Add to ORKGForensic analysis of DNA from non-human bones can be important in investigating a variety of forensic cases. However, decomposed bone is difficult to process for isolating DNA. In this study, a previously established enzymatic method was utilized to process bone samples that simulate decomposed specimens. Our results demonstrated that this enzymatic processing method is effective for removing decomposed soft tissues and outer surface materials such as mineralized bone connective tissue of bone fragment samples. Our data suggested that this method can be used in the initial sample preparation for cleaning the outer surface of decomposed non-human skeletal fragments. This study introduced an alternative method for processing decomposed non-hu...
ABSTRACT: The forensic pathologist increasingly relies on the forensic anthropologist to be the cons...
This proof of concept study investigates the removal of soft tissue from human ribs with the use of ...
Bone and teeth can often be the only, or the best, biological materials available as DNA sources for...
Forensic analysis of DNA from non-human bones can be important in investigating a variety of forensi...
Prior to isolating DNA, it is necessary to remove any biological materials that may be present on co...
An enzymatic method to process decomposed non-human bone for forensic DNA analysis is presented. Re...
This study assessed the performance of five different DNA extraction methods for the recovery of DNA...
AbstractEfficient DNA extraction procedures, as well as accurate DNA amplification, are critical ste...
International audienceBone is the most challenging tissue for DNA extraction and purification. Expen...
The generation of a DNA profile from skeletal remains is an important part of the identification pro...
In forensic genetics, the analysis of postmortem bones is one of the most challenging due to the low...
DNA identification of human remains has a valuable role in the field of forensic science and wider. ...
Recovery of human DNA from bones of severely decomposed bodies was reported for the identification o...
Extraction and successful PCR amplification of DNA from human remains in historical and forensic cas...
The first ever human identification through DNA analysis was done in the year 1987. Since then, this...
ABSTRACT: The forensic pathologist increasingly relies on the forensic anthropologist to be the cons...
This proof of concept study investigates the removal of soft tissue from human ribs with the use of ...
Bone and teeth can often be the only, or the best, biological materials available as DNA sources for...
Forensic analysis of DNA from non-human bones can be important in investigating a variety of forensi...
Prior to isolating DNA, it is necessary to remove any biological materials that may be present on co...
An enzymatic method to process decomposed non-human bone for forensic DNA analysis is presented. Re...
This study assessed the performance of five different DNA extraction methods for the recovery of DNA...
AbstractEfficient DNA extraction procedures, as well as accurate DNA amplification, are critical ste...
International audienceBone is the most challenging tissue for DNA extraction and purification. Expen...
The generation of a DNA profile from skeletal remains is an important part of the identification pro...
In forensic genetics, the analysis of postmortem bones is one of the most challenging due to the low...
DNA identification of human remains has a valuable role in the field of forensic science and wider. ...
Recovery of human DNA from bones of severely decomposed bodies was reported for the identification o...
Extraction and successful PCR amplification of DNA from human remains in historical and forensic cas...
The first ever human identification through DNA analysis was done in the year 1987. Since then, this...
ABSTRACT: The forensic pathologist increasingly relies on the forensic anthropologist to be the cons...
This proof of concept study investigates the removal of soft tissue from human ribs with the use of ...
Bone and teeth can often be the only, or the best, biological materials available as DNA sources for...