Literature summary for 1.13.12.5 extracted from

Tsuzuki, K.; Tricoire, L.; Courjean, O.; Gibelin, N.; Rossier, J.; Lambolez, B.
Thermostable mutants of the photoprotein aequorin obtained by in vitro evolution (2005), J. Biol. Chem., 280, 34324-34331.

Search for more literature for 1.13.12.5

Protein Variants

Protein Variants	Comment	Organism
D117G	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 5°C higher than wild-type value	Aequorea victoria
D153G	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 7°C higher than wild-type value	Aequorea victoria
E128G	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 2°C higher than wild-type value	Aequorea victoria
E35G	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is identical to wild-type value	Aequorea victoria
F149S	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 5°C lower than wild-type value	Aequorea victoria
L170I	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 4°C higher than wild-type value	Aequorea victoria
Q168A/L170V	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 8°C higher than wild-type value	Aequorea victoria
Q168K/L170V	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 8°C higher than wild-type value	Aequorea victoria
Q168R	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 9°C higher than wild-type value	Aequorea victoria
Q168R/L170I	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 13°C higher than wild-type value	Aequorea victoria
Q168R/L170M	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 8°C higher than wild-type value	Aequorea victoria
Q168R/L170V	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 13°C higher than wild-type value	Aequorea victoria
V44A	the temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock is 1°C higher than wild-type value	Aequorea victoria

Organism

Organism	UniProt	Comment	Textmining
Aequorea victoria	Q6J4T7	-	-

Synonyms

Synonyms	Comment	Organism
aequorin	-	Aequorea victoria

Temperature Stability [°C]

Temperature Stability Minimum [°C]	Temperature Stability Maximum [°C]	Comment	Organism
39	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme F149S	Aequorea victoria
44	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, wild-type enzyme and mutant enzyme E35G	Aequorea victoria
45	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme V44A	Aequorea victoria
46	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme E128G	Aequorea victoria
48	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme L170I	Aequorea victoria
49	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme D117G	Aequorea victoria
51	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme D153G	Aequorea victoria
52	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme Q168AR/L170M, Q168A/L170V and Q168K/L170V	Aequorea victoria
53	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzyme Q168R	Aequorea victoria
57	-	temperature for 50% inactivation of aequorin bioluminescence by a 30-min heat shock, mutant enzymes Q68R/L170I and Q168R/L179V	Aequorea victoria

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Release 2023.1 (January 2023)