Fitzgerald factor

HMW-K Fligh molecular weight Kininogen, Fitzgerald factor no... 

Von Willebrand factor (factor Vlll-related antigen vWF) High molecular weight kininogen (Fitzgerald factor) Prekallikrein (Fletcher factor)... 

High Mol Wt Kininogen Fitzgerald factor, Flaujac factor, Williams factor None None observed 70 0.7 Liver 150 KNH HUMAN... 

Fibrin-stabilizing factor, fibrinase Fletcher factor, prekallikrein factor Fitzgerald factor,... 

The speed of light is finite, but for the parallel propagation of light with the Earth s rotation speed the shrinkage of distance traveled occurs with die so-called Lorentz-Fitzgerald factor (longitudinal contraction factor)... 

XIII Fibrin-stabilizing factor (Laki-Lorand factor) Prekallikrein HMW (high molecular weight) kininogen, contact activation cofactor, Fitzgerald factor, Flaujeac factor. 320000 (tetrameric plasma form), 160000 (dimeric platelet form). Both forms contain two a subunits, which are cleaved on activation. Plasma form also contain two b subunits. XIII, is the transpeptidase responsible for cross-linking fibrin fibers. Activated to kallikrein, a serine protease which activates XII. Activated to a kinin involved in activation of XII, at least in vitro. 

Suppose we offset this motion by applying a Galilean transformation x = x +Pt ). In the new reference frame, the system will move just as it did in the old reference frame but, because a — /pqt = / i P )t/A, its diffusion is slowed down by a Lorentz-Fitzgerald-like time factor 1-/3. Intuitively, as some of the resources of the random walk computer are shifted toward producing coherent macroscopic motion (uniform motion of the center of mass), fewer resources will remain available for the task of producing incoherent motion (diffusion). [tofI89]... 

Fitzgerald JW, HW Maca, FA Rose (1979) Physiological factors regulating tyrosine-sulphate sulphohydrolase activity in Comamonas terrigena occurrence of constitutive and inducible enzymes. J Gen Microbiol 111 407-415. 

Chromium deficiency may be related to the glucose tolerance factor (Herold and Fitzgerald 1994). The determination of this deficiency, however, is questioned, because the lack of accuracy of the Cr determination in the earlier publications. 

Fitzgerald et al. (1984) measured pressure fluctuations in an atmospheric fluidized bed combustor and a quarter-scale cold model. The full set of scaling parameters was matched between the beds. The autocorrelation function of the pressure fluctuations was similar for the two beds but not within the 95% confidence levels they had anticipated. The amplitude of the autocorrelation function for the hot combustor was significantly lower than that for the cold model. Also, the experimentally determined time-scaling factor differed from the theoretical value by 24%. They suggested that the differences could be due to electrostatic effects. Particle sphericity and size distribution were not discussed failure to match these could also have influenced the hydrodynamic similarity of the two beds. Bed pressure fluctuations were measured using a single pressure point which, as discussed previously, may not accurately represent the local hydrodynamics within the bed. Similar results were... 

Mercury point sources and rates of particle scavenging are key factors in atmospheric transport rates to sites of methylation and subsequent entry into the marine food chain (Rolfhus and Fitzgerald 1995). Airborne soot particles transport mercury into the marine environment either as nuclei for raindrop formation or by direct deposition on water (Rawson etal. 1995). In early 1990, both dimethylmercury and monomethylmercury were found in the subthermocline waters of the equatorial Pacific Ocean the formation of these alkylmercury species in the low oxygen zone suggests that Hg2+ is the most likely substrate (Mason and Fitzgerald 1991 Figure 5.1). 

Hong, C.S., J. Xiao, A.C. Casey, B. Bush, E.F. Fitzgerald, and S.A. Hwang. 1994. Mono-ortho- and non-o/t/fo-substituted polychlorinated biphenyls in human milk from Mohawk and control women effects of maternal factors and previous lactation. Arch. Environ. Contam. Toxicol. 27 431-437. 

T. C. Lee, B. Malone, M. L. Blank, V. Fitzgerald, F. Snyder, Regulation of the Synthesis of Platelet-Activating Factor and Its Inactive Storage Precursor (l-Alkyl-2-acyl-sw-glycero-3-phosphocholine) from 1-Alky 1-2-acety 1-mi-glycerol by Rabbit Platelets , J. Biol. Chem. 1990, 265, 9181-9187. 

Sin DD, Fitzgerald F, Parker JD, et al. Risk factors for central and obstructive sleep apnea in 450 men and women with congestive heart failure. Am J Respir Crit Care Med. Oct 1999 160(4) 1101-1106. 

Smyth EM, Burke A, FitzGerald GA. Lipid-derived autocoids eicosanoids and platelet-activating factor. 

Lamoreaux, W. J., Fitzgerald, M. E., Reiner, A., Hasty, K. A., and Charles, S. T. 1998. Vascular endothelial growth factor increases release of gelatinase A and decreases release of tissue inhibitor of metalloproteinases by microvascular endothelial cells in vitro. Microvasc. Res. 55 29-42. 

FitzGerald DJ, Waldmann TA, Willingham MC, Pastan I. Pseudomonas exotoxin-anti-TAC. cell-specific immunotoxin active against cells expressing the human T cell growth factor receptor. J Clin Invest 1984 74 966-71. 

Zhao J, Seereeram A, Nassar MA, Levato A, Pezet S, Hathaway G, Morenilla-Palao C, Stirling C, Fitzgerald M, McMahon SB (2006) Nociceptor-derived brain-derived neurotrophic factor regulates acute and inflammatory but not neuropathic pain. Mol Cell Neurosci 31 539-548... 

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