Crystalline cellulose nanofibers and biomass fuel

Perhaps one day the researchers who work with cellulose at the nanoscale will agree to some kind of terminology. Unfortunately, that day does not seem to be scheduled for the near future as per the latest research from Los Alamos National Laboratory and the Great Lakes Bioenergy Research Center (GLBRC) in the June 19, 2013 news item on ScienceDaily,

Improved methods for breaking down cellulose nanofibers are central to cost-effective biofuel production and the subject of new research from Los Alamos National Laboratory (LANL) and the Great Lakes Bioenergy Research Center (GLBRC). Scientists are investigating the unique properties of crystalline cellulose nanofibers to develop novel chemical pretreatments and designer enzymes for biofuel production from cellulosic — or non-food — plant derived biomass.

“Cellulose is laid out in plant cell walls as crystalline nanofibers, like steel reinforcements embedded in concrete columns,” says GLBRC’s Shishir Chundawat. “The key to cheaper biofuel production is to unravel these tightly packed nanofibers more efficiently into soluble sugars using fewer enzymes.”

The June 19, 2013 Los Alamos National Laboratory news release, which originated the news item, explains the new technique in more detail,

An article published this week in the Proceedings of the National Academy of Sciences suggests—counter-intuitively—that increased binding of enzymes to cellulose polymers doesn’t always lead to faster breakdown into simple sugars. In fact, Chundawat’s research team found that using novel biomass pretreatments to convert cellulose to a unique crystalline structure called cellulose III reduced native enzyme binding while increasing sugar yields by as much as five times.

The researchers had previously demonstrated that altering the crystal structure of native cellulose to cellulose III accelerates enzymatic deconstruction; however, the recent observation that cellulose III increased sugar yields with reduced levels of bound enzyme was unexpected. To explain this finding, Chundawat and a team of LANL researchers led by Gnana Gnanakaran and Anurag Sethi developed a mechanistic kinetic model indicating that the relationship between enzyme affinity for cellulose and catalytic efficiency is more complex than previously thought.

Cellulose III was found to have a less sticky surface that makes it harder for native enzymes to get stuck non-productively on it, unlike untreated cellulose surfaces. The model further predicts that the enhanced enzyme activity, despite reduced binding, is due to the relative ease with which enzymes are able to pull out individual cellulose III chains from the pretreated nanofiber surface and then break them apart into simple sugars.

“These findings are exciting because they may catalyze future development of novel engineered enzymes that are further tailored for conversion of cellulose III rich pretreated biomass to cheaper fuels and other useful compounds that are currently derived from non-renewable fossil fuels,” says Gnanakaran.

Here’s a link to and a citation for the published paper,

Increased enzyme binding to substrate is not necessary for more efficient cellulose hydrolysis by Dahai Gaoa, Shishir P. S. Chundawat, Anurag Sethic, Venkatesh Balana, S. Gnanakaranc, and Bruce E. Dalea. Published online before print June 19, 2013, doi: 10.1073/pnas.1213426110
PNAS June 19, 2013

There is open access to the article (I’m not sure if this is permanent or temporary).

As I hinted at the beginning of this piece, there are a number of terms used to describe cellulose at the nanoscale. For example, there’s nanocrystalline cellulose (NCC) which is also known as cellulose nanocrystals (CNC); this second term now seems to be preferred. My latest writing on nanocellulose, which seems to be a generic term covering all of the versions cellulose at the nanoscale is in a May 21, 2013 posting about some nanotoxicology studies and in a May 7, 2013 posting about a Saskatchewan-based (Canada) biorefinery (Blue Goose Biorefinery) and its production of CNC.

There are many more here on the topic and, if you’re interested, you may want to try CelluForce, FPInnovations, CNC, and/or NCC, as well as, nanocellulose or cellulose, as blog search terms.

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