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Items: 20

1.

Segmentation of the zebrafish axial skeleton relies on notochord sheath cells and not on the segmentation clock.

Lleras Forero L, Narayanan R, Huitema LF, VanBergen M, Apschner A, Peterson-Maduro J, Logister I, Valentin G, Morelli LG, Oates AC, Schulte-Merker S.

Elife. 2018 Apr 6;7. pii: e33843. doi: 10.7554/eLife.33843.

2.

Whole-organism clone tracing using single-cell sequencing.

Alemany A, Florescu M, Baron CS, Peterson-Maduro J, van Oudenaarden A.

Nature. 2018 Apr 5;556(7699):108-112. doi: 10.1038/nature25969. Epub 2018 Mar 28.

PMID:
29590089
3.

Single-cell sequencing reveals dissociation-induced gene expression in tissue subpopulations.

van den Brink SC, Sage F, Vértesy Á, Spanjaard B, Peterson-Maduro J, Baron CS, Robin C, van Oudenaarden A.

Nat Methods. 2017 Sep 29;14(10):935-936. doi: 10.1038/nmeth.4437. No abstract available.

PMID:
28960196
4.

An Evolutionarily Conserved Role for Polydom/Svep1 During Lymphatic Vessel Formation.

Karpanen T, Padberg Y, van de Pavert SA, Dierkes C, Morooka N, Peterson-Maduro J, van de Hoek G, Adrian M, Mochizuki N, Sekiguchi K, Kiefer F, Schulte D, Schulte-Merker S.

Circ Res. 2017 Apr 14;120(8):1263-1275. doi: 10.1161/CIRCRESAHA.116.308813. Epub 2017 Feb 8.

5.

Functional Dissection of the CCBE1 Protein: A Crucial Requirement for the Collagen Repeat Domain.

Roukens MG, Peterson-Maduro J, Padberg Y, Jeltsch M, Leppänen VM, Bos FL, Alitalo K, Schulte-Merker S, Schulte D.

Circ Res. 2015 May 8;116(10):1660-9. doi: 10.1161/CIRCRESAHA.116.304949. Epub 2015 Mar 26.

PMID:
25814692
6.

Reverse genetic screening reveals poor correlation between morpholino-induced and mutant phenotypes in zebrafish.

Kok FO, Shin M, Ni CW, Gupta A, Grosse AS, van Impel A, Kirchmaier BC, Peterson-Maduro J, Kourkoulis G, Male I, DeSantis DF, Sheppard-Tindell S, Ebarasi L, Betsholtz C, Schulte-Merker S, Wolfe SA, Lawson ND.

Dev Cell. 2015 Jan 12;32(1):97-108. doi: 10.1016/j.devcel.2014.11.018. Epub 2014 Dec 18.

7.

Zebrafish enpp1 mutants exhibit pathological mineralization, mimicking features of generalized arterial calcification of infancy (GACI) and pseudoxanthoma elasticum (PXE).

Apschner A, Huitema LF, Ponsioen B, Peterson-Maduro J, Schulte-Merker S.

Dis Model Mech. 2014 Jul;7(7):811-22. doi: 10.1242/dmm.015693. Epub 2014 Jun 6.

8.

Divergence of zebrafish and mouse lymphatic cell fate specification pathways.

van Impel A, Zhao Z, Hermkens DM, Roukens MG, Fischer JC, Peterson-Maduro J, Duckers H, Ober EA, Ingham PW, Schulte-Merker S.

Development. 2014 Mar;141(6):1228-38. doi: 10.1242/dev.105031. Epub 2014 Feb 12.

9.

CCBE1 is essential for mammalian lymphatic vascular development and enhances the lymphangiogenic effect of vascular endothelial growth factor-C in vivo.

Bos FL, Caunt M, Peterson-Maduro J, Planas-Paz L, Kowalski J, Karpanen T, van Impel A, Tong R, Ernst JA, Korving J, van Es JH, Lammert E, Duckers HJ, Schulte-Merker S.

Circ Res. 2011 Aug 19;109(5):486-91. doi: 10.1161/CIRCRESAHA.111.250738. Epub 2011 Jul 21.

PMID:
21778431
10.

Control of endothelial sprouting by a Tel-CtBP complex.

Roukens MG, Alloul-Ramdhani M, Baan B, Kobayashi K, Peterson-Maduro J, van Dam H, Schulte-Merker S, Baker DA.

Nat Cell Biol. 2010 Oct;12(10):933-42. doi: 10.1038/ncb2096. Epub 2010 Sep 12.

PMID:
20835243
11.

Lef1 plays a role in patterning the mesoderm and ectoderm in Xenopus tropicalis.

Roël G, Gent YY, Peterson-Maduro J, Verbeek FJ, Destrée O.

Int J Dev Biol. 2009;53(1):81-9. doi: 10.1387/ijdb.072395gr.

12.

Retinoic acid and Cyp26b1 are critical regulators of osteogenesis in the axial skeleton.

Spoorendonk KM, Peterson-Maduro J, Renn J, Trowe T, Kranenbarg S, Winkler C, Schulte-Merker S.

Development. 2008 Nov;135(22):3765-74. doi: 10.1242/dev.024034. Epub 2008 Oct 16.

13.

Development of the zebrafish lymphatic system requires VEGFC signaling.

Küchler AM, Gjini E, Peterson-Maduro J, Cancilla B, Wolburg H, Schulte-Merker S.

Curr Biol. 2006 Jun 20;16(12):1244-8.

14.

Tcf-1 expression during Xenopus development.

Roël G, van den Broek O, Spieker N, Peterson-Maduro J, Destrée O.

Gene Expr Patterns. 2003 May;3(2):123-6.

PMID:
12711535
15.

Non-cell autonomous induction of apoptosis and loss of posterior structures by activation domain-specific interactions of Oct-1 in the Xenopus embryo.

Veenstra GJ, Peterson-Maduro J, Mathu MT, van der Vliet PC, Destrée OH.

Cell Death Differ. 1998 Sep;5(9):774-84.

16.

XTcf-3 transcription factor mediates beta-catenin-induced axis formation in Xenopus embryos.

Molenaar M, van de Wetering M, Oosterwegel M, Peterson-Maduro J, Godsave S, Korinek V, Roose J, Destrée O, Clevers H.

Cell. 1996 Aug 9;86(3):391-9.

17.

Dynamic and differential Oct-1 expression during early Xenopus embryogenesis: persistence of Oct-1 protein following down-regulation of the RNA.

Veenstra GJ, Beumer TL, Peterson-Maduro J, Stegeman BI, Karg HA, van der Vliet PC, Destrée OH.

Mech Dev. 1995 Apr;50(2-3):103-17.

18.

Expression of the glucocorticoid receptor gene is regulated during early embryogenesis of Xenopus laevis.

Gao X, Kalkhoven E, Peterson-Maduro J, van der Burg B, Destrée OH.

Biochim Biophys Acta. 1994 Jun 21;1218(2):194-8.

PMID:
8018720
19.

The promoter of the Xwnt-5C gene contains octamer and AP-2 motifs functional in Xenopus embryos.

Kuiken GA, Bertens PJ, Peterson-Maduro J, Veenstra GJ, Koster JG, Destrée OH.

Nucleic Acids Res. 1994 May 11;22(9):1675-80.

20.

Expression of the glucocorticoid receptor mRNA is regulated during early Xenopus laevis embryonic development.

Gao X, Kalkhoven E, Peterson-Maduro J, Destrée OH.

Ann N Y Acad Sci. 1993 Jun 11;684:205-6. Review. No abstract available.

PMID:
8317832

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