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81.
Erica J. Fratz-Berilla Talia Faison Casey L. Kohnhorst Sai Rashmika Velugula-Yellela David N. Powers Kurt Brorson Cyrus Agarabi 《Biotechnology and bioengineering》2019,116(12):3242-3252
Mycoplasma contamination events in biomanufacturing facilities can result in loss of production and costly cleanups. Mycoplasma may survive in mammalian cell cultures with only subtle changes to the culture and may penetrate the 0.2 µm filters often used in the primary clarification of harvested cell culture fluid. Culture cell-based and indicator cell-based assays that are used to detect mycoplasma are highly sensitive but can take up to 28 days to complete and cannot be used for real-time decision making during the biomanufacturing process. To support real-time measurements of mycoplasma contamination, there is a push to explore nucleic acid testing. However, cell-based methods measure growth or colony forming units and nucleic acid testing measures genome copy number; this has led to ambiguity regarding how to compare the sensitivity of the methods. In addition, the high risk of conducting experiments wherein one deliberately spikes mycoplasma into bioreactors has dissuaded commercial groups from performing studies to explore the multiple variables associated with the upstream effects of a mycoplasma contamination in a manufacturing setting. Here we studied the ability of Mycoplasma arginini to persist in a single-use, perfusion rocking bioreactor system containing a Chinese hamster ovary (CHO) DG44 cell line expressing a model monoclonal immunoglobulin G1 (IgG1) antibody. We examined M. arginini growth and detection by culture methods, as well as the effects of M. arginini on mammalian cell health, metabolism, and productivity. We compared process parameters and controls normally measured in bioreactors including dissolved oxygen, gas mix, and base addition to maintain pH, to examine parameter changes as potential indicators of contamination. Our work showed that M. arginini affects CHO cell growth profile, viability, nutrient consumption, oxygen use, and waste production at varying timepoints after M. arginini introduction to the culture. Importantly, how the M. arginini contamination impacts the CHO cells is influenced by the concentration of CHO cells and rate of perfusion at the time of M. arginini spike. Careful evaluation of dissolved oxygen, pH control parameters, ammonia, and arginine over time may be used to indicate mycoplasma contamination in CHO cell cultures in a bioreactor before a read-out from a traditional method. 相似文献
82.
Edoardo Pasolli Francesco Asnicar Serena Manara Moreno Zolfo Nicolai Karcher Federica Armanini Francesco Beghini Paolo Manghi Adrian Tett Paolo Ghensi Maria Carmen Collado Benjamin L. Rice Casey DuLong Xochitl C. Morgan Christopher D. Golden Christopher Quince Curtis Huttenhower Nicola Segata 《Cell》2019,176(3):649-662.e20
83.
Davide Sala Yuanpeng Janet Huang Casey A. Cole David A. Snyder Gaohua Liu Yojiro Ishida G.V.T. Swapna Kelly P. Brock Chris Sander Krzysztof Fidelis Andriy Kryshtafovych Masayori Inouye Roberto Tejero Homayoun Valafar Antonio Rosato Gaetano T. Montelione 《Proteins》2019,87(12):1315-1332
CASP13 has investigated the impact of sparse NMR data on the accuracy of protein structure prediction. NOESY and 15N-1H residual dipolar coupling data, typical of that obtained for 15N,13C-enriched, perdeuterated proteins up to about 40 kDa, were simulated for 11 CASP13 targets ranging in size from 80 to 326 residues. For several targets, two prediction groups generated models that are more accurate than those produced using baseline methods. Real NMR data collected for a de novo designed protein were also provided to predictors, including one data set in which only backbone resonance assignments were available. Some NMR-assisted prediction groups also did very well with these data. CASP13 also assessed whether incorporation of sparse NMR data improves the accuracy of protein structure prediction relative to nonassisted regular methods. In most cases, incorporation of sparse, noisy NMR data results in models with higher accuracy. The best NMR-assisted models were also compared with the best regular predictions of any CASP13 group for the same target. For six of 13 targets, the most accurate model provided by any NMR-assisted prediction group was more accurate than the most accurate model provided by any regular prediction group; however, for the remaining seven targets, one or more regular prediction method provided a more accurate model than even the best NMR-assisted model. These results suggest a novel approach for protein structure determination, in which advanced prediction methods are first used to generate structural models, and sparse NMR data is then used to validate and/or refine these models. 相似文献
84.
