초록
<P><B>Background</B></P><P><I>Aspergillus niger</I> was selected as a host for producing itaconic acid due to its versatile and tolerant character in various growth environments, and its extremely high capacity of accumulating the precursor of itaconic acid: citric acid. Expressing the CAD gene from <I>Aspergillus terreus</I> opened the metabolic pathway towards itaconic acid in <I>A. niger</I>. In order to increase the production level, we continued by modifying its genome and optimizing cultivation media.</P><P><B>Results</B></P><P>Based on the results of previous transcriptomics studies and research from other groups, two genes : <I>gpdA</I> encoding the glyceraldehyde −3-dehydrogenase (GPD) and <I>hbd1</I> encoding a flavohemoglobin domain (HBD) were overexpressed in <I>A. niger</I>. Besides, new media were designed based on a reference medium for <I>A. terreus</I>. To analyze large numbers of cultures, we developed an approach for screening both fungal transformants and various media in 96-well micro-titer plates. The <I>hbd1</I> transformants (HBD 2.2/2.5) did not improve itaconic acid titer while the <I>gpdA</I> transformant (GPD 4.3) decreased the itaconic acid production. Using 20 different media, copper was discovered to have a positive influence on itaconic acid production. Effects observed in the micro-titer plate screening were confirmed in controlled batch fermentation.</P><P><B>Conclusions</B></P><P>The performance of <I>gpdA</I> and <I>hbd1</I> transformants was found not to be beneficial for itaconic acid production using the tested cultivation conditions. Medium optimization showed that, copper was positively correlated with improved itaconic acid production. Interestingly, the optimal conditions for itaconic acid clearly differ from conditions optimal for citric- and oxalic acid production.</P>