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UCLA Center to Present World Festival of Sacred Music

For 16 days in September, the 2008 World Festival of Sacred Music - Los Angeles will present nearly a thousand artists performing in 41 sacred events of music and movement throughout Los Angeles, crossing neighborhoods and cultural, religious and ideological boundaries in the spirit of peace.

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•	Indian: Access Control System, Fingerprint Reader, Lamination Film, Laminating Film, Paper Shredder.
	www.aarkei.com for best quality Indian thermal lamination film, laminating film roll, pouch, paper shredder, paper shredding machine, biometric fingerprint reader, access control security system, Binder Binding Machine, New Delhi, India, Faridabad, Gurgaon Udyog Vihar, Ghaziabad, Greter Noida, Imt Manesar, Kolkata, Chennai, Hyderabad, Bangalore, UAE, Gulf Countries, Iran, Tehran, Bahrain, Irak, Sri lanka, Saudi Arabia, Qatar, Egypt, Kuwait, Pakistan, China, Nepal, Bhutan, Bangladesh, Sri Lanka.
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•	New Record in TEM Resolution
	Carl Zeiss SMT Sets New Record Milestone in Sