Cellulose synthesis by Komagataeibacter rhaeticus strain P 1463 isolated from Kombucha.

Isolate B17 from Kombucha was estimated to be an efficient producer of bacterial cellulose (BC). The isolate was deposited under the number P 1463 and identified as Komagataeibacter rhaeticus by comparing a generated amplified fragment length polymorphism (AFLP™) DNA fingerprint against a reference database. Static cultivation of the K.

Characterisation of films and nanopaper obtained from cellulose synthesised by acetic acid bacteria.

Bacterial cellulose (BC) samples were obtained using two culture media (glucose and glucose+fructose) and two bacteria (Komagataeibacter rhaeticus and Komagataeibacter hansenii). Nanopaper was obtained from the BC through oxidation and both were studied to determine the impact of culture media and bacteria strain on nanofiber structure and mechanical properties. AFM and SEM were used to investigate fibre dimensions and network morphology; FTIR and XRD to determine cellulose purity and crystallinity; carboxyl content, degree of polymerisation and zeta potential were used to characterise nanofibers.

Factors enhancing L-valine production by the growth-limited L-isoleucine auxotrophic strain Corynebacterium glutamicum DeltailvA DeltapanB ilvNM13 (pECKAilvBNC).

Cell growth limitation is known to be an important condition that enhances L: -valine synthesis in Corynebacterium glutamicum recombinant strains with L: -isoleucine auxotrophy. To identify whether it is the limited availability of L: -isoleucine itself or the L: -isoleucine limitation-induced rel-dependent ppGpp-mediated stringent response that is essential for the enhancement of L: -valine synthesis in growth-limited C. glutamicum cells, we deleted the rel gene, thereby constructing a relaxed (rel (-) ) C.

Lysine synthesis control in Corynebacterium glutamicum RC 115 in mixed substrate (glucose-acetate) medium.

The effect of acetate as a glucose co-substrate on growth, lysine synthesis and experimental lysine yield from carbon substrates by Corynebacterium glutamicum RC 115 was investigated. It was found that low amounts of acetate, injected with a glucose-acetate pulse into the steady-state continuous culture in bioreactor, caused a slight decrease in the specific rates of glucose uptake and bacterial growth, but a significant increase in the cell specific rate of lysine synthesis and an increase in lysine yield. In contrast, acetate injected in high amounts was followed by a drastic decrease in the values of these parameters.