Study Reveals the Genetic Start-up of a Human Embryo
Thursday, 03 September 2015
An international team of scientists led from Sweden’s Karolinska Institutet has for the first time mapped all the genes that are activated in the first few days of a fertilised human egg. The study, which is being published in the journal Nature Communications, provides an in-depth understanding of early embryonic development in human – and scientists now hope that the results will help finding for example new therapies against infertility.
At the start of an individual’s life there is a single fertilised egg cell. One day after fertilisation there are two cells, after two days four, after three days eight and so on, until there are billions of cells at birth. The order in which our genes are activated after fertilisation has remained one of the last uncharted territories of human development.
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Juha Kere is a Professor of Molecular Genetics
at
Karolinska Institutet. Credit: Ulf
Sirborn.
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“These genes are the ‘ignition key’ that is needed to turn on human embryonic development. It is like dropping a stone into water and then watching the waves spread across the surface”, says principal investigator Juha Kere, professor at theDepartment of Biosciences and Nutrition at Karolinska Institutet and also affiliated to the SciLifeLab facility in Stockholm.
The researchers had to develop a new way of analysing the results in order to find the new genes. Most genes code for proteins but there are a number of repeated DNA sequences that are often considered to be so-called ‘junk DNA’, but are in fact important in regulating gene expression.
Treatment of infertility
In the current study, the researchers show that the newly identified genes can interact with the ‘junk DNA’, and that this is essential to the start of development.
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Outi Hovatta is a Professor of Obstetrics and
Gynaecology at Karolinska Institutet. Credit:
Ulf Sirborn.
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The study was a collaboration between three research groups from Sweden and Switzerland that each provided a unique set of skills and expertise. The work was supported by the Karolinska Institutet Distinguished Professor Award, the Swedish Research Council, the Strategic Research Program for Diabetes funding at Karolinska Institutet, Stockholm County, the Jane & Aatos Erkko Foundation, the Instrumentarium Science Foundation, and the Åke Wiberg and Magnus Bergvall foundations. The computations were performed on resources provided by SNIC through Uppsala Multidisciplinary Center for Advanced Computational Science (UPPMAX).
Source: Karolinska Institutet
Contact: KI Press Office
Reference:
Novel PRD-like homeodomain transcription factors and retrotransposon elements in early human development
Virpi Töhönen, Shintaro Katayama, Liselotte Vesterlund, Eeva-Mari Jouhilahti, Mona Sheikhi, Elo Madissoon, Giuditta Filippini-Cattaneo, Marisa Jaconi, Anna Johnsson, Thomas R. Bürglin, Sten Linnarsson, Outi Hovatta and Juha Kere
Nature Communications, 3 September 2015, doi: 10.1038/NCOMMS9207
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