Penicillin amidase is activated for use in nonaqueous media by lyophilizing in the presence of potassium chloride

John P. Lindsay; Douglas S. Clark; Jonathan S. Dordick

doi:10.1016/S0141-0229(02)00132-1

Penicillin amidase is activated for use in nonaqueous media by lyophilizing in the presence of potassium chloride

John P. Lindsay, Douglas S. Clark, Jonathan S. Dordick

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Penicillin amidase was shown to catalyze the transesterification of phenoxyacetic acid methyl ester (POME) with 1-propanol in organic solvents. The enzyme was found to be over 750-fold more reactive in hexane upon lyophilizing in the presence of KCl (to produce an enzyme preparation containing 98% (w/w) salt and 1% (w/w) each of enzyme and phosphate buffer), and 225-fold activation in the more hydrophilic acetonitrile. This activation was strongly dependent on solvent hydration so that in tert-amyl alcohol containing 3% (v/v) added water, the salt-containing preparation was two-fold slower than the salt-free preparation. This behavior was opposite of that observed with the known lyoprotectant trehalose, indicating that salt activation is mechanistically distinct from lyoprotection. This work represents the first demonstration of dramatic salt activation of a nonprotease.

Original language	English
Pages (from-to)	193-197
Number of pages	5
Journal	Enzyme and Microbial Technology
Volume	31
Issue number	3
DOIs	https://doi.org/10.1016/S0141-0229(02)00132-1
State	Published - 2 Aug 2002
Externally published	Yes

Keywords

Nonaqueous media
Penicillin amidase
Salt activation
Transesterification

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10.1016/S0141-0229(02)00132-1

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title = "Penicillin amidase is activated for use in nonaqueous media by lyophilizing in the presence of potassium chloride",

abstract = "Penicillin amidase was shown to catalyze the transesterification of phenoxyacetic acid methyl ester (POME) with 1-propanol in organic solvents. The enzyme was found to be over 750-fold more reactive in hexane upon lyophilizing in the presence of KCl (to produce an enzyme preparation containing 98% (w/w) salt and 1% (w/w) each of enzyme and phosphate buffer), and 225-fold activation in the more hydrophilic acetonitrile. This activation was strongly dependent on solvent hydration so that in tert-amyl alcohol containing 3% (v/v) added water, the salt-containing preparation was two-fold slower than the salt-free preparation. This behavior was opposite of that observed with the known lyoprotectant trehalose, indicating that salt activation is mechanistically distinct from lyoprotection. This work represents the first demonstration of dramatic salt activation of a nonprotease.",

keywords = "Nonaqueous media, Penicillin amidase, Salt activation, Transesterification",

author = "Lindsay, {John P.} and Clark, {Douglas S.} and Dordick, {Jonathan S.}",

note = "Funding Information: This work was supported by NSF (BES-9811352) and the US Department of Energy (DE-FC02-98CH10948). ",

year = "2002",

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doi = "10.1016/S0141-0229(02)00132-1",

language = "English",

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pages = "193--197",

journal = "Enzyme and Microbial Technology",

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publisher = "Elsevier Inc.",

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T1 - Penicillin amidase is activated for use in nonaqueous media by lyophilizing in the presence of potassium chloride

AU - Lindsay, John P.

AU - Clark, Douglas S.

AU - Dordick, Jonathan S.

N1 - Funding Information: This work was supported by NSF (BES-9811352) and the US Department of Energy (DE-FC02-98CH10948).

PY - 2002/8/2

Y1 - 2002/8/2

N2 - Penicillin amidase was shown to catalyze the transesterification of phenoxyacetic acid methyl ester (POME) with 1-propanol in organic solvents. The enzyme was found to be over 750-fold more reactive in hexane upon lyophilizing in the presence of KCl (to produce an enzyme preparation containing 98% (w/w) salt and 1% (w/w) each of enzyme and phosphate buffer), and 225-fold activation in the more hydrophilic acetonitrile. This activation was strongly dependent on solvent hydration so that in tert-amyl alcohol containing 3% (v/v) added water, the salt-containing preparation was two-fold slower than the salt-free preparation. This behavior was opposite of that observed with the known lyoprotectant trehalose, indicating that salt activation is mechanistically distinct from lyoprotection. This work represents the first demonstration of dramatic salt activation of a nonprotease.

AB - Penicillin amidase was shown to catalyze the transesterification of phenoxyacetic acid methyl ester (POME) with 1-propanol in organic solvents. The enzyme was found to be over 750-fold more reactive in hexane upon lyophilizing in the presence of KCl (to produce an enzyme preparation containing 98% (w/w) salt and 1% (w/w) each of enzyme and phosphate buffer), and 225-fold activation in the more hydrophilic acetonitrile. This activation was strongly dependent on solvent hydration so that in tert-amyl alcohol containing 3% (v/v) added water, the salt-containing preparation was two-fold slower than the salt-free preparation. This behavior was opposite of that observed with the known lyoprotectant trehalose, indicating that salt activation is mechanistically distinct from lyoprotection. This work represents the first demonstration of dramatic salt activation of a nonprotease.

KW - Nonaqueous media

KW - Penicillin amidase

KW - Salt activation

KW - Transesterification

UR - http://www.scopus.com/inward/record.url?scp=0037008370&partnerID=8YFLogxK

U2 - 10.1016/S0141-0229(02)00132-1

DO - 10.1016/S0141-0229(02)00132-1

M3 - Article

AN - SCOPUS:0037008370

SN - 0141-0229

VL - 31

SP - 193

EP - 197

JO - Enzyme and Microbial Technology

JF - Enzyme and Microbial Technology

IS - 3

ER -

Penicillin amidase is activated for use in nonaqueous media by lyophilizing in the presence of potassium chloride

Abstract

Keywords

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