Robert N. L. Fitt Steve Palmer Casey Hand Justin M. J. Travis Lesley T. Lancaster 《Ecography》2019,42(1):201-210
Many species are undergoing distributional shifts in response to climate change. However, wide variability in range shifting rates has been observed across taxa, and even among closely‐related species. Attempts to link climate‐mediated range shifts to traits has often produced weak or conflicting results. Here we investigate interactive effects of developmental processes and environmental stress on the expression of traits relevant to range shifts. We use an individual‐based modelling approach to assess how different developmental strategies affect range shift rates under a range of environmental conditions. We find that under stressful conditions, such as at the margins of the species’ fundamental niche, investment in prolonged development leads to the greatest rates of range shifting, especially when longer time in development leads to improved fecundity and dispersal‐related traits. However, under benign conditions, and when traits are less developmentally plastic, shorter development times are preferred for rapid range shifts, because higher generational frequency increases the number of individual dispersal events occurring over time. Our results suggest that the ability of a species to range shift depends not only on their dispersal and colonisation characteristics but also how these characteristics interact with developmental strategies. Benefits of any trait always depended on the environmental and developmental sensitivity of life history trait combinations, and the environmental conditions under which the range shift takes place. Without considering environmental and developmental sources of variation in the expression of traits relevant to range shifts, there is little hope of developing a general understanding of intrinsic drivers of range shift potential. 相似文献
85.
Anderson Kristen D. Cantin Neal E. Casey Jordan M. Pratchett Morgan S. 《Coral reefs (Online)》2019,38(6):1225-1240
Coral Reefs - Climate change is the greatest threat to coral reef ecosystems. Importantly, gradual changes in seawater chemistry compounds upon increasing temperatures leading to declines in... 相似文献
86.
Distinct enhancer elements control Hex expression during gastrulation and early organogenesis 总被引:4,自引:0,他引:4
In the mouse, embryological and genetic studies have indicated that two spatially distinct signalling centres, the anterior visceral endoderm and the node and its derivatives, are required for the correct patterning of the anterior neural ectoderm. The divergent homeobox gene Hex is expressed in the anterior visceral endoderm, in the node (transiently), and in the anterior definitive endoderm. Other sites of Hex expression include the liver and thyroid primordia and the endothelial cell precursors. We have used transgenic analysis to map the cis-acting regulatory elements controlling Hex expression during early mouse development. A 4.2-kb upstream region is important for Hex expression in the endothelial cell precursors, liver, and thyroid, and a 633-bp intronic fragment is both necessary and sufficient for Hex expression in the anterior visceral endoderm and the anterior definitive endoderm. These same regions drive expression in homologous structures in Xenopus laevis, indicating conservation of these regulatory regions in vertebrates. Analysis of the anterior visceral endoderm/anterior definitive endoderm enhancer identifies a repressor region that is required to downregulate Hex expression in the node once the anterior definitive endoderm has formed. This analysis also reveals that the initiation of Hex expression in the anterior visceral endoderm and axial mesendoderm requires common elements, but maintenance of expression is regulated independently in these tissues. 相似文献
87.
The AFLP technique (amplified fragment-length polymorphism) was employed to identify and isolate species specific markers in tephritids. We have found that the technique has good potential for this purpose, with the only difficult part being the reamplification of AFLP fragments from silver stained gels. Cloning of putative species-specific markers and genomic dot blot hybridizations resulted in the development of diagnostic probes for tephritid identification. A repetitive DNA sequence from the genome of Ceratitis capitata (Wiedemann) was isolated. This sequence rapidly and reliably identified C. capitata and C. rosa Karsch in a collection of closely related and outgroup species tested in this study. Although this probe has been developed for C. capitata and C. rosa, the proposed methodology can be applied to any group of organisms. 相似文献
88.
