× Digital News Videos Health & Science Lifestyle Opinion Education Columnists Moi Cabinets Arts & Culture Fact Check Podcasts E-Paper Lifestyle & Entertainment Nairobian Entertainment Eve Woman Health Magazine TV Stations KTN Home KTN News BTV KTN Farmers TV Radio Stations Radio Maisha Spice FM Vybez Radio Enterprise VAS E-Learning Digger Classified Jobs Games Crosswords Sudoku The Standard Group Corporate Contact Us Rate Card Vacancies DCX O.M Portal Corporate Email RMS
menu search
Standard Logo
Home / Health & Science

Aiding creation: UK researchers plan to genetically modify human embryos

HEALTH & SCIENCEBy XINHUA | Sat,Sep 19 2015 13:08:41 EAT
By XINHUA | Sat,Sep 19 2015 13:08:41 EAT

LONDON: Researchers at the Francis Crick Institute have applied to Britain's regulators to use new "genome editing" techniques on human embryos, according to a statement released Friday by the institute.

Genome editing techniques on human embryos are still seen as "forbidden fruit" in many countries.

Once the the Human Fertilization and Embryology Authority (HFEA) approves the application, the research project will focus on understanding the genes human embryos need to develop successfully, and any donated embryos will be used for research purposes only, according to the statement.

Editing the genomes of human embryos for a therapeutic use - for example, to eradicate a genetic disease - is illegal in Britain, but research work is possible under license from the HFEA.

The knowledge acquired from the research may improve embryo development after in vitro fertilisation (IVF) and might provide better clinical treatments for infertility, says the statement.

"We also propose to use new methods based on CRIPSR/Cas9, which allows very specific alterations to be made to the genome. By applying more precise and efficient methods in our research we hope to require fewer embryos and be more successful than the other methods currently used," said Dr Kathy Niakan, who led the project.

Genome editing has been used in research for a number of years but recent advances and the introduction of the CRISPR-Cas9 system mean that work can be done in a more precise way than before.

The stage of embryo development that the research team plan to study also has tremendous potential for stem cell research, which will have benefits and advances in many different fields of medicine.

Related Topics

Share this story