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61.
Hybridoma cells are featured by the effective utilization of both B lymphocytes and immortalized myeloma cells, allowing for the continuous generation of monoclonal antibodies specific to antigens. With regard to conventional hybridoma technology, B lymphocytes must be fused with myeloma cells using various methods to generate hybridoma cells. Nutrition plays an important role in hybridoma cell survival and amplification, which determines the fusion effect and antibody production. Here we compared the growth and survival rates of hybridoma in a commonly used peritoneal macrophage feeder layer (PMFL) nutrition supply system with a commercial hybridoma feeder additive (HFA) nutrition supply system at the post fusion stage and discussed the titer of monoclonal antibodies by enzyme linked immunosorbent assay (ELISA). Our results indicate that commercially available HFA promotes the survival and amplification of hybridoma clones and improves the titer of monoclonal antibodies indirectly. 相似文献
62.
Guduru Moulika Sannapureddy Sailaja Jillela Santhosh Vijitha Putluru Bayapu Reddy Kondala Shanthi Latha Gasthi Venkata Chalapathi Busireddy Sudhakar Reddy 《Luminescence》2022,37(7):1073-1077
Calcium boro fluoro zinc phosphate glasses modified using alkali oxide and doped with Nd3+ and Er3+ ions with the chemical composition of 69.5 (B2O3) + 10 (P2O5) + 10 (CaF2) + 5 (ZnO) + 5 (Na2O/Li2O/K2O) + 0.5 (Er2O3/Nd2O3) were prepared using a conventional melt quenching technique. The results of X-ray diffraction patterns indicated the amorphous nature of all the prepared glasses. The visible–near-infrared red (NIR) absorption spectra of these glasses were analyzed systematically. The NIR emission spectra of Er3+ and Nd3+:calcium boro fluoro zinc phosphate glasses showed prominent emission bands at 1536 nm (4I13/2→4I15/2) and 1069 nm (4F3/2→4I11/2) respectively with λexci = 514.5 nm (Ar+ laser) as the excitation source. 相似文献
63.
Photoautotrophic organisms are promising hosts for biocatalytic oxyfunctionalizations because they supply reduction equivalents as well as O2 via photosynthetic water oxidation. Thus far, research on photosynthesis-driven bioprocesses mainly focuses on strain development and the proof of principle in small-scale biocatalytic reaction setups. This study investigates the long-term applicability of the previously developed cyanobacterial strain Synechocystis sp. PCC 6803_BGT harboring the alkane monooxygenase system AlkBGT catalyzing terminal alkyl group oxyfunctionalization. For the regiospecific ω-hydroxylation of nonanoic acid methyl ester (NAME), this biocatalyst showed light intensity-independent hydroxylation activity and substantial hydrolysis of NAME to nonanoic acid. Substrate mass transfer limitation, substrate hydrolysis, as well as reactant toxicity were overcome via in situ substrate supply by means of a two-liquid phase system. The application of diisononyl phthalate as organic carrier solvent enabled 1.7-fold increased initial specific activities (5.6 ± 0.1 U/gCDW) and 7.6-fold increased specific yields on biomass (3.8 ± 0.1 mmolH-NAME/gCDW) as compared with single aqueous phase biotransformations. Finally, the whole-cell biotransformation system was successfully scaled from glass tubes to a stirred-tank photobioreactor. This is the first study reporting the application of the two-liquid phase concept for efficient phototrophic whole-cell biocatalysis. 相似文献
64.
