亚洲免费av电影一区二区三区,日韩爱爱视频,51精品视频一区二区三区,91视频爱爱,日韩欧美在线播放视频,中文字幕少妇AV,亚洲电影中文字幕,久久久久亚洲av成人网址,久久综合视频网站,国产在线不卡免费播放

        ?

        Redox-responsive diphenylalanine aggregate mediated by cyclodextrin

        2019-02-15 02:27:40LuZhngYingMingZhngGuoxingLiuYuLiu
        Chinese Chemical Letters 2019年1期

        Lu Zhng,Ying-Ming Zhng,Guoxing Liu,Yu Liu,b,*

        a College of Chemistry,State Key Laboratory of Elemento-Organic Chemistry,Nankai University,Tianjin 300071,China

        b Collaborative Innovation Center of Chemical Science and Engineering(Tianjin),Nankai University,Tianjin 300072,China

        Keywords:Cyclodextrin Diphenylalanine Redox-responsiveness Morphological conversion Supramolecular assembly

        ABSTRACT The molecular assembling properties can be dramatically improved using redox-responsive nanoplatforms,which can bring quite different aggregation modes and binding behaviors in the redox states.In this work,we fabricated a redox-responsive system based on the host–guest complexation of b-cyclodextrin(b-CD)with ferrocene-modified diphenylalanine(Fc-FF).The morphological conversion of Fc-FF can be easily achieved from nano fibers to nanospheres in the presence of b-CD,and the supramolecular nanospheres can be reversibly assembled and disassembled by the chemical redox of ferrocenyl groups in the Fc-FF?b-CD nanoassemblies.These results demonstrate that the incorporation of stimuli-sw itchable components with macrocyclic receptors may become a promising approach to the construction of smart peptide-involved supramolecular assemblies.

        Supramolecular assemblies involved with macrocyclic receptors offer a bottom-up strategy to construct biom im etic architectures with the desired stimuli-resp onsivity and unique structural diversity[1–4].On one hand,among the numerous macrocyclic molecules that are available for the host–guest complexation,cyclodextrins(CDs),biocompatible cyclic oligosaccharides com posed of six to eight D-glucopyranose units,have been intensively studied during the past decades,due to the immense ad vantages to form intermolecular complexes with their intrinsic hydrophobic cavities[5–7].In this respect,there is an unquestioned fact that photochromic azobenzenes and electroactive ferrocenes are tw o main frequently used guest molecules in the fabrication of CD-based stimuli-responsive supramolecular systems,because they exhibit strikingly d istinctive bind ing af fi nities with a-and b-CDs in the reversible E(trans)/Z(cis)photoisomerization and single-electron oxidation/reduction processes,respectively[8–11].Subsequently,considerable endeavors have been devoted to exploring functional nanoarchitectures using a-CD/azobenzene and b-CD/ferrocene supramolecular couples.

        On the other hand,among the non-macrocyclic building blocks,linear oligopeptides have been recognized as a promising candidate for developing bioactive self-assembled nanostructures[12–15].In particular,diphenylalanine( L-Phe-L-Phe,FF),a much simpler amphiphilic aromatic dipeptide,has show n potent capabilities in fabricating a w ide range of well-de fined molecular assemblies[16–18].For example,by introducing ferrocenyl group into the FF backbone,Qi et al.reported the hierarchically selfassembling behaviors of such redox-responsive dipeptide in the formation of topologically different nanostructures,thus making it appealing for chiral sensing and ampli fi cation[19].More,recently,Li and his co-workers demonstrated a light-controlled phase transition between gel and solution of FF-based supramolecular assemblies by a long-lived photoacid generator[20].

