EC:3.2.1.23 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Simulation and optimization of continuous affinity recycle extraction (CARE), a protein purification unit operation based on protein adsorption to solid phase adsorbents, is described in this paper. Rather than packing conventional adsorbent particles in a fixed bed (column), solid/liquid contact is carried out in well-mixed reactors. Continuous operation is achieved by recirculation of the adsorbent particles between two or more contactors. The feasibility of this purification scheme was established with the recovery and isolation of the enzyme beta-galactosidase from E.coli, using the affinity support PABTG/Agarose. A mathematical model describing system performance was developed. The mathematical model was used to optimize several facets of the system design and operation. The base two-stage contractor design was modified by the addition of an intermediate wash stage as well as the incorporation of multiple adsorption stages. These design modifications serve to increase purification, concentration and recovery while utilizing the same amount of adsorbent. The methodology for defining and optimizing objective functions was developed and experimentally validated. Finally, optimum system start-up protocols, minimizing the time required to reach steady-state operation, were developed and experimentally validated. The impact of early introduction of adsorptive purification in a downstream processing sequence, with CARE, was evaluated and is described. Through the early introduction of a highly specific adsorptive step, significant purification is achieved simultaneously with clarification and concentration. In addition, purification performance in CARE was contrasted with that achievable in conventional column chromatography.
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PMID:Optimization and simulation of continuous affinity-recycle extraction (care). 136 63

An SV40-based shuttle vector, pZ189, carrying a bacterial suppressor tRNA target gene (supF) was treated with radiolabeled polycyclic aromatic carcinogens and the number of covalently bound residues (adducts) per plasmid was determined. The plasmids were transfected into the human embryonic kidney cell line 293 and allowed to replicate. The progeny plasmids were rescued and assayed for the frequency of supF mutants by being used to transform indicator bacteria carrying an amber mutation in the beta-galactosidase gene. The agents tested were the 7,8-diol-9,10-epoxide of benzo[a]pyrene (BPDE); 1-nitrosopyrene (1-NOP); N-acetoxy-2-acetylaminofluorene (N-AcO-AAF); and its trifluoro-derivative (N-AcO-F3-AAF) which yields deacetylated adducts. With each agent there was a linear increase in the frequency of supF mutants as a function of the number of DNA adducts formed, reaching frequencies as high as 20 x 10(-4) to 40 x 10(-4), with a background frequency of 1.4 x 10(-4). When compared on the basis of adducts formed per plasmid, BPDE, which forms its principal DNA adduct at the N2 position of guanine, was approximately 4 times more mutagenic than 1-NOP, N-AcO-AAF and N-AcO-F3-AAF, which bind principally or exclusively to the C8 position of guanine. This difference in mutagenic effectiveness may reflect intrinsic differences in the nature of the adducts and their location in the DNA molecule. It could also reflect a difference in the rate of removal of particular adducts by nucleotide excision repair since the 293 host cell line excised BPDE-induced adducts from genomic DNA at least 3 times slower than 1-NOP-induced adducts. Agarose gel electrophoresis and DNA sequencing analysis of 35 mutants derived from untreated plasmids showed that the majority (70%) involved deletions, insertions, or altered gel mobility (gross rearrangements). In contrast, the majority of those derived from carcinogen-treated plasmids were base-substitutions. DNA-sequencing of 86 unequivocally independent mutants derived from BPDE-treated plasmids and 60 from 1-NOP-treated plasmids indicated that 60% and 80%, respectively, contained a single base-substitution, 5-10% had two base-substitutions, and 4-10% had small insertions or deletions (one or two base pairs).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Comparing the frequency and spectra of mutations induced when an SV-40 based shuttle vector containing covalently bound residues of structurally-related carcinogens replicates in human cells. 253 43

