WHAT IS PRODUCED
- Glucose was detected in the cellobiose grown culture, but not in cellulose-grown cultures, suggesting that cellobiose is hydrolyzed extracellularly rather than being directly assimilated, and that cellulose may not be degraded via cellobiose. Also, cellobiose-based cultures caused greater acidification of the medium than glucose or cellulose grown cultures.
- C. hutchinsonii produces and releases slimy substances when cultured in liquid, making the medium viscous. Slime production in C. johnsonii was reported to increase with culture maturity [Follett & Webley 1965]. The slime is reported to consist of polysaccharides composed of glucose, mannose, arabinose, xylose and glucuronic acid residues [Martin et al. 1968].
- Cells in cellobiose-DSM3T medium might hydrolyze cellobiose first, releasing glucose, and then use glucose for growth. This suggested that cellobiose was not assimilated directly by cells. But the cells can't turn cellulose into cellobiose.
Hexoses and pentose accumulated slowly in cellulose (filter paper) culture
liquid cultures:
Cells were cultured in 100 ml DSM3T medium supplemented with 0.5 g filter paper, 0.5 g glucose, 1.0 g cellobiose or 0.2 g avicel. All cultures were incubated at 28 ºC, 100 rpm. Optical density (600 nm) was measured (Figure 3-2). Lag phase on filter paper was about 3 days, on glucose about 6 days and on cellobiose about 7 days.
The pH values of all cultures were measured at the beginning and end. The pH was about 7.2 at the beginning for all four carbon sources. At the end of the experiment pH values were: filter paper 8.33 ± 0.05 (mean ± SE), glucose 7.97 ± 0.12, cellobiose 5.77 ± 0.23 and avicel 7.78 ± 0.04.
GROWTH
Cell growth with filter paper was observed after 3 or 4 days as translucent yellow areas on the filter paper strips.
for liquid culture:
The maximum cell density achieved on filter paper was much lower than that seen with glucose. The growth in filter paper cultures gradually increased from day 3 and stabilized after day 9 at OD.
HOW TO MEASURE
- Colorimetric assays for metabolic product determination: Colorimetric assays are widely used for quantification of monosaccharides, deoxy-sugars and uronic acids. The general concept is based on forming furfural or related chemicals in strong acids, sometimes with heating
high-performance liquid chromatography (HPLC)
CO-CULTURES?
EPS from C. hutchinsonii could be utilized by Bacillus subtilis and maintained growth of B. subtilis in a mixed culture with cellulose as sole carbon source.
if we want it to make glucose for e coli to use, and we want to start with cellulose instead of cellobiose, we may wanna consider pairing it with a microbe that can turn cellulose into cellobiose.
Some Other Details:
CELLULOSE DEGRADING
- C. hutchinsonii is capable of completely degrading crystalline cellulose
- almost 70 % of CMCase (carboxymethyl cellulose) activities were in the periplasm of C. hutchinsonii
- Direct adhesion is needed for C. hutchinsonii to hydrolyze cellulose, but no obvious encoded protein has been found relating to adhesion [Xie et al. 2007].
MANIPULATION
Insertion of plasmids directly to C. hutchinsonii has been reported by Xu et al. (2011). McBride and Baker (1996) have reported transformation of C hutchinsonii by conjugation.
CULTURE
Mineral salt related media are
suitable for isolation of C. hutchinsonii. Colonies on filter paper are large, spreading and bright yellow, the center soon becoming translucent and somewhat slimy.
Colonies on glucose mineral agar are bright yellow, more or less compact to slightly spreading, with an entire or wavy edge and moderately raised to flat [Larkin 1989].
In liquid media with cellulose or glucose, slime may be produced, making the culture viscous and harvesting difficult. Diethyleneglycol is reported to be a good solvent for slime isolation [Verma & Martin 1967]. C. hutchinsonii can use peptone, yeast extract, several amino acids, nitrate and ammonium as nitrogen source. Cellulose [McBride & Baker 1996, Walker & Warren 1938], CMC [Louime et al. 2006],
cellodextrin [Zhu et al. 2010], cellobiose, or glucose can be used as sole carbon
source [Larkin 1989].
The mineral medium used for C. hutchinsonii culture was modified from
Dubos Salts Medium [Atlas 2010]. Cells were cultured on DSM3T agar plates
(Appendix I) supplemented with carbon sources: 0.2 g glucose, 0.2 g cellobiose or
0.2 g filter paper strip. The plates were incubated at 30 ºC and checked daily. For
liquid cultures, cells were cultured in 100 ml of DSM3T medium (Appendix I)
incubated at 28 ºC, shaking at 100 rpm for 14 days supplemented with carbon source:
0.5 g filter paper, 0.5 g glucose or 1.0 g cellobiose.