Solid-State and Unilateral NMR Study of Deterioration of a Dead Sea Scroll Fragment

Research notes: 
Reader checked OA 08/09/2011
Reference type: 
Journal Article
Author(s): 
Masic, Admir
Chierotti, M. R.
Gobetto, R.
Martra, G.
Rabin, Ira
Coluccia, S.
year: 
2011
Full title: 

Solid-State and Unilateral NMR Study of Deterioration of a Dead Sea Scroll Fragment

Translated title: 
Journal / Book Title || Series Title: 
Analytical and Bioanalytical Chemistry
Volume: 
July 30
Issue / Series Volume: 
Number of volumes: 
0
Series Title: 
Abbreviated Series Name: 
Collaborating Author: 
Place of Publication: 
Publisher: 
Pages: 
http://www.springerlink.com/content/u716742m51837156/
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Work type: 
Abstract: 

Unilateral and solid-state nuclear magnetic resonance (NMR) analyses were performed on a parchment fragment of the Dead Sea Scroll (DSS). The analyzed sample belongs to the collection of non-inscribed and nontreated fragments of known archaeological provenance from the John Rylands University Library in Manchester. Therefore, it can be considered as original DSS material free from any contamination related to the post-discovery period. Considering the paramount significance of the DSS, noninvasive approaches and portable in situ nondestructive methods are of fundamental importance for the determination of composition, structure, and chemical-physical properties of the materials under study. NMR studies reveal low amounts of water content associated with very short proton relaxation times, T (1), indicating a high level of deterioration of collagen molecules within scroll fragments. In addition, (13)C cross-polarization magic-angle-spinning (CPMAS) NMR spectroscopy shows characteristic peaks of lipids whose presence we attribute to the production technology that did not involve liming. Extraction with chloroform led to the reduction of both lipid and protein signals in the (13)C CPMAS spectrum indicating probable involvement of lipids in parchment degradation processes. NMR absorption and relaxation measurements provide nondestructive, discriminative, and sensitive tools for studying the deterioration effects on the organization and properties of water and collagen within ancient manuscripts.

Notes: 
Language: 
Alternative title: 
Anal Bioanal Chem
Date: 
Jul 30
Edition: 
2011/08/02
Original Publication: 
Reprint edition: 
URL: 
http://www.springerlink.com/content/u716742m51837156/
DOI: 
10.1007/s00216-011-5265-z
ISBN: 
1618-2650 (Electronic)
Accession number: 
21805064
Call num: 
Label: 
12/09/2011
Record number: 
7 132