The mechanism and effects of collagen amide group hydrolysis during liming

O. Menderes; A. D. Covington; E. R. Waite; M. J. Collins

The mechanism and effects of collagen amide group hydrolysis during liming

O. Menderes^*, A. D. Covington, E. R. Waite, M. J. Collins

^*Corresponding author af dette arbejde

11 Citationer (Scopus)

Abstract

An important reaction during liming is the hydrolysis of the amide side-chains of asparaginc and glutamine. There are two mechanisms by which the reaction can proceed: direct hydrolysis, with hydroxyl catalysis, or intramolecular catalysed hydrolysis. A consequence of the intramolecular mechanism is that the naturally occurring L-asparagine is racemised to D-aspartic acid. It was found that there is no initial rise in the amount of D-aspartic acid during the first 24 hours of liming. Therefore, hydrolysis is dominated by the direct mechanism. Because the intramolecular mechanism depends on the protein conformation at the site of the reaction, it is concluded that, within the conventional period of liming, collagen remains intact; that is, there is no appreciable breakdown of the structure, to alter the collagen conformation, which would allow the intramolecular hydrolysis mechanism to operate effectively.

Originalsprog	Engelsk
Tidsskrift	Journal of the Society of Leather Technologists and Chemists
Vol/bind	83
Udgave nummer	2
Sider (fra-til)	107-110
Antal sider	4
ISSN	0144-0322
Status	Udgivet - 1 jan. 1999

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title = "The mechanism and effects of collagen amide group hydrolysis during liming",

abstract = "An important reaction during liming is the hydrolysis of the amide side-chains of asparaginc and glutamine. There are two mechanisms by which the reaction can proceed: direct hydrolysis, with hydroxyl catalysis, or intramolecular catalysed hydrolysis. A consequence of the intramolecular mechanism is that the naturally occurring L-asparagine is racemised to D-aspartic acid. It was found that there is no initial rise in the amount of D-aspartic acid during the first 24 hours of liming. Therefore, hydrolysis is dominated by the direct mechanism. Because the intramolecular mechanism depends on the protein conformation at the site of the reaction, it is concluded that, within the conventional period of liming, collagen remains intact; that is, there is no appreciable breakdown of the structure, to alter the collagen conformation, which would allow the intramolecular hydrolysis mechanism to operate effectively.",

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TY - JOUR

T1 - The mechanism and effects of collagen amide group hydrolysis during liming

AU - Menderes, O.

AU - Covington, A. D.

AU - Waite, E. R.

AU - Collins, M. J.

PY - 1999/1/1

Y1 - 1999/1/1

N2 - An important reaction during liming is the hydrolysis of the amide side-chains of asparaginc and glutamine. There are two mechanisms by which the reaction can proceed: direct hydrolysis, with hydroxyl catalysis, or intramolecular catalysed hydrolysis. A consequence of the intramolecular mechanism is that the naturally occurring L-asparagine is racemised to D-aspartic acid. It was found that there is no initial rise in the amount of D-aspartic acid during the first 24 hours of liming. Therefore, hydrolysis is dominated by the direct mechanism. Because the intramolecular mechanism depends on the protein conformation at the site of the reaction, it is concluded that, within the conventional period of liming, collagen remains intact; that is, there is no appreciable breakdown of the structure, to alter the collagen conformation, which would allow the intramolecular hydrolysis mechanism to operate effectively.

AB - An important reaction during liming is the hydrolysis of the amide side-chains of asparaginc and glutamine. There are two mechanisms by which the reaction can proceed: direct hydrolysis, with hydroxyl catalysis, or intramolecular catalysed hydrolysis. A consequence of the intramolecular mechanism is that the naturally occurring L-asparagine is racemised to D-aspartic acid. It was found that there is no initial rise in the amount of D-aspartic acid during the first 24 hours of liming. Therefore, hydrolysis is dominated by the direct mechanism. Because the intramolecular mechanism depends on the protein conformation at the site of the reaction, it is concluded that, within the conventional period of liming, collagen remains intact; that is, there is no appreciable breakdown of the structure, to alter the collagen conformation, which would allow the intramolecular hydrolysis mechanism to operate effectively.

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M3 - Journal article

AN - SCOPUS:0442296469

SN - 0144-0322

VL - 83

SP - 107

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JO - Journal of the Society of Leather Technologists and Chemists

JF - Journal of the Society of Leather Technologists and Chemists

IS - 2

ER -

The mechanism and effects of collagen amide group hydrolysis during liming

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