Agency, London.
Published by: Yogesh Sahu
Updated Sat, 26 Feb 2022 07:59 AM IST
Summary
Oxford University geneticist Yan Wong said, with the help of this lineage, the history of genetic changes in the human body will be known. As the quality of genome sequences for modern and ancient DNA samples improves, we will be able to create a map that can trace genetic changes occurring in humans today.
After the success achieved in making a genealogy of one lakh years old, it will be possible to know when and where our ancestors lived. According to a study published in Science General, with its help, identification of genetic diseases as well as medical research will go a long way.
Until now, the biggest problem in creating such a lineage was in developing a mathematical method to collect and handle a database of isolated genome sequences. Developed by researchers at the University of Oxford in the UK, this new method will allow millions of genome sequences to be combined with easy databases from multiple locations.
Oxford University geneticist Yan Wong said, with the help of this lineage, the history of genetic changes in the human body will be known. As the quality of genome sequences for modern and ancient DNA samples improves, we will be able to create a map that can trace genetic changes occurring in humans today. This will make it easier to find out where our ancestors may have been through mathematical compilation to understand genetic changes.
Will prove to be the foundation for the next generation of DNA sequencing
Now it will also be easier to know how the genetic traits of one person match with the other. This study will prove to be the foundation for the next generation of DNA sequencing.
Expansion
After the success achieved in making a genealogy of one lakh years old, it will be possible to know when and where our ancestors lived. According to a study published in Science General, with its help, identification of genetic diseases as well as medical research will go a long way.
Until now, the biggest problem in creating such a lineage was in developing a mathematical method to collect and handle a database of isolated genome sequences. Developed by researchers at the University of Oxford in the UK, this new method will allow millions of genome sequences to be combined with easy databases from multiple locations.
Oxford University geneticist Yan Wong said, with the help of this lineage, the history of genetic changes in the human body will be known. As the quality of genome sequences for modern and ancient DNA samples improves, we will be able to create a map that can trace genetic changes occurring in humans today. This will make it easier to find out where our ancestors may have been through mathematical compilation to understand genetic changes.
Will prove to be the foundation for the next generation of DNA sequencing
Now it will also be easier to know how the genetic traits of one person match with the other. This study will prove to be the foundation for the next generation of DNA sequencing.