AI Article Synopsis
- Two exo-polygalacturonases (exo-PG1 and exo-PG2) were purified from Aspergillus niger using various chromatography methods, with exo-PG1 having a higher molar mass (82 kDa) than exo-PG2 (56 kDa).
- Exo-PG1 was found to be more stable across different pH and temperature levels, while the presence of HgCl(2) significantly boosted exo-PG2's activity.
- Both enzymes effectively break down specific pectin substrates, producing galacturonic acid and other products, with varying specificity and modes of action.
Article Abstract
Two exo-polygalacturonases (EC 3.2.1.67) were purified from a commercial Aspergillus niger enzyme preparation by ammonium sulfate precipitation, preparative electrofocusing, anion-exchange and size-exclusion chromatographies. The enzymes had molar masses of 82 kDa (exo-PG1) and 56 kDa (exo-PG2). Exo-PG1 was stable over wider pH and temperature ranges than exo-PG2. Addition of 0.01 mM HgCl(2) increased the exo-PG2 activity 3.4 times but did not affect exo-PG1. Analysis of the reaction products of (reduced) pentagalacturonate by high-performance anion-exchange chromatography revealed that both enzymes split the substrate from the non-reducing end in a multi-chain attack mode. Exo-PG1 had a broad specificity towards oligogalacturonates with different degrees of polymerisation, while digalacturonate was the most favorable substrate for exo-PG2. Both enzymes degraded xylogalacturonan from pea hull in an exo manner to produce galacturonic acid and Xyl-GalA disaccharide, as identified by electrospray ionization-ion trap mass spectrometry (ESI-ITMS). Moreover, exo-PGs split acetylated homogalacturonan in an exo manner, producing galacturonic acid and acetylated galacturonic acid, as shown by ESI-ITMS.
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| http://dx.doi.org/10.1016/s0304-4165(02)00277-5 | DOI Listing |
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