Protein engineering for thermostabilisation of proteins: some theoretical rules and application to a β-glucanase

E. Querol; J. Pons; J. Cedano; M. Vallmitjana; F. García; C. Bonet; J. Pérez-Pons; A. Planas; A. Mozo-Villarías

doi:10.1016/S0921-0423(98)80045-2

Protein engineering for thermostabilisation of proteins: some theoretical rules and application to a β-glucanase

E. Querol, J. Pons, J. Cedano, M. Vallmitjana, F. García, C. Bonet, J. Pérez-Pons, A. Planas, A. Mozo-Villarías

Producción científica: Capítulo de libro › Capítulo › Investigación › revisión exhaustiva

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Protein thermostability has been investigated by two approaches. (A) Computational. To study the relationship between thermostability and conformational characteristics of proteins, 195 single amino acid residue replacements have been analysed for several protein conformational characteristics. From the analyses, some general rules arise which suggest where amino acid substitutions can be made to enhance protein thermostability. (B) Experimental. Glucohydrolases are biotechnologically important enzymes. We are analysing by site directed mutagenesis the structure/function relationship of two bacterial glucohydrolases, a 1,3-1,4-β-glucanase and a β-glucosidase. We have determined the key residues for catalysis and substrate binding, and redesigned the stability and specificity of the glucanase. A glucanase thermorresistant mutant (N57A) has been obtained. © 1998 Elsevier B.V. All rights reserved.

Idioma original	Inglés
Título de la publicación alojada	Progress in Biotechnology
Páginas	303-310
Número de páginas	7
Volumen	15
DOI	https://doi.org/10.1016/S0921-0423(98)80045-2
Estado	Publicada - 1 ene 1998

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title = "Protein engineering for thermostabilisation of proteins: some theoretical rules and application to a β-glucanase",

abstract = "Protein thermostability has been investigated by two approaches. (A) Computational. To study the relationship between thermostability and conformational characteristics of proteins, 195 single amino acid residue replacements have been analysed for several protein conformational characteristics. From the analyses, some general rules arise which suggest where amino acid substitutions can be made to enhance protein thermostability. (B) Experimental. Glucohydrolases are biotechnologically important enzymes. We are analysing by site directed mutagenesis the structure/function relationship of two bacterial glucohydrolases, a 1,3-1,4-β-glucanase and a β-glucosidase. We have determined the key residues for catalysis and substrate binding, and redesigned the stability and specificity of the glucanase. A glucanase thermorresistant mutant (N57A) has been obtained. {\textcopyright} 1998 Elsevier B.V. All rights reserved.",

author = "E. Querol and J. Pons and J. Cedano and M. Vallmitjana and F. Garc{\'i}a and C. Bonet and J. P{\'e}rez-Pons and A. Planas and A. Mozo-Villar{\'i}as",

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doi = "10.1016/S0921-0423(98)80045-2",

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T1 - Protein engineering for thermostabilisation of proteins: some theoretical rules and application to a β-glucanase

AU - Querol, E.

AU - Pons, J.

AU - Cedano, J.

AU - Vallmitjana, M.

AU - García, F.

AU - Bonet, C.

AU - Pérez-Pons, J.

AU - Planas, A.

AU - Mozo-Villarías, A.

PY - 1998/1/1

Y1 - 1998/1/1

N2 - Protein thermostability has been investigated by two approaches. (A) Computational. To study the relationship between thermostability and conformational characteristics of proteins, 195 single amino acid residue replacements have been analysed for several protein conformational characteristics. From the analyses, some general rules arise which suggest where amino acid substitutions can be made to enhance protein thermostability. (B) Experimental. Glucohydrolases are biotechnologically important enzymes. We are analysing by site directed mutagenesis the structure/function relationship of two bacterial glucohydrolases, a 1,3-1,4-β-glucanase and a β-glucosidase. We have determined the key residues for catalysis and substrate binding, and redesigned the stability and specificity of the glucanase. A glucanase thermorresistant mutant (N57A) has been obtained. © 1998 Elsevier B.V. All rights reserved.

AB - Protein thermostability has been investigated by two approaches. (A) Computational. To study the relationship between thermostability and conformational characteristics of proteins, 195 single amino acid residue replacements have been analysed for several protein conformational characteristics. From the analyses, some general rules arise which suggest where amino acid substitutions can be made to enhance protein thermostability. (B) Experimental. Glucohydrolases are biotechnologically important enzymes. We are analysing by site directed mutagenesis the structure/function relationship of two bacterial glucohydrolases, a 1,3-1,4-β-glucanase and a β-glucosidase. We have determined the key residues for catalysis and substrate binding, and redesigned the stability and specificity of the glucanase. A glucanase thermorresistant mutant (N57A) has been obtained. © 1998 Elsevier B.V. All rights reserved.

U2 - 10.1016/S0921-0423(98)80045-2

DO - 10.1016/S0921-0423(98)80045-2

M3 - Chapter

SN - 0921-0423

VL - 15

SP - 303

EP - 310

BT - Progress in Biotechnology

ER -

Protein engineering for thermostabilisation of proteins: some theoretical rules and application to a β-glucanase

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