3.4.21.66: Thermitase
This is an abbreviated version!
For detailed information about Thermitase, go to the full flat file.
Word Map on EC 3.4.21.66
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3.4.21.66
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subtilisins
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3.4.21.14
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carlsberg
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subtilisin-like
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subtilases
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subtilisin-type
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eglin-c
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biotechnology
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analysis
- 3.4.21.66
- subtilisins
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3.4.21.14
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carlsberg
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subtilisin-like
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subtilases
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subtilisin-type
- eglin-c
- biotechnology
- analysis
Reaction
Hydrolysis of proteins, including collagen =
Synonyms
Alkaline protease, EC 3.4.21.14, EC 3.4.4.16, PLLA-degrading enzyme, PrlA, Proteinase, Thermoactinomyces vulgaris serine, proteolysin, Thermoactinomyces vulgaris serine proteinase, Thermophilic Streptomyces serine proteinase, thermostable serine protease
ECTree
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Engineering
Engineering on EC 3.4.21.66 - Thermitase
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C182A/C201A
site-directed mutagenesis, elimination of the disulfide bond, the mutant shows increased activity but reduced thermostability compared to the wild-type enzyme
yes
additional information
computational procedure OptGraft for placing a novel binding pocket onto a protein structure so as its geometry is minimally perturbed. Transfer of a calcium-binding pocket from thermitase protein, PDB entry 1thm, into the first domain of rat CD2 protein, PDB entry 1hng results in new proteins that all exhibit high affinities for terbium and can selectively bind calcium over magnesium
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purifed enzyme is immobilized on different carriers (chitin, chitosan, alumina, ceramic, PVC, silica gel, and polystyrene), method evaluation, overview. Enzyme entrapment in polyacrylamide, calcium alginate, and alginate and glutaraldehyde activated chitosan. Best immobilization yield and recovery activity is obtained on silica gels. Immobilization of the alkaline protease from Nocardiopsis alba Tata-5 by ionic binding
yes
Nocardiopsis alba TATA-5
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purifed enzyme is immobilized on different carriers (chitin, chitosan, alumina, ceramic, PVC, silica gel, and polystyrene), method evaluation, overview. Enzyme entrapment in polyacrylamide, calcium alginate, and alginate and glutaraldehyde activated chitosan. Best immobilization yield and recovery activity is obtained on silica gels. Immobilization of the alkaline protease from Nocardiopsis alba Tata-5 by ionic binding
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