Breaking Down Stubborn Cellulose In Time Lapse

The plant component cellulose is an extremely resistant, water-insoluble polymer that is difficult to break down. This makes them efficient and sustainable use of plant biomass in biorefineries more difficult.

Cellulose Fibers

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Only when there are sustainable and cost-efficient approaches for the degradation of cellulose will we start to produce fuels, chemicals, and materials on a large scale from plant biomass,"

Bernd Nidetzky, Institute of Biotechnology and Biochemical Engineering, TU Graz

Cellulose degradation in nature

In nature, the biological breakdown of cellulose occurs either through cellulases or through cellulosomes.

Cellulases are enzymes that differ in their specificity and mode of action and are synergistically involved in the degradation of cellulose from woody plants such as trees or shrubs.

Although individual cellulases may be located in close proximity to each other, they are individual, physically independent units.

A cellulosome, on the other hand, is a protein complex, an ordered and physically interconnected collection of enzymes necessary for cellulose degradation.

Bernd Nidetzky and his team have set themselves the task of better understanding and visualizing cellulosomes as essentially cellulose-degrading biological nanomachines. The researchers have now taken a decisive step towards this goal in an Austrian Science Fund (FWF) supported the project.

They were able to visualize a cellulosome at the single-molecule level during cellulose degradation by means of time-lapse atomic force microscopy and thus gain insights into its mode of operation. The results have been published in the journal ACS Central Science.

Nanomachines at work

In concrete terms, the researchers document the degradation of cellulose using a cellulosome from the bacterium Clostridium thermocellum.

It is shown that the cellulosome dynamically adapts to the different surface conditions of the cellulose.

"When binding to cellulose, the cellulosome switches to elongated, even thread-like forms and morphs them dynamically on a time scale of less than one minute according to the requirements of the attacked cellulose surface. Compared to cellulases, which detach material when sliding along crystalline cellulose surfaces, cellulosomes remain locally bound for minutes and remove the underlying material.

The consequent roughening of the surface leads to efficient degradation of cellulose nanocrystals," explains Bernd Nidetzky.

Outlook for biorefineries

Our analyses prove that cellulosomes are extremely efficient in breaking down cellulose. They could, therefore, play a central role in the development of new approaches for biorefineries,"

Nidetzky

By exploiting the different mechanisms of action of enzyme complexes in the form of a cellulosome and free enzymes, cellulose degradation can be carried out faster, more completely, and with less enzyme requirement.

The synergies between the degradation mechanisms of cellulase and cellulosomes could thus help in the design of hybrid cellulase systems and provide new perspectives for applications in biorefineries.

Journal reference:

Eibinger, Manuel; Ganner, Thomas; Plank, Harald; Nidetzky, Bernd: A biological nanomachine at work: watching the cellulosome degrade crystalline cellulose. ACS Central Science, 2020. DOI: 10.1021/acscentsci.0c00050

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