Synthesis of 3,3-Disubstituted Allyl Isoindolinones via Pd-Catalyzed Decarboxylative Allylic Alkylation.

Herein, we report a mild palladium-catalyzed decarboxylative allylic alkylation of allyl ester-substituted isoindolinone substrates to afford a variety of 3,3-disubstituted isoindolinone derivatives. The decarboxylative coupling reaction tolerates a range of functional groups, including ketones and alkenyl halides, and does not require protection of the isoindolinone nitrogen. Additionally, the reaction was found to proceed in near-quantitative yield for most substrates evaluated.

A platform for context-specific genetic engineering of recombinant protein production by CHO cells.

An increasing number of engineered therapeutic recombinant proteins with unpredictable manufacturability are currently filling industrial cell line development pipelines. These proteins can be "difficult-to-express" (DTE) in that production of a sufficient quantity of correctly processed recombinant product by engineered mammalian cells is difficult to achieve. In these circumstances, identification of appropriate cell engineering strategies to increase yield is difficult as constraints are cell line and product-specific.

Whole synthetic pathway engineering of recombinant protein production.

The output from protein biomanufacturing systems is a function of total host cell biomass synthetic capacity and recombinant protein production per unit cell biomass. In this study, we describe how these two properties can be simultaneously optimized via design of a product-specific combination of synthetic DNA parts to maximize flux through the protein synthetic pathway and the use of a host cell chassis with an increased capability to synthesize both cell and product biomass. Using secreted alkaline phosphatase (SEAP) production in Chinese hamster ovary cells as our example, we demonstrate how an optimal composition of input components can be assembled from a minimal toolbox containing rationally designed promoters, untranslated regions, signal peptides, product coding sequences, cell chassis, and genetic effectors.

Control of amino acid transport into Chinese hamster ovary cells.

Amino acid transporters (AATs) represent a key interface between the cell and its environment, critical for all cellular processes: Energy generation, redox control, and synthesis of cell and product biomass. However, very little is known about the activity of different functional classes of AATs in Chinese hamster ovary (CHO) cells, how they support cell growth and productivity, and the potential for engineering their activity and/or the composition of amino acids in growth media to improve CHO cell performance in vitro. In this study, we have comparatively characterized AAT expression in untransfected and monoclonal antibody (MAb)-producing CHO cells using transcriptome analysis by RNA-seq, and mechanistically dissected AAT function using a variety of transporter-specific chemical inhibitors, comparing their effect on cell proliferation, recombinant protein production, and amino acid transport.

Domiciliary midwifery support in high-risk pregnancy incorporating telephonic fetal heart rate monitoring: a health technology randomized assessment.

We conducted a health technology assessment of the care of women with high-risk pregnancies in the South Wales valleys. Women in the control arm were intended to receive conventional care with standard midwifery visits. Women in the intervention arm received additional or longer visits and domiciliary fetal heart rate telemonitoring.

Improvements in performance without nicotine withdrawal.

Two tests were made of the withdrawal-relief explanation of the improvements in performance obtained with smoking. Study 1 examined the extent to which abstinence from smoking produced poorer performance in smokers in comparison with non-smokers. No evidence was obtained of differences in performance in smokers who were deprived of cigarettes for 10 h and non-smokers.