A cheap and straightforward method for the selective isolation of histidine-derived natural products using nickel(II) phosphate.

Nickel-based resins have long been used in biochemical studies for the purification of His-tagged proteins, but their potential in the isolation of histidine-derived small molecules has not been investigated to date. Many agriculturally-important mycotoxins incorporate histidine residues, as do natural products from both plants and bacteria. Here, a highly-selective solid-phase extraction method is described for the purification of histidine-derived natural products using the insoluble nickel salt Ni(PO).

Structures of PKA-phospholamban complexes reveal a mechanism of familial dilated cardiomyopathy.

Several mutations identified in phospholamban (PLN) have been linked to familial dilated cardiomyopathy (DCM) and heart failure, yet the underlying molecular mechanism remains controversial. PLN interacts with sarco/endoplasmic reticulum Ca-ATPase (SERCA) and regulates calcium uptake, which is modulated by the protein kinase A (PKA)-dependent phosphorylation of PLN during the fight-or-flight response. Here, we present the crystal structures of the catalytic domain of mouse PKA in complex with wild-type and DCM-mutant PLNs.

Guest Sequence Can Influence RNA Encapsulation by an Engineered Cationic Protein Capsid.

Specific encapsulation of RNA in a cell is a challenging molecular recognition problem that has important implications for virology and drug delivery. An engineered variant of the lumazine synthase capsid that possesses a positively supercharged interior (AaLS-pos) has previously been shown to encapsulate a mixture of cellular RNAs in bacteria via charge complementarity. To investigate the influence of nucleotide sequence on encapsulation, eight reporter RNAs with the same charge but with highly diverse arbitrary sequence regions (ASRs) were coproduced with AaLS-pos in cells.

A Protein-Capsid-Based System for Cell Delivery of Selenocysteine.

Selenocysteine (Sec) has received a lot of attention as a potential anticancer drug. However, its broad cytotoxicity limits its therapeutic usefulness. Thus, Sec is an attractive candidate for targeted drug delivery.

Encapsulation and Controlled Release of Protein Guests by the Bacillus subtilis Lumazine Synthase Capsid.

In Bacillus subtilis, the 60-subunit dodecahedral capsid formed by lumazine synthase (BsLS) acts as a container for trimeric riboflavin synthase (BsRS). To test whether the C-terminal sequence of BsRS is responsible for its encapsulation by BsLS, the green fluorescent protein (GFP) was fused to either the last 11 or the last 32 amino acids of BsRS, yielding variant GFP11 or GFP32, respectively. After purification, BsLS capsids that had been co-produced in bacteria with GFP11 and GFP32 are 15- and 6-fold more fluorescent, respectively, than BsLS co-produced with GFP lacking any BsRS fragment, indicating complex formation.