Michael Gottschalk

Characterization and expression of a genomic pectin methyl esterase-encoding gene in Aspergillus niger

The genomic pectin methylesterase (PME)-encoding gene (pmeA) from Aspergillus niger strain RH5344 was cloned by probing a genomic DNA library with a cDNA coding for PME. The recombinant phage clone was isolated and a 6-kb HindIII fragment was subcloned and characterized. The gene consists of seven exons and six introns. The nucleotide sequences of the coding regions were identical to those found in the pmeA cDNA. Cotransformation of A. niger was achieved with the vector, pAN7-1, and transformants were then tested for PME production. Transformants which produced more PME than the untransformed recipient strain were subjected to Southern-blot and Northern-blot analysis. The results show that there is a reasonable correlation between gene copy number, mRNA levels and PME production. PME was produced by A. niger transformants in an active 43-kDa form, which is similar to that of the mature protein isolated from the strain, RH5344. On the basis of the results of affinity labeling of PME with sugar-specific lectins and the amino acid sequence data, it has been revealed that PME is a glycoprotein and the protein-bound glycans are oligosaccharides with a high mannose content.

Characterization of a polygalacturonase gene of Aspergillus niger RH5344

We have cloned a gene encoding a polygalacturonase (PG) in the filamentous fungus Aspergillus niger RH5344. The structural gene comprises 1141 bp codIng for 362 amino acids and the open reading frame is disrupted by one intron of 52 bp. Eukaryotic consensus sequences for transcription regulation are found only in deviated forms. The biological functionality of the isolated PG gene was established by retransformation in A. niger and Aspergillus awamori. In addition, we have found that the PG protein of A. niger shares significant similarities with PG proteins from tomato and Erwinia carotovora. Comparison of the three enzymes revealed a highly conserved region in their C‐terminal region probably comprising the elements of substrate binding and the catalytic centre.

Cloning and DNA sequence analysis of a polygalacturonase cDNA from Aspergillus niger RH5344

A 1319 bp long cDNA encoding for a polygalacturonase (EC 3.2.1.15) from Aspergillus niger RH5344 comprises a single open reading frame of 1089 bp which includes the mature protein of 362 amino acids and an NH2-terminal signal peptide of 27 amino acids. The directly determined peptides of the mature polygalacturonase confirmed the sequence information deduced from the cDNA.

Effects of promoters on the enhancement of pectin methyl esterase expression in Aspergillus niger.

SummaryA pectin methylesterase-encoding gene (pmeA)_has been cloned and transformed intoA. niger wild-type NRRL3. Transformants produced 20-fold more PME than the host strain. For studying the effects of different promoters on thepmeA expression two novel plasmids were constructed, in which thepmeA promoter was replaced by efficient promoters such as theA. nidulans glyceraldehyde-3-phosphate dehydrogenase (pK45) or theA. oryzae α-amylase (pK61) promoter. The highest level of PME expression was achieved with theA. oryzae α-amylase promoter, reaching a 200-fold increase compared to the production by the host strain.