Efficient production of poly-γ-glutamic acid by bacillus subtilis ZJU-7

A strain with high poly-γ-glutamic acid (γ-PGA) production was isolated from fermented bean curd, a traditional Chinese food. The strain was named Bacillus subtilis ZJU-7 according to 16s rDNA sequencing and its taxonomic characters. The culture conditions for γ-PGA production were evaluated. The most suitable carbon and nitrogen sources were sucrose and tryptone, respectively. Exogenous l-glutamic acid was necessary for γ-PGA production, and the production of γ-PGA increased on the addition of l-glutamic acid to the medium. In the medium containing 60 g/L of sucrose, 60 g/L of tryptone, 80 g/L of l-glutamic acid, and 10 g/L of NaCl, the yield of γ-PGA reached 54.4 g/L after cultivation at 37°C for 24h, which was the highest γ-PGA production compared with values reported in the literature. The average molecular mass of γ-PGA produced was about 1.24×10⁶ Daltons. B. subtilis ZJU-7 is genetically stable and can synthesize levan instead of γ-PGA without the addition of l-glutamic acid to the medium.     

Self-assembling chitosan/poly-γ-glutamic acid nanoparticles for targeted drug delivery

For the purpose of targeted drug delivery, composite biodegradable nanoparticles were prepared from chitosan and the poly-γ-glutamic acid via an ionotropic gelation process. These stable self-assembled nanoparticles were characterized by dynamic light scattering, transmission electron microscopy, and atomic force microscopy, which demonstrated that the nanosystem consists of spherical particles with a smooth surface both in aqueous environment and in dried state. Toxicity measurements showed that the composition is nontoxic when tested either on cell cultures or in animal feeding experiments. To evaluate the potential of the nanosystem for intracellular drug delivery, the nanoparticles were fluorescently labeled and folic acid was attached as a cancer cell-specific targeting moiety. The ability of the particles to be internalized was tested using confocal microscopic imaging on cultured A2780/AD ovarian cancer cells, which overexpress folate receptors. The quantitative data obtained by digital processing of the intensity of green color of each pixel in the pictures inside the cell boundaries and total intensity of fluorescence inside the cells showed that “targeted” particles internalized into the cells significantly faster and the total accumulation of these particles was substantially higher in the cancer cells when compared with “nontargeted” particles, which may facilitate effective and specific cytoplasmic delivery of anticancer agents loaded into such nanoparticles. Zsolt Keresztessy and Magdolna Bodnár contributed equally to this work.     

Preparation and Characterization of Poly（γ-glutamic acid） Hydrogels as Potential Tissue Engineering Scaffolds

In this paper, methacrylated γ-PGA（m PGA） precursor was synthesized via reaction between γ-PGA and glycidyl methacrylate（GMA）. Hydrogels from this precursor were prepared under 365 nm ultraviolet irradiation. The swelling behavior and mechanical properties were studied in detail as functions of the degree of substitution（DS）, precursor concentration, and environmental p H. Results showed that the crosslink density, swelling kinetics and mechanical properties of the hdyrogel could be tailored by adjusting the DS and concentration of the precursor as well as the environmental p H. Three-dimensional photo-encapsulation of swine cartilage chondrocytes and Live/Dead assay proved the cytocompatibility of the hydrogel.     

Chitosan‐Based Glucose Oxidase Electrodes Enhanced by Silver Nanoparticles

Silver nanoparticles enhanced glucose oxidase electrodes were prepared on the basis of chitosan matrix. The enzyme electrodes exhibited high sensitivity and excellent response performance to glucose with a linear range from 1×10^?6 to 8×10^?3 mol · L^?1. And the time reaching the steady‐state amperometric response was less than 5 seconds. The inhibition percentage of this enzyme electrode against copper ions concentration was linear ranging from 1.2×10^?6 to 5×10^?5 mol · L^?1. These properties of enzyme electrodes are probably due to the excellent electron transfer of silver nanoparticles and the orientation of glucose oxidase molecule.     

