skip to primary navigationskip to content
 

Read our current Prospectus/ annual report

Prospectus 2019  (large file, 40 MB)

Prospectus 2019  (smaller file with lower-resolution images, 6MB)

Prospectus 2019 Supplement: Staff in 2018  (300KB)

Studying development to understand disease

The Gurdon Institute is funded by Wellcome and Cancer Research UK to study the biology of development, and how normal growth and maintenance go wrong in cancer and other diseases.

combinedLogo x3 trans2018

 

Share this

Mature sperm small-RNA profile in the sparrow: implications for transgenerational effects of age on fitness

Single-cell transcriptome analyses reveal novel targets modulating cardiac neovascularization by resident endothelial cells following myocardial infarction

Derivation and maintenance of mouse haploid embryonic stem cells

Establishment of porcine and human expanded potential stem cells

Adapting machine-learning algorithms to design gene circuits

Lgr5+ stem/progenitor cells reside at the apex of a heterogeneous embryonic hepatoblast pool

Identification of a regeneration-organizing cell in the Xenopus tail

Citrullination of HP1γ chromodomain affects association with chromatin

A critical but divergent role of PRDM14 in human primordial germ cell fate revealed by inducible degrons

A transmissible RNA pathway in honey bees

METTL1 Promotes let-7 MicroRNA Processing via m7G Methylation

A Secreted RNA Binding Protein Forms RNA-Stabilizing Granules in the Honeybee Royal Jelly

The Human Lung Cell Atlas - A high-resolution reference map of the human lung in health and disease

A Compendium of Mutational Signatures of Environmental Agents

Characteristics and homogeneity of N6-methylation in human genomes

Comparative Epigenomics Reveals that RNA Polymerase II Pausing and Chromatin Domain Organization Control Nematode piRNA Biogenesis

Pluripotency and X chromosome dynamics revealed in pig pre-gastrulating embryos by single cell analysis

Dorsal-ventral differences in neural stem cell quiescence are induced by p57KIP2/Dacapo

Crypt fusion as a homeostatic mechanism in the human colon

Link to full list on PubMed