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Yusuke Sugioka Jin Nakamura Chikara Ohtsuki Ayae Sugawara-Narutaki 《International journal of molecular sciences》2021,22(8)
Physically crosslinked hydrogels with thixotropic properties attract considerable attention in the biomedical research field because their self-healing nature is useful in cell encapsulation, as injectable gels, and as bioinks for three-dimensional (3D) bioprinting. Here, we report the formation of thixotropic hydrogels containing nanofibers of double-hydrophobic elastin-like polypeptides (ELPs). The hydrogels are obtained with the double-hydrophobic ELPs at 0.5 wt%, the concentration of which is an order of magnitude lower than those for previously reported ELP hydrogels. Although the kinetics of hydrogel formation is slower for the double-hydrophobic ELP with a cell-binding sequence, the storage moduli G′ of mature hydrogels are similar regardless of the presence of a cell-binding sequence. Reversible gel–sol transitions are demonstrated in step-strain rheological measurements. The degree of recovery of the storage modulus G′ after the removal of high shear stress is improved by chemical crosslinking of nanofibers when intermolecular crosslinking is successful. This work would provide deeper insight into the structure–property relationships of the self-assembling polypeptides and a better design strategy for hydrogels with desired viscoelastic properties. 相似文献
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Prof. Takefumi Kuranaga Prof. Kenichi Matsuda Masachika Takaoka Chisato Tachikawa Ayae Sano Kosei Itoh Ayumu Enomoto Kei Fujita Prof. Ikuro Abe Prof. Toshiyuki Wakimoto 《Chembiochem : a European journal of chemical biology》2020,21(23):3329-3332
Kasumigamide is an antialgal hybrid peptide–polyketide isolated from the freshwater cyanobacterium Microcystis aeruginosa (NIES-87). The biosynthetic gene cluster was identified from not only the cyanobacterium but also Candidatus “Entotheonella”, associated with the Japanese marine sponge Discodermia calyx. Therefore, kasumigamide is considered to play a key role in microbial ecology, regardless of the terrestrial and marine habitats. We now report synthetic studies on this intriguing natural product that have led to a structural revision and the first total synthesis. During this study, a new analogue, deoxykasumigamide, was also isolated and structurally validated. This study confirmed the presence of the unusual pathway in the biosynthesis of a hybrid peptide–polyketide natural product. 相似文献
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Wang J Sugawara-Narutaki A Fukao M Yokoi T Shimojima A Okubo T 《ACS applied materials & interfaces》2011,3(5):1538-1544
A significant progress has recently been made in the synthesis of monodisperse silica nanoparticles less than 30 nm in diameter by using basic amino acids (e.g., lysine) as a base catalyst for hydrolysis of silicon alkoxide. Alternatively, a more versatile and economical amino acid-free method has been developed to synthesize uniform silica nanospheres (SNSs) with low polydispersity (<12%) in liquid-liquid biphasic systems containing tetraethoxysilane (TEOS), water, and primary amine (or ammonia) under precisely controlled pH conditions (pH 10.8-11.4). The diameter of the SNSs determined from scanning electron microscopy (SEM) can be tuned from ~12 to ~36 nm by simply changing the initial pH of the aqueous phase in the reaction mixtures. Furthermore, the as-synthesized sol was taken as the starting material for studying the influences of the type of base catalysts on the solvent evaporation-induced three-dimensional (3D) self-assembly of SNSs. X-ray diffraction (XRD) and nitrogen adsorption-desorption are used to characterize the degree of packing of the resulting 3D arrays. The assembled SNSs with large interparticle mesopores with the diameter of ca. 8.1 nm and low packing fraction of ca. 66.1% are observed upon solvent evaporation of as-synthesized sol in the presence of primary amine. This indicates that SNSs are loosely packed, compared with the packing fraction of 74% for a face-centered cubic array of ideal hard spheres. In contrast, with the aid of an organic buffer or lysine as additives, the assembly of SNSs having smaller mesopores (ca. 3.9 nm) and higher packing fraction of 70.5-71.5% are achieved. It is suggested that the chemical additives with the ability to maintain relatively strong repulsive interaction until the final stage of evaporation play a vital role in the fabrication of well-ordered SNSs arrays. 相似文献
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Hisataka Maruyama Kyosuke Kotani Taisuke Masuda Ayae Honda Tatsuro Takahata Fumihito Arai 《Microfluidics and nanofluidics》2011,10(5):1109-1117
A major problem when analyzing bionanoparticles such as influenza viruses (approximately 100 nm in size) is the low sample
concentrations. We developed a method for manipulating a single virus that employs optical tweezers in conjunction with dielectrophoretic
(DEP) concentration of viruses on a microfluidic chip. A polydimethylsiloxane microfluidic chip can be used to stably manipulate
a virus. The chip has separate sample and analysis chambers to enable quantitative analysis of the virus functions before
and after it has infected a target cell. The DEP force in the sample chamber concentrates the virus and prevents it from adhering
to the glass substrate. The concentrated virus is transported to the sample selection section where it is trapped by optical
tweezers. The trapped virus is transported to the analysis chamber and it is brought into contact with the target cell to
infect it. This paper describes the DEP virus concentration for single virus infection of a specific cell. We concentrated
the influenza virus using the DEP force, transported a single virus, and made it contact a specific H292 cell. 相似文献
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