Different self-assembly behaviors of mono-modified β-cyclodextrin substituted by benzoic acid derivatives

The mono-modified β-cyclodextrin derivative,6-O-(4-aminobenzoyl)-β-cyclodextrin(1) ,was synthesized and characterized. We compared its self-assembling behavior with structurally related β-cyclodextrin derivative,6-O-(4-hydroxybenzoyl)-βcyclodextrin(2) ,in aqueous solution and in the solid state using NMR spectroscopy and single crystal X-ray structure analysis. The two complexes displayed different self-assembling behaviors.Complex 1 formed a head-to-tail helical columnar superstructure in which the substit...     

Preparation of photo-sensitive poly(γ-glutamic acid) nanoparticles and application for immobilizing hemoglobin on electrode

Poly(γ-glutamic acid) (γ-PGA) has been widely used in many applications due to its excellent biodegradability, biocompatibility, and nontoxic properties. In this study, we synthesized a novel photo-sensitive amphiphilic poly(γ-glutamic acid)-graft-7-amino-4-methylcoumarin (AMC-γ-PGA) copolymer, which can self-assemble into nanoparticles (NPs) via solvent exchange method. The resultant AMC-γ-PGA NPs showed sensitivity to UV irradiation, pH, and ionic strength, owing to the presence of coumarin groups and carboxyl groups on the AMC-γ-PGA copolymer. The AMC-γ-PGA NPs were then used as a matrix to entrap hemoglobin (Hb). The obtained Hb@AMC-γ-PGA nanocomposites were cast on the electrode to form a nanocomposite film, which was then photo-crosslinked by UV irradiation to lock and immobilize Hb. Cyclic voltammetry (CV) experiment showed that the Hb@AMC-γ-PGA-nanocomposite-modified electrode exhibited good electrochemical catalytic activity for H₂O₂, implying that the AMC-γ-PGA NPs provided a favorable microenvironment for Hb and preserved the bioactivity of Hb. In addition, the leakage of Hb was efficiently avoided with the photo-crosslinking of the AMC-γ-PGA NPs. The biocompatible photo-sensitive AMC-γ-PGA NPs provided an excellent platform for immobilization of Hb on electrode.     

Layered hydrogel of poly(γ-glutamic acid), sodium alginate, and chitosan: fluorescence observation of structure and cytocompatibility

In this study, a novel layered hydrogel composing of poly (γ-glutamic acid) (PGA), chitosan (CS), and alginate (AL) were prepared. Furthermore, PGA, CS, and AL were labeled with different fluorescent dyes. The bilayer structure of hydrogel was then revealed using these fluorescent labeled polymers. To mimic the stability of these hydrogels in physiological fluids, the dissolution of PGA and the release of Ca2+ from these hydrogels in normal saline were also monitored. The results showed that by adding CS to the hydrogel, the dissolution of PGA was decreased by 67%, and the release of Ca2+ was reduced by 40%. In addition, the hydrogel exhibited no cytotoxicity for L929 fibroblasts.     

Helix-forming self-assembly of enantiopure 2,2′-dimethylbiphenyl-6,6′-dipropiolic acid and amide organized by hydrogen bonds

Single-crystal X-ray diffraction revealed that the molecules of both the title compounds (S)-5 and (S)-6 are linked, via double hydrogen bonds, in infinite chains which follow the crystallographic symmetry of the three- and four-fold screw axis, respectively. To our knowledge this represents the first documented case when intermolecular carboxylic hydrogen bond constitutes an integral part of a helix backbone set up from repeating homochiral subunits.     

Synthesis and properties of fibers prepared from lactic acid–glycolic acid copolymer

A method for preparing laboratory samples of fibers from glycolide-co-D,L-lactide to produce bioresorbing suture filaments with a controlled complex of properties is developed. The morphology of fibers obtained through melt spinning is studied. The peculiarities of the mechanical properties of fibers are investigated.     

