The reduced-charge melittin analogue MelP5 improves the transfection of non-viral DNA nanoparticles.

Melittin is a 26-amino acid amphiphilic alpha-helical peptide derived from honeybee venom. Prior studies have incorporated melittin into non-viral delivery systems to effect endosomal escape of DNA nanoparticles and improve transfection efficiency. Recent advances have led to the development of two newer melittin analogues, MelP5 and Macrolittin 70, with improved pore formation in lipid bilayers while possessing fewer positive charges relative to natural melittin.

Gene transfection of primary mouse hepatocytes in 384-well plates.

We report the development of an improved in vitro transfection assay to test the efficiency of non-viral vector DNA nanoparticle transfection of primary hepatocytes. The protocol describes the isolation of viable hepatocytes from a mouse by collagenous perfusion. Primary mouse hepatocytes are plated in 384-well plates and cultured for 24 h prior to transfection with polyethylenimine (PEI) or peptide DNA nanoparticles.

Fluorescent labeling of plasmid DNA for gene delivery: Implications of dye hydrophobicity on labeling efficiencies and nanoparticle size.

Covalent fluorescent labels are important tools for monitoring the in vitro and in vivo localization of plasmid DNA nanoparticles, but must meet several criteria including high DNA labeling efficiencies and minimal impact on nanoparticle size. We developed a novel fluorescent labeling strategy utilizing an aryl azide photolabel conjugated to a short cationic peptide to label plasmid DNA with Cyanine 5 and sulfo-Cyanine 5. Using a simple camera flash apparatus, photolabel-peptide-dyes can be conjugated to DNA in minutes with preservation of DNA structure and minimal dye photobleaching.

Heat-shrinking DNA nanoparticles for in vivo gene delivery.

The particle size of a PEG-peptide DNA nanoparticle is a key determinant of biodistribution following i.v. dosing.

Molecular architectures of Pen and Pal: Key enzymes required for CMP-pseudaminic acid biosynthesis in Bacillus thuringiensis.

Bacillus thuringiensis is a soil-dwelling Gram positive bacterium that has been utilized as a biopesticide for well over 60 years. It is known to contain flagella that are important for motility. One of the proteins found in flagella is flagellin, which is post-translationally modified by O-glycosylation with derivatives of pseudaminic acid.

Molecular architecture of KedS8, a sugar N-methyltransferase from Streptoalloteichus sp. ATCC 53650.

Kedarcidin, produced by Streptoalloteichus sp. ATCC 53650, is a fascinating chromoprotein of 114 amino acid residues that displays both antibiotic and anticancer activity. The chromophore responsible for its chemotherapeutic activity is an ansa-bridged enediyne with two attached sugars, l-mycarose, and l-kedarosamine.