Hothersall, JoanneGodfrey, Rita E.Fanitsios, ChristosOverton, Tim W....
8页
查看更多>>摘要:Many commonly used bacterial promoters employed for recombinant protein production (RPP) in Escherichia coli are capable of high-level protein expression. However, such promoter systems are often too strong, being ill suited for expressing proteins that are difficult to fold, targeted to the membrane or secreted out of the cytoplasm. To circumvent this problem, a suite of bacterial promoters has been constructed with a range of different promoter strengths, assigning them specific "promoter activity ratings" (PARs). Selecting three of these PAR promoters, with low, intermediate and high strengths, it is demonstrated that the expression of target proteins, such as green fluorescent protein (GFP), human growth hormone (hGH) and single chain variable region antibody fragments (scFvs), can be set to three levels when expressed in E. coli. It is shown that the PAR promoter system is extremely flexible, operating in a variety of E. coli strains and under various different culture regimes. Furthermore, due to its tight regulation, it is shown that this system can also express a toxic outer membrane protein, at levels which do not affect bacterial growth. Thus, the PAR promoter system can be used to tailor the expression levels of target proteins in E. coli and maximize RPP.
查看更多>>摘要:Nanobodies are the smallest antibody fragments which bind to antigens with high affinity and specificity. Due to their outstanding physicochemical stability, simplicity and cost-effective production, nanobodies have become powerful agents in therapeutic and diagnostic applications. In this work, the advantages of nanobodies were exploited to develop generic and standardized anti-human IgM reagents for serology and IgM+ B-cell analysis. Selection of anti-IgM nanobodies was carried out by evaluating their yields, stability, binding kinetics and crossreactivity with other Ig isotypes. High affinity nanobodies were selected with dissociation constants (KDs) in the nM range and high sensitivities for detection of total IgM by ELISA. The nanobodies also proved to be useful for capturing IgM in the serodiagnosis of an acute infection as demonstrated by detection of specific IgM in sera of dengue virus patients. Finally, due to the lack of an Fc region, the selected nanobodies do not require Fc receptor blocking steps, facilitating the immunophenotyping of IgM+ cells by flow cytometry, an important means of diagnosis of immunodeficiencies and B-cell lymphoproliferative disorders. This work describes versatile anti-IgM nanobodies that, due to their recombinant nature and ease of reproduction at low cost, may represent an advantageous alternative to conventional anti-IgM antibodies in research and diagnosis.
查看更多>>摘要:Notch signalling is a well-established oncogenic pathway, and its ligand Delta-like 1 (DLL1) is overexpressed in estrogen receptor-positive (ER+) breast cancers and associated with poor patient prognosis. Hence, DLL1 has become an interesting therapeutic target for breast cancer. Here, the development of specific functional blocking anti-DLL1 antibodies with potential activity against ER+ breast cancer cells is reported. Human DLL1 proteins, containing the essential regions for binding to the Notch receptor and Notch signalling activation, were produced and used to select specific scFv antibody fragments by phage display. Fifteen unique scFvs were identified and reformatted into full IgGs. Characterization of these antibodies by ELISA, surface plasmon resonance and flow cytometry enabled selection of three specific anti-DLL1 IgGs, sharing identical VH regions, with nM affinities. Cellular assays on ER+ breast cancer MCF-7 cells showed that one of the IgGs (IgG-69) was able to partially impair DLL1-mediated activation of the Notch pathway, as determined by Notch reporter and RT-qPCR assays, and to attenuate cell growth. Treatment of MCF-7 cells with IgG-69 reduced mammosphere formation, suggesting that it decreases the breast cancer stem cell subpopulation. These results support the use of this strategy to develop and identify potential anti-DLL1 antibodies candidates against breast cancer.
查看更多>>摘要:Genetically modified hybrid aspens (Populus tremula L. x P. tremuloides Michx.), selected for increased growth under controlled conditions, have been grown in highly replicated field trials to evaluate how the target trait (growth) translated to natural conditions. Moreover, the variation was compared among genotypes of ecologically important non-target traits: number of shoots, bud set, pathogen infection, amount of insect herbivory, composition of the insect herbivore community and flower bud induction. This variation was compared with the variation in a population of randomly selected natural accessions of P. tremula grown in common garden trials, to estimate how the "unintended variation" present in transgenic trees, which in the future may be commercialized, compares with natural variation. The natural variation in the traits was found to be typically significantly greater. The data suggest that when authorities evaluate the potential risks associated with a field experiment or commercial introduction of transgenic trees, risk evaluation should focus on target traits and that unintentional variation in non-target traits is of less concern.
查看更多>>摘要:Yarrowia lipolytica, with a diverse array of biotechnological applications, is able to grow as ovoid yeasts or filamentous hyphae depending on environmental conditions. This study has explored the relationship between residual glucose levels and dimorphism in Y. lipolytica. Under pH stress conditions, the morphological and physiological characteristics of the yeast were examined during well-controlled accelerostat cultures using both a 1 L-laboratory scale and a 1 mL-microfluidic bioreactor. The accelerostat mode, via a smooth increase of dilution rate (D), enabled the cell growth rate to increase gradually up to the cell wash-out (D >mu max of the strain), which was accompanied by a progressive increase in residual glucose concentration. The results showed that Y. lipolytica maintained an ovoid morphology when residual glucose concentration was below a threshold value of around 0.35-0.37 mg L-1. Transitions towards more elongated forms were triggered at this threshold and progressively intensified with the increase in residual glucose levels. The effect of cAMP on the dimorphic transition was assessed by the exogenous addition of cAMP and the quantification of its intracellular levels during the accelerostat. cAMP has been reported to be an important mediator of environmental stimuli that inhibit filamentous growth in Y. lipolytica by activating the cAMP-PKA regulatory pathway. It was confirmed that the exogenous addition of cAMP inhibited the mycelial morphology of Y. lipolytica, even with glucose concentrations exceeding the threshold level. The results suggest that dimorphic responses in Y. lipolytica are regulated by sugar signaling pathways, most likely via the cAMP-PKA dependent pathway.
查看更多>>摘要:There is increasing interest in new protein sources for the food and feed industry and for the agricultural sector, and microalgae are considered a good alternative, having a high protein content and a well-balanced amino acid profile. However, protein production from microalgae presents several unsolved issues, as the biomass composition changes markedly as a function of cultivation operating conditions. Continuous systems, however, may be properly set to boost the accumulation of protein in the biomass, ensuring stable production. Here, two microalgae and two cyanobacterial species were cultivated in continuous operating photobioreactors (PBR) under nonlimiting nutrient conditions, to study the effects of light intensity and residence time on both biomass and protein productivity at steady state. Although light strongly affected biomass growth inside the PBR, the overall protein pool did not vary in response to irradiance. On the other hand, shorter residence times resulted in protein accumulation of up to 68 % in cyanobacteria, in contrast with green algae, where a minor influence of residence time on biomass composition was observed. Energy balance showed that light conversion to protein decreased with light intensity. Protein content was also related to energy costs for cell maintenance. In conclusion, it is shown that residence time is the key variable to increase protein content and yield of protein production, but its effect depends on the specific species.
NSTL
Elsevier