Agrobacterium tumefaciens-mediated transformation of the violet root-rot fungus, Helicobasidium mompa, and the effect of activated carbon

Harnessing Nature's Anaerobes for Biotechnology and Bioprocessing

Industrial biotechnology has the potential to decrease our reliance on petroleum for fuel and bio-based chemical production and also enable valorization of waste streams. Anaerobic microorganisms thrive in resource-limited environments and offer an array of novel bioactivities in this regard that could revolutionize biomanufacturing. However, they have not been adopted for widespread industrial use owing to their strict growth requirements, limited number of available strains, difficulty in scale-up, and genetic intractability. This review provides an overview of current and future uses for anaerobes in biotechnology and bioprocessing in the postgenomic era. We focus on the recently characterized anaerobic fungi (Neocallimastigomycota) native to the digestive tract of large herbivores, which possess a trove of enzymes, pathways, transporters, and other biomolecules that can be harnessed for numerous biotechnological applications. Resolving current genetic intractability, scale-up, and cultivation challenges will unlock the potential of these lignocellulolytic fungi and other nonmodel micro-organisms to accelerate bio-based production.

Cloning and characterization of the gene for the iron-sulfur subunit of succinate dehydrogenase from the violet root rot fungus, Helicobasidium mompa

The sdhB gene, encoding the iron-sulfur protein (Ip) subunit of succinate dehydrogenase (Sdh, EC 1.3.99.1), has been cloned from the violet root rot fungus, Helicobasidium mompa, and characterized. The promoter region contains a CCAAT box, TATA-like box, and CT-rich region. The gene is interrupted by eight introns and is predicted to encode a polypeptide of 291 amino acid residues. The putative amino acid sequence of the encoded product of sdhB gene from H. mompa shows high homology to the other known sdhB genes and is 79% identical to the Ip subunit of SdhB of Uromyces fabae. Three cysteine-rich clusters associated with the iron-sulfur centers involved in electron transport were particularly well conserved. One of these clusters contains a critical histidine residue implicated in carboxin sensitivity in the basidiomycetes. Only one copy of the gene was present in the genome of H. mompa, and reverse transcription (RT)-PCR analysis of mRNA expression showed that the sdhB gene was transcribed in potato dextrose broth.