Browsing by Author "Cowan, Don A."
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Item Analysis of ammonia-oxidizing bacteria associated with the roots of Proteaceae plant species in soils of Fynbos ecosystem(University of the Western Cape, 2005) Lako, Joseph; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceThe major objective of this study was to investigate soil ammonia-oxidizing bacterial diversity and composition associated with plant roots of Proteaceae plants and to compare it with non-plant associated soil.Item Characterisation of microbial communities associated with hypolithic environments in Antarctic Dry Valley soils(University of the Western Cape, 2008) Khan, Nuraan; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceThe Eastern Antarctic Dry Valley region is a polar desert, where conditions of extreme aridity, high temperature fluctuations and high irradiation levels make it one of the most extreme environments on earth. Despite the harsh environment, the soils in this region yield a wide range of bacterial and eukaryotic phylotypes in greater abundance than previously believed. In the Dry Valleys, highly localized niche communities colonise the underside of translucent quartz rocks and present macroscopic growth.Item Cloning, expression and characterisation of Amidase Genes from a psychrotolerant Nesterenkonia isolate(University of the Western Cape, 2009) Kwon, Hanna; Cowan, Don A.; Dept. of BiotechnologyA nitrile and amide hydrolysing Nesterenkonia sp. was isolated from Antarctic soil and was characterised as a psychrotolerant, halotolerant and alkaliphilic extremophile. Amidases are widely distributed in both prokaryotic and eukaryotic organisms. These enzymes hydrolyze C-N bonds other than peptide bonds and are particularly interesting for their potential industrial application. This study aimed to identify and characterize amidase genes from this novel psychrotolerant microorganism. Using BLAST analysis, two ORFs with conserved amidase sequences were identified from the complete genome sequence of the organism. Two ORFs, AmiF and AmiS, were assigned to two different gene families, the aceta/formamidase family and amidase signature family, respectively. On the genome, the spatial orientation and intergenic distance (1bp overlap) of the ORF‟s suggested that amiF and amiS could possibly be cotranscribed which was confirmed by reverse transcription PCR. A third ORF with a conserved amidase sequence was found ±500bps downstream from amiS, suggesting the possible presence of a multi amidase operon. The two genes were cloned and expressed as N-terminal 6x His-Tag fusion proteins. AmiS and Ami F were partially purified using Ni-chelation chromatography. Although both proteins were subjected to activity assay, their activities are yet to be established. Homology modeling of the AmiF and AmiS translated sequences showed that the proteins had the significant similarities to the members of their families. Although the sequence identities between the AmiF and AmiS and their templates were very low (24 % and 25% respectively), the evaluation of the models showed that the quality of the models were good. This study reports the genetic and functional characterisation of amidase genes from the cold adapted microorganisms.Item Cloning, expression and characterization of thermostable YdaP from Bacillus licheniformis 9A(Acta Biochimica Polonica, 2017) Lako, Joseph D. Wani; Yengkopiong, Jada P.; Stafford, William H. L.; Tuffin, Marla; Cowan, Don A.The Bacillus licheniformis ydaP gene encodes for a pyruvate oxidase that catalyses the oxidative decarboxylation of pyruvate to acetate and CO2. The YdaP form of this enzyme was purified about 48.6-folds to homogeneity in three steps. The enzyme was recovered in a soluble form and demonstrated significant activity on pyruvate using 2, 6-dichlorophenolindophenol (DCPIP) as an artificial electron acceptor. HPLC analysis of the YdaP-enzyme catalysed conversion of pyruvate showed acetate as the sole product, confirming the putative identity of pyruvate oxidase. Analysis of the substrate specificity showed that the YdaP enzyme demonstrated preference for short chain oxo acids; however, it was activated by 1% Triton X-100. The YdaP substrate-binding pocket from the YdaP protein differed substantially from the equivalent site in all of the so far characterized pyruvate oxidases, suggesting that the B. licheniformis YdaP might accept different substrates. This could allow more accessibility of large substrates into the active site of this enzyme. The thermostability and pH activity of the YdaP enzyme were determined, with optimums at 50ºC and pH 5.8, respectively. The amino acid residues forming the catalytic cavity were identified as Gln460 to Ala480.Item Engineering homoaromatic substrate specificity into aliphatic-specific Geobacillus pallidus RAPc8 nitrile hydratase(University of the Western Cape, 2007) Kowlessur, Parikshant; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceGeobacillus