Development of a droplet digital PCR for pertussis toxin locus copy number determination in a genetically-modified Bordetella pertussis strain.

To improve pertussis toxin (PT) yield in B. pertussis strains for vaccine production a genetically-engineered strain (gdPT 191-134 strain) with a second copy of the genetically detoxified PT (gdPT) locus was developed. The consistency of the production and genetic stability of the strain when used for vaccine production must be established.

Deep longitudinal multi-omics analysis of cultivated in bioreactors highlights medium starvations and transitory metabolisms, associated to vaccine antigen biosynthesis variations and global virulence regulation.

is the bacterial causative agent of whooping cough, a serious respiratory illness. An extensive knowledge on its virulence regulation and metabolism is a key factor to ensure pertussis vaccine manufacturing process robustness. The aim of this study was to refine our comprehension of .

Regulation of Neurotoxin Expression by Culture Conditions.

Background: Ensuring consistency of tetanus neurotoxin (TeNT) production by could help to ensure consistent product quality in tetanus vaccine manufacturing, ultimately contributing to reduced animal testing. The aim of this study was to identify RNA signatures related to consistent TeNT production using standard and non-standard culture conditions.

Methods: We applied RNA sequencing (RNA-Seq) to study gene expression in small-scale batches under several culture conditions.

Development and validation of a targeted LC-MS/MS quantitation method to monitor cell culture expression of tetanus neurotoxin during vaccine production.

The tetanus neurotoxin (TeNT) is one of the most toxic proteins known to man, which prior to the use of the vaccine against the TeNT producing bacteria Clostridium tetani, resulted in a 20% mortality rate upon infection. The clinical detrimental effects of tetanus have decreased immensely since the introduction of global vaccination programs, which depend on sustainable vaccine production. One of the major critical points in the manufacturing of these vaccines is the stable and reproducible production of high levels of toxin by the bacterial seed strains.

Multiplex reverse transcriptase droplet digital PCR for the simultaneous quantification of four dengue serotypes: Proof of concept study.

During vaccine production, RNA from chimeric yellow fever-dengue (CYD) vaccine viruses (CYD1, CYD2, CYD3 and CYD4) is currently quantified using separate serotype-specific RT-qPCR assays. Here we describe the results from a proof-of-concept study on the development of a multiplex reverse transcriptase droplet digital PCR (RT-ddPCR) assay for simultaneous quantification of RNA for all four viruses. Serotype-specific simplex RT-ddPCRs were developed using the serotype-specific PCR systems (forward and reverse primers and FAM (fluorescent chromophores 6-carboxyfluorescein) and YY (Yakima Yellow)-labelled probes), used in the routine RT-qPCR.