초록
<P><B>Abstract</B></P> <P>Chitins of different purity grades (45%, 89.7% and 93.3%) were efficiently extracted from <I>Bombyx eri</I> larva and fully physico-chemically characterized. Compared to commercially available and extracted α-chitin from shrimp shell, the collected data showed that insect chitins had similar characteristics in terms of crystallographic structures (α-chitin), thermal stability and degree of acetylation (>87%). The major differences lay in the crystallinity indexes (66% <I>vs</I> 75% for shrimp chitin) and in the morphological structures. Furthermore, low ash contents were determined for the insect chitins (1.90% <I>vs</I> 21.73% for shrimp chitin), making this chitin extraction and purification easier, which is highly valuable for an industrial application. Indeed, after only one step (deproteinization), the obtained chitin from <I>Bombyx eri</I> showed higher purity grade than the one extracted from shrimp shells under the same conditions. Insect chitins were then subjected to room temperature ionic liquid (RTIL) pretreatment prior to enzymatic degradation and presented a higher enzymatic digestibility compared to commercial one whatever their purity grade and would be thus a more relevant source for the selective production of <I>N</I>-acetyl-D-glucosamine (899.2 mg/g of <B>chitin-2 steps</B> <I>vs</I> 760 mg/g of <B>chitin com</B>). Moreover, for the first time, the fermentescibility of chitin hydrolysates was demonstrated with <I>Scheffersomyces stipitis</I> used as ethanologenic microorganism.</P> <P><B>Highlights</B></P> <P> <UL> <LI> Insect cuticles showed a lower mineral content (1.9%) compared to shrimp shells (21.73%). </LI> <LI> High purity insect chitin (89.7%) was obtained in only 1 step of extraction compared to the 2-steps shrimp chitin (<65%). </LI> <LI> Untreated chitins extracted from <I>Bombyx eri</I> larva, exhibit a better enzymatic digestibility in comparison to the commercially available chitin from shrimp shells. </LI> <LI> After [C<SUB>2</SUB>mim][OAc]-pretreatment, a very competitive yields of GlcNAc can be achieved by chitinase-catalyzed hydrolysis (899.2 mg/g of chitin). </LI> <LI> Fermentescibility of chitin hydrolysates with a natural wild-type yeast strain was demonstrated. </LI> <LI> Better enzymatic digestibility was observed with untreated insect chitin compared to commercially shrimp chitin </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>