pallidus RAPc8 is a thermophilic nitrile-degrading isolate, obtained from thermal sediment samples of a New Zealand hot spring. The G. pallidus RAPc8 NHase gene has been cloned and expressed in E. coli. The recombinant NHase exhibits nitrile-degrading activity at 50 °C, capable of degrading branched, linear and cyclic heteroaromatic nitrile substrates. However, no activity was found on homoaromatic nitrile substrates such as benzonitrile. In the present study, high levels of activity on benzonitrile were detected with a double mutant βF52GβF55L. Kinetic analysis on the mutant enzyme showed an 8-fold decrease in KM with benzonitrile (0.3mM) compared to acrylonitrile (2.6mM). Specificity constants (kcat/KM) of 5900 and 450 s-1.mM-1 were obtained for the double mutant on benzonitrile and acrylonitrile respectively. The amino acid residues lining the substrate channel were identified and the geometric dimensions measured. Cavity calculations revealed a 29% increase in volume and a 13% increase in inner surface area for the substrate channel of the double mutant when compared to the wild type. Surface representation of the wild type structure revealed two extended, curved channels, which are accessible to the bulk solvent from two locations in the heterodimer. The removal of the βF52may have contributed to the presence of a single channel with two opposing openings across the dimers with no internal blockage. Normal Mode Analysis calculations also indicate a higher intrinsic flexibility of the mutant relative tothe wild type enzyme. The increased flexibility within the mutant NHase could have introduced a functionally relevant aromatic substrate recognition conformation.Item Identification and characterisation of novel cellulolytic genes using metagenomics(University of the Western Cape, 2010) Hu, Xiao Ping; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceMetagenomics has been successfully used to discover novel enzymes from uncultured microorganisms in the environment. In this study, metagenomic DNA from a Malawian hot spring soil sample was used to construct a fosmid library. This metagenomic library comprised of more than 10000 clones with an average insert size of 30 kb, representing more than 3.0 x 108 bp of metagenomic DNA (equivalent to approximately 100 bacterial genomes). The library was screened for cellulase activity using a Congo red plate assay to detect zones of carboxymethylcellulose hydrolysis. This yielded 15 positive fosmid clones, of which five were further characterised for activity and thermostability using the 3, 5-dinitrosalicylic assay. Two of the five fosmids (XP008C2 and XP026G5) were selected for DNA pyrosequencing. The full sequence of the XP008C2 (29800bp) fosmid insert is presented in this study and genes thereon were chosen for further study.Item Investigation of South African estuarine microbial species and genome diversity(University of the Western Cape, 2006) Kaambo, Eveline; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceA study of the microbial diversity in sediments of the Great Berg River estuary is carried out using modern molecular phylogenetic methods. The aim of this study was to determine the effect of (pollution by) the effluents of the fish industry on the composition of the microbial community in the sediments. The diversity in microbial groups of sediment samples that received wastewater from the local fishing industry was investigated by a PCR-DGGE (polymerase chain reaction-denaturing gradient gel electrophoresis) approach and compared to an unaffected site.Item Isolation and characterisation of esterases from thermophilic Actinomyces(University of the Western Cape, 2010) Oldale, Megan; Cowan, Don A.; Bauer, Rolene; Tuffin, Marla; Easton, Sam; Dept. of Biotechnology; Faculty of ScienceAlternative sources of fuel are required worldwide, and bio-ethanol is the leading candidate. Lignocellulosic biomass, a waste component of the agricultural industry, is a promising renewable source. Due to its complex structure it is highly recalcitrant, requiring the synergistic action of a battery of enzymes to achieve complete digestion. These enzymes include cellulases, hemicellulase and the accessory enzymes acetyl xylan esterase (AXE) and ferulic acid esterase (FAE). Thermpohilic Actinomyces isolates with the ability to hydrolyze xylan were screened for esterase activity. Two isolates (ORS10 and GSIV1), identified as Streptomyces spp, were positive for AXE activity. A cosmid library representative of isolate ORS10 was composed and screened for AXE activity using -naphthyl acetate as substrate. An 18 kb cosmid clone, 18D7, tested positive for AXE activity. Intracellular fractions extracted from ORS10 were precipitated with ammonium sulphate and partially purified 161-fold. Specific activity was measured after dialysis and ion-exchange chromatography. Overall yield of the partially purified enzyme was 34 %. Two