Anne Mouré Elodie Bacou Steffi Bosch Dominique Jegou Apolline Salama David Riochet Olivier Gauthier Gilles Blancho Jean-Paul Soulillou Denis Poncelet Eric Olmos Jean-Marie Bach Mathilde Mosser 《Biotechnology and bioengineering》2019,116(5):1176-1189
The bioartificial pancreas encapsulating pancreatic islets in immunoprotective hydrogel is a promising therapy for Type 1 diabetes. As pancreatic islets are highly metabolically active and exquisitely sensitive to hypoxia, maintaining O2 supply after transplantation remains a major challenge. In this study, we address the O2 limitation by combining silicone-encapsulated CaO2 (silicone-CaO2) to generate O2 with an extracellular hemoglobin O2-carrier coencapsulated with islets. We showed that the hemoglobin improved by 37% the O2-diffusivity through an alginate hydrogel and displayed antioxidant properties neutralizing deleterious reactive O2 species produced by silicone-CaO2. While the hemoglobin alone failed to maintain alginate macroencapsulated neonate pig islets under hypoxia, silicone-CaO2 alone or combined to the hemoglobin restored islet viability and insulin secretion and prevented proinflammatory metabolism (PTGS2 expression). Interestingly, the combination took the advantages of the two individual strategies, improved neonate pig islet viability and insulin secretion in normoxia, and VEGF secretion and PDK1 normalization in hypoxia. Moreover, we confirmed the specific benefits of the combination compared to silicone-CaO2 alone on murine pseudo-islet viability in normoxia and hypoxia. For the first time, our results show the interest of combining an O2 provider with hemoglobin as an effective strategy to overcome O2 limitations in tissue engineering. 相似文献
65.
Eiichiro Kan Yohei Katsuyama Jun-ichi Maruyama Koichi Tamano Yasuji Koyama 《Bioscience, biotechnology, and biochemistry》2019,83(7):1372-1381
The filamentous fungus Aspergillus oryzae was recently used as a heterologous host for fungal secondary metabolite production. Here, we aimed to produce the plant polyketide curcumin in A. oryzae. Curcumin is synthesized from feruloyl-coenzyme A (CoA) and malonyl-CoA by curcuminoid synthase (CUS). A. oryzae expressing CUS produced curcumin (64 μg/plate) on an agar medium containing feruloyl-N-acetylcysteamine (a feruloyl-CoA analog). To increase curcumin yield, we attempted to strengthen the supply of malonyl-CoA using two approaches: enhancement of the reaction catalyzed by acetyl-CoA carboxylase (ACC), which produces malonyl-CoA from acetyl-CoA, and inactivation of the acetyl-CoA-consuming sterol biosynthesis pathway. Finally, we succeeded in increasing curcumin yield sixfold by the double disruption of snfA and SCAP; SnfA is a homolog of SNF1, which inhibits ACC activity by phosphorylation in Saccharomyces cerevisiae and SCAP is positively related to sterol biosynthesis in Aspergillus terreus. This study provided useful information for heterologous polyketide production in A. oryzae. 相似文献
66.
67.
A single nucleotide polymorphism in the promoter region of the human gene for osteoprotegerin is related to vascular morphology and function 总被引:4,自引:0,他引:4
Brändström H Stiger F Lind L Kahan T Melhus H Kindmark A 《Biochemical and biophysical research communications》2002,293(1):13-17
Osteoprotegerin (OPG) is a secreted member of the tumor necrosis factor receptor family, and has previously been shown to regulate bone mass by inhibiting osteoclast differentiation and activation. Recent evidence indicates that OPG also plays a role in the vascular system, since ablation of the OPG gene in mice results in calcification of the aorta and renal arteries, and association has been found between serum levels of OPG and cardiovascular mortality. This study presents a novel single nucleotide polymorphism, a T/C transition located 129 bp upstream the TATA-box of the human OPG gene, detected by sequence analysis. The OPG genotype was determined by restriction fragment length polymorphism in a cohort consisting of 59 healthy subjects. The intima-media thickness (IMT) in the common carotid artery and maximal post-ischemic forearm blood flow (FBF) were investigated. Subjects with the CC genotype showed a significantly increased IMT (p<0.05) and a concommitantly reduced maximal FBF (p<0.01) as compared to those with the T allele. Thus, our results show that the polymorphism in the promoter region of OPG is associated with both vascular morphology and function in apparently healthy subjects. 相似文献
68.
