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 ReCREATION

SciArtWork ReCreation_ Creative personalised illustrations designed to simplify your message and make it beautiful. Icone, logo, press release.

Do you want to convey a concept without the complexity?

Do you need to illustrate a press release?

Do you want to create an icon representing your project or a logo for your company...?

Is your audience is not trained in science (public engagement...)?

Let us be creative with your work.

We will make your message imaginative, understandable and beautiful.

Icone representing the study of epigenetic mechanisms regulating lineage commitment  and cell potency.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Icone representing the epigenetic responses to dietary change across organismal lifespan, in mice, worms and budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of the mouse methylation clock.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.

Press Release commenting the work of Dr S. Elderkin published in Nature Genetics, 2015.

Elderkin Group at Babraham Institue, Cambridge, UK.

Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.

SciArtWork | picture your science

Illustrations and Infographics for Scientists by Scientists

Icone representing the study of epigenetic mechanisms regulating lineage commitment  and cell potency.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Icone representing the epigenetic responses to dietary change across organismal lifespan, in mice, worms and budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of the mouse methylation clock.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Icone representing the study of epigenetic mechanisms regulating lineage commitment  and cell potency.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Icone representing the epigenetic responses to dietary change across organismal lifespan, in mice, worms and budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of the mouse methylation clock.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Icone representing the study of epigenetic mechanisms regulating lineage commitment  and cell potency.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Icone representing the epigenetic responses to dietary change across organismal lifespan, in mice, worms and budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the study of the mouse methylation clock.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
SciArtWork logo
SciArtWork ReCreation_ Creative personalised illustrations designed to simplify your message and make it beautiful. Icone, logo, press release.
Icone representing the study of epigenetic mechanisms regulating lineage commitment  and cell potency.
Icone representing the epigenetic responses to dietary change across organismal lifespan, in mice, worms and budding yeast.
Icone representing the study of the mouse methylation clock.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Icone representing the study of epigenetic mechanisms regulating lineage commitment  and cell potency.
Icone representing the epigenetic responses to dietary change across organismal lifespan, in mice, worms and budding yeast.
Icone representing the study of the mouse methylation clock.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
SciArtWork logo
Icone representing the study of epigenetic mechanisms regulating lineage commitment  and cell potency.
Icone representing the epigenetic responses to dietary change across organismal lifespan, in mice, worms and budding yeast.
Icone representing the study of the mouse methylation clock.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Study of epigenetic mechanisms that create heterogeneity and functional diversity in stem cells, development and between individuals.
Icone representing the study of transgenerational epigenetic inheritance: mechanisms and consequences for metabolism/mice, worms, budding yeast.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Icone representing the development of cutting-edge epigenomics and computational technologies.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
Image designed for the press release commenting the work of Dr Sarah Elderkin on how PRC1 spatially restrains the mouse ESC genome.
SciArtWork logo