protein bands of molecular masses 40 kDa and 60 kDa have been subjected to trypsin digestion and MALDI-TOF mass spectrometry analysis. The partially purified AXE displayed optimum activity at pH 9 and at 50°C. AXE activity was stable for at least 1.5 hours between 30°C and 40°C, and for 24 hours between pH 6-9. The kM and Vmax values were 16.93 mg/ml and 1645 units/mg enzyme, respectively. The stability of the partially purified AXE at 30°C-40°C suggests potential for industrial applications that utilise mesophilic fermentations.Item Metagenomic approaches to gene discovery(University of the Western Cape, 2006) Meyer, Quinton Christian; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceThe classical approach to gene discovery has been to culture micro-organisms demonstrating a specific enzyme activity and then to recover the gene of interest through shotgun cloning. The realization that these standard microbiological methods provide limited access to the true microbial biodiversity and therefore the available microbial genetic diversity (collectively termed the Metagenome) has resulted in the development of environmental nucleic acid extraction technologies designed to access this wealth of genetic information, thereby avoiding the limitations of culture dependent genetic exploitation. In this work several gene discovery technologies was employed in an attempt to recover novel bacterial laccase genes (EC 1.10.3.2), a group of enzymes in which considerable biotechnological interest has been expressed. Metagenomic DNA extracted from two organic rich environmental samples was used as the source material for the construction of two genomic DNA libraries. The small insert plasmid based library derived from compost DNA consisted of approximately 106 clones at an average insert size of 2.7Kbp, equivalent to 2.6 Gbp of cloned environmental DNA. A Fosmid based large insert library derived from grape waste DNA consisted of approximately 44000 cfu at an average insert size of 25Kbp (1.1 Gbp cloned DNA). Both libraries were screened for laccase activity but failed to produce novel laccase genes. As an alternative approach, a multicopper oxidase specific PCR detection assay was developed using a laccase positive Streptomyces strain as a model organism. The newly designed primers were used to detect the presence of bacterial multicopper oxidases in environmental samples. This resulted in the identification of nine novel gene fragments showing identity ranging from 37 to 94% to published putative bacterial multicopper oxidase gene sequences. Three clones pMCO6, pMCO8 and pMCO9 were significantly smaller than those typically reported for bacterial laccases and were assigned to a recently described clade of Streptomyces bacterial multicopper oxidases. Two PCR based techniques were employed to attempt the recovery of flanking regions for two of these genes (pMCO7 and pMCO8). The use of TAIL-PCR resulted in the recovery of 90% of the pMCO7 ORF. As an alternative approach the Vectorette™ system was employed to recover the 3’ downstream region of pMCO8. The complexity of the DNA sample proved to be a considerable technical challenge for the implementation of both these techniques. The feasibility of both these approaches were however demonstrated in principle. Finally, in an attempt to expedite the recovery of fulllength copies of these genes a subtractive hybridization magnetic bead capture technique was adapted and employed to recover a full – length putative multicopper oxidase gene from a Streptomyces strain in a proof of concept experiment. The StrepA06pMCO gene fragment was used as a ‘driver’ against fragmented Streptomyces genomic DNA (‘tester’) and resulted in the recovery of a 1215 bp open reading frame. Unexpectedly, this ORF showed only 80% identity to the StrepA06pMCO gene sequence at nucleotide level, and 48% amino acid identity to a putative mco gene derived from a Norcardioides sp JS614.Item Microbial diversity and gene mining in Antarctic Dry Valley mineral soils(University of the Western Cape, 2006) Smith, Jacques J.; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceSoil communities are regarded as among the most complex and diverse assemblages of microorganisms with estimated bacterial numbers in the order of 109-1 cells.g. Studies on extreme soils however, have reported lower cell densities, supporting the perception that the so-called extreme environments exhibit low species diversity. To assess the extent of microbial diversity within an extreme environment, the mineral soils of the Dry Valleys, Ross Dependency, Eastern Antarctica were investigated using 16S rDNA analysis. Three mineral soils designated MVG, PENP and BIS were analysed, each differing with respect to altitude, protein, lipid, water and DNA content. The mid-altitude sample, MVG, yielded the highest levels of DNA and the low altitude BIS soil contained the highest levels of protein, lipid and water. 