AI Article Synopsis
- Pseudoalteromonas carrageenovora kappa-carrageenase is an enzyme that helps break down carrageenans, which are complex sugars found in red algae.
- Crystallography studies show that this enzyme has a unique tunnel-shaped active site, hinting at a processive action, meaning it works by continuing to chop up substrates in a sequence.
- Experiments reveal that while soluble carrageenan is quickly degraded randomly, solid carrageenan is processed much more slowly, indicating that the enzyme's effectiveness depends on the physical form of the substrate.
Article Abstract
Pseudoalteromonas carrageenovora kappa-carrageenase is a glycoside hydrolase involved in the bioconversion of carrageenans. Carrageenans are sulfated galactans that are densely packed in red algal cell walls. Previous crystallographic investigations revealed that the active site of kappa-carrageenase has a tunnel-shaped topology, suggesting a processive mode of action for this enzyme. To biochemically characterize the enzymatic depolymerization of kappa-carrageenan, soluble and solid substrates (in both gel and powder forms) were incubated with P. carrageenovora kappa-carrageenase. The average molecular mass of soluble carrageenan decreased rapidly, and all possible degradation products were observed, suggesting random degradation of kappa-carrageenan. In contrast, as expected for a processive-type carrageenase, the average molecular mass of solid carrageenan decreased very slowly, and tetrasaccharide production was high. Interestingly, experimentally determined processivity was similar for gel and powder, suggesting that, in addition to an adapted catalytic site, the substrate must be in the solid state for kappa-carrageenase processivity to operate, whatever the level of carrageenan ordering.
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| http://dx.doi.org/10.1042/BJ20080619 | DOI Listing |
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