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Items: 35

1.

Emerging role of contact-mediated cell communication in tissue development and diseases.

Mattes B, Scholpp S.

Histochem Cell Biol. 2018 Nov;150(5):431-442. doi: 10.1007/s00418-018-1732-3. Epub 2018 Sep 25. Review.

2.

Wnt/PCP controls spreading of Wnt/β-catenin signals by cytonemes in vertebrates.

Mattes B, Dang Y, Greicius G, Kaufmann LT, Prunsche B, Rosenbauer J, Stegmaier J, Mikut R, Özbek S, Nienhaus GU, Schug A, Virshup DM, Scholpp S.

Elife. 2018 Jul 31;7. pii: e36953. doi: 10.7554/eLife.36953.

3.

Observing the cell in its native state: Imaging subcellular dynamics in multicellular organisms.

Liu TL, Upadhyayula S, Milkie DE, Singh V, Wang K, Swinburne IA, Mosaliganti KR, Collins ZM, Hiscock TW, Shea J, Kohrman AQ, Medwig TN, Dambournet D, Forster R, Cunniff B, Ruan Y, Yashiro H, Scholpp S, Meyerowitz EM, Hockemeyer D, Drubin DG, Martin BL, Matus DQ, Koyama M, Megason SG, Kirchhausen T, Betzig E.

Science. 2018 Apr 20;360(6386). pii: eaaq1392. doi: 10.1126/science.aaq1392.

PMID:
29674564
4.

From top to bottom: Cell polarity in Hedgehog and Wnt trafficking.

Gradilla AC, Sanchez-Hernandez D, Brunt L, Scholpp S.

BMC Biol. 2018 Apr 10;16(1):37. doi: 10.1186/s12915-018-0511-x. Review.

5.

The function of endocytosis in Wnt signaling.

Brunt L, Scholpp S.

Cell Mol Life Sci. 2018 Mar;75(5):785-795. doi: 10.1007/s00018-017-2654-2. Epub 2017 Sep 14. Review.

6.

Secreted Frizzled-related Protein 2 (sFRP2) Redirects Non-canonical Wnt Signaling from Fz7 to Ror2 during Vertebrate Gastrulation.

Brinkmann EM, Mattes B, Kumar R, Hagemann AI, Gradl D, Scholpp S, Steinbeisser H, Kaufmann LT, Özbek S.

J Biol Chem. 2016 Jun 24;291(26):13730-42. doi: 10.1074/jbc.M116.733766. Epub 2016 Apr 29.

7.

Role of cytonemes in Wnt transport.

Stanganello E, Scholpp S.

J Cell Sci. 2016 Feb 15;129(4):665-72. doi: 10.1242/jcs.182469. Epub 2016 Jan 28. Review.

8.

Photolithographic patterning of 3D-formed polycarbonate films for targeted cell guiding.

Hirschbiel AF, Geyer S, Yameen B, Welle A, Nikolov P, Giselbrecht S, Scholpp S, Delaittre G, Barner-Kowollik C.

Adv Mater. 2015 Apr 24;27(16):2621-6. doi: 10.1002/adma.201500426. Epub 2015 Mar 18.

PMID:
25787094
9.

Filopodia-based Wnt transport during vertebrate tissue patterning.

Stanganello E, Hagemann AI, Mattes B, Sinner C, Meyen D, Weber S, Schug A, Raz E, Scholpp S.

Nat Commun. 2015 Jan 5;6:5846. doi: 10.1038/ncomms6846.

PMID:
25556612
10.

Tyrosine phosphorylation of LRP6 by Src and Fer inhibits Wnt/β-catenin signalling.

Chen Q, Su Y, Wesslowski J, Hagemann AI, Ramialison M, Wittbrodt J, Scholpp S, Davidson G.

EMBO Rep. 2014 Dec;15(12):1254-67. doi: 10.15252/embr.201439644. Epub 2014 Nov 12.

11.

In vivo analysis of formation and endocytosis of the Wnt/β-catenin signaling complex in zebrafish embryos.

Hagemann AI, Kurz J, Kauffeld S, Chen Q, Reeves PM, Weber S, Schindler S, Davidson G, Kirchhausen T, Scholpp S.

J Cell Sci. 2014 Sep 15;127(Pt 18):3970-82. doi: 10.1242/jcs.148767. Epub 2014 Jul 29. Erratum in: J Cell Sci. 2014 Dec 15;127(24):5331.

12.

Pax6 regulates the formation of the habenular nuclei by controlling the temporospatial expression of Shh in the diencephalon in vertebrates.

Chatterjee M, Guo Q, Weber S, Scholpp S, Li JY.

BMC Biol. 2014 Feb 14;12:13. doi: 10.1186/1741-7007-12-13.

13.

Endocytosis of Fgf8 is a double-stage process and regulates spreading and signaling.

Rengarajan C, Matzke A, Reiner L, Orian-Rousseau V, Scholpp S.

PLoS One. 2014 Jan 20;9(1):e86373. doi: 10.1371/journal.pone.0086373. eCollection 2014.

14.

Brain on the stage - spotlight on nervous system development in zebrafish: EMBO practical course, KIT, Sept. 2013.

Scholpp S, Poggi L, Zigman M.

Neural Dev. 2013 Dec 19;8:23. doi: 10.1186/1749-8104-8-23.

15.

Building the gateway to consciousness-about the development of the thalamus.

Scholpp S, Shimogori T.

