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21.
Anaerobic cultivation methods of bacteria are indispensable in microbiology. One methodology is to cultivate the microbes in anaerobic enclosure with oxygen-adosrbing chemicals. Here, we report an electronic extension of such strategy for facultative anaerobic bacteria. The technique is based a bioreactor with entire operation including turbidity measurement, fluidic mixing, and gas delivery in an anaerobic enclosure. Wireless data transmission is employed and the anaerobic condition is achieved with gas pack. Although the technique is not meant to completely replace the anaerobic chamber for strict anaerobic bacteria, it provides a convenient way to bypass the cumbersome operation in anaerobic chamber for facultative anaerobic bacteria. Such a cultivation strategy is demonstrated with Escherichia coli with different carbon sources and hydrogen as energy source. 相似文献
22.
Exotic perennial grasses (EPGs) pose a significant risk to native communities globally. With over 2,200 species in Australia, understanding which characteristics enable high threat invasions, and comparing between functionally similar EPGs, can help prioritise species management. We developed a framework of risk and used the literature to rank 21 EPGs considered a threat to plant communities in New South Wales, while also evaluating the reliability of information currently available. Characteristics were scored within five broad categories that distinguish invasiveness: Arrival, Establishment, Persistence, Impact and Distribution. These included aspects of reproductive biology, competitive ability and environmental tolerance. The risk assessment was effective in assessing key characteristics of invasion. EPGs with an economic benefit (trade‐off species) were more likely to have reliable research and frequently ranked as high‐risk invaders in natural habitats due to the overlap of characteristics important in invasion with those considered important in agriculture. Lack of formal scientific research hindered assessment for some species, and some traits had been poorly assessed in the literature. High uncertainty was associated with key characteristics for Establishment, Persistence and Impact. Uncertainty in key characteristics revealed a need for improved integration of less formal research validated by more formal scientific research. This may lead to more informed decisions in the management of EPGs in native habitats and assist in early control of EPGs not yet assessed. 相似文献
23.
Roman Jansen Holger Morschett Dennis Hasenklever Matthias Moch Wolfgang Wiechert Marco Oldiges 《Biotechnology progress》2021,37(4):e3144
In recent years, many fungal genomes have become publicly available. In combination with novel gene editing tools, this allows for accelerated strain construction, making filamentous fungi even more interesting for the production of valuable products. However, besides their extraordinary production and secretion capacities, fungi most often exhibit challenging morphologies, which need to be screened for the best operational window. Thereby, combining genetic diversity with various environmental parameters results in a large parameter space, creating a strong demand for time-efficient phenotyping technologies. Microbioreactor systems, which have been well established for bacterial organisms, enable an increased cultivation throughput via parallelization and miniaturization, as well as enhanced process insight via non-invasive online monitoring. Nevertheless, only few reports about microtiter plate cultivation for filamentous fungi in general and even less with online monitoring exist in literature. Moreover, screening under batch conditions in microscale, when a fed-batch process is performed in large-scale might even lead to the wrong identification of optimized parameters. Therefore, in this study a novel workflow for Aspergillus niger was developed, allowing for up to 48 parallel microbioreactor cultivations in batch as well as fed-batch mode. This workflow was validated against lab-scale bioreactor cultivations to proof scalability. With the optimized cultivation protocol, three different micro-scale fed-batch strategies were tested to identify the best protein production conditions for intracellular model product GFP. Subsequently, the best feeding strategy was again validated in a lab-scale bioreactor. 相似文献
24.
F. Mahboudi F. Barkhordari R.M. Godarzi S. Enayati F. Davami 《Journal of applied microbiology》2013,114(2):364-372
Aims
A novel chimeric‐truncated form of tissue‐type plasminogen activator (t‐PA) with improved fibrin affinity and resistance to PAI was successfully produced in CHO expression system during our previous studies. Considering advantages of prokaryotic expression systems, the aim in this study was to produce the novel protein in Escherichia coli (BL21) strain and compare the protein potency in batch and fed‐batch processes.Methods and Results
The expression cassette for the novel t‐PA was prepared in pET‐28a(+). The E. coli expression procedure was compared in traditional batch and newly developed fed batch, EnBase® Flo system. The protein was purified in soluble format, and potency results were identified using Chromolize t‐PA Assay Kit. The fed‐batch fermentation mode, coupled with a Ni‐NTA affinity purification procedure under native condition, resulted in higher amounts of soluble protein, and about a 30% of improvement in the specific activity of the resulted recombinant protein (46·66 IU mg?1) compared to traditional batch mode (35·8 IU mg?1).Conclusions
Considering the undeniable advantages of expression in the prokaryotic expression systems such as E. coli for recombinant protein production, applying alternative methods of cultivation is a promising approach. In this study, fed‐batch cultivation methods showed the potential to replace miss‐folded formats of protein with proper folded, soluble form with improved potency.Significance and Impact of the Study
Escherichia coli expression of recombinant proteins still counts for nearly 40% of marketed biopharmaceuticals. The major drawback of this system is the lack of appropriate post‐translational modifications, which may cause potency loss/decline. Therefore, applying alternative methods of cultivation as investigated here is a promising approach to overcome potency decrease problem in this protein production system. 相似文献25.
