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排序方式: 共有120条查询结果,搜索用时 15 毫秒
31.
David J Sewell Richard Turner Ray Field William Holmes Rahul Pradhan Christopher Spencer Stephen G Oliver Nigel KH Slater Duygu Dikicioglu 《Biotechnology and bioengineering》2019,116(6):1315-1325
Without a scale-down model for perfusion, high resource demand makes cell line screening or process development challenging, therefore, potentially successful cell lines or perfusion processes are unrealized and their ability untapped. We present here the refunctioning of a high-capacity microscale system that is typically used in fed-batch process development to allow perfusion operation utilizing in situ gravity settling and automated sampling. In this low resource setting, which involved routine perturbations in mixing, pH and dissolved oxygen concentrations, the specific productivity and the maximum cell concentration were higher than 3.0 × 106 mg/cell/day and 7 × 10 7 cells/ml, respectively, across replicate microscale perfusion runs conducted at one vessel volume exchange per day. A comparative analysis was conducted at bench scale with vessels operated in perfusion mode utilizing a cell retention device. Neither specific productivity nor product quality indicated by product aggregation (6%) was significantly different across scales 19 days after inoculation, thus demonstrating this setup to be a suitable and reliable platform for evaluating the performance of cell lines and the effect of process parameters, relevant to perfusion mode of culturing. 相似文献
32.
33.
Andrew MF Liu Rico KH Lo Emily X Guo Maurice KC Ho Richard D Ye Yung H Wong 《BMC structural biology》2011,11(1):17
Background
G protein-coupled receptors constitute the largest family of cell surface receptors in the mammalian genome. As the core of the G protein signal transduction machinery, the Gα subunits are required to interact with multiple partners. The GTP-bound active state of many Gα subunits can bind a multitude of effectors and regulatory proteins. Yet it remains unclear if the different proteins utilize distinct or common structural motifs on the Gα subunit for binding. Using Gα16 as a model, we asked if its recently discovered adaptor protein tetratricopeptide repeat 1 (TPR1) binds to the same region as its canonical effector, phospholipase Cβ (PLCβ). 相似文献34.
35.
Vanessa L Brisson Kimberlee A West Patrick KH Lee Susannah G Tringe Eoin L Brodie Lisa Alvarez-Cohen 《The ISME journal》2012,6(9):1702-1714
Dehalococcoides bacteria are the only organisms known to completely reduce chlorinated ethenes to the harmless product ethene. However, Dehalococcoides dechlorinate these chemicals more effectively and grow more robustly in mixed microbial communities than in isolation. In this study, the phylogenetic composition and gene content of a functionally stable trichloroethene-degrading microbial community was examined using metagenomic sequencing and analysis. For phylogenetic classification, contiguous sequences (contigs) longer than 2500 bp were grouped into classes according to tetranucleotide frequencies and assigned to taxa based on rRNA genes and other phylogenetic marker genes. Classes were identified for Clostridiaceae, Dehalococcoides, Desulfovibrio, Methanobacterium, Methanospirillum, as well as a Spirochete, a Synergistete, and an unknown Deltaproteobacterium. Dehalococcoides contigs were also identified based on sequence similarity to previously sequenced genomes, allowing the identification of 170 kb on contigs shorter than 2500 bp. Examination of metagenome sequences affiliated with Dehalococcoides revealed 406 genes not found in previously sequenced Dehalococcoides genomes, including 9 cobalamin biosynthesis genes related to corrin ring synthesis. This is the first time that a Dehalococcoides strain has been found to possess genes for synthesizing this cofactor critical to reductive dechlorination. Besides Dehalococcoides, several other members of this community appear to have genes for complete or near-complete cobalamin biosynthesis pathways. In all, 17 genes for putative reductive dehalogenases were identified, including 11 novel ones, all associated with Dehalococcoides. Genes for hydrogenase components (271 in total) were widespread, highlighting the importance of hydrogen metabolism in this community. PhyloChip analysis confirmed the stability of this microbial community. 相似文献
36.
M. A. KH. MOUNLA 《Physiologia plantarum》1978,44(3):268-272
In husks, the activity of gibberellin-like substances extracted with aqueous methanol (M-“free” GAs) showed a maximum on the 9th day after pollination. In developing embryos, M-“free” GAs showed no biological activity, whereas biological active component(s) were obtained when the embryos were extracted with Tris buffer. The “free” GAs found in the buffer homogenates (B-“free” GAs) of developing embryos showed a maximum of activity on the 33rd day after pollination. Bound GAs recovered from the precipitated protein of the buffer homogenate (“Protein-bound” GAs) were found in embryo and endosperm. Developing endosperm generally contains the major amount of the extractable gibberellin-like substances. In this tissue, the amount of all examined fractions (M-“free” GAs, B-“free” GAs and “protein-bound” GAs) increased after pollination to reach a maximum on the 21st day, before decreasing to a minimum at grain maturity. Moreover, the curves for dry weight increase and gibberellin like substances follow a remarkably similar course, with the latter reaching its maximim slightly earlier than the former one. This result indicates that gibberellines may participate in the regulation of the accumulation process in the endosperm of barley grain. 相似文献
37.