16S clone libraries were constructed and 60 unique clones were identified and sequenced. BLASTn analysis revealed eight phylogenetic groups with Cyanobacteria, Actinobacteria and Acidobacteria representing the majority. The Cyanobacterial phylotypes were unique to the desiccated high-altitude soils of the PENP sample, suggesting a soil-borne Cyanobacterial population. 21% of the phylotypes identified were assigned as ‘uncultured’. DNA isolated from the Antarctic mineral soils was also used to construct a metagenomic clone library consisting of 90700 clones with an average insert size of 3.5 kb, representing an estimated 3.4% of the available metagenome. Activity-based screening of the library for genes conferring lipolytic activity yielded no positive clones. It is suggested that the failure to produce positive clones might be a result of insufficient nucleotide coverage of the metagenomic DNA. The metagenomic DNA extracted from the Dry Valley mineral soils was further analyzed using PCR. Two sets of degenerate primers based on conserved regions within lipolytic genes were used to target lipase and esterase genes. One set of primers was selected from a previous study. A second primer set was designed manually from amino acid alignments of true lipase genes from family I, sub-families I-VI. PCR analysis resulted in nine partial gene fragments varying between 240 bp and 300 bp. Bioinformatic analysis revealed that all nine partial gene fragments harboured α/β-hydrolase motifs, putatively identifying two esterases and three lipases from both bacterial and fungal origin.Item Microbiology of fly ash-acid mine drainage co-disposal processes(University of the Western Cape, 2005) Kuhn, Eloise M. R.; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceThe waste products acid mine drainage formed during coal mining and fly ash from coal burning power generation, pose substantial environmental and economic problems for South Africa. Eskom has developed a remediation system employing alkaline fly ash to neutralize and precipitate heavy metals from toxic acidic acid mine drainage streams. The aim of this study was to assess the microbial diversity in and microbial impact on this remediation system.Item Mining a Chinese hyperthermophilic metagenome(University of the Western Cape, 2007) Du Plessis, Morne Graham; Cowan, Don A.; Arieff, Zainu; Dept. of Biotechnology; Faculty of ScienceMetagenomic sequencing of environmental samples provide direct access to genomic information of organisms within the respective environments. This sequence information represents a significant resource for the identification and subsequent characterization of potentially novel genes, or known genes with acquired novel characteristics. Within this context, the thermophilic environments are of particular interest due to its potential for deriving novel thermostable enzymes with biotechnological and industrial applications. In this work metagenomic library construction, random sequencing and sequence analysis strategies were employed to enhance identification and characterisation of potentially novel genes, from a thermophilic soil sample. High molecular weight metagenomic DNA was extracted from two Chinese hydrothermal soil samples. This was used as source material for the construction of four genomic DNA libraries. The combined libraries were estimated to contain in the order of 1.3 million genes, which provides a rich resource for gene identification. Approximately 70 kbp of sequence data was generated from one of the libraries as a resource for sequence-based analysis. Initial BLAST analysis predicted the presence of 53 ORFs/partial ORFs. The BLAST similarity scores for the investigated ORFs were sufficiently high (>40%) to infer homology with database proteins while also being indicative of novel sequence variants of these database matches. In an attempt to enhance the potential for deriving more full length ORFs a novel strategy, based on WGA technology, was employed. This resulted in the recovery of the near complete sequence of partial ORF5, directly from the WGA DNA of the environmental sample. While the full length ORF5 could not be recovered, the feasibility of this novel approach, for enhanced metagenomic sequence recovery was proved in principle. The implementation of multiple insilico strategies resulted in the identification of two ORFs, classified as homologs of the DUF29 and Usp protein families respectively. The functional inference obtained from the integrated in-silico predictions was furthermore highly suggestive of a putative nucleotide binding/interaction role for both ORFs. A putative novel DNA polymerase gene (denoted TC11pol) was identified from the sequence data. Expression and characterization of the full length TC11pol did however not result in detectable polymerase activity. The implementation of a homology modeling approach proved succesfull for deriving a structural model of the polymerase that was used for: (i) deriving functional