Phase Control of Nanocrystalline Inclusions in Bioprecipitated Titania with a Panel of Mutant Silica-Binding Proteins.

The biomimetic route to inorganic synthesis presents an opportunity to produce complex materials with superior properties under ambient conditions and from nontoxic precursors. While there has been significant progress in using solid-binding peptides (SBPs), proteins, and organisms to produce a variety of inorganic and hybrid structures, it has been more challenging to understand the interplay of solution conditions and solid-binding peptide (SBP) sequence, structure, and self-association on synthetic outcomes. Here, we show that fusing the Car9 silica-binding peptide-but not the silaffin-derived R5 peptide-to superfolder green fluorescent protein (sfGFP) enhances the ability of micromolar concentrations of protein to induce rapid titania (TiO) precipitation from acidified solutions of tetrakis(di-lactato)-oxo-titanate (TiBALDH).

Affinity purification of Car9-tagged proteins on silica-derivatized spin columns and 96-well plates.

The Car9 affinity tag is a dodecameric silica-binding peptide that can be fused to the N- and C-termini of proteins of interest to enable their rapid and inexpensive purification on underivatized silica in a process that typically relies on l-lysine as an eluent. Here, we show that silica paper spin columns and borosilicate multi-well plates used for plasmid DNA purification are suitable for recovering Car9-tagged proteins with high purity in a workflow compatible with high-throughput experiments. Spin columns typically yield 100 μg of biologically active material that can be recovered in minutes with low concentrations of lysine.

Establishment of Par-Polarized Cortical Domains via Phosphoregulated Membrane Motifs.

The Par polarity complex creates mutually exclusive cortical domains in diverse animal cells. Activity of the atypical protein kinase C (aPKC) is a key output of the Par complex as phosphorylation removes substrates from the Par domain. Here, we investigate how diverse, apparently unrelated Par substrates couple phosphorylation to cortical displacement.

A quantitative investigation into the losses of proteins at different stages of a two-dimensional gel electrophoresis procedure.

We report the results of a systematic investigation to quantify the losses of protein during a well-established two-dimensional polyacrylamide gel electrophoresis (2-DE) procedure. Radioactively labelled proteins ([(14)C]bovine serum albumin and a homogenate prepared from the liver of a rat that had been injected with [(35)S]methionine) were used, and recovery was quantified by digesting pieces of gel in H(2)O(2) and subjecting the digests to liquid scintillation counting. When samples were loaded onto the first dimension immobilised pH gradient strips by in-gel rehydration, recovery of protein from the strips was 44-80% of the amount of protein loaded, depending on the amount of protein in the sample.

A systematic investigation into the recovery of radioactively labeled proteins from sodium dodecyl sulfate-polyacrylamide gels.

We report the results of a systematic investigation designed to optimize a method for quantifying radioactivity in proteins in sodium dodecyl sulfate-polyacrylamide gels. The method involves dissolving appropriately sized pieces of gel in hydrogen peroxide and heating to 70 degrees C overnight followed by liquid scintillation counting. H(2)O(2) had no effect on the count rates of [(14)C]bovine serum albumin (BSA) when counted in a conventional liquid scintillation system, and the count rates remained stable for several days.