        In line with these fascinating results,one can believe that the synergetic integration of oligopeptides and macrocycles into a single supramolecular assembled entity w ill be a powerful strategy to construct more advanced functional biomaterials[21,22].Thus,our group has developed some diphenylalanine–macrocycle conjugated nanosystems with controlled morphological conversion using FF derivatives bearing bispyridinium[23],azophenyl[24],and adamantyl moieties[25].One representative example is that,the topological aggregates of bispyridinium-modified FFcan be well tuned by simple complexation of bispyridinium terminal with cucurbituril,pillararene,and tetrasulfonated crow n ether,respectively[23].Herein,inspired by the smart morphological conversion of dipeptide derivatives and functional redox center of ferrocene,we w ould like to report a morphological conversion from nano fibers to nanoparticles based on ferrocene-modified diphenylalanine(Fc-FF)and b-cyclodextrin(b-CD),in which the formation of binary Fc-FF?b-CD nanoparticles could be reversibly generated via the chemically redox control(Scheme 1).The present study can make a good supplement to the existing peptide–macrocycle supramolecular systems.

        Schem e 1.Self-assembling and disassembling processes of redox-responsive Fc-FF in the presence of b-CD.

        The guest Fc-FF was synthesized according to the literature with slight modification[26].Next,Job plot was performed to determine the binding stoichiometry between Fc-FFand b-CD.As show n in Fig.S1 in Supporting information,a maximum peak at the molar ratio of 0.5 was clearly observed,indicative of a 1:1 host–guest binding stoichiometry.The direct evidence on the formation of Fc-FF?b-CD complex was obtained from electrospray ionization–mass spectrometry(ESI-MS);that is,the m/z peak at 1659.5097 could be clearly assigned to[Fc-FF+b-CD+H]+(Fig.S2 in Supporting information).Next,the noncovalent complexation of Fc-FFwith b-CDwas further veri fied by1H NMRexperiments.That is,the proton signals at 4.46 and 4.63 ppm assigned to the ferrocene in Fc-FF underwent an obvious complex-induced dow n fi eld shift upon continuous addition of b-CD in D2O(Fig.S3 in Supporting information).

        Meanwhile,NOESY(nuclear Overhauser effect spectroscopy)spectrum of equimolar Fc-FF and b-CD was conducted to investigate the molecular binding mode.It can be seen that clear NOE(nuclear Overhauser enhancement)correlations were observed between ferrocenyl protons in Fc-FF and b-CD’s inner protons,here again corroborating that ferrocenyl moiety was included in b-CD’s cavity to form binary host–guest complex(Fig.1).In contrast,after addition of Ce(SO4)2as oxidant,no NOE cross-peak was found in the Fc+-FFwith b-CD,indicating that the oxidized Fc(Fc+)could not be included in the cavity anymore(Fig.S4 in Supporting information).In addition,isothermal titration calorimetric(ITC)experiments were performed to measure the association constant in Fc-FF?b-CD complexation as ca.5.1?102L/mol in w ater(Fig.S5 in Supporting information).

        The electrochemical behaviors of Fc-FF in the absence and presence of b-CD were also investigated by cyclic voltammetry.The typical cyclic voltammetry(CV)curves for Fc-FF before and after complexation with b-CDare depicted in Fig.2.The addition of equimolar b-CD into Fc-FFsolution could cause a positive shift of half-w ave potential and a decrease in the peak current.These phenomena demonstrate that Fc-FF becomes more difficult to be oxidized,re fl ecting the stabilization effect originated from the protection of b-CD tow ard ferrocene in aqueous media.

        Considering the diphenylalanine peptide possesses many interesting physicochemical properties,we next explore the morphological conversion of Fc-FF upon complexation with b-CD,which was investigated by transmission electron microscopic(TEM)and scanning electron microscopic(SEM)experiments.As can be seen in Fig.3,Fc-FFalone could self-assemble to bunch of nano fibers with several micrometers in length,as a result of the chirality of phenylalanine moieties and p–p stacked adjacent phenyl rings(Figs.3a and b).After addition of b-CD,a series of ordered nanospheres was observed,and this morphology wasquite different from the unbound Fc-FFmolecules(Figs.3c and d).Furthermore,w hen the ferrocenyl group of Fc-FFin Fc-FF?b-CD complex was oxidized to the corresponding cationic form(Fc+-FF)by Ce(SO4)2as oxidizing agent,only amorphous aggregates were found in the TEM and SEM images.In this case,the ferrocenyl group could be completely expelled from the cavity of b-CD upon formation of Fc+-FF in the presence of Ce(SO4)2,thus resulting in the unfavorable electrostatic repulsion among the positively charged Fc+-FF(Figs.3e and f).In contrast,w hen Fc+moieties were further reduced by glutathione(GSH),the neutral Fc-FF?b-CD complex was regenerated,accompanied by the recovery of supramolecular nanoparticles(igs.3g and h).More microscopic images can be found in Figs.S6–S9(Supporting information).Thus,by utilizing the chemical redox of Fc-FF,the morphological conversion could be reversibly regulated between amorphous aggregates and uniform nanospheres.

