liposome phase separation

Zhao, J., J. Wu, and S. L. Veatch. J. Gene Med. Mol. National Center for Biotechnology Information, Unable to load your collection due to an error, Unable to load your delegates due to an error. J. [DOI: 10.1143/JJAP.44.8733] KEYWORDS: imaging, phase transition, phase separation, laurdan, giant liposome, video rate, binary mixture 1. 1664:70–79, 2004. Correspondence to Maximizing exosome colloidal stability following electroporation. Futami, J., M. Kitazoe, T. Maeda, E. Nukui, M. Sakaguchi, J. Kosaka, M. Miyazaki, M. Kosaka, H. Tada, M. Seno, Y. Sasaki, N. H. Huh, M. Namba, and H. Yamada. Biochim. Li, S., and N. Malmstadt. Additionally, we quantified the impact of membrane phase separation on the efficiency with which liposomes transferred lipids and encapsulated macromolecules to cells, using a combination of confocal fluorescence imaging and flow cytometry. Mae, M., and U. Langel. Vesicle fusion observed by content transfer across a tethered lipid bilayer. Biophys. Friedl, P., and K. Wolf. Biophysical and lipofection studies of DOTAP analogs. 4:84–91, 2002. Chollet, P., M. C. Favrot, A. Hurbin, and J. L. Coll. 85:3074–3083, 2003. No animal studies were carried out by the authors for this article. Acta Biomembr. Int. 378C. Pharmacol. Dynamic modes of the cortical actomyosin gel during cell locomotion and division. Release 79:283–291, 2002. 94:1836–1853, 2008. Engineered herpes simplex virus expressing IL-12 in the treatment of experimental murine brain tumors. How proteins produce cellular membrane curvature. J. Phase-Separated Liposomes Enhance the Efficiency of Macromolecular Delivery to the Cellular Cytoplasm. Diffusion in two-component lipid membranes—a fluorescence correlation spectroscopy and Monte Carlo simulation study. Biomaterials 33:3959–3966, 2012. J. Interestingly, once the liposomes were cooled to a much lower temperature than the To, the phase separation was promoted by the subsequent heating process, and reached a maximum state of the phase separation near the To. Bioavailability and transport of peptides and peptide drugs into the brain. ... Liposome made from pure phospholipids (in the absence of cholesterol) will not form at temperatures below the phase transition temperature of phospholipid. Biochem. White, S. J., S. A. Nicklin, H. Buning, M. J. Brosnan, K. Leike, E. D. Papadakis, M. Hallek, and A. H. Baker. Liposome; Phase separation; Phospholipid bilayer; Photopolymerizable diacetylene. A two-stage poly(ethylenimine)-mediated cytotoxicity: implications for gene transfer/therapy. J. 77:341–353, 1999. Tumour-cell invasion and migration: diversity and escape mechanisms. 2017 Apr 10;18(4):1180-1188. doi: 10.1021/acs.biomac.6b01859. Moghimi, S. M., P. Symonds, J. C. Murray, A. C. Hunter, G. Debska, and A. Szewczyk. Peptides 18:1431–1439, 1997. Gordon, V. D., M. Deserno, C. M. J. Andrew, S. U. Egelhaaf, and W. C. K. Poon. Baker, A. H., A. Kritz, L. M. Work, S. A. Nicklin, and A. Nicklin. She received a master’s degree in mechanical engineering from the University of California, Berkeley in 2004, under the supervision of Professor Arun Majumdar and a doctorate in mechanical engineering from the University of California, Berkeley in 2008 under the supervision of Professor Daniel Fletcher. Mol Ther. Effective induction of anti-tumor immunity using p5 HER-2/neu derived peptide encapsulated in fusogenic DOTAP cationic liposomes co-administrated with CpG-ODN. J. Wieber, A., T. Selzer, and J. Kreuter. Please enable it to take advantage of the complete set of features! Zhu, S. J., P. Wonganan, D. S. P. Lansakara-P, H. L. O’Mary, Y. Li, and Z. R. Cui. 23:966–980, 2012. 81:303–311, 1986. 6:509–514, 2006. Circulation 109:513–519, 2004. Blosser, M. C., J. Biotechnol. - 185.32.190.8. Progress in developing cationic vectors for non-viral systemic gene therapy against cancer. 