Lysis

About: Lysis is a research topic. Over the lifetime, 6072 publications have been published within this topic receiving 216978 citations.

Large-scale purification of a stable form of recombinant tobacco etch virus protease.

Abstract: Tobacco etch virus NIa proteinase (NIa-Pro) has become the enzyme of choice for removing tags and fusion domains from recombinant proteins in vitro. We have designed a mutant NIa-Pro that resists autoproteolytic inactivation and present an efficient method for producing large amounts of this enzyme that is highly pure, active, and stable over time. Histidine-tagged forms of both wild-type and mutant NIa-Pro were overexpressed in E. coli under conditions in which greater than 95% of the protease was in the insoluble fraction after cell lysis. An inclusion body preparation followed by denaturing purification over a single affinity column and protein renaturation yields greater than 12.5 mg enzyme per liter of bacterial cell culture. NIa-Pro purified according to this protocol has been used for quantitative removal of fusion domains from a variety of proteins prepared for crystallization and biochemical analysis.

Rapid purification of hepatitis B virus DNA from serum.

Abstract: We describe two rapid, simple, and reliable procedures for routine purification of hepatitis B virus (HBV) DNA from serum. HBV DNA could be purified from 24 serum samples in 1.5 to 2 h and was recovered in the initial reaction vessel. Both procedures have in common that HBV DNA is complexed with silica particles in the chaotropic agent guanidinium thiocyanate (GuSCN) but differ in lysis conditions and in the conditions used to elute HBV DNA from the silica particles after purification of the silica-DNA complexes. In one procedure (protocol H), serum HBV lysis was mediated by sodium dodecyl sulfate-proteinase treatment and HBV DNA was subsequently complexed with silica particles in the presence of GuSCN. After washing and drying of the silica-DNA complexes, HBV DNA was eluted from the silica particles in a low-salt buffer. In the other procedure (protocol Y*), serum HBV was directly lysed in GuSCN and HBV DNA was simultaneously complexed with silica particles. After washing and drying of the complexes, HBV DNA was eluted by proteinase treatment in low-salt buffer. Omission of proteinase treatment prevented efficient elution, presumably because of copurification of the protein which is covalently bound to the HBV DNA genome. We show, by Southern blot analysis, that HBV DNA could be reproducibly purified from human serum with the same yields by either procedure (30 to 50% relative to a classic procedure) and apparently independent of serum composition. HBV DNA purified by either method was a good substrate in the polymerase chain reaction compared with DNA purified by the classic procedure.(ABSTRACT TRUNCATED AT 250 WORDS)

Host cell protein dynamics in the supernatant of a mAb producing CHO cell line.

Abstract: The characterization of host cell protein (HCP) content during the production of therapeutic recombinant proteins is an important aspect in the drug development process. Despite this, key components of the HCP profile and how this changes with processing has not been fully investigated. Here we have investigated the supernatant HCP profile at different times throughout culture of a null and model GS-CHO monoclonal antibody producing mammalian cell line grown in fed-batch mode. Using 2D-PAGE and LC-MS/MS we identify a number of intracellular proteins (e.g., protein disulfide isomerise; elongation factor 2; calreticulin) that show a significant change in abundance relative to the general increase in HCP concentration observed with progression of culture. Those HCPs that showed a significant change in abundance across the culture above the general increase were dependent on the cell line examined. Further, our data suggests that the majority of HCPs in the supernatant of the cell lines investigated here arise through lysis or breakage of cells, associated with loss in viability, and are not present due to the secretion of protein material from within the cell. SELDI-TOF and principal components analysis were also investigated to enable rapid monitoring of changes in the HCP profile. SELDI-TOF analysis showed the same trends in the HCP profile as observed by 2D-PAGE analysis and highlighted biomarkers that could be used for process monitoring. These data further our understanding of the relationship between the HCP profile and cell viability and may ultimately enable a more directed development of purification strategies and the development of cell lines based upon their HCP profile.

Release of DNA into the medium by competent Streptococcus pneumoniae: kinetics, mechanism and stability of the liberated DNA

Abstract: The release of chromosomal DNA into culture media has been reported for several naturally transformable bacterial species, but a direct link between competence development and the liberation of DNA is generally lacking. Based on the analysis of strains with mutations in competence-regulatory genes and the use of conditions favouring or preventing competence, we provide evidence that DNA release is triggered by the induction of competence in Streptococcus pneumoniae. Kinetic analyses revealed that whereas competence was maximal 20 min after addition of competence-stimulating peptide, and then decreased, the amount of liberated DNA continued to increase and reached a maximum in stationary phase, when cells are no longer competent for DNA uptake. These data are not consistent with the proposal that release of DNA by a fraction of the population is coordinated with uptake by the remainder. Moreover, we observed that an unidentified DNase was specifically induced or released in competent cultures, and that together with the major pneumococcal endonuclease, EndA, it could degrade released DNA. Nearby complete abolition of release in a mutant lacking both the major autolysin, LytA, and the autolytic lysozyme, LytC, indicated that DNA liberation occurs by LytA-LytC-dependent cell lysis. These observations suggest that competence-dependent DNA release is one facet of a more general phenomenon of sensitization to autolysis that reaches its maximum in stationary phase.