Production of a recombinant industrial protein using barley cell cultures.

The use of recombinant DNA-based protein production using genetically modified plants could provide a reproducible, consistent quality, safe, animal-component free, origin-traceable, and cost-effective source for industrial proteins required in large amounts (1000s of metric tons) and at low cost (below US$100/Kg). The aim of this work was to demonstrate the feasibility of using barley suspension cell culture to support timely testing of the genetic constructs and early product characterization to detect for example post-translational modifications within the industrial protein caused by the selected recombinant system. For this study the human Collagen I alpha 1 (CIa1) chain gene encoding the complete helical region of CIa1 optimized for monocot expression was fused to its N- and C-terminal telopeptide and to a bacteriophage T4 fibritin foldon peptide encoding sequences. The CIa1 accumulation was targeted to the endoplasmic reticulum (ER) by fusing the CIa1 gene to an ER-directing signal peptide sequence and an ER retention signal HDEL. The construct containing the CIa1 gene was then introduced into immature barley half embryos or barley cells by particle bombardment. Transgenic barley cells resulting from these transformations were grown as suspension cultures in flasks and in a Wave bioreactor producing CIa1 similar to CIa1 purified from the yeast Pichia pastoris based on Western blotting, pepsin resistance, and mass spectroscopy analysis. The barley cell culture derived-CIa1 intracellular accumulation levels ranged from 2 to 9 microg/l illustrating the need for further process improvement in order to use this technology to supply material for product development activities.

Emerging picture of host chaperone and cyclophilin roles in RNA virus replication.

Many plus-strand (+)RNA viruses co-opt protein chaperones from the host cell to assist the synthesis, localization and folding of abundant viral proteins, to regulate viral replication via activation of replication proteins and to interfere with host antiviral responses. The most frequently subverted host chaperones are heat shock protein 70 (Hsp70), Hsp90 and the J-domain co-chaperones. The various roles of these host chaperones in RNA virus replication are presented to illustrate the astonishing repertoire of host chaperone functions that are subverted by RNA viruses. This review also discusses the emerging roles of cyclophilins, which are peptidyl-prolyl isomerases with chaperone functions, in replication of selected (+)RNA viruses.

Renilla luciferase-based quantitation of Potato virus A infection initiated with Agrobacterium infiltration of N. benthamiana leaves.

A quantitation method based on the sensitive detection of Renilla luciferase (Rluc) activity was developed and optimized for Potato virus A (PVA; genus Potyviridae) gene expression. This system is based on infections initiated by Agrobacterium infiltration and subsequent detection of the translation of PVA::Rluc RNA, which is enhanced by viral replication, first within the cells infected initially and later by translation and replication within new cells after spread of the virus. Firefly luciferase (Fluc) was used as an internal control to normalize the Rluc activity. An approximately 10-fold difference in the Rluc/Fluc activity ratio between a movement-deficient and a replication-deficient mutant was observed starting from 48h post Agrobacterium infiltration (h.p.i.). The Rluc activity derived from wild type (wt) PVA increased significantly between 48 and 72h.p.i. and the Rluc/Fluc activity deviated clearly from that of the mutant viruses. Quantitation of the Rluc and Fluc mRNAs by semi-quantitative RT-PCR indicated that increases and decreases in the Renillareniformis luciferase (rluc) mRNA levels coincided with changes in Rluc activity. However, a subtle increase in the mRNA level led to pronounced changes in Rluc activity. PVA CP accumulation was quantitated by enzyme-linked immunosorbent assay. The increase in Rluc activity correlated closely with virus accumulation.