inferences of the potential activities of the polymerase and (ii) deriving a 5’ exonuclease deletion mutant for functional analysis. Expression and subsequent functional characterization of the putative 5’exo- TC11pol mutant resulted in detectable polymerase and 3’-5’ exonuclease activity at 37 and 45 oC, following a heat denaturation step at 55 oC for 1 hour. It was, therefore concluded that the putative 5’exo- TC11pol mutant was functionally equivalent to the Klenow fragment of E. coli, while exhibiting increased thermostability.Item Phylogenetic diversity of nifH genes in Marion Island soil(University of the Western Cape, 2006) Rapley, Joanne; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceThe microbial life of sub-Antarctic islands plays a key role in the islands ecosystem, with microbial activities providing the majority of nutrients available for primary production. Knowledge of microbial diversity is still in its infancy and this is particularly true regarding the diversity of micro-organisms in the Antarctic and sub-Antarctic regions. One particularly important functional group of micro-organisms is the diazotrophs, or nitrogen-fixing bacteria and archaea. This group have not been well studied in the sub-Antarctic region, but play an important role in the nutrient cycling of the island. This thesis explored the diversity of nitrogen-fixing organisms in the soil of different ecological habitats on the sub-Antarctic Marion Island.Item The relationship between structure and thermostability of a nitrile hydratase from Goebacillus pallidus RAPc8(University of the Western Cape, 2008) Van Wyk, Jennifer Caroline; Sayed, M.F.; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceNitrile hydratases (NHases) are very important biocatalysts for the enzymatic conversion of nitriles to industrially important amides such as acrylamide and nicotinamide. An “ideal” NHase should fulfil several essential criteria including, high substrate conversion rates, being able to tolerate high substrate and product concentrations as well as being highly thermostable. The NHase used in the present study was isolated from Geobacillus pallidus RAPc8, a moderate thermophile. The primary aims of this study were to use random mutagenesis to engineer the G. pallidus RAPc8 NHase towards improved thermostability and then to use X-ray crystallography to investigate the molecular mechanism(s) involved in the enhanced thermostability. Two randomly mutated libraries were constructed using MnCl2 mediated errorprone PCR. The PCR reaction was performed using 0.05 mM and 0.10 mM MnCl2 and a biased dNTP concentration. The hydroxamic acid assay was used to screen the randomly mutated libraries for NHase mutants with enhanced thermostability. Six mutants that exhibited thermostability-enhancing mutations were isolated from the randomly mutated libraries. The thermostabilised mutants contained between 3 and 7 nucleotide changes per NHase operon. The wild-type and four thermostabilised mutant NHases (7D, 8C, 9C, 9E) were over-expressed, purified, crystallised and subjected to X-ray crystallography. The resolution of the diffraction data for the all the mutant NHases were better than the 2.4Å previously obtained for the wild-type G. pallidus NHase. The best quality data was collected for mutant 9E, which diffracted to a resolution of 1.15Å. The high quality crystal structures allowed each thermostability-enhancing mutation to be viewed in detail. As most of the NHase mutants contained multiple mutations, the crystal structures were important in correlating the observed thermostabilisation with the structural effect of the mutations. Analysis of the X-ray crystal structures illustrated the importance of electrostatic interactions, particularly salt bridges and hydrogen bonds in enhancing the thermostability of the mutant NHases. The difference in the free energy of activation of thermal unfolding (DDG) was used to compare the wild-type and mutant NHases thermostability. The most improved NHase, mutant 9C, was stabilised by both a buried inter-subunit salt bridge between aR169 and bD218 and an inter-helical hydrogen bond between bK43 and bK50. The stabilisation provided by these electrostatic interactions was 7.62 kJ/mol. Mutant 8C was primarily stabilised by the introduction an electrostatic network consisting of a salt bridge between bE96 and aR28 and a hydrogen bond between bE96 and bE92. Also, an intra-helical salt bridge between aE192 and aK195 stabilised the helix consisting of a190-196 in mutant 8C by shielding the helix backbone from solvation and preventing co-operative unfolding of the a helix. However, mutant 8C was also destabilised by a mutation that disrupted a water-mediated hydrogen bond between bD167 and bK168 at the heterotetramer interface of the enzyme. Consequently, the net stabilisation energy provided as a result of stabilising and destabilising interactions was 6.16 kJ/mol. Mutant 7D was the only NHase mutant with