1,722,742 research outputs found
Chemical analysis of WEX (ASH-WEX).
<p>(<b>A</b>, <b>B</b> and <b>D</b>) HPLC analysis of WEX under two different conditions showed that WEX has four major components (<b>B</b>) and minor amounts of withaferin A and withanone (<b>D</b>). Cell-based comparative shRNA-mediated loss-of-function viability analysis of i-Extract and WEX showing that these involve several common gene targets. Blue and Red color in the wells signify dead and live cells, respectively, as examined by Alamar Blue assay (<b>C</b>). (<b>E</b>) Examination of proteins in the WEX by SDS-PAGE and Coomassie Brilliant Blue staining showing six proteins that acted as a signature of WEX.</p
Tests of gravitational symmetries with radio pulsars
Symmetries play important roles in modern theories of physical laws. In this paper, we review several experimental tests of important symmetries associated with the gravitational interaction, including the universality of free fall for self-gravitating bodies, time-shift symmetry in the gravitational constant, local position invariance and local Lorentz invariance of gravity, and spacetime translational symmetries. Recent experimental explorations for post-Newtonian gravity are discussed, of which, those from pulsar astronomy are highlighted. All of these tests, of very different aspects of gravity theories, at very different length scales, favor to very high precision the predictions of the strong equivalence principle (SEP) and, in particular, general relativity which embodies SEP completely. As the founding principles of gravity, these symmetries are motivated to be promoted to even stricter tests in future.SCI(E)[email protected]; [email protected]
Regulators Approve WEX Deal
The U.S. Federal Trade Commission approved South Portland-based WEX Inc. acquisition of Electronic Funds Source LLC. The acquisition should help WEX offer more variety of corporate card options
End-capping of conjugated thiophene-benzene aromatic systems
The synthesis of end-capped thieno[3,2-f:4,5-f′]bis[1]benzothiophene was achieved from thiophene and 2,5-thiophenedicarboxaldehyde. Specifically, hexyl and dodecyl end-capping groups conferred reversible redox behavior as evidenced by cyclic voltammetry with oxidation potentials of 0.73 V versus Fc-Fc+ couple. An extensive spectrophotometric analysis is reported. © 2010 Elsevier Ltd. All rights reserved.Barrash-Shiftan N, 1998, J PHYS ORG CHEM, V11, P743, DOI 10.1002-(SICI)1099-1395(1998100)11:10743::AID-POC393.0.CO;2-H; BAUERLE P, 1993, SYNTHESIS-STUTTGART, P1099, DOI 10.1055-s-1993-26009; Brusso JL, 2008, CHEM MATER, V20, P2484, DOI 10.1021-cm7030653; Coropceanu V, 2006, CHEM-EUR J, V12, P2073, DOI 10.1002-chem.200500879; Degheili JA, 2009, J PHYS CHEM A, V113, P1244, DOI 10.1021-jp8098363; Fichou D., 1999, HDB OLIGO POLYTHIOPH; Gao P, 2010, CHEM-EUR J, V16, P5119, DOI 10.1002-chem.200903562; Hains AW, 2010, ACS APPL MATER INTER, V2, P175, DOI 10.1021-am900634a; Helgesen M, 2010, MACROMOLECULES, V43, P1253, DOI 10.1021-ma9024812; Horowitz G, 2004, J MATER RES, V19, P1946, DOI 10.1557-JMR.2004.0266; Kagan C. R., 2003, THIN FILM TRANSISTOR; KALYANASUNDARAM K, 1977, J AM CHEM SOC, V99, P2039, DOI 10.1021-ja00449a004; Lakowicz J. R., 1999, PRINCIPLES FLUORESCE; LIPPERT E, 1957, Z ELEKTROCHEM, V61, P962; MATAGA N, 1956, B CHEM SOC JPN, V29, P465, DOI 10.1246-bcsj.29.465; Miyazaki E, 2009, J MATER CHEM, V19, P5913, DOI 10.1039-b910824f; MIYAZAKI E, 2008, Patent No. 2008108442; Moustafa RM, 2009, J PHYS CHEM A, V113, P1235, DOI 10.1021-jp809830x; Parker C.A., 1968, PHOTOLUMINESCENCE SO; Reichardt C., 1988, SOLVENTS SOLVENT EFF; REICHARDT C, 1994, CHEM REV, V94, P2319, DOI 10.1021-cr00032a005; SARAF SD, 1974, J MATH SCI, V1, P75; Shinamura S, 2010, J ORG CHEM, V75, P1228, DOI 10.1021-jo902545a; Shyamala T, 2006, CHEM PHYS, V330, P469, DOI 10.1016-j.chemphys.2006.09.018; Singh TB, 2006, ANNU REV MATER RES, V36, P199, DOI 10.1146-annurev.matsci.36.022805.094757; Subuddhi U, 2006, PHOTOCH PHOTOBIO SCI, V5, P459, DOI 10.1039-b600009f; Wex B, 2006, J MATER CHEM, V16, P1121, DOI 10.1039-b512191d; Wex B, 2006, J PHYS CHEM A, V110, P13754, DOI 10.1021-jp065548s; Wex B, 2005, J ORG CHEM, V70, P4502, DOI 10.1021-jo048010w; Wex B, 2004, J ORG CHEM, V69, P2197, DOI 10.1021-jo035769j; Xia CJ, 2002, ORG LETT, V4, P2067, DOI 10.1021-ol025943a0
I stand alone where calm and clear the matin bells salute my ear [first line]
sectionalpiano and voiceJohns Hopkins University, Levy Sheet Music Collection, Box
122, Item 017Arranged for One Voice With a Piano Forte Accompaniment by Joseph Wex Herrmann.S. Ackerma
I stand alone where calm and clear the matin bells salute my ear [first line]
sectionalpiano and voiceJohns Hopkins University, Levy Sheet Music Collection, Box
122, Item 017Arranged for One Voice With a Piano Forte Accompaniment by Joseph Wex Herrmann.S. Ackerma
WEX Names President of Corporate Payments
Interview with Jay Dearborn, who was promoted to president of WEX Inc
Gustav Ritter von Wex, sein Leben und Werk
Summary: The regulation works of Danube river along Vienna city around 1870 are described as a monumental European project of the 19th century. The publications of the project head Gustav von Wex (1811-1892) are thereby reviewed, given that he therein considered the historical bases, the imperial decision, the project outline and the advances of the works. In addition, the scientific works of von Wex are also described and put into a historical context. Finally, the biography of von Wex is presented along with the problems in searching successfully his portrait. This historical work is intended to add to the early developments in river engineering of Europ
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