Cystic fibrosis (CF) patients have endobronchial inflammation caused by infection with mucoid Pseudomonas aeruginosa. Since adenovirus vectors are being studied for gene therapy for CF, we sought to determine whether bronchopulmonary inflammation would influence adenovirus-mediated gene transfer. We hypothesized that bronchopulmonary inflammation in mice inoculated with mucoid P. aeruginosa would be associated with a decrease in the efficacy of adenovirus-mediated gene transfer. Agarose beads embedded with mucoid P. aeruginosa (6 x 10(4) c.f.u. per mouse) were inoculated transtracheally into C57BL/6 mice. Control mice received sterile agarose beads. Ten days after inoculation with agarose beads, recombinant adenovirus containing the beta-galactosidase reporter gene (Ad2/beta Gal-2) was administered intranasally (1.1 x 10(9) IU per mouse), and mice were killed 3 days later. The extent of inflammation, determined by neutrophil numbers in bronchoalveolar lavage fluid and by areal lung inflammation, was significantly greater in mice inoculated with P. aeruginosa-laden agarose beads and Ad2/beta Gal-2 compared with controls. Mice that had received Pseudomonas-laden agarose beads and Ad2/beta Gal-2 had significantly fewer (P < 0.015) airway epithelial cells transduced (4.1 +/- 0.9%) compared with mice that received sterile agarose beads and Ad2/beta Gal-2 (9.4 +/- 1.4%). These results indicate that the efficacy of adenovirus-mediated gene transfer is reduced in Pseudomonas-induced bronchopulmonary inflammation.
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PMID:Effects of bronchopulmonary inflammation induced by pseudomonas aeruginosa on adenovirus-mediated gene transfer to airway epithelial cells in mice. 961 54

A new DNA delivery vector (the terplex system) based on a balanced hydrophobicity and net surface charge between stearyl-poly(L-lysine), low density lipoprotein (LDL), and genetic material (i.e. plasmid DNA or antisense oligonucleotide) was developed. The pSV-beta-gal plasmid in terplex system showed a 2-5-fold increase in beta-galactosidase expression on murine smooth muscle cells (A7R5) compared to Lipofectin. Delivery of unmodified c-myb antisense oligonucleotide to A7R5 cells was also facilitated significantly by the terplex system, requiring as little as 5.4 nM of antisense oligonucleotide to achieve a 50% antiproliferative effect. Similar antiproliferative effect was observed when the c-myb antisense/terplex formulation was tested on CCD-32 Lu human lung fibroblasts. Characterization of the physical properties of the terplex system was performed using various techniques. Plasmid DNA was condensed by addition of stearyl-PLL and LDL, resulting in the terplex system of about 100 nm in diameter as shown by atomic force microscopy. A strong hydrophobic interaction between stearyl-poly(L-lysine) and LDL was registered by 1H-NMR spectrometry, showing a significant decrease in the epsilon-methylene signal of poly(L-lysine) backbone when stearyl-poly(L-lysine) was mixed with LDL; however, this phenomenon was not observed with unmodified poly(L-lysine). Agarose gel electrophoresis revealed that electrophoretic mobility of the terplex system decreased with increasing amounts of stearyl-poly(L-lysine), indicating that the surface charge of the terplex system became more positive by addition of stearyl-poly(L-lysine). Zeta-potential measurement showed that the terplex system exerted a slightly positive charge (+2 mV) at a 1:1:1 weight ratio of plasmid DNA:LDL:stearyl-poly(L-lysine). The obtained results will be utilized in the design of more efficient and safer DNA delivery vectors for in vivo gene therapy.
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PMID:A new non-viral DNA delivery vector: the terplex system. 974 25

This work investigates the preparation and in vitro efficiency of chitosan gene transfection systems. Chitosan was used to prepare nanoparticles with a size range of 40-200 nm as determined using photon correlation spectroscopy (PCS) and 40-80 nm as determined using transmission electron microscopy (TEM). The ability of particles to complex DNA was investigated using gel retardation. Plasmid DNA pGL3-Control encoding firefly luciferase and pCH110 encoding beta-galactosidase were used as reporter genes. For transfection 293 human embryonal kidney cells and Chinese hamster ovary (CHO-K1) cells were used. The expression of luciferase was assayed and expressed as relative light units per milligram of protein (RLU/mg protein). Results showed that these chitosan particles have potential as vectors for the transfer of DNA into mammalian cells. Cellular transfection by the chitosan-pGL3-Control particles showed a sustained expression of the luciferase gene for about 10 days. Commercial transfection reagents, SuperFect and Lipofectin were also used. In contrast to chitosan particles, the duration of expression for both SuperFect and Lipofectin was only about 2 days. Agarose gel electrophoresis and displacement experiments using polyaspartic acid indicated a probable multiple interaction between DNA and chitosan whilst the interaction between DNA and the polyamidoamine dendrimer appears to be only ionic interaction. No toxic effect on the mammalian cells was seen with chitosan. SuperFect and Lipofectin however, were observed to engender marked cytotoxicity. Poly-D,L-lactide (PLA) nanoparticles (40-80 nm) and poly-L-lactide (PLLA) lamellae (2-6 microm) were also used to load DNA by an adsorption procedure, but these failed to give good expression data.
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PMID:Sustained expression in mammalian cells with DNA complexed with chitosan nanoparticles. 1458 Jun 74