only one possible thermostabilising mutation. This mutant was stabilised by 3.40 kJ/mol as the result of a water-mediated hydrogen bond between aS47 and bE33. Similarly, a water-mediated hydrogen bond between aS23 and bS103 provided a stabilisation energy of 4.27 kJ/mol to mutant 9E. This project has shown that moderate-frequency randomly mutated libraries can yield mutants with multiple thermostabilising interactions. Also, the importance of utilising X-ray crystallography to investigate structure-function relationships in proteins has been illustrated.Item Screening for subtate tolerant Geobacillus pallidus RAPc8 nitrile hydratase(University of the Western Cape, 2009) Mketsu, Moses Clive Masisange; Cowan, Don A.; Tuffin, Marla; van Zyl, Lonnie; Dept. of Biotechnology; Faculty of ScienceIn this study G. pallidus RAPc8 NHase mutants were screened for reduced substrate inhibition compared to the wild type enzyme. Wild type and mutant enzymes were expressed and purified using hydrophobic interaction chromatography. Amidase coupled enzyme stop assays were conducted using 3-cyanopyridine as a substrate, whereas continuous enzyme kinetics were conducted using acrylonitrile as a substrate.Item Spartial distribution of cyanobacterial phylotypes in Antarctic Dry Valley soil biotopes(University of the Western Cape, 2007) Keyster, Marshall; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceRecent advances in moleculr methods have enabled the analysis of cyanobacterial diversity using PCR- based approaches. Snap-shot techniques such as 16S rDNA library construction and DGGE have allowed for increased access and better understanding of cyanobacterial diversity from diverse biotopes. In this investigation, 16s rDNA analysis and DGGE profiling were used to study the diversity of cyanobacteria along a transect of increasing altitude in the Miers Valley, Eastern Antarctica..."Item Structure, enzymology and genetic engineering of Bacillus sp. RAPc8 nitrile hydratase(University of the Western Cape, 2005) Tsekoa, Tsepo L.; Cowan, Don A.; Dept. of Biotechnology; Faculty of ScienceMicrobial nitrile hydratases (NHases) are important industrial enzymes that catalyse the conversion of nitriles to the corresponding amides. A thermostable, cobalt-type Bacillus sp. RAPc8 NHase was previously cloned and expressed in E. coli. In this study, the primary aim was to determine the molecular structure of Bacillus sp. RAPc8 NHase. The heterotetrameric enzyme was purified to near homogeneity using heatpurification, hydrophobic interaction chromatography and ion exchange chromatography. Purified NHase was crystallised using the hanging-drop vapourdiffusion method. Crystals produced in the presence of 30% PEG 400, 0.1M MES pH 6.5 and 0.1M magnesium chloride were selected for X-ray diffraction studies. These crystals diffracted well, with diffraction spots visible beyond 2.4Å, with little mosaicity. At 2.5Å, the data were 93% complete. The crystal structure of Bacillus sp. RAPc8 NHase was solved via molecular replacement using the crystal structure of Pseudonocardia thermophila NHase as a search model. The final refined structure had good refinement statistics and geometry. The overall fold was very similar to that of previously determined NHase structures. Bacillus sp. RAPc8 NHase was most similar to Bacillus smithii NHase (0.355År.m.s.d.) and least similar to Rhodococcus sp. R312 NHase (1.191Å r.m.s.d.). One cobalt atom per heterodimer was bound to a typical NHase metal-binding motif, with post-translationally modified cysteine residues among the ligands to the metal. The substrate-binding and catalytic cavity of Bacillus sp. RAPc8 NHase was identified and described in detail. Surface representation of the structure revealed an extended, curved solvent accessible channel with access to bulk solvent from two locations in the heterodimer. The amino-acid residues forming the channel were identified and the geometric dimensions measured. Enzyme inhibition kinetics indicated that benzonitrile was a potent uncompetitive inhibitor of NHase. This information was used to aid the genetic engineering of aromatic substrate specificity into Bacillus sp. RAPc8 NHase. Site-directed mutants of NHase were prepared using the Quickchange mutagenesis procedure. Mutant W76G showed a two to three fold decrease in benzonitrile inhibition compared with the wild-type. Analysis of the substrate channel of this mutant NHase showed an 11% increase in volume and a 20% increase in inner surface area compared to that of the wild-type NHase. Due to the lack of other significant differences between the two structures (an r.m.s.d. of only 0.101Å was observed), this difference was thought to be responsible for the decrease in benzonitrile inhibition. A structure-modelling based approach for assessing the likely structural differences that may result as a result of a specific mutation was suggested and tested. This approach may be of value in future mutagenesis work.