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491.
492.
Application of response surface design to optimise the chromatographic analysis of volatile compounds in beer
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Jakub Nešpor Marcel Karabín Vojtěch Hanko Pavel Dostálek 《Journal of the Institute of Brewing》2018,124(3):244-253
Solid‐phase microextraction (SPME) combined with gas chromatography and mass spectrometry (GC–MS) is a rapid method for the analysis of different aromatic compounds in beer. However, chromatographic systems are affected by different parameters and optimization is time‐consuming process, but essential for establishing optimal conditions for the quantification of analytes. An automated system consisting of headspace (HS)–SPME extraction combined with GC–MS was optimized for the determination of 19 volatile compounds responsible for important flavours and off‐flavours of beer. The optimisation process consisted of two steps: the SPME fibre type was chosen, and subsequently four extraction parameters (temperature, time, sodium chloride concentration and pH) were optimised by a central composite design model. After optimisation, standard compounds were validated with relative standard deviations not exceeding 15%rel. The square of correlation coefficient for the calibration curves was ≥0.9559, indicating a linear response and the suitability of these HS‐SPME conditions. Copyright © 2018 The Institute of Brewing & Distilling 相似文献
493.
Alfredo Buttari Julien Langou Jakub Kurzak Jack Dongarra 《Concurrency and Computation》2008,20(13):1573-1590
As multicore systems continue to gain ground in the high‐performance computing world, linear algebra algorithms have to be reformulated or new algorithms have to be developed in order to take advantage of the architectural features on these new processors. Fine‐grain parallelism becomes a major requirement and introduces the necessity of loose synchronization in the parallel execution of an operation. This paper presents an algorithm for the QR factorization where the operations can be represented as a sequence of small tasks that operate on square blocks of data (referred to as ‘tiles’). These tasks can be dynamically scheduled for execution based on the dependencies among them and on the availability of computational resources. This may result in an out‐of‐order execution of the tasks that will completely hide the presence of intrinsically sequential tasks in the factorization. Performance comparisons are presented with the LAPACK algorithm for QR factorization where parallelism can be exploited only at the level of the BLAS operations and with vendor implementations. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
494.
Joanna Bojarska Martin Breza Milan Remko Malgorzata Czyz Anna Gajos-Michniewicz Micha Zimecki Krzysztof Kaczmarek Izabela D. Madura Jakub M. Wojciechowski Wojciech M. Wolf 《International journal of molecular sciences》2022,23(13)
Short peptides have great potential as safe and effective anticancer drug leads. Herein, the influence of short cyclic peptides containing the Pro-Pro-Phe-Phe sequence on patient-derived melanoma cells was investigated. Cyclic peptides such as cyclo(Leu-Ile-Ile-Leu-Val-Pro-Pro-Phe-Phe-), called CLA, and cyclo(Pro-homoPro-β3homoPhe-Phe-), called P11, exert the cytotoxic and the cytostatic effects in melanoma cells, respectively. CLA was the most active peptide as it reduced the viability of melanoma cells to 50% of control at about 10 µM, whereas P11 at about 40 µM after 48 h incubation. Interestingly, a linear derivative of P11 did not induce any effect in melanoma cells confirming previous studies showing that cyclic peptides exert better biological activity compared to their linear counterparts. According to in silico predictions, cyclic tetrapeptides show a better pharmacokinetic and toxic profile to humans than CLA. Notably, the spatial structure of those peptides containing synthetic amino acids has not been explored yet. In the Cambridge Structural Database, there is only one such cyclic tetrapeptide, cyclo((R)-β2homoPhe-D-Pro-Lys-Phe-), while in the Protein Data Bank—none. Therefore, we report the first crystal structure of cyclo(Pro-Pro-β3homoPhe-Phe-), denoted as 4B8M, a close analog of P11, which is crucial for drug discovery. Comparative molecular and supramolecular analysis of both structures was performed. The DFT findings revealed that 4B8M is well interpreted in the water solution. The results of complex Hirshfeld surface investigations on the cooperativity of interatomic contacts in terms of electrostatic and energetic features are provided. In short, the enrichment ratio revealed O…H/H…O and C…H/H…C as privileged intercontacts in the crystals in relation to basic and large supramolecular H-bonding synthon patterns. Furthermore, the ability of self-assemble 4B8M leading to a nanotubular structure is also discussed. 相似文献
495.
