C
C. Taylor
Researcher at University of California, Berkeley
Publications - 45
Citations - 803
C. Taylor is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Superconducting magnet & Magnet. The author has an hindex of 11, co-authored 44 publications receiving 761 citations. Previous affiliations of C. Taylor include University of California, San Francisco & Lancashire County Council.
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The use of pressurized bladders for stress control of superconducting magnets
TL;DR: In this paper, a 14 T Nb/sub 3/Sn magnet was pre-stressed using a 40 mm-thick structural aluminum shell and a pressure bladder placed between the coil pack and the inner iron yoke.
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The macrophage-stimulating protein pathway promotes metastasis in a mouse model for breast cancer and predicts poor prognosis in humans.
Alana L. Welm,Julie B. Sneddon,C. Taylor,C. Taylor,Dimitry S.A. Nuyten,Marc J. van de Vijver,Bruce H. Hasegawa,Bruce H. Hasegawa,J. Michael Bishop +8 more
TL;DR: Modifying an existing mouse model of breast cancer, it is found that overexpression of MSP, MT-SP1, and MST1R was a strong independent indicator of both metastasis and death in human breast cancer patients and significantly increased the accuracy of an existing gene expression signature for poor prognosis.
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Comparison of quantitative imaging of cartilage for osteoarthritis: T2, T1ρ, dGEMRIC and contrast-enhanced computed tomography ☆
TL;DR: Results indicate that T1rho, T2 and contrast-enhanced techniques may provide complementary information about the molecular environment in cartilage during the evolution of OA.
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Maximising household waste recycling at civic amenity sites in Lancashire, England.
Ian Williams,C. Taylor +1 more
TL;DR: Practical changes to encourage more recycling at HWRCs were clearly identified in the customers' survey; these include longer opening hours and the provision of boxes to enable pre-separation of waste.
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pH of TGN and recycling endosomes of H+/K+-ATPase-transfected HEK-293 cells: implications for pH regulation in the secretory pathway.
TL;DR: It is proposed that in the presence of this effective, though inefficient, buffer system in the Golgi and TGN, H+/K+-ATPases and other transporters have little effect on luminal pH as they traffic to the plasma membrane.