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Literature DB >> 12587925

Molecular control of arterial-venous blood vessel identity.

Abstract

Recent research has demonstrated that not only haemodynamic factors but also genetic programmes control arterial-venous cell fate and blood vessel identity. The identification of arteries and veins was previously based solely on morphological criteria and is now greatly facilitated by specific molecular markers. Moreover, signalling pathways controlling the arterial-venous decision during embryonic development have been outlined for the first time. This review gives an up-to-date overview of differentially expressed genes and the regulatory processes leading to the differentiation of arteries and veins.

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Year: 2003 PMID： 12587925 PMCID： PMC1571062 DOI： 10.1046/j.1469-7580.2003.00137.x

Source DB: PubMed Journal: J Anat ISSN： 0021-8782 Impact factor: 2.610

49 in total

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Authors: Takamune Takahashi; Keiko Takahashi; Sebastian Gerety; Hai Wang; David J Anderson; Thomas O Daniel
Journal: J Am Soc Nephrol Date: 2001-12 Impact factor: 10.121

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Journal: Dev Biol Date: 2001-09-15 Impact factor: 3.582

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Journal: Nat Rev Mol Cell Biol Date: 2002-07 Impact factor: 94.444

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Journal: Nature Date: 1995-07-06 Impact factor: 49.962

Review 5. The role of positive and negative signals in somite patterning.

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Journal: Curr Opin Neurobiol Date: 1996-02 Impact factor: 6.627

6. Expression of ephrinB2 identifies a stable genetic difference between arterial and venous vascular smooth muscle as well as endothelial cells, and marks subsets of microvessels at sites of adult neovascularization.

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Journal: Dev Biol Date: 2001-02-15 Impact factor: 3.582

Review 7. The neuropilins: multifunctional semaphorin and VEGF receptors that modulate axon guidance and angiogenesis.

Authors: Gera Neufeld; Tzafra Cohen; Niva Shraga; Tali Lange; Ofra Kessler; Yael Herzog
Journal: Trends Cardiovasc Med Date: 2002-01 Impact factor: 6.677

8. Neuropilin-1 is expressed by endothelial and tumor cells as an isoform-specific receptor for vascular endothelial growth factor.

Authors: S Soker; S Takashima; H Q Miao; G Neufeld; M Klagsbrun
Journal: Cell Date: 1998-03-20 Impact factor: 41.582

9. Ephrin-B2 selectively marks arterial vessels and neovascularization sites in the adult, with expression in both endothelial and smooth-muscle cells.

Authors: N W Gale; P Baluk; L Pan; M Kwan; J Holash; T M DeChiara; D M McDonald; G D Yancopoulos
Journal: Dev Biol Date: 2001-02-15 Impact factor: 3.582

10. Molecular distinction and angiogenic interaction between embryonic arteries and veins revealed by ephrin-B2 and its receptor Eph-B4.

Authors: H U Wang; Z F Chen; D J Anderson
Journal: Cell Date: 1998-05-29 Impact factor: 41.582

24 in total

1. Identifying transient protein-protein interactions in EphB2 signaling by blue native PAGE and mass spectrometry.

Authors: Costel C Darie; Katrin Deinhardt; Guoan Zhang; Helene S Cardasis; Moses V Chao; Thomas A Neubert
Journal: Proteomics Date: 2011-10-28 Impact factor: 3.984

Review 2. Eph and ephrin signaling in mammary gland morphogenesis and cancer.

Authors: Anne-Catherine Andres; Andrew Ziemiecki
Journal: J Mammary Gland Biol Neoplasia Date: 2003-10 Impact factor: 2.673

3. Differential availability/processing of decorin precursor in arterial and venous smooth muscle cells.

Authors: Rafaella Franch; Angela Chiavegato; Maddalena Maraschin; Serena Candeo; Simonetta Ausoni; Antonello Villa; Gino Gerosa; Lisa Gasparotto; Pierpaolo Parnigotto; Saverio Sartore
Journal: J Anat Date: 2006-09 Impact factor: 2.610

4. The soluble extracellular domain of EphB4 (sEphB4) antagonizes EphB4-EphrinB2 interaction, modulates angiogenesis, and inhibits tumor growth.

Authors: Nathalie Kertesz; Valery Krasnoperov; Ramachandra Reddy; Lucy Leshanski; S Ram Kumar; Sergey Zozulya; Parkash S Gill
Journal: Blood Date: 2005-12-01 Impact factor: 22.113