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Motile and cellulose degrading bacteria used for solid state cellulose hydrolysis
by Staff Writers
Washington DC (SPX) Aug 05, 2015


Two colonies of Paenibacillus vortex are shown. White round structures at the edges of the colony called the vortices and are responsible for cargo carriage. The colors were inverted for better contrast. Scale bar -9mm. (b) Schematic presentation of P. vortex and E. coli collaboration. P. vortex can move on solid surfaces, carry E. coli while E. coli contributes its cellulases. During the collaboration, the underlying colony of P. vortex is constantly moving on the solid surface (plant biomass) that contains cellulose. The consortium allows microorganism distribution and multi-enzymatic biomass hydrolysis. The E. coli cells (with pCellulose plasmid) are transported by P. vortex. During the transport, E. coli degrades cellulose into monomers and dimers, making it available for uptake by both microorganisms. Image courtesy TECHNOLOGY journal. For larger version of this image please go here.

Cellulose hydrolysis has many industrial applications in such fields as biofuel production, food, paper, cosmetic, pharmaceutical industries and textile manufacture. A novel approach to cellulose hydrolysis using a consortium of motile bacteria moving on solid surfaces and carrying microbial lug-gage - another bacteria that can efficiently hydrolyze cellulose, was demonstrated by the group of Professor Eshel Ben- Jacob (R.I.P) from Tel Aviv University.

Cellulose is the most abundant polysaccharide on earth, however, it is also one of the hardest to hydrolyze. Currently, the conversion of cellulosic materials to renewable energy includes either chemical or biological hydrolysis followed by fermentation of sugars to ethanol/butanol. Utility cost of biological- enzymatic hydrolysis is low compared to chemical hydrolysis since it is usually conducted at mild conditions and does not have a corrosion problem.

Biological hydrolysis is usually carried out in liquid. However, Solid State hydrolysis is financially feasible due to lower capital investment and lower operating expenses. Most cellulolytic bacteria are anaerobes with a very low growth rate and low enzyme titers.

Current research utilized a recombinant strain of E. coli, aerobic bacteria with high growth rate and enzyme titers. The E. coli contains :A-glucosidase and cellulase genes (on pCellulose plasmid constructed in the lab of Prof. Jay Keasling). The un-motile E. coli was shown to efficiently degrade cellulose both in liquid and solid mediums.

The innovation of the approach is the use of the recombinant E. coli as a microbial luggage of another highly motile bacteria- Paenibacillus vortex. Paenibacillus vortex is known for its ability to swarm (coordinated migration on solid surfaces using flagella) and collaborate with other microorganisms by carrying them in specialized structures called vortices (Fig 1 a).

Thus, two bacterial species create a mutually beneficial consortium in which Paenibacillus vortex provides a motile force while the E. coli degrades cellulose into monomers and dimers, making it available for uptake by both microorganisms.

Moreover, Paenibacillus vortex has the ability to degrade xylan, thus contributing its own enzymes to the consortium making it even more effective for degradation of the plant material. Since Paenibacillus vortex has the ability to swarm on solid mediums it might be relevant to use the consortium in Solid State hydrolysis of plant materials such as crops leftovers.

This application of using crops needs more research, and, maybe, addition of other microorganisms relevant for fermentation. If it is be feasible it would allow easier and cheaper way to hydrolyze cellulose.


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