几丁质资源生物降解和高值转化的研究进展

Chitin, a linear homo-polysaccharides composed of N-acetylglucosamine (GlcNAc) through β-1,4-glycosidic bonds, is the richest nitrogen containing biomass resource on earth, with an annual production of 10 billion tonnes. Chitin is widely distributed in nature, mainly found in the shells of shrimps and crabs, the exoskeletons of insects, and the cell walls of fungi. Due to its abundance and renewablity, especially the presence of the valuable nitrogen element, chitin receives widespread attention. However, the abundant hydrogen bonds in the structure of chitin and its huge molecular weight make it highly crystalline and insoluble in water, which leads to challenges in its degradation and high-value utilization. Thus, chitin resource is often discarded as wastes or buried, leading to serious environment issues and wasted resources. Conversion of abundant chitin resources into high value-added chemicals has both environmental and economic significance. Nowadays, the utilization of chitin resources is mainly done by efficient, low-cost chemical method, but causing huge environmental pollution. Compared with chemical method, the biological method shows great potential in the context of green and sustainable development due to the advantages of environmentally friendly process and mild reaction conditions. In this review, the sources and classifications, catalytic mechanisms and properties of key enzymes for chitin degradation are introduced. Secondly, the current status of chitin biodegradation to monosaccharides (GlcNAc and glucosamine) and oligosaccharides (N-acetyl chitooligosaccharides and chitooligosaccharides), and further bio-converted into nitrogen-containing chemicals are reviewed. Although many studies on enzymes involved in chitin degradation and conversion have been carried out with certain achievements, the diversity and complexity of these enzymes, coupled with the low activity and secretory nature and other factors, have hindered the real industrial chitin degradation and conversion. Consequently, the challenges in biodegradation and high-value conversion process of chitin such as low activity of enzyme, poor efficiency and high cost are highlighted. Finally, the important role of rapidly developing synthetic biology technologies in chitin utilization is envisaged, which will aid the efficient bio-refining of chitinous resources.