Prenylated proteins contain either a 15-carbon farnesyl or 20-carbon geranylgeranyl isoprenoid covalently attached to cysteine residues at or near their C terminus. These proteins constitute up to 2% of total cellular protein in eukaryotic cells. The degradation of prenylated proteins raises a metabolic challenge to the cell, because the thioether bond of the modified cysteine is quite stable. We recently identified and isolated an enzyme termed prenylcysteine lyase that cleaves the prenylcysteine to free cysteine and an isoprenoid product (Zhang, L., Tschantz, W. R., and Casey, P. J. (1997) J. Biol. Chem. 272, 23354-23359). To facilitate the molecular characterization of this enzyme, its cloning was undertaken. Overlapping cDNA clones encoding the complete coding sequence of this enzyme were obtained from a human cDNA library. The open reading frame of the gene encoding prenylcysteine lyase is 1515 base pairs and has a nearly ubiquitous expression pattern with a message size of 6 kilobase pairs. Recombinant prenylcysteine lyase was produced in a baculovirus-Sf9 expression system. Analysis of both the recombinant and native enzyme revealed that the enzyme is glycosylated and contains a signal peptide that is cleaved during processing. Additionally, the subcellular localization of this enzyme was determined to be lysosomal. These findings strengthen the notion that prenylcysteine lyase plays an important role in the final step in the degradation of prenylated proteins and will allow further physiological and biochemical characterization of this enzyme. 相似文献
89.
Immobilization of pollutant-degrading microorganisms on oxygen-permeable membranes provides a novel method of increasing the oxidation capacity of wastewater treatment bioreactors. Oxygen mass transfer characteristics during continuous-flow steady-state experiments were investigated for biofilms supported on tubular silicone membranes. An analysis of oxygen mass transport and reaction using an established mathematical model for dual-substrate limitation supported the experimental results reported. In thick biofilms, an active layer of biomass where both carbon substrate and oxygen are available was found to exist. The location of this active layer varies depending on the ratio of the carbon substrate loading rate to the intramembrane oxygen pressure. The thickness of a carbon-substrate-starved layer was found to greatly influence the mass transport of oxygen into the active biomass layer, which was located close to, but not in contact with, the biofilm-liquid interface. The experimental results demonstrated that oxygen uptake rates as high as 20 g m-2 d-1 bar-1 can be achieved, and the model predicts that, for an optimized biofilm thickness, oxygen uptake rates of more than 30 g m-2 d-1 bar-1 should be possible. This would allow membrane-aerated biofilm reactors to operate with much greater thicknesses of active biomass than can conventional biofilm reactors as well as offering the further advantage of close to 100% oxygen conversion efficiencies for the treatment of high-strength wastewaters. In the case of dual- substrate-limited biofilms, the potential to increase the oxygen flux does not necessarily increase the substrate (acetate) removal rate. 相似文献
90.
Actin filament organization is required for proper cAMP-dependent activation of CFTR 总被引:3,自引:0,他引:3
Prat Adriana G.; Cunningham C. Casey; Jackson G. Robert Jr.; Borkan Steven C.; Wang Yihan; Ausiello Dennis A.; Cantiello Horacio F. 《American journal of physiology. Cell physiology》1999,277(6):C1160
Previous studieshave indicated a role of the actin cytoskeleton in the regulation ofthe cystic fibrosis transmembrane conductance regulator (CFTR) ionchannel. However, the exact molecular nature of this regulation isstill largely unknown. In this report human epithelial CFTR wasexpressed in human melanoma cells genetically devoid of the filaminhomologue actin-cross-linking protein ABP-280 [ABP()]. cAMP stimulation of ABP() cells orcells genetically rescued with ABP-280 cDNA [ABP(+)] waswithout effect on whole cell Cl currents. InABP() cells expressing CFTR, cAMP was also without effect onCl conductance. In contrast, cAMP induced a 10-foldincrease in the diphenylamine-2-carboxylate (DPC)-sensitive whole cellCl currents of ABP(+)/CFTR(+) cells. Further, incells expressing both CFTR and a truncated form of ABP-280 unable tocross-link actin filaments, cAMP was also without effect on CFTRactivation. Dialysis of ABP-280 or filamin through the patch pipette,however, resulted in a DPC-inhibitable increase in the whole cellcurrents of ABP()/CFTR(+) cells. At the single-channel level,protein kinase A plus ATP activated single Clchannels only in excised patches from ABP(+)/CFTR(+) cells.Furthermore, filamin alone also induced Cl channelactivity in excised patches of ABP()/CFTR(+) cells. The presentdata indicate that an organized actin cytoskeleton is required forcAMP-dependent activation of CFTR. 相似文献