Christopher J. Sipe Mitchell G. Kluesner Samuel P. Bingea Walker S. Lahr Aneesha A. Andrew Minjing Wang Anthony P. DeFeo Timothy L. Hinkel Kanut Laoharawee John E. Wagner Margaret L. MacMillan Gregory M. Vercellotti Jakub Tolar Mark J. Osborn R. Scott McIvor Beau R. Webber Branden S. Moriarity 《International journal of molecular sciences》2022,23(15)
Fanconi anemia (FA) is a rare genetic disease in which genes essential for DNA repair are mutated. Both the interstrand crosslink (ICL) and double-strand break (DSB) repair pathways are disrupted in FA, leading to patient bone marrow failure (BMF) and cancer predisposition. The only curative therapy for the hematological manifestations of FA is an allogeneic hematopoietic cell transplant (HCT); however, many (>70%) patients lack a suitable human leukocyte antigen (HLA)-matched donor, often resulting in increased rates of graft-versus-host disease (GvHD) and, potentially, the exacerbation of cancer risk. Successful engraftment of gene-corrected autologous hematopoietic stem cells (HSC) circumvents the need for an allogeneic HCT and has been achieved in other genetic diseases using targeted nucleases to induce site specific DSBs and the correction of mutated genes through homology-directed repair (HDR). However, this process is extremely inefficient in FA cells, as they are inherently deficient in DNA repair. Here, we demonstrate the correction of FANCA mutations in primary patient cells using ‘digital’ genome editing with the cytosine and adenine base editors (BEs). These Cas9-based tools allow for C:G > T:A or A:T > C:G base transitions without the induction of a toxic DSB or the need for a DNA donor molecule. These genetic corrections or conservative codon substitution strategies lead to phenotypic rescue as illustrated by a resistance to the alkylating crosslinking agent Mitomycin C (MMC). Further, FANCA protein expression was restored, and an intact FA pathway was demonstrated by downstream FANCD2 monoubiquitination induction. This BE digital correction strategy will enable the use of gene-corrected FA patient hematopoietic stem and progenitor cells (HSPCs) for autologous HCT, obviating the risks associated with allogeneic HCT and DSB induction during autologous HSC gene therapy. 相似文献
496.
497.
Sara De Vincentiis Matteo Baggiani Francesca Merighi Valentina Cappello Jakub Lopane Mariachiara Di Caprio Mario Costa Marco Mainardi Marco Onorati Vittoria Raffa 《Small (Weinheim an der Bergstrasse, Germany)》2023,19(30):2205871
Mechanical stimulation modulates neural development and neuronal activity. In a previous study, magnetic “nano-pulling” is proposed as a tool to generate active forces. By loading neural cells with magnetic nanoparticles (MNPs), a precise force vector is remotely generated through static magnetic fields. In the present study, human neural stem cells (NSCs) are subjected to a standard differentiation protocol, in the presence or absence of nano-pulling. Under mechanical stimulation, an increase in the length of the neural processes which showed an enrichment in microtubules, endoplasmic reticulum, and mitochondria is found. A stimulation lasting up to 82 days induces a strong remodeling at the level of synapse density and a re-organization of the neuronal network, halving the time required for the maturation of neural precursors into neurons. The MNP-loaded NSCs are then transplanted into mouse spinal cord organotypic slices, demonstrating that nano-pulling stimulates the elongation of the NSC processes and modulates their orientation even in an ex vivo model. Thus, it is shown that active mechanical stimuli can guide the outgrowth of NSCs transplanted into the spinal cord tissue. The findings suggest that mechanical forces play an important role in neuronal maturation which could be applied in regenerative medicine. 相似文献
498.
499.
Holzer Jakub Husťák Miroslav Hegrová Jitka Gröger Roman 《Metallurgical and Materials Transactions A》2023,54(2):439-449
Metallurgical and Materials Transactions A - Experimental studies on single crystals of pure metals are essential for understanding the mechanisms governing their plastic deformation as well as for... 相似文献
500.
Mays S. Q. Al-Fakhar Nurgül Bilgin Laust Moesgaard Apolonia Witecka Prof. Dr. Jakub Drozak Prof. Dr. Jacob Kongsted Prof. Dr. Jasmin Mecinović 《Chembiochem : a European journal of chemical biology》2023,24(21):e202300490
Nτ-methylation of His73 in actin by histidine methyltransferase SETD3 plays an important role in stabilising actin filaments in eukaryotes. Mutations in actin and overexpression of SETD3 have been related to human diseases, including cancer. Here, we investigated the importance of Trp79 in β-actin on productive human SETD3 catalysis. Substitution of Trp79 in β-actin peptides by its chemically diverse analogues reveals that the hydrophobic Trp79 binding pocket modulates the catalytic activity of SETD3, and that retaining a bulky and hydrophobic amino acid at position 79 is important for efficient His73 methylation by SETD3. Molecular dynamics simulations show that the Trp79 binding pocket of SETD3 is ideally shaped to accommodate large and hydrophobic Trp79, contributing to the favourable release of water molecules upon binding. Our results demonstrate that the distant Trp79 binding site plays an important role in efficient SETD3 catalysis, contributing to the identification of new SETD3 substrates and the development of chemical probes targeting the biomedically important SETD3. 相似文献