Top 10 similar words or synonyms for nanovesicles

nanomicelles    0.824376

polymersomes    0.805315

nanosomes    0.803270

protocells    0.799503

nanocomplexes    0.782593

nanoconjugates    0.775252

nanoconstructs    0.774942

gagomers    0.770849

nanovesicle    0.769353

polyplexes    0.761229

Top 30 analogous words or synonyms for nanovesicles

Article Example
Self-assembling peptide FIGURE 6: TRANSMISSION ELECTRON MICROGRAPH OF SURFACTANT PEPTIDE SAMPLES PREPARED FROM QUICK- FREEZE/DEEP-ETCH METHOD. A) THIS MICROGRAPH SHOWS THE NANO TUBE CLEARLY, WITH DIAMETER OF 30- 50NM. B) THIS MICROGRAPH DISPLAYS THE DYNAMIC NATURE OF THE PEPTIDES. NANOVESICLES CAN BE SEEN ‘BUDDING’ OUT FROM A NANOTUBE.
Lipid bilayer Exocytosis in prokaryotes: Membrane vesicular exocytosis, popularly known as membrane vesicle trafficking, a Nobel prize-winning (year, 2013) process, is traditionally regarded as a prerogative of eukaryotic cells. This "myth" was however broken with the revelation that nanovesicles, popularly known as bacterial outer membrane vesicles, released by gram-negative microbes, translocate bacterial signal molecules to host or target cells to carry out multiple processes in favour of the secreting microbe e.g., in "host cell invasion" and microbe-environment interactions, in general.
Extracellular matrix In 2016, Huleihel et al., reported the presence of DNA, RNA, and Matrix-bound nanovesicles (MBVs) within ECM bioscaffolds. MBVs shape and size were found to be consistent with previously described exosomes. MBVs cargo includes different protein molecules, lipids, DNA, fragments, and miRNAs. Similar to ECM bioscaffolds, MBVs can modify the activation state of macrophages and alter different cellular properties such as; proliferation, migration and cell cycle. MBVs are now believed to be an integral and functional key component of ECM bioscaffolds.
Self-assembling peptide In water surfactant peptides undergo self assembling to form well ordered nanotubes and nanovesicles of 30–50 nm through intermolecular hydrogen bonds and the packing of the hydrophobic tails in between the residues in a manner similar to micelle formation.Transmission electron microscopy examination on quick-frozen samples of surfactant peptides structures showed helical open-ended nanotubes. The samples also showed a dynamic behaviours and some vesicles “buds” out of the peptide nanotubes.
Self-assembling peptide Surfactant –like peptides which undergoes self-assembly in water to form nanotubes and nanovesicles has been designed using natural lipids as a guide. This class of peptides has a hydrophilic head (with one or two charged amino acids such as aspartic and glutamic acids, or lysine or histidine acids) with a hydrophobic tail (with 4 or more hydrophobic amino acids such as alanine, valine or leucine). The peptide monomers are about 2-3 nm long and consist of seven or eight amino acids; the length of the peptide can be adjusted by adding or removing acid acids.