TY - JOUR A1 - Ojha, Animesh K. A1 - Forster, Stefan A1 - Kumar, Sumeet A1 - Vats, Siddharth A1 - Negi, Segeeta A1 - Fischer, Ingo T1 - Synthesis of well-dispersed silver nanorods of different aspect ratios and their antimicrobial properties against gram positive and negative bacterial strains JF - Journal of Nanobiotechnology N2 - In the present contribution, we describe the synthesis of highly dispersed silver nanorods (NRs) of different aspect ratios using a chemical route. The shape and size of the synthesized NRs were characterized by Transmission Electron Microscopy (TEM) and UV-visible spectroscopy. Longitudinal and transverse absorptions bands confirm the rod type structure. The experimentally recorded UV-visible spectra of NRs solutions were fitted by using an expression of the extinction coefficient for rod like nano structures under the dipole approximation. Simulated and experimentally observed UV-visible spectra were compared to determine the aspect ratios (R) of NRs. The average values of R for NR1, NR2 and NR3 solutions are estimated to be 3.0 +/- 0.1, 1.8 +/- 0.1 and 1.2 +/- 0.1, respectively. These values are in good agreement with those obtained by TEM micrographs. The silver NRs of known aspect ratios are used to study antimicrobial activities against B. subtilis (gram positive) and E. coli (gram negative) microbes. We observed that the NRs of intermediate aspect ratio (R = 1.8) have greater antimicrobial effect against both, B. subtilis (gram positive) and E. coli (gram negative). The NRs of aspect ratio, R = 3.0 has better antimicrobial activities against gram positive than on the gram negative. KW - silver KW - nano rods KW - TEM KW - antimicrobial activities KW - nanowire formation KW - gold nanoparticles KW - Raman-scattering KW - nanostructures KW - particles Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-122837 SN - 1477-3155 VL - 11 IS - 42 ER - TY - JOUR A1 - Muranyi, Walter A1 - Malkusch, Sebastian A1 - Müller, Barbara A1 - Heilemann, Mike A1 - Kräusslich, Hans-Georg T1 - Super-Resolution Microscopy Reveals Specific Recruitment of HIV-1 Envelope Proteins to Viral Assembly Sites Dependent on the Envelope C-Terminal Tail JF - PLoS Pathogens N2 - The inner structural Gag proteins and the envelope (Env) glycoproteins of human immunodeficiency virus (HIV-1) traffic independently to the plasma membrane, where they assemble the nascent virion. HIV-1 carries a relatively low number of glycoproteins in its membrane, and the mechanism of Env recruitment and virus incorporation is incompletely understood. We employed dual-color super-resolution microscopy visualizing Gag assembly sites and HIV-1 Env proteins in virus-producing and in Env expressing cells. Distinctive HIV-1 Gag assembly sites were readily detected and were associated with Env clusters that always extended beyond the actual Gag assembly site and often showed enrichment at the periphery and surrounding the assembly site. Formation of these Env clusters depended on the presence of other HIV-1 proteins and on the long cytoplasmic tail (CT) of Env. CT deletion, a matrix mutation affecting Env incorporation or Env expression in the absence of other HIV-1 proteins led to much smaller Env clusters, which were not enriched at viral assembly sites. These results show that Env is recruited to HIV-1 assembly sites in a CT-dependent manner, while Env\((\Delta CT)\) appears to be randomly incorporated. The observed Env accumulation surrounding Gag assemblies, with a lower density on the actual bud, could facilitate viral spread in vivo. Keeping Env molecules on the nascent virus low may be important for escape from the humoral immune response, while cell-cell contacts mediated by surrounding Env molecules could promote HIV-1 transmission through the virological synapse. KW - ENV KW - fluorescent-probes KW - type-1 matrix KW - glycoprotein incorporation KW - GP41 cytoplasmic tail KW - human immunodeficiency virus KW - cellular proteins KW - plasma membrane KW - virions KW - particles Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-131235 VL - 9 IS - 2 ER - TY - THES A1 - Meinhardt, Thomas T1 - Effiziente Oberflächen-Funktionalisierung von Nanodiamant durch die Click-Reaktion von Alkinen und Aziden T1 - Efficient surface functionalization of nanodiamond via click reaction of alkynes and azides N2 - In dieser Arbeit wurde die Kupfer(I)-katalysierte Cycloaddition von Alkinen und Aziden ("Click-Chemie") als effiziente, vielseitige und milde Reaktion für die Funktionalisierung von Nanodiamantpartikeln etabliert. Es wurden verschiedene Alkin- oder Azid-funktionalisierte Nanodiamantsysteme hergestellt und deren Reaktivität in Click-Reaktionen anhand vielfältiger Beispiele demonstriert. Hierzu wurden neben einfachen Testverbindungen auch komplexere Substanzen (z. B. ein Mannose-Derivat, Polytriazole, Fluoreszenzfarbstoffe, ein Thiazolium-Organokatalysator) durch Triazolsynthese immobilisiert. Zusätzlich wurde eine Methode entwickelt, die die Herstellung funktionalisierter und vollständig dispergierter Nanodiamant-Primärteilchen ermöglicht, wobei gezeigt wurde, dass dieser Weg auch für die Funktionalisierung durch Click-Chemie geeignet ist. Die Analyse der Nanodiamantpartikel erfolgte u. a. durch FT-IR, TGA, Elementaranalyse, Partikelgrößen- und Zetapotentialbestimmung, NMR, HR-TEM, UV / Vis sowie Fluoreszenzspektroskopie und -mikroskopie. N2 - In this work, the copper(I)-catalyzed cycloaddition of alkynes and azides ("click chemistry") was established as an efficient, versatile and mild reaction for the functionalization of nanodiamond particles. Different alkyne- or azide-functionalized nanodiamond systems were prepared and their reactivity in click reactions was demonstrated by various examples. For this purpose, simple compounds as well as more complex substances (e. g. a mannose derivative, polytriazoles, fluorescent dyes, a thiazolium organocatalyst) were immobilized via triazole synthesis. In addition, a method was developed that allows for the preparation of functionalized and completely dispersed nanodiamond primary particles. It was shown that this strategy is also suitable for the functionalization via click chemistry. The nanodiamond particles were analyzed by FT-IR, TGA, elemental analysis, particle size and zeta potential measurements, NMR, HR-TEM, UV / Vis, fluorescence spectroscopy and microscopy. KW - Funktionalisierung KW - Diamant KW - Click-Chemie KW - Partikel KW - Nanodiamant KW - nanodiamond KW - functionalization KW - click chemistry KW - particles Y1 - 2011 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-66410 ER -