M.A. Crum scite author profile

M.A. Crum

3Publications

51Citation Statements Received

152Citation Statements Given

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Texas A&M University

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Bacillus pumilus Cyanide Dihydratase Mutants with Higher Catalytic Activity

2016

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Cyanide degrading nitrilases are noted for their potential to detoxify industrial wastewater contaminated with cyanide. However, such application would benefit from an improvement to characteristics such as their catalytic activity and stability. Following error-prone PCR for random mutagenesis, several cyanide dihydratase mutants from Bacillus pumilus were isolated based on improved catalysis. Four point mutations, K93R, D172N, A202T, and E327K were characterized and their effects on kinetics, thermostability and pH tolerance were studied. K93R and D172N increased the enzyme’s thermostability whereas E327K mutation had a less pronounced effect on stability. The D172N mutation also increased the affinity of the enzyme for its substrate at pH 7.7 but lowered its kcat. However, the A202T mutation, located in the dimerization or the A surface, destabilized the protein and abolished its activity. No significant effect on activity at alkaline pH was observed for any of the purified mutants. These mutations help confirm the model of CynD and are discussed in the context of the protein–protein interfaces leading to the protein quaternary structure.

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C-terminal hybrid mutant of Bacillus pumilus cyanide dihydratase dramatically enhances thermal stability and pH tolerance by reinforcing oligomerization

et al. 2015

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Probing C-terminal interactions of the Pseudomonas stutzeri cyanide-degrading CynD protein

Crum

Park

Mulelu

et al. 2014

Appl Microbiol Biotechnol

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The cyanide dihydratases from Bacillus pumilus and Pseudomonas stutzeri share high amino acid sequence similarity throughout except for their highly divergent C-termini. However, deletion or exchange of the C-termini had different effects upon each enzyme. Here we extended previous studies and investigated how the C-terminus affects the activity and stability of three nitrilases, the cyanide dihydratases from B. pumilus (CynDpum) and P. stutzeri (CynDstut) and the cyanide hydratase from Neurospora crassa. Enzymes in which the C-terminal residues were deleted decreased in both activity and thermostability with increasing deletion lengths. However, CynDstut was more sensitive to such truncation than the other two enzymes. A domain of the P. stutzeri CynDstut C-terminus not found in the other enzymes, 306GERDST311, was shown to be necessary for functionality and explains the inactivity of the previously described CynDstut-pum hybrid. This suggests that the B. pumilus C-terminus, which lacks this motif, may have specific interactions elsewhere in the protein, preventing it from acting in trans on a heterologous CynD protein. We identify the dimerization interface A-surface region 195-206 (A2) from CynDpum as this interaction site. However, this A2 region did not rescue activity in C-terminally truncated CynDstutΔ302 or enhance the activity of full-length CynDstut and therefore does not act as a general stability motif.

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M.A. Crum

Bacillus pumilus Cyanide Dihydratase Mutants with Higher Catalytic Activity

C-terminal hybrid mutant of Bacillus pumilus cyanide dihydratase dramatically enhances thermal stability and pH tolerance by reinforcing oligomerization

Probing C-terminal interactions of the Pseudomonas stutzeri cyanide-degrading CynD protein

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