Étude préliminaire de la stabilité de l'ADN dans l'os pendant la diagenèse artificielle

Emma R. Waite; Angela M. Child; Oliver E. Craig; Matthew J. Collins; Keith Gelsthorpe; Terence A. Brown

Étude préliminaire de la stabilité de l'ADN dans l'os pendant la diagenèse artificielle

Emma R. Waite, Angela M. Child, Oliver E. Craig, Matthew J. Collins, Keith Gelsthorpe, Terence A. Brown

13 Citationer (Scopus)

Abstract

DNA extracted from ancient organic remains has much to offer anthropology and archaeology, but post-mortem damage can inhibit molecular biolosical techniques or produce incorrect sequence determinations. There have been few studies on the diagenesis of DNA and, as yet, little is known about how and why the molecule might survive over thousands or millions of years. Qualitative analysis of nucleic acids extracted from powdered bovine bone which had been heated to various temperatures in the presence and absence of water, revealed that the DNA had become fragmented. In the wet samples this decay was so extensive that mitochondrial DNA could not be amplified by the Polymerase Chain Reaction (PCR). Immunochemical detection of the DNA showed that substantial quantities of DNA remained in some samples for which a PCR product could not be obtained. The results of the DNA analyses are compared with theoretical estimates of DNA decay and protein survival in the same samples. Reasons for the disparity between the immunochemical and PCR data, such as interference of the PCR, are considered. It is concluded that hydrolytic chain scission events have much more impact on the loss of the long sequences of DNA required for PCR than on the numbers of shorter antibody binding sites detected by immunochemistry.

Bidragets oversatte titel	A preliminary investigation of DNA stability in bone during artificial diagenesis
Originalsprog	Fransk
Tidsskrift	Bulletin de la Societe Geologique de France
Vol/bind	168
Udgave nummer	5
Sider (fra-til)	547-554
Antal sider	8
ISSN	0037-9409
Status	Udgivet - 1 dec. 1997

Emneord

Albumin
Artificial diagenesis
Bone
DNA
ELISA
Hydrolysis
Osteocalcin
PCR

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Citationsformater

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title = "{\'E}tude pr{\'e}liminaire de la stabilit{\'e} de l'ADN dans l'os pendant la diagen{\`e}se artificielle",

abstract = "DNA extracted from ancient organic remains has much to offer anthropology and archaeology, but post-mortem damage can inhibit molecular biolosical techniques or produce incorrect sequence determinations. There have been few studies on the diagenesis of DNA and, as yet, little is known about how and why the molecule might survive over thousands or millions of years. Qualitative analysis of nucleic acids extracted from powdered bovine bone which had been heated to various temperatures in the presence and absence of water, revealed that the DNA had become fragmented. In the wet samples this decay was so extensive that mitochondrial DNA could not be amplified by the Polymerase Chain Reaction (PCR). Immunochemical detection of the DNA showed that substantial quantities of DNA remained in some samples for which a PCR product could not be obtained. The results of the DNA analyses are compared with theoretical estimates of DNA decay and protein survival in the same samples. Reasons for the disparity between the immunochemical and PCR data, such as interference of the PCR, are considered. It is concluded that hydrolytic chain scission events have much more impact on the loss of the long sequences of DNA required for PCR than on the numbers of shorter antibody binding sites detected by immunochemistry.",

keywords = "Albumin, Artificial diagenesis, Bone, DNA, ELISA, Hydrolysis, Osteocalcin, PCR",

author = "Waite, {Emma R.} and Child, {Angela M.} and Craig, {Oliver E.} and Collins, {Matthew J.} and Keith Gelsthorpe and Brown, {Terence A.}",

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T1 - Étude préliminaire de la stabilité de l'ADN dans l'os pendant la diagenèse artificielle

AU - Waite, Emma R.

AU - Child, Angela M.

AU - Craig, Oliver E.

AU - Collins, Matthew J.

AU - Gelsthorpe, Keith

AU - Brown, Terence A.

PY - 1997/12/1

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N2 - DNA extracted from ancient organic remains has much to offer anthropology and archaeology, but post-mortem damage can inhibit molecular biolosical techniques or produce incorrect sequence determinations. There have been few studies on the diagenesis of DNA and, as yet, little is known about how and why the molecule might survive over thousands or millions of years. Qualitative analysis of nucleic acids extracted from powdered bovine bone which had been heated to various temperatures in the presence and absence of water, revealed that the DNA had become fragmented. In the wet samples this decay was so extensive that mitochondrial DNA could not be amplified by the Polymerase Chain Reaction (PCR). Immunochemical detection of the DNA showed that substantial quantities of DNA remained in some samples for which a PCR product could not be obtained. The results of the DNA analyses are compared with theoretical estimates of DNA decay and protein survival in the same samples. Reasons for the disparity between the immunochemical and PCR data, such as interference of the PCR, are considered. It is concluded that hydrolytic chain scission events have much more impact on the loss of the long sequences of DNA required for PCR than on the numbers of shorter antibody binding sites detected by immunochemistry.

AB - DNA extracted from ancient organic remains has much to offer anthropology and archaeology, but post-mortem damage can inhibit molecular biolosical techniques or produce incorrect sequence determinations. There have been few studies on the diagenesis of DNA and, as yet, little is known about how and why the molecule might survive over thousands or millions of years. Qualitative analysis of nucleic acids extracted from powdered bovine bone which had been heated to various temperatures in the presence and absence of water, revealed that the DNA had become fragmented. In the wet samples this decay was so extensive that mitochondrial DNA could not be amplified by the Polymerase Chain Reaction (PCR). Immunochemical detection of the DNA showed that substantial quantities of DNA remained in some samples for which a PCR product could not be obtained. The results of the DNA analyses are compared with theoretical estimates of DNA decay and protein survival in the same samples. Reasons for the disparity between the immunochemical and PCR data, such as interference of the PCR, are considered. It is concluded that hydrolytic chain scission events have much more impact on the loss of the long sequences of DNA required for PCR than on the numbers of shorter antibody binding sites detected by immunochemistry.

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KW - Artificial diagenesis

KW - Bone

KW - DNA

KW - ELISA

KW - Hydrolysis

KW - Osteocalcin

KW - PCR

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JO - Bulletin de la Societe Geologique de France

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ER -

Étude préliminaire de la stabilité de l'ADN dans l'os pendant la diagenèse artificielle

Abstract

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