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Items: 1 to 20 of 84

1.

X-ray fluorescence microscopy reveals large-scale relocalization and extracellular translocation of cellular copper during angiogenesis.

Finney L, Mandava S, Ursos L, Zhang W, Rodi D, Vogt S, Legnini D, Maser J, Ikpatt F, Olopade OI, Glesne D.

Proc Natl Acad Sci U S A. 2007 Feb 13;104(7):2247-52.

2.

Copper and angiogenesis: unravelling a relationship key to cancer progression.

Finney L, Vogt S, Fukai T, Glesne D.

Clin Exp Pharmacol Physiol. 2009 Jan;36(1):88-94. doi: 10.1111/j.1440-1681.2008.04969.x. Review.

3.

Synchrotron radiation X-ray fluorescence microscopy reveals a spatial association of copper on elastic laminae in rat aortic media.

Qin Z, Toursarkissian B, Lai B.

Metallomics. 2011 Aug;3(8):823-8. doi: 10.1039/c1mt00033k.

PMID:
21589993
4.

Copper moves across membranes during angiogenesis.

Ahmad K.

Lancet Oncol. 2007 Apr;8(4):289. No abstract available.

PMID:
17436424
5.

Detection of genetically altered copper levels in Drosophila tissues by synchrotron x-ray fluorescence microscopy.

Lye JC, Hwang JE, Paterson D, de Jonge MD, Howard DL, Burke R.

PLoS One. 2011;6(10):e26867. doi: 10.1371/journal.pone.0026867.

6.

[Extracellular matrix components and angiogenesis].

Imamura M.

Nihon Yakurigaku Zasshi. 1996 Mar;107(3):153-60. Review. Japanese.

PMID:
8728288
7.

The role of copper in tumour angiogenesis.

Lowndes SA, Harris AL.

J Mammary Gland Biol Neoplasia. 2005 Oct;10(4):299-310. Review.

PMID:
16924372
8.

CRIM1 is involved in endothelial cell capillary formation in vitro and is expressed in blood vessels in vivo.

Glienke J, Sturz A, Menrad A, Thierauch KH.

Mech Dev. 2002 Dec;119(2):165-75.

9.

Temporal and spatial modulation of Rho GTPases during in vitro formation of capillary vascular network. Adherens junctions and myosin light chain as targets of Rac1 and RhoA.

Cascone I, Giraudo E, Caccavari F, Napione L, Bertotti E, Collard JG, Serini G, Bussolino F.

J Biol Chem. 2003 Dec 12;278(50):50702-13. Erratum in: J Biol Chem. 2004 Aug 27;279(35):37208-9.

10.

B1 integrin activation inhibits in vitro tube formation: effects on cell migration, vacuole coalescence and lumen formation.

Gamble J, Meyer G, Noack L, Furze J, Matthias L, Kovach N, Harlant J, Vadas M.

Endothelium. 1999;7(1):23-34.

PMID:
10599558
11.

Reorganization of basement membrane matrices by cellular traction promotes the formation of cellular networks in vitro.

Vernon RB, Angello JC, Iruela-Arispe ML, Lane TF, Sage EH.

Lab Invest. 1992 May;66(5):536-47.

PMID:
1374138
12.

X-ray fluorescence microprobe imaging in biology and medicine.

Paunesku T, Vogt S, Maser J, Lai B, Woloschak G.

J Cell Biochem. 2006 Dec 15;99(6):1489-502. Review.

PMID:
17006954
13.

CYLD regulates angiogenesis by mediating vascular endothelial cell migration.

Gao J, Sun L, Huo L, Liu M, Li D, Zhou J.

Blood. 2010 May 20;115(20):4130-7. doi: 10.1182/blood-2009-10-248526.

14.

Primary mouse endothelial cell culture for assays of angiogenesis.

Reynolds LE, Hodivala-Dilke KM.

Methods Mol Med. 2006;120:503-9.

PMID:
16491622
15.
17.

Electron microscopy of cultured angiogenic endothelial cells.

Hirschberg RM, Sachtleben M, Plendl J.

Microsc Res Tech. 2005 Aug 1;67(5):248-59.

PMID:
16170819
18.

Involvement of VEGFR-2 (kdr/flk-1) but not VEGFR-1 (flt-1) in VEGF-A and VEGF-C-induced tube formation by human microvascular endothelial cells in fibrin matrices in vitro.

Koolwijk P, Peters E, van der Vecht B, Hornig C, Weich HA, Alitalo K, Hicklin DJ, Wu Y, Witte L, van Hinsbergh VW.

Angiogenesis. 2001;4(1):53-60.

PMID:
11824379
19.

3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors interfere with angiogenesis by inhibiting the geranylgeranylation of RhoA.

Park HJ, Kong D, Iruela-Arispe L, Begley U, Tang D, Galper JB.

Circ Res. 2002 Jul 26;91(2):143-50.

20.

SPARC is a source of copper-binding peptides that stimulate angiogenesis.

Lane TF, Iruela-Arispe ML, Johnson RS, Sage EH.

J Cell Biol. 1994 May;125(4):929-43.

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