Transcriptome Profiling of Human Pre-Implantation Development
Zhang, Pu; Zucchelli, Marco; Bruce, Sara; Hambiliki, Fredwell; Stavreus-Evers, Anneli; Levkov, Lev; Skottman, Heli; Kerkelä, Erja; Kere, Juha; Hovatta, Outi (2009)
2009
PLoS ONE 4 11
1-7
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Julkaisun pysyvä osoite on
http://urn.fi/urn:nbn:uta-3-687
http://urn.fi/urn:nbn:uta-3-687
Kuvaus
Public Library of Science
Tiivistelmä
Background
Preimplantation development is a crucial step in early human development. However, the molecular basis of human preimplantation development is not well known.
Methodology
By applying microarray on 397 human oocytes and embryos at six developmental stages, we studied the transcription dynamics during human preimplantation development.
Principal Findings
We found that the preimplantation development consisted of two main transitions: from metaphase-II oocyte to 4-cell embryo where mainly the maternal genes were expressed, and from 8-cell embryo to blastocyst with down-regulation of the maternal genes and up-regulation of embryonic genes. Human preimplantation development proved relatively autonomous. Genes predominantly expressed in oocytes and embryos are well conserved during evolution.
Significance
Our database and findings provide fundamental resources for understanding the genetic network controlling early human development.
Preimplantation development is a crucial step in early human development. However, the molecular basis of human preimplantation development is not well known.
Methodology
By applying microarray on 397 human oocytes and embryos at six developmental stages, we studied the transcription dynamics during human preimplantation development.
Principal Findings
We found that the preimplantation development consisted of two main transitions: from metaphase-II oocyte to 4-cell embryo where mainly the maternal genes were expressed, and from 8-cell embryo to blastocyst with down-regulation of the maternal genes and up-regulation of embryonic genes. Human preimplantation development proved relatively autonomous. Genes predominantly expressed in oocytes and embryos are well conserved during evolution.
Significance
Our database and findings provide fundamental resources for understanding the genetic network controlling early human development.
Kokoelmat
- Artikkelit [6067]