The cold-adapted Pseudomonas fragi lipase (PFL) displays highest activity on short-chain triglyceride substrates and is rapidly inactivated at moderate temperature. Sequence and structure comparison with homologous lipases endowed with different substrate specificity and stability, pointed to three polar residues in the lid region, that were replaced with the amino acids conserved at equivalent positions in the reference lipases. Substitutions at residues T137 and T138 modified the lipase chainlength preference profile, increasing the relative activity towards C8 substrates. Moreover, mutations conferred to PFL higher temperature stability. On the other hand, replacement of the serine at position 141 by glycine destabilized the protein.
Santarossa, G., Gatti Lafranconi, P., Alquati, C., DE GIOIA, L., Alberghina, L., Fantucci, P., et al. (2005). Mutations in the lid region affect chain length specificity and thermostability of a Pseudomonas fragi lipase. FEBS LETTERS, 579(11), 2383-2386 [10.1016/j.febslet.2005.03.037].
Mutations in the lid region affect chain length specificity and thermostability of a Pseudomonas fragi lipase
DE GIOIA, LUCA;ALBERGHINA, LILIA;FANTUCCI, PIERCARLO;LOTTI, MARINA
2005
Abstract
The cold-adapted Pseudomonas fragi lipase (PFL) displays highest activity on short-chain triglyceride substrates and is rapidly inactivated at moderate temperature. Sequence and structure comparison with homologous lipases endowed with different substrate specificity and stability, pointed to three polar residues in the lid region, that were replaced with the amino acids conserved at equivalent positions in the reference lipases. Substitutions at residues T137 and T138 modified the lipase chainlength preference profile, increasing the relative activity towards C8 substrates. Moreover, mutations conferred to PFL higher temperature stability. On the other hand, replacement of the serine at position 141 by glycine destabilized the protein.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