Kenneth?C.?LoweEmail author Paul?Anthony J.?Brian?Power Michael?R.?Davey 《In vitro cellular & developmental biology. Plant》2003,39(6):557-566
Summary The composition of the gaseous environment within tissue culture vessels is a critical factor in determining in vitro plant growth and morphogenic responsiveness. Consequently, the provision of an adequate and sustainable oxygen supply for
cultured plant cells (including isolated protoplasts), tissues and organs is a crucial prerequisite for optimization and regulation
of such cultural responses. During the past decade, research has focused on improving growth and development using artificial
gas carriers based on inert perfluorocarbon (PFC) liquids and hemoglobin (Hb) solution. Supplementation of culture media with
such artificial oxygen carriers has demonstrated beneficial effects of increased and sustainable cellular mitotic division
and subsequent biomass production in a diverse range of plant species, during both short- and longer-term culture. Studies
have targeted systems where oxygen availability is actually or potentially a major growth-limiting factor. Undoubtedly, gas
carrier-facilitated improvements in regulating the supply of respiratory gases to cultured cells, tissues and organs will
have increasingly important biotechnological and practical implications in the context of plant micropropagation, somatic
hybridization, transgenic plant production, and secondary product biosynthesis. 相似文献
69.
Roots of higher plants are usually exposed to varying spatial and temporal changes in concentrations of soil mineral nitrogen. A split root system was used to see how Lolium multiflorum Lam. roots adapt to such variations to cope with their N requirements. Plants were grown in hydroponic culture with their root system split in two spatially separated compartments allowing them to be fed with or without KNO3. Net NO3
- uptake, 15NO3
- influx and root growth were studied in relation to time. Within less than 24 h following deprivation of KNO3 to half the roots, the influx in NO3
- fed roots was observed to increase (about 200% of the influx measured in plant uniformly NO3
- supplied control plant) thereby compensating the whole plant for the lack of uptake by the N deprived roots. Due to the large NO3
- concentrations in the roots, the NO3
- efflux was also increased so that the net uptake rate increased only slightly (35% maximum) compared with the values obtained for control plants uniformly supplied with NO3
-. This increase in net NO3
- uptake rate was not sufficient to compensate the deficit in N uptake rate of the NO3
- deprived split root in the short term. Over a longer period (>1 wk), root growth of the part of the root system locally supplied with NO3
- was stimulated. An increase in root growth was mainly responsable for the greater uptake of nitrate in Lolium multiflorum so that it was able to fully compensate the deficit in N uptake rate of the NO3
- deprived split root. 相似文献
70.
Interactions between elevated CO2 concentration, nitrogen and water: effects on growth and water use of six perennial plant species 总被引:2,自引:1,他引:1
Two experiments are described in which plants of six species were grown for one full season in greenhouse compartments with 350 or 560 μ mol mol–1 CO2 . In the first experiment two levels of nitrogen supply were applied to study the interaction between CO2 and nitrogen. In the second experiment two levels of water supply were added to the experimental set-up to investigate the three-way interaction between CO2 , nitrogen and water. Biomass and biomass distribution were determined at harvests, while water use and soil moisture were monitored throughout the experiments. In both experiments a positive effect of CO2 on growth was found at high nitrogen concentrations but not at low nitrogen concentrations. However, plants used much less water in the presence of low nitrogen concentrations. Drought stress increased the relative effect of elevated CO2 on growth. Available soil moisture was used more slowly at high CO2 during drought or at high nitrogen concentrations, while at low nitrogen concentrations decreased water use resulted in an increase in soil moisture. The response to the treatments was similar in all the species used. Although potentially faster growing species appeared to respond better to high CO2 when supplied with a high level of nitrogen, inherently slow-growing species were more successful at low nitrogen concentrations. 相似文献