EC Number |
Protein Variants |
Reference |
---|
1.14.18.3 | H137A/H139A |
the mutant of subunit domain spmoB disrupts the dicopper site and exhibits no activity |
727681 |
1.14.18.3 | H33A/H137A/H137A/H139A/H48N |
site-directed mutagenesis |
-, 745154 |
1.14.18.3 | H33A/H137A/H139A |
site-directed mutagenesis |
-, 745154 |
1.14.18.3 | H48N |
site-directed mutagenesis |
-, 745154 |
1.14.18.3 | H48N |
the mutant of subunit domain spmoB disrupts the monocopper site, but still exhibits enzyme activity |
727681 |
1.14.18.3 | H48N/H137A/H139A |
the mutant of subunit domain spmoB disrupts the dicopper site and exhibits no activity |
727681 |
1.14.18.3 | H72A |
site-directed mutagenesis |
-, 745154 |
1.14.18.3 | more |
construction of a printed enzyme-embedded polymer motif in a flow-through bioreactor that is highly flexible and might be useful in a wide range of applications, especially those involving gas-liquid reactions. Embedding the material within a silicone lattice to create mechanically robust, gas-permeable membranes, and direct printing of micron-scale structures with controlled geometry. Embedding Methylococcus capsulatus (Bath) pMMO in a PEGDA-based polymer hydrogel. A dramatic decrease in pMMO activity is observed as the polyethylene glycol diacrylate (PEGDA) vol% is increased. Thinner membranes yield higher activity up to a threshold where the activity reaches a maximum, kinetics of pMMO, overview |
-, 745857 |
1.14.18.3 | more |
native occurence of a truncated form of pMMO with different molecular weight |
-, 438952 |