The Promise and Challenge of Integrating Multidisciplinary and Civically Engaged Learning.

Today's students need to become specialists in their profession while also recognizing the blinders that specialization brings- they need both disciplinary and meta-disciplinary learning. Today's universities need to innovate by providing an education responsive to contemporary demands. They also need to show their relevance to the broader publics they serve. This article critically assesses a teaching initiative that brings together existing courses from multiple disciplines working for publicoriented clients to collaborate on closely related problems. The Michigan Engaging Community through the Classroom initiative was designed to enhance students' learning by making them smarter, more pragmatic, and wiser while simultaneously enhancing the university's public service. This article assesses the promise and the challenges of such a complex initiative and summarizes preliminary findings from student and community partner evaluations. The initiative has been challenging to implement because of the faculty dedication it requires. Developing robust evaluations of student learning has proven difficult as well. We have found that when student, faculty, and partner expectations are raised but not fulfilled, frustrations run high. When coordination and collaboration align, however, student learning can be enriched and public service enhanced. The article concludes by discussing lessons learned and presenting models of collaboration developed in turn.

Medium chain length polyhydroxyalkanoates biosynthesis in Pseudomonas putida mt-2 is enhanced by co-metabolism of glycerol/octanoate or fatty acids mixtures.

The synthesis of medium chain length polyhydroxyalkanoates (mcl-PHAs) by Pseudomonas putida mt-2 was investigated under nitrogen-rich then deficient conditions with glycerol/octanoate or long-chain fatty acids (LCFAs) as carbon sources. When mixed, glycerol and octanoate were co-assimilated regardless of nitrogen availability but provided that glycerol uptake has been already triggered under non-limiting nutrient conditions. This concomitant consumption allowed to enhance mcl-PHAs accumulation (up to 57% of cell dry weight (CDW)) under both non-limiting and nitrogen deficient conditions. Octanoate then mostly drove anabolism of the polyester with 3-hydroxyoctanoate (3HO) synthesized as the main monomer (83%). If the preferred PHA precursor octanoate was supplied, glycerol was mainly involved in cell growth and/or maintenance but very little in PHA production even under nitrogen starvation. P. putida cells accumulated higher amounts of mcl-PHAs when grown on mixtures of LCFAs compared to LCFAs supplied as single substrate (25% and 9% of CDW, respectively). However, only a weak enrichment of the polyester was observed after transfer of cells in a fresh nitrogen-free medium containing the same combination of LCFAs. Some typical units within the polyester were related to the LCFAs ratio supplied in the medium indicating that tailor-made monomers could be synthesized.

Impact of carbon source and variable nitrogen conditions on bacterial biosynthesis of polyhydroxyalkanoates: evidence of an atypical metabolism in Bacillus megaterium DSM 509.

Twenty bacterial strains were examined on their ability to produce polyhydroxyalkanoates (PHA) from different carbon sources under rich and depleted nitrogen conditions. Preliminary experiments with glucose as sole carbon source allowed to select PHA producing bacteria using FTIR spectroscopy. They were further tested with eight additional carbon substrates including organic, fatty acids or sugars. PHA content and monomer composition of four chosen strains (Pseudomonas putida mt-2, Bacillus megaterium DSM 90 and DSM 509, Corynebacterium glutamicum DSM 20137) were assessed by gas chromatography techniques for two cultural conditions: during growth phase on a mineral medium (MM) and after transfer of cells on a fresh MM without nitrogen (MM-N). For several carbon substrates, substantial amounts of PHA (up to 53% of the cell dry weight: CDW) were already obtained in MM for C. glutamicum DSM 20137 and the two B. megaterium strains; after transfer in MM-N, PHA contents remained constant except for B. megaterium DSM 509 where PHA production increased whatever the carbon source. P. putida mt-2 synthesized PHA under deprived nitrogen conditions. Highest PHA accumulation reached 48 and 77% of CDW with octanoic acid as substrate in B. megaterium DSM 90 and P. putida mt-2, respectively. Surprisingly, an atypical metabolic shift was observed for B. megaterium DSM 509 cultivated with nearly all unrelated carbon sources: whereas short chain length PHA (scl-PHA) were synthesized in MM, medium chain length PHA (mcl-PHA) were produced after transfer of cells into MM-N supplemented with the same substrate.