Liver sinusoidal endothelial cells (SECs) possess unique receptors that recognize and internalize hyaluronic acid (HA). To develop a system for targeting foreign DNA to SECs, comb-type polycations having HA side chains were prepared by coupling HA to poly(L-lysine) (PLL). The HA-grafted-PLL copolymer (PLL-g-HA) thus formed was mixed with DNA in 154 mM NaCl to form soluble nanoassociates bearing hydrated hyaluronate shells. Agarose gel retardation assays revealed selective interaction of the PLL backbone with DNA despite the presence of polyanionic HA side chains. To determine whether the PLL-g-HA/DNA complexes were recognized by SEC HA receptors in vivo, we injected Wistar rats i.v. via the tail vein with PLL-g-HA complexed to a beta-galactosidase expression plasmid (pSV beta-Gal) labeled with 32P. One hour postinjection, >90% of the injected radioactivity remained in the liver. Administration of the PLL-g-HA complexed to an FITC-labeled DNA revealed that the carrier-DNA complex was distributed exclusively in SECs. A large number of SECs expressing beta-galactosidase was detected along the sinusoidal lining after transfection with PLL-g-HA/pSV beta-Gal. Moreover, PLL-g-HA effectively stabilized DNA triplex formation. In conclusion, the new PLL-g-HA/DNA carrier system permits targeted transfer of exogenous genes selectively to the SECs.
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PMID:Targeted gene delivery to sinusoidal endothelial cells: DNA nanoassociate bearing hyaluronan-glycocalyx. 1497 82

Immobilized copper(II) affinity chromatography [Cu(II)-immobilized metal affinity chromatography (IMAC)] has been used in proteomics to simplify sample mixtures by selecting histidine-containing peptides from proteolytic digests. This paper examines the specificity of four different support materials with an iminodiacetic acid (IDA) stationary phase in the selection of only histidine-containing peptides in the single step capture-release mode. Three of the sorbents examined were commercially available: HiTrap Chelating HP (agarose), TSK Chelate-5PW, and Poros 20MC. IDA was also immobilized on CIM discs (monolithic glycidylmethacrylate-ethylene dimethacrylate). Tryptic digests of transferrin and beta-galactosidase were used as model samples to evaluate these sorbents. It was found that among the examined matrices, the TSK Chelate-5PW sorbent bound histidine-containing peptides the strongest, while Poros matrix was found to have a high degree of non-specific bindings. Agarose-based columns showed relatively high selectivity and specificity.
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PMID:Contributions of commercial sorbents to the selectivity in immobilized metal affinity chromatography with Cu(II). 1505 70

To improve the stability and gene-carried capability of gene-attached microbubbles, the method for manufacture of albumin microbubbles was modified and new gene-loaded microbubbles were synthesized by incorporated gene-PEI complex into the shell of microbubbles. Agarose gel electrophoresis and bacteria transformation showed that PEI had the ability to provide the protection of plasmid DNA from ultrasonic degradation. The new gene-loaded microbubbles exhibited excellent acoustical and hemorheological properties. Moreover, they could carry more plasmid DNA than gene-attached microbubbles. beta-galactosidase plasmid transfection into cardiac myocytes was performed by using ultrasound targeted destruction of new gene-loaded microbubbles or gene-attached microbubbles. Gene expression in cardiac myocytes was detected by beta-galactosidase in situ staining and quantitive assay. It was shown that beta-galactosidase activity in cardiac myocytes was enhanced 107-fold by ultrasonic destruction of gene-loaded microbubbles compared with naked plasmid transfection and new gene-loaded microbubbles resulted in 6.85-fold increase in beta-galactosidase activity compared with optimal transfection mediated by gene-attached microbubbles. These results suggested that ultrasonic destruction of the gene-loaded microbubbles can enhance the cardiac myocytes exogenous gene transfer efficiency significantly and new gene-loaded microbubbles is an efficient and safe gene delivery vehicle.
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PMID:[Synthesis of new gene-loaded microbubbles serve as gene delivery vehicle applied in reporter gene transfer into cardiac myocytes]. 1700 25