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SciArtWork Publication_ Personalised scientific illustrations for research articles and reviews made by our science-trained illustrator.

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Designing and drawing a clear graphical abstract or an aesthetic figure for research articles and reviews is challenging and time-consuming.

Make it stress-free with SciArtWork.

We will provide you with a new perspective on how to represent your results. With a background in science, we can understand your research project, working straight from your manuscript

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"An endosiRNA-Based Repression Mechanism Counteracts Transposon Activation during Global DNA Demethylation in Embryonic Stem Cells." Berrens RV, Andrews S, Spensberger D, Santos F, Dean W, Gould P, Sharif J, Olova N, Chandra T, Koseki H, von Meyenn F, Reik W. Cell Stem Cell.  Nov 2017.

"Single-cell epigenomics: Recording the past and predicting the future." Gavin Kelsey, Oliver Stegle, Wolf Reik. Science. Oct 2017.

"Genome-wide Single-Molecule Footprinting Reveals High RNA Polymerase II Turnover at Paused Promoters." Arnaud R. Krebs, Dilek Imanci, Leslie Hoerner, Dimos Gaidatzis, Lukas Burger, Dirk Schübeler. Mol Cell. 2017 Aug .

Krebs Group at  EMBL Heidelberg.

Illustrations of the molecular mechanisms involving the phospholipid PI(3,4)P2 during endocytosis.
illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).

"Emerging evidence of signalling roles for PI(3,4)P2 in Class I and II PI3K-regulated pathways." Hawkins PT, Stephens LR. Biochemistry Society Transactions, 2016. Permission to display the figures was granted by the authors and the publisher Portland Press Limited.

Stress signalling pathways regulating cellular proteostasis, including the HSR, the UPRER and the UPRmito.
Cell-non-autonomous stress signalling in mammals.

"Regulation of cell-non-autonomous proteostasis in metazoans." Daniel O'Brien and Patricija van Oosten-Hawle. Essays Biochem. 2016 Oct 15; 60(2): 133–142.

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"Genome-wide Single-Molecule Footprinting Reveals High RNA Polymerase II Turnover at Paused Promoters." Arnaud R. Krebs, Dilek Imanci, Leslie Hoerner, Dimos Gaidatzis, Lukas Burger, Dirk Schübeler. Mol Cell. 2017 Aug .

Illustrations of the molecular mechanisms involving the phospholipid PI(3,4)P2 during endocytosis.
illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).

"Emerging evidence of signalling roles for PI(3,4)P2 in Class I and II PI3K-regulated pathways." Hawkins PT, Stephens LR. Biochemistry Society Transactions, 2016. Permission to display the figures was granted by the authors and the publisher Portland Press Limited.

Stress signalling pathways regulating cellular proteostasis, including the HSR, the UPRER and the UPRmito.
Cell-non-autonomous stress signalling in mammals.

"Regulation of cell-non-autonomous proteostasis in metazoans." Daniel O'Brien and Patricija van Oosten-Hawle. Essays Biochem. 2016 Oct 15; 60(2): 133–142.

SciArtWork logo
Illustrations of the molecular mechanisms involving the phospholipid PI(3,4)P2 during endocytosis.
illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).
Illustration of a speculative model of early autophagy steps. Nucleation and Elongation.
illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).
Stress signalling pathways regulating cellular proteostasis, including the HSR, the UPRER and the UPRmito.
Cell-non-autonomous stress signalling in mammals.
SciArtWork Publication_ Personalised scientific illustrations for research articles and reviews made by our science-trained illustrator.

Illustrations of the molecular mechanisms involving the phospholipid PI(3,4)P2 during endocytosis.
illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).

illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).
Illustration of a speculative model of early autophagy steps. Nucleation and Elongation.

Stress signalling pathways regulating cellular proteostasis, including the HSR, the UPRER and the UPRmito.
Cell-non-autonomous stress signalling in mammals.

SciArtWork logo

Illustrations of the molecular mechanisms involving the phospholipid PI(3,4)P2 during endocytosis.
illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).

illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).
Illustration of a speculative model of early autophagy steps. Nucleation and Elongation.

Stress signalling pathways regulating cellular proteostasis, including the HSR, the UPRER and the UPRmito.
Cell-non-autonomous stress signalling in mammals.

SciArtWork logo

Illustrations of the molecular mechanisms involving the phospholipid PI(3,4)P2 during endocytosis.
illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).

illustration of the role of PI(3,4)P2 during cell extensions formation (podosome/ invadopode or ruffle/ lamelipodia).
Illustration of a speculative model of early autophagy steps. Nucleation and Elongation.

Stress signalling pathways regulating cellular proteostasis, including the HSR, the UPRER and the UPRmito.
Cell-non-autonomous stress signalling in mammals.