Živan Gojkovic Ines Garbayo-Nores Veronica Gómez-Jacinto Tamara García-Barrera José-Luis Gómez-Ariza Ivana Márová Carlos Vílchez-Lobato 《Process Biochemistry》2013,48(8):1235-1241
This article describes the enrichment of the fresh-water green microalga Chlorella sorokiniana in selenomethionine (SeMet). The microalga was cultivated in a 2.2 L glass-vessel photobioreactor, in a culture medium supplemented with selenate (SeO42?) concentrations ranging from 5 to 50 mg L?1. Although selenate exposure lowered culture viability, C. sorokiniana grew well at all tested selenate concentrations, however cultures supplemented with 50 mg L?1 selenate did not remain stable at steady state. A suitable selenate concentration in fresh culture medium for continuous operation was determined, which allowed stable long-term cultivation at steady state and maximal SeMet productivity. In order to do that, the effect of dilution rate on biomass productivity, viability and SeMet content of C. sorokiniana at several selenate concentrations were determined in the photobioreactor. A maximal SeMet productivity of 21 μg L?1 day?1 was obtained with 40 mg L?1 selenate in the culture medium. Then a continuous cultivation process at several dilution rates was performed at 40 mg L?1 selenate obtaining a maximum of 246 μg L?1 day?1 SeMet at a low dilution rate of 0.49 day?1, calculated on total daily effluent volume. This paper describes for the first time an efficient long-term continuous cultivation of C. sorokiniana for the production of biomass enriched in the high value amino acid SeMet, at laboratory scale. 相似文献
26.
27.
Microsatellite genetic variation in the Chinese endemic Eucommia ulmoides (Eucommiaceae): implications for conservation 总被引:1,自引:0,他引:1
Jinju Zhang Chong Xing Hua Tian Xiaohong Yao 《Botanical journal of the Linnean Society. Linnean Society of London》2013,173(4):775-785
Eucommia ulmoides, a traditional Chinese medicinal plant, is endangered as a consequence of long‐term and widespread harvest in the late 20th century. It has been widely cultivated as a source of herbal medicine and for use in the organic chemical industry in China. In this study, eight microsatellite markers were applied to investigate genetic diversity in E. ulmoides. Three hundred individuals from one semi‐wild population and nine cultivated populations across its main production area were collected. A high level of genetic diversity at population levels (HE = 0.716) was observed. The highly outcrossed mating system, high longevity of E. ulmoides and seed admixture may be responsible for high genetic variation within populations. A genetic bottleneck was observed in one population. Populations were only slightly differentiated from one another (FST = 0.063); this was also supported by AMOVA, which revealed that 94.05% of the total variation resided within populations. This is probably attributable to long‐distance gene flow mediated by the exchange of seeds by local farmers. Implications of these results for the conservation of genetic resources of E. ulmoides are discussed. © 2013 The Linnean Society of London, Botanical Journal of the Linnean Society, 2013, 173 , 775–785. 相似文献
28.
29.
Tsutomu Yoshida Shoko Shinoda Tsuneya Matsumoto Satoru Watarai 《Bioscience, biotechnology, and biochemistry》2013,77(12):3093-3095
A strain of Alcaligenes isolated from soil was a good producer of β-glucuronidase, and the enzyme was purified from the cell-free extract by sequential column chromatography on DEAE-Toyopearl, Toyopearl HW-55F, and Phenyl-Sepharose CL-4B. By these procedures, two β-glucuronidases designated as β-glucuronidases I and II were purified 240- and 508-fold, respectively. β-Glucuronidase I, with a molecular weight of 75,000, had an optimum pH at 7.5 and the enzyme II, with a molecular weight of 300,000, had maximum activity at pH 6.0. Both enzymes were strongly inhibited by saccharo-1,4-lactone, glucaro-δ-lactam, p-chloromercuribenzoate, Hg2+, and N-bromosuccinimide. β-Glucuronidase I was active toward estrogen-3-β-glucuronides and inert toward β-glucuronide conjugates of menthol, estrogen-17β-, estrogen-16α-, androsterone-3α-, testosterone-17β-, cortisol-17α-. β-Glucuronidase II hydrolyzed all of these substrates. β-Glucuronidase I was inhibited by phenolphthalein and its glucuronide. 相似文献
30.
Bacteria from the uncultured SUP05/Arctic96BD-19 clade of gamma proteobacterial sulfur oxidizers (GSOs) have the genetic potential to oxidize reduced sulfur and fix carbon in the tissues of clams and mussels, in oxygen minimum zones and throughout the deep ocean (>200 m). Here, we report isolation of the first cultured representative from this GSO clade. Closely related cultures were obtained from surface waters in Puget Sound and from the deep chlorophyll maximum in the North Pacific gyre. Pure cultures grow aerobically on natural seawater media, oxidize sulfur, and reach higher final cell densities when glucose and thiosulfate are added to the media. This suggests that aerobic sulfur oxidation enhances organic carbon utilization in the oceans. The first isolate from the SUP05/Arctic96BD-19 clade was given the provisional taxonomic assignment ‘Candidatus: Thioglobus singularis'', alluding to the clade''s known role in sulfur oxidation and the isolate''s planktonic lifestyle. 相似文献