References
- Carson M R, Shasby S S, Lind S E, Shasby D M. Histamine, actin-gelsolin binding, and polyphosphoinositides in human umbilical vein endothelial cells. Am J Physiol 1992; 263: L664–L669
- Frame M DS, Sarelius I H. Arteriolar bifurcation angles vary with position and when flow is changed. Microvas Res 1993; 46: 190–205
- Frame M DS, Sarelius I H. L-arginine and prostaglandin pathways contribute to unequal cell flow distribution into adjacent arterioles. FASEB J 1993; 7: A559
- Frame M DS, Sarelius I H. Regulation of capillary perfusion by small arterioles is spatially organized. Circ Res 1993; 73: 155–163
- Frame M DS, Sarelius I H. L-arginine induced conducted signals alter upstream arteriolar responsivity to L-arginine. Circ Res 1995; 75: 301–311
- Frame M DS, Sarelius I H. A system for culture of endothelial cells in 20–50 μm branching tubes. Microcirculation 1995; 2: 377–385
- Hirshi K K, Minnich B N, Moore L K, Burt J M. Oleic acid differentially affects gap junction-mediated communication in heart and vascular smooth muscle cells. Am J Physiol 1993; 265: C1517–C1526
- Little T L, Beyer E C, Duling B R. Connexin 43 and connexin 40 gap junctional proteins are present in arteriolar smooth muscle and endothelium in vivo. Am J Physiol 1995; 268: H729–H739
- Moreno A P, Saez J C, Fishman G I, Spray D C. Human connexin 43 gap junction channels. Regulation of unitary conductances by phosphorylation. Circ Res 1994; 74: 1050–1057
- Nehls V, Drenckhahn D. Demonstration of actin filament stress fibers in microvascular endothelial cells in situ. Microvas Res 1991; 42: 103–112
- Sarelius I H. Cell and oxygen flow in arterioles controlling capillary perfusion. Am J Physiol 1993; 265: H1682–H1687