Vibrational circular dichroism study of solvent- and temperature-induced conformational changes in poly-γ-benzyl-l-glutamate and poly-β-benzyl-l-aspartate

Vibrational circular dichroism (VCD) spectroscopy was used to study the effect of the different composition of mixed solvents and temperature on the conformation and aggregation states of two synthetically prepared polypeptides, poly-γ-benzyl-l-glutamate (PBLG) and poly-β-benzyl-l-aspartate (PBLA).Additions of trifluoroacetic acid (TFA) into a solution of heligenic solvents trichloromethane and benzene-d6 caused the conformational change from the α-helical to polyproline II-like for both of the polypeptides, which represented interesting transition previously mostly observed in aqueous solutions rather than in organic solvents. The VCD method proved a lower stability of the α-helical conformation of PBLA than PBLG and the structural differences between these polypeptides.The variation of temperature in the region 13–50 °C induced atypical conformational transformations in the PBLG/trichloromethane/TFA and PBLG/benzene-d6/TFA systems. The usually more stable α-helical conformation was observed at higher temperatures than the polyproline II-like conformation.     

Observation of content and heterogeneity of poly-β-hydroxybutyric acid (PHB) in Legionella bozemanii by vibrational spectroscopy

Information on how cells respond to their environment, interact with each other, or undergo complex processes such as cellular differentiation or gene expression has been obtained mostly by interference from population-level data. Individual microorganisms, even those on supposedly "clonal" populations, may differ widely from each other in terms of their genetic composition, physiology, biochemistry, or behaviours. This genetic and phenotypic heterogeneity has important practical consequences for a number of relevant interests, including antibiotic or biocide resistance, the productivity and stability of industrial fermentations, the efficacy of food preservatives, and the potential of pathogens to cause disease. Here we introduce vibrational spectroscopy to characterize Legionella bozemanii with respect to its content of poly-hydroxybutyric acid (PHB) and its distribution on both the population level and the single cell level.     

Stimuli-responsive polypeptide materials prepared by ring-opening polymerization of α-amino acid N-carboxyanhydrides

Design and synthesis of biodegradable stimuli-responsive polypeptides are important areas considering their promising applications in biomedical fields. This article summarizes the most recent progresses in the development of stimuli-responsive polypeptide materials prepared via ring-opening polymerization of α-amino acid N-carboxyanhydrides. We discuss the design, synthesis and structure-property correlation of emerging materials including thermo-responsive, redox-responsive, photo-responsive and biomolecule responsive polypeptides. Considering the unique structural features of amino acids, we try to emphasize that the thermo-responsive properties not only depend on the amino acid structure but also rely on the secondary structures of polypeptides. © 2013 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys, 2013     

π-π interactions in the self-assembly of melamine and barbituric acid derivatives

Self-assembly of a pair of complementary molecular components, 5-(4-dodecyloxyben-zylidene)-(1H,3H)-2,4,6-pyrimidinetrione (PB12) and 4-amino-2,6-didodecylamino-1, 3, 5-triazine (M12) was studied by cyclic voltammogram, surface photovoltage spectroscopy, fluorescence spectroscopy, FTIR and X-ray diffraction. It is found that after mixing equimolar amount of PB12 and M12 at room temperature, not only triply complementary hydrogen bonds are formed between PB12 and M12 but also further self-assembly of the supermolecules based on network of hydrogen bonds occurs via π-π interactions. During the self-assembly of the supermolecules, π-π interactions are induced by delocalized interactions between the HOMO of M12 and the LUMO of PB12, resulting in the formation of a supramolecular nanotube with a layered structure bearing a d value of 0.41 nm and PB12 and M12are arranged alternatively between adjacent supermolecules.     

π-π interactions in the self-assembly of melamine and barbituric acid derivatives

Self-assembly of a pair of complementary molecular components, 5-(4-dodecyloxyben-zylidene)-(1H,3H)-2, 4,6-pyrimidinetrione (PB₁₂)and 4-amino-2,6-didodecylamino-1, 3, 5-triazine (M₁₂) was studied by cyclic voltammogram, surface photovoltage spectroscopy, fluorescence spectroscopy, FTIR and X-ray diffraction. It is found that after mixing equimolar amount of PB₁₂ and M₁₂ at room temperature, not only triply complementary hydrogen bonds are formed between PB₁₂and M₁₂ but also further self-assembly of the supermolecules based on network of hydrogen bonds occurs via π-π interactions. During the self-assembly of the supermolecules, π -π interactions are induced by delocalized interactions between the HOMO of M₁₂ and the LUMO of PB₁₂, resulting in the formation of a supramolecular nanotube with a layered structure bearing a d value of 0.41 nm and PB₁₂ and M₁₂are arranged alternatively between adjacent supermolecules.     

