The software, which was used by the FBI to identify the 9/11 World Trade Center attack victims, is planned to be first put to use in India on the victims of last year's Uttarakhand tragedy, whose identification process by DNA profiling by the Centre for DNA Fingerprinting and Diagnostics (CDFD) is set to get a boost vis-a-vis the required analysis.
The software named 'CODIS' (Combined DNA Index System) would be implemented by the first week of August by the state-run CDFD, in line to become the country's first forensic lab for speedy matching of DNA profiles of victims of mass disasters, a senior official said.
"We are in the process of acquiring and operationalising the software developed by FBI which will enable speedy matching of DNA profiles of victims of
large-scale disasters. India doesn't have such kind of software and we are getting it next month and will be using it for the first time to identify victims of Uttarakhand natural calamity (in which thousands are presumed dead)," CDFD Director J Gowrishankar told PTI.
Compared to the laborious and time-consuming manual procedure of matching one by one, this software does multiple comparisons in quick time and even gives conclusion whether the victims are parents-child or siblings.
A two-member team of FBI's DNA Lab wing will come to Hyderabad next month and install the software on CDFD computers. They will train the centre's DNA examiners on its usage during a three-day workshop. CDFD and FBI had signed an MoU early this year for the acquisition of 'CODIS'.
"FBI had used the software to identify victims of 9/11 World Trade Center attack victims. The software would be used for the first time in India to match data of DNA profiles of 400 victims with blood samples of close relatives of over 5,000 missing individuals of last year's Uttarakhand tragedy," he said.
According to him, this software will match DNA profile data to determine if any individual's DNA sample is related to that of any other fed in the database and it will do multiple comparisons and also match a large numbers of samples, which is done presently through manual procedures.