Mall M Kunzelmann K 《BioEssays : news and reviews in molecular, cellular and developmental biology》2005,27(1):9-13
Cystic fibrosis (CF), the most-common lethal hereditary disease in the white population, is caused by mutations in the cystic fibrosis transmembrane conductance regulator (CFTR) gene. The mutation that is most frequently responsible for the disease, DeltaF508, causes misfolding and retention of the CFTR protein in the endoplasmic reticulum. This leads to a series of cellular dysfunctions and results in a multi-organ disease. In a recent report, Egan et al.(1) demonstrated that curcumin, a non-toxic natural product and major constituent of turmeric spice, corrected the CF defects in DeltaF508 CF mice. This paper aroused a lot of attention and hopes were raised that curcumin might produce similar effects in human, giving an efficient treatment for most CF patients. However, skepticism is growing since subsequent studies fail to reproduce these initial exciting results. Thus, although herbal medicines and dietary supplements can be desirable alternatives to classical pharmacological compounds, their efficacy needs careful evaluation both in vivo and ex vivo. 相似文献
38.
Joana R. Lérias Madalena C. Pinto Hugo M. Botelho Nikhil T. Awatade Margarida C. Quaresma Iris A.L. Silva Podchanart Wanitchakool Rainer Schreiber Rainer Pepperkok Karl Kunzelmann Margarida D. Amaral 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》2018,1865(2):421-431
An attractive possibility to treat Cystic Fibrosis (CF), a severe condition caused by dysfunctional CFTR, an epithelial anion channel, is through the activation of alternative (non-CFTR) anion channels. Anoctamin 1 (ANO1) was demonstrated to be a Ca2+-activated chloride channel (CaCC) and thus of high potential to replace CFTR. Despite that ANO1 is expressed in human lung CF tissue, it is present at the cell surface at very low levels. In addition, little is known about regulation of ANO1 traffic, namely which factors promote its plasma membrane (PM) localization.Here, we generated a novel cellular model, expressing an inducible 3HA-ANO1-eGFP construct, and validated its usage as a microscopy tool to monitor for ANO1 traffic.We demonstrate the robustness and specificity of this cell-based assay, by the identification of siRNAs acting both as ANO1 traffic enhancer and inhibitor, targeting respectively COPB1 and ESYT1 (extended synaptotagmin-1), the latter involved in coupling of the endoplasmic reticulum to the PM at specific microdomains. We further show that knockdown of ESYT1 (and family members ESYT2 and ESYT3) significantly decreased ANO1 current density.This ANO1 cell-based assay constitutes an important tool to be further used in high-throughput screens and drug discovery of high relevance for CF and cancer. 相似文献
39.
We employed a genetic approach to study protein glycosylation in the
procyclic form of the parasite Trypanosoma brucei. Two different mutant
parasites, ConA 1-1 and ConA 4-1, were isolated from mutagenized cultures
by selecting cells which resisted killing or agglutination by concanavalin
A. Both mutant cells show reduced concanavalin A binding. However, the
mutants have different phenotypes, as indicated by the fact that ConA 1-1
binds to wheat germ agglutinin but ConA 4-1 and wild type do not. A blot
probed with concanavalin A revealed that many proteins in both mutants lost
the ability to bind this lectin, and the blots resembled one of wild type
membrane proteins treated with PNGase F. This finding suggested that the
mutants had altered asparagine- linked glycosylation. This conclusion was
confirmed by studies on a flagellar protein (Fla1) and procyclic acidic
repetitive protein (PARP). Structural analysis indicated that the N- glycan
of wild type PARP is exclusively Man5GlcNAc2 whereas that in both mutants
is predominantly a hybrid type with a terminal N- acetyllactosamine. The
occupancy of the PARP glycosylation site in ConA 4-1 was much lower than
that in ConA 1-1. These mutants will be useful for studying trypanosome
glycosylation mechanisms and function.
相似文献
40.
KH Richau RL Kudahettige P Pujic NP Kudahettige A Sellstedt 《Journal of biosciences》2013,38(4):703-712
The actinorhizal bacterium Frankia expresses nitrogenase and can therefore convert molecular nitrogen into ammonia and the by-product hydrogen. However, nitrogenase is inhibited by oxygen. Consequently, Frankia and its actinorhizal hosts have developed various mechanisms for excluding oxygen from their nitrogen-containing compartments. These include the expression of oxygen-scavenging uptake hydrogenases, the formation of hopanoid-rich vesicles, enclosed by multi-layered hopanoid structures, the lignification of hyphal cell walls, and the production of haemoglobins in the symbiotic nodule. In this work, we analysed the expression and structure of the so-called uptake hydrogenase (Hup), which catalyses the in vivo dissociation of hydrogen to recycle the energy locked up in this ‘waste’ product. Two uptake hydrogenase syntons have been identified in Frankia: synton 1 is expressed under free-living conditions while synton 2 is expressed during symbiosis. We used qPCR to determine synton 1 hup gene expression in two Frankia strains under aerobic and anaerobic conditions. We also predicted the 3D structures of the Hup protein subunits based on multiple sequence alignments and remote homology modelling. Finally, we performed BLAST searches of genome and protein databases to identify genes that may contribute to the protection of nitrogenase against oxygen in the two Frankia strains. Our results show that in Frankia strain ACN14a, the expression patterns of the large (HupL1) and small (HupS1) uptake hydrogenase subunits depend on the abundance of oxygen in the external environment. Structural models of the membrane-bound hydrogenase subunits of ACN14a showed that both subunits resemble the structures of known [NiFe] hydrogenases (Volbeda et al. 1995), but contain fewer cysteine residues than the uptake hydrogenase of the Frankia DC12 and Eu1c strains. Moreover, we show that all of the investigated Frankia strains have two squalene hopane cyclase genes (shc1 and shc2). The only exceptions were CcI3 and the symbiont of Datisca glomerata, which possess shc1 but not shc2. Four truncated haemoglobin genes were identified in Frankia ACN14a and Eu1f, three in CcI3, two in EANpec1 and one in the Datisca glomerata symbiont (Dg). 相似文献