88:317–333, 2005. Elucidating membrane structure and protein behavior using giant plasma membrane vesicles. Targeting of tumor-associated macrophages made possible by peg-sheddable, mannose-modified nanoparticles. J. Pharm. Deformation and poration of lipid bilayer membranes by cationic nanoparticles. B. Starr, C. W. Turtle, J. Ashcraft, and S. L. Keller. Integr. eCollection 2014 Sep. Biophys J. Seeing spots: complex phase behavior in simple membranes. Imam, Z. I., L. E. Kenyon, A. Carrillo, I. Espinoza, F. Nagib, and J. C. Stachowiak. The linear part of the liposome had a high GP value and the hinge part had a low GP value. Lysosomal delivery of a lipophilic gemcitabine prodrug using novel acid-sensitive micelles improved its antitumor activity. A possible design of the liposome membrane for the recognition of biomacromolecules was discussed based on the characterized properties, by employing the RNA molecule as a case study. Cold Spring Harb. Biophys. Immediate online access to all issues from 2019. Momin, N., S. Lee, A. K. Gadok, D. J. Busch, G. D. Bachand, C. C. Hayden, J. C. Stachowiak, and D. Y. Sasaki. Batrakova, E. V., and M. S. Kim. PEG grafted polylysine with fusogenic peptide for gene delivery: high transfection efficiency with low cytotoxicity. Side-effects of a systemic injection of linear polyethylenimine-DNA complexes. On the other hand, the phase separation of the DiynePC/DOPC liposomes occurred near To of DiynePC but slightly increased during the cooling process. Exp. GM112065). Biomaterials 34:2327–2339, 2013. A. Kooijmans, W. W. van Solinge, M. J. Metabolic instability of plasmid DNA in the cytosol: a potential barrier to gene transfer. Introduction Release 219:396–405, 2015. This article is part of the 2017 CMBE Young Innovators special issue. These results indicated that the phase separation of DiynePC is affected by both the orientation state and thermal molecular motion. 10:3525–3530, 2013. J. Phys. 7:1042–1051, 2012. 146:703–707, 1999. Eur. Jeanne C. Stachowiak. Rubinson, D. A., C. P. Dillon, A. V. Kwiatkowski, C. Sievers, L. L. Yang, J. Kopinja, M. D. Zhang, M. T. McManus, F. B. Gertler, M. L. Scott, and L. Van Parijs. Design and synthesis of pH-responsive polymeric carriers that target uptake and enhance the intracellular delivery of oligonucleotides. Biol. NLM Cell-selective viral gene delivery vectors for the vasculature. Rev. Gunawan, R. C., and D. T. Auguste. Viral gene therapy strategies: from basic science to clinical application. The main phase transition temperature (Tm) and orientation temperature (To) of DiynePC were determined from differential scanning calorimetry (DSC) and absorbance measurements. Pires, P., S. Simoes, S. Nir, R. Gaspar, N. Duzgunes, and M. C. P. de Lima. J. Controll. 16:1252–1260, 2008. The immunological synapse: a molecular machine controlling T cell activation. volume 10, pages387–403(2017)Cite this article. Zimmerberg, J., and M. M. Kozlov. 1329:345–356, 1997. HHS Murine coronavirus requires lipid rafts for virus entry and cell-cell fusion but not for virus release. Gunawan, R. C., and D. T. Auguste. Biomacromolecules. Imam, Z.I., Kenyon, L.E., Ashby, G. et al. Using exosomes, naturally-equipped nanocarriers, for drug delivery. Get the latest research from NIH: https://www.nih.gov/coronavirus. Xu, Y. H., S. W. Hui, P. Frederik, and F. C. Szoka. Immunol. Cellular and Molecular Bioengineering Yang, S. T., E. Zaitseva, L. V. Chernomordik, and K. Melikov. 127:213–220, 2007. Extranuclear apoptosis: the role of the cytoplasm in the execution phase. Here we report that concentrating fusion-promoting lipids within phase-separated lipid domains on the surfaces of liposomes significantly increases the efficiency of liposome fusion with model membranes and cells. Mills, J. C., N. L. Stone, and R. N. Pittman. Reassembly of contractile actin cortex in cell blebs. 1.5. Biophys. Rev. 29:341–345, 2011. J. Controll. Heberle, F. A., and G. W. Feigenson. The polymerization behavior and orientation of DiynePC was evaluated by measuring the absorbance contributed by polymerized diacetylene groups. 1995 Feb;68(2):525-35. doi: 10.1016/S0006-3495(95)80214-6. Stealth liposomes: review of the basic science, rationale, and clinical applications, existing and potential. Biophys. Acta Mol. Biophys. Charras, G. T., M. Coughlin, T. J. Mitchison, and L. Mahadevan. Pharm. J. 7:1148–1155, 2000. This site needs JavaScript to work properly. 199:31–48, 2002. Biopharm. From viruses to organelles, fusion of biological membranes is used by diverse biological systems to deliver macromolecules across membrane barriers. https://doi.org/10.1007/s12195-017-0489-4, DOI: https://doi.org/10.1007/s12195-017-0489-4, Over 10 million scientific documents at your fingertips, Not logged in Dr. Stachowiak has served as a tenure-track Assistant Professor in the Department of Biomedical Engineering at the University of Texas at Austin since January 2012. J. Nanomed. 99:2525–2533, 2010. the impact of texas red on lipid bilayer properties. Engineering and selection of shuffled AAV genomes: a new strategy for producing targeted biological nanoparticles.