Front Neurosci. 2013 Jun 4;7:94. doi: 10.3389/fnins.2013.00094. eCollection 2013. No abstract available.

16.

Neurogenesis in zebrafish - from embryo to adult.

Schmidt R, Strähle U, Scholpp S.

Neural Dev. 2013 Feb 21;8:3. doi: 10.1186/1749-8104-8-3. Review.

17.

Micropatterned superhydrophobic structures for the simultaneous culture of multiple cell types and the study of cell-cell communication.

Efremov AN, Stanganello E, Welle A, Scholpp S, Levkin PA.

Biomaterials. 2013 Feb;34(7):1757-63. doi: 10.1016/j.biomaterials.2012.11.034. Epub 2012 Dec 7.

PMID:
23228425
18.

The Tale of the Three Brothers - Shh, Wnt, and Fgf during Development of the Thalamus.

Hagemann AI, Scholpp S.

Front Neurosci. 2012 May 28;6:76. doi: 10.3389/fnins.2012.00076. eCollection 2012.

19.

Wnt3 and Wnt3a are required for induction of the mid-diencephalic organizer in the caudal forebrain.

Mattes B, Weber S, Peres J, Chen Q, Davidson G, Houart C, Scholpp S.

Neural Dev. 2012 Apr 4;7:12. doi: 10.1186/1749-8104-7-12.

20.

Lhx2 and Lhx9 determine neuronal differentiation and compartition in the caudal forebrain by regulating Wnt signaling.

Peukert D, Weber S, Lumsden A, Scholpp S.

PLoS Biol. 2011 Dec;9(12):e1001218. doi: 10.1371/journal.pbio.1001218. Epub 2011 Dec 13.

21.

Molecular pathways controlling development of thalamus and hypothalamus: from neural specification to circuit formation.

Blackshaw S, Scholpp S, Placzek M, Ingraham H, Simerly R, Shimogori T.

J Neurosci. 2010 Nov 10;30(45):14925-30. doi: 10.1523/JNEUROSCI.4499-10.2010. Review.

22.

Zebrafish atlastin controls motility and spinal motor axon architecture via inhibition of the BMP pathway.

Fassier C, Hutt JA, Scholpp S, Lumsden A, Giros B, Nothias F, Schneider-Maunoury S, Houart C, Hazan J.

Nat Neurosci. 2010 Nov;13(11):1380-7. doi: 10.1038/nn.2662. Epub 2010 Oct 10.

PMID:
20935645
23.

Building a bridal chamber: development of the thalamus.

Scholpp S, Lumsden A.

Trends Neurosci. 2010 Aug;33(8):373-80. doi: 10.1016/j.tins.2010.05.003. Epub 2010 Jun 11. Review.

24.

Her6 regulates the neurogenetic gradient and neuronal identity in the thalamus.

Scholpp S, Delogu A, Gilthorpe J, Peukert D, Schindler S, Lumsden A.

Proc Natl Acad Sci U S A. 2009 Nov 24;106(47):19895-900. doi: 10.1073/pnas.0910894106. Epub 2009 Nov 10.

25.

Fgf8 morphogen gradient forms by a source-sink mechanism with freely diffusing molecules.

Yu SR, Burkhardt M, Nowak M, Ries J, Petrásek Z, Scholpp S, Schwille P, Brand M.

Nature. 2009 Sep 24;461(7263):533-6. doi: 10.1038/nature08391. Epub 2009 Sep 9.

PMID:
19741606
26.

Otx1l, Otx2 and Irx1b establish and position the ZLI in the diencephalon.

Scholpp S, Foucher I, Staudt N, Peukert D, Lumsden A, Houart C.

Development. 2007 Sep;134(17):3167-76. Epub 2007 Aug 1.

27.

Early developmental specification of the thyroid gland depends on han-expressing surrounding tissue and on FGF signals.

Wendl T, Adzic D, Schoenebeck JJ, Scholpp S, Brand M, Yelon D, Rohr KB.

Development. 2007 Aug;134(15):2871-9. Epub 2007 Jul 4.

28.

Pbx proteins cooperate with Engrailed to pattern the midbrain-hindbrain and diencephalic-mesencephalic boundaries.

Erickson T, Scholpp S, Brand M, Moens CB, Waskiewicz AJ.

Dev Biol. 2007 Jan 15;301(2):504-17. Epub 2006 Aug 10.

29.

Hedgehog signalling from the zona limitans intrathalamica orchestrates patterning of the zebrafish diencephalon.

Scholpp S, Wolf O, Brand M, Lumsden A.

Development. 2006 Mar;133(5):855-64. Epub 2006 Feb 1.

30.

Endocytosis controls spreading and effective signaling range of Fgf8 protein.

Scholpp S, Brand M.

Curr Biol. 2004 Oct 26;14(20):1834-41.

31.

Zebrafish fgfr1 is a member of the fgf8 synexpression group and is required for fgf8 signalling at the midbrain-hindbrain boundary.

Scholpp S, Groth C, Lohs C, Lardelli M, Brand M.

Dev Genes Evol. 2004 Jun;214(6):285-95. Epub 2004 May 25.

PMID:
15221377
33.

Engrailed and Fgf8 act synergistically to maintain the boundary between diencephalon and mesencephalon.

Scholpp S, Lohs C, Brand M.

Development. 2003 Oct;130(20):4881-93. Epub 2003 Aug 13. Erratum in: Development. 2003 Nov;130(21):5293.

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