed a decrease in the concentration of dust in the exhaust gases of the apparatus compared with existing analogues equipment

Quality improvement of granular nitrogen fertilizer in the prilling plants

Исследования показали, что процесс распада струи на капли может быть стабилизирован путем наложения на поток расплава колебаний. Эти колебания оказывают значительное влияние на формирование капель при распаде струи, уменьшают длину разрушенных частей потока и резко сужают фракционный состав конечного продукта. Перспективное направление в усовершенствоаании конструкции диспергаторов - статический и центробежный диспергатор с наложенными колебаниями.The studies found that the process of disintegration of the jet into droplets can be stabilized by imposing on the melt stream forcing fluctuations close to the natural frequency decay. These fluctuations have a significant impact on the formation of droplets in the decay of the jet, reduce the length of disintegrated parts of the stream and sharply narrow fractional composition of the final product. Prospective design of dispersants are currently static and centrifugal dispersing device with superimposed vibrations

Re-engineering an alphoid-HAC-based vector to enable high-throughput analyses of gene function

Human artificial chromosome (HAC)-based vectors represent an alternative technology for gene delivery and expression with a potential to overcome the problems caused by the use of viral-based vectors. The recently developed alphoid(tetO)-HAC has an advantage over other HAC vectors because it can be easily eliminated from cells by inactivation of the HAC kinetochore via binding of tTS chromatin modifiers to its centromeric tetO sequences. This provides unique control for phenotypes induced by genes loaded into the alphoid(tetO)-HAC. However, inactivation of the HAC kinetochore requires transfection of cells by a retrovirus vector, a step that is potentially mutagenic. Here, we describe an approach to re-engineering the alphoid(tetO)-HAC that allows verification of phenotypic changes attributed to expression of genes from the HAC without a transfection step. In the new HAC vector, a tTS-EYFP cassette is inserted into a gene-loading site along with a gene of interest. Expression of the tTS generates a self-regulating fluctuating heterochromatin on the alphoid(tetO)-HAC that induces fast silencing of the genes on the HAC without significant effects on HAC segregation. This silencing of the HAC-encoded genes can be readily recovered by adding doxycycline. The newly modified alphoid(tetO)-HAC-based system has multiple applications in gene function studies

Generation of a conditionally self-eliminating HAC gene delivery vector through incorporation of a tTAVP64 expression cassette

Human artificial chromosome (HAC)-based vectors represent an alternative technology for gene delivery and expression with a potential to overcome the problems caused by virus-based vectors. The recently developed alphoid(tetO)-HAC has an advantage over other HAC vectors because it can be easily eliminated from cells by inactivation of the HAC kinetochore via binding of chromatin modifiers, tTA or tTS, to its centromeric tetO sequences. This provides a unique control for phenotypes induced by genes loaded into the HAC. The alphoid(tetO)-HAC elimination is highly efficient when a high level of chromatin modifiers as tetR fusion proteins is achieved following transfection of cells by a retrovirus vector. However, such vectors are potentially mutagenic and might want to be avoided under some circumstances. Here, we describe a novel system that allows verification of phenotypic changes attributed to expression of genes from the HAC without a transfection step. We demonstrated that a single copy of tTA(VP64) carrying four tandem repeats of the VP16 domain constitutively expressed from the HAC is capable to generate chromatin changes in the HAC kinetochore that are not compatible with its function. To adopt the alphoid(tetO)-HAC for routine gene function studies, we constructed a new TAR-BRV- tTA(VP64) cloning vector that allows a selective isolation of a gene of interest from genomic DNA in yeast followed by its direct transfer to bacterial cells and subsequent loading into the loxP site of the alphoid(tetO)-HAC in hamster CHO cells from where the HAC may be MMCT-transferred to the recipient human cells