Synthesis and preparation of nanoparticles composed of amphiphilic poly(γ-glutamic acid) with different hydrophobic side chains and their potential of membrane disruptive activity

In the development of nanoparticle-based vaccine adjuvants, the interaction between nanoparticles (NPs) and the cells is a key factor. To control them, we focused on the relationship between the hydrophobicity of the side chains and the cell membrane. In this study, amphiphilic poly(γ-glutamic acid) (γ-PGA), using various types of hydrophobic side chains, was synthesized and used to prepare NPs for evaluating the membrane disruptive activity. When leucine ethyl ester (Leu), methionine ethyl ester (Met), or tryptophan ethyl ester (Trp) was grafted, each polymer formed monodispersed NPs at physiological conditions. Significantly, NPs composed of Leu and Trp showed a membrane disruptive activity at the endosomal environment (pH 5–6.5), while NPs composed of Met did not show. This might be due to the weak hydrophobicity of Met compared to that of Leu and Trp, which demonstrated that the interaction between NPs and cells could be controlled by designing the polymer compositions.     

Chitosan–Tripolyphosphate Nanoparticles: Synthesis by the Ionic Gelation Method,Properties, and Biological Activity

Russian Journal of General Chemistry - Nanoparticles with an average size of ~100 nm were obtained by ionic gelation of chitosan (M 6.5×103 and 60×103 Da) in the presence of...     

γ-Glutamylcysteine- and Cysteinylglycine-Directed Growth of Chiral Gold Nanoparticles and their Crystallographic Analysis

Chiral optical metamaterials with delicate structures are in high demand in various fields because of their strong light–matter interactions. Recently, a scalable strategy for the synthesis of chiral plasmonic nanoparticles (NPs) using amino acids and peptides has been reported. Reported herein, 3D chiral gold NPs were synthesized using dipeptide γ-Glu-Cys and Cys-Gly and analyzed crystallographically. The γ-Glu-Cys-directed NPs present a cube-like outline with a protruding chiral wing. In comparison, the NPs synthesized with Cys-Gly exhibited a rhombic dodecahedron-like outline with curved edges and elliptical cavities on each face. Morphology analysis of intermediates indicated that γ-Glu-Cys generated an intermediate concave hexoctahedron morphology, while Cys-Gly formed a concave rhombic dodecahedron. NPs synthesized with Cys-Gly are named 432 helicoid V because of their unique morphology and growth pathway.     

Polyethyleneimine/poly-(γ-glutamic acid)/poly(lactide-co-glycolide) nanoparticles for loading and releasing antiretroviral drug

Nanoparticles (NPs) with ternary components of polyethyleneimine (PEI), poly-(γ-glutamic acid) (γ-PGA), and poly(lactide-co-glycolide) (PLGA) were applied to carry and release saquinavir (SQV). Hydrophobic SQV was encapsulated in the particle core composed of PLGA to form SQV-PLGA NPs, and the surface of SQV-PLGA NPs was grafted successively with hydrophilic γ-PGA and PEI (PEI/γ-PGA/SQV-PLGA NPs). The morphological images revealed that PEI/γ-PGA/SQV-PLGA NPs were spheroid-like, in general. An increase in the concentration of didecyl dimethylammonium bromide and a reduction in the dose of SQV enhanced the entrapment efficiency of SQV in PLGA NPs. In addition, an increment in the molecular weight of γ-PGA reduced the grafting efficiency of PEI on γ-PGA/SQV-PLGA NPs. An increase in the weight percentage of PEI enhanced the average particle diameter. However, the grafting efficiency of PEI on γ-PGA/SQV-PLGA NPs and the dissolution rate of SQV from PEI/γ-PGA/SQV-PLGA NPs reduced when the weight percentage of PEI increased. PEI/γ-PGA/SQV-PLGA NPs are an innovative drug delivery system and can be used for antiretroviral trials.