        In conclusion,the molecular binding behaviors between Fc-FF and b-CD were investigated in this work and the morphological conversion from nano fibers to nanospheres was successfully regulated by the host–guest complexation of Fc-FF and b-CD.It is also found that the resultant binary nanoparticles could be dissipated to amorphous aggregates by the oxidation of ferrocenyl group in Fc-FF?b-CD complex,while the nanoparticulate morphology could be recovered under reduction condition.Thus,we can envisage that the obtained Fc-FF?b-CD nanoassemblies with redox-controlled morphological changes may provide us with a convenient avenue for deeply understanding the dynamic and stimuli-responsive biological events in many peptide-based molecular assembling processes.

        Fig.2.CV curves of Fc-FFin the absence and presence of b-CD(0.5 mmol/Lin 5 m L 0.1 mol/L NH4PF6 solution and the scan rate is 50 m V/s).

        Fig.3.TEM and SEM images of(a,b)nano fibers formed by Fc-FFself-assembly;(c,d)nanospheres formed by Fc-FF?b-CD complex;(e,f)amorphous aggregates formed by Fc+-FFand b-CD after oxidation by Ce(SO4)2;(g,h)recovery of nanospheres after reduction by GSH([Fc-FF]=[b-CD]=[Ce(SO4)2]=[GSH]=4.0 mmol/L).

        Acknow ledgment

        We thank the National Natural Science Foundation of China(Nos.21432004,21472100,21772099 and 91527301)for financial support.

        Appendix A.Supp lementary data

        Supplementary data associated with this article can be found,in the online version,at https://doi.org/10.1016/j.cclet.2018.04.028.

        亚洲精品无码人妻无码| 三级国产精品久久久99| 国产乱对白刺激视频| 亚洲自偷自拍熟女另类| 无码不卡一区二区三区在线观看| 在线视频一区二区观看| 亚洲国产av一区二区三区精品| 国产成人综合亚洲看片| 国产成人+亚洲欧洲+综合| 亚洲综合国产成人丁香五月小说| 中文字幕av素人专区| 丰满人妻一区二区三区免费视频| 九九视频在线观看视频6| 人人妻人人澡人人爽欧美一区九九 | 亚洲女同av在线观看| 美女露内裤扒开腿让男人桶无遮挡 | 欧美激情乱人伦| 又粗又硬又黄又爽的免费视频| 国产AV国片精品有毛| 日韩精品极品免费在线视频| 人妻熟妇乱又伦精品视频| 国产性生交xxxxx免费| 亚洲综合伦理| 国产乱人伦偷精品视频还看的 | 精品少妇人妻av一区二区| 欧美成人精品三级在线观看| 中文字幕视频一区二区| 天天躁夜夜躁狠狠是什么心态| 亚洲国产av导航第一福利网| 日韩美无码一区二区三区| 国产精品一区二区三区av在线| 娜娜麻豆国产电影| 国产人成午夜免电影观看 | 国产69精品麻豆久久| 毛片免费视频在线观看| 一区二区三区日韩亚洲中文视频| 国产三级在线观看高清| 日韩精品 在线 国产 丝袜| 国产精自产拍久久久久久蜜| 高潮社区51视频在线观看| 亚洲美女自拍偷拍视频|