This title appears in the Scientific Report : 2014 

Beyond growth rate 0.6: What drives Corynebacterium glutamicum to higher growth rates in defined medium
Unthan, Simon (Corresponding author)
Grünberger, Alexander / van Ooyen, Jan / Gätgens, Jochem / Heinrich, Johanna / Paczia, Nicole / Wiechert, Wolfgang / Kohlheyer, Dietrich / Noack, Stephan (Corresponding Author)
Biotechnologie; IBG-1
Biotechnology & bioengineering, 111 (2014) 2, S. 359–371
New York, NY [u.a.] Wiley 2014
10.1002/bit.25103
Journal Article
ohne Topic
Please use the identifier: http://dx.doi.org/10.1002/bit.25103 in citations.
In a former study we showed that Corynebacterium glutamicum grows much faster in defined CGXII glucose medium when growth was initiated in highly diluted environments [Grünberger et al. (2013b) Biotechnol Bioeng]. Here we studied the batch growth of C. glutamicum in CGXII at a comparable low starting biomass concentration of OD ≈ 0.005 in more detail. During bioreactor cultivations a bi-phasic growth behavior with changing growth rates was observed. Initially the culture grew with inline image before the growth rate dropped to inline image. We were able to confirm the elevated growth rate for C. glutamicum in CGXII and showed for the first time a growth rate beyond 0.6 in lab-scale bioreactor cultivations on defined medium. Advanced growth studies combining well-designed bioreactor and microfluidic single-cell cultivations (MSCC) with quantitative transcriptomics, metabolomics and integrative in silico analysis revealed protocatechuic acid as a hidden co-substrate for accelerated growth within CGXII. The presented approach proves the general applicability of MSCC to investigate and validate the effect of single medium components on microorganism growth during cultivation in liquid media, and therefore might be of interest for any kind of basic growth study