초록
<P><B>Abstract</B></P> <P>Optimization of media composition for microbial growth is crucial particularly in industrial processes to obtain the desired end product. The waste from sea food industries includes the non-edible parts of shrimp, crabs and prawns which are rich in chitin as the major cause of pollution in coastal areas. Chitin degradation is carried out chemically. It can be degraded biologically also, particularly using microorganisms resulting in chitooligosaccahrides and the monomer <I>N</I>-acetylglucosamine. <I>N</I>-acetyl glucosamine and related chitooligosaccahrides have various applications such as treatment of cancer and metastasis, treatment of autoimmune reactions, as food supplements and increased plant stress tolerance against salinity and heavy metals. Thus, chitin waste can be efficiently degraded biologically using microorganisms to produce such useful products. Conventional methods such as One factor at a time (OFAT) are more time consuming and costly to address the problem. The current work focuses on the development of an experimental design to ascertain parameters optimized for chitin degradation by a <I>Streptomyces chilikensis</I> to produce various chitooligosaccharides. More than one factor was taken at a time to carry out the experiments and the data were fit into Taguchi Design to determine the contribution of the most important factors responsible for the production of the desired end product that is NAG and other chitooligosaccaharides. Highest NAG production (3741 μM/reaction) was observed in a media that contains 0.5% Raffinose (w/v), 0.5% peptone (w/v), 2.5% NaCl at pH 11.</P>