Metabolic impact of heterologous protein production in Pseudomonas putida: Insights into carbon and energy flux control.

For engineered microorganisms, the production of heterologous proteins that are often useless to host cells represents a burden on resources, which have to be shared with normal cellular processes. Within a certain metabolic leeway, this competitive process has no impact on growth. However, once this leeway, or free capacity, is fully utilized, the extra load becomes a metabolic burden that inhibits cellular processes and triggers a broad cellular response, reducing cell growth and often hindering the production of heterologous proteins.

Targeting Transcriptional and Translational Hindrances in a Modular T7RNAP Expression System in Engineered .

The T7 RNA polymerase is considered one of the most popular tools for heterologous gene expression in the gold standard biotechnological host . However, the exploitation of this tool in other prospective hosts, such as the biotechnologically relevant bacterium , is still very scarce. The majority of the existing T7-based systems in show low expression strengths and possess only weak controllability.

Effects of organic matter and low oxygen on the mycobenthos in a coastal lagoon.

Fungi living in sediments ('mycobenthos') are hypothesized to play a role in the degradation of organic matter deposited at the land-sea interface, but the environmental factors influencing the mycobenthos are poorly understood. We used mock community calibrated Illumina sequencing to show that the mycobenthos community structure in a coastal lagoon was significantly changed after exposure to a lignocellulose extract and subsequent development of benthic anoxia over a relatively short (10 h) incubation. Saprotrophic taxa dominated and were selected for under benthic anoxia, specifically Aquamyces (Chytridiomycota) and Orbilia (Ascomycota), implicating these genera as important benthic saprotrophs.

A 16S rRNA gene sequencing and analysis protocol for the Illumina MiniSeq platform.

High-throughput sequencing of the 16S rRNA gene on the Illumina platform is commonly used to assess microbial diversity in environmental samples. The MiniSeq, Illumina's latest benchtop sequencer, enables more cost-efficient DNA sequencing relative to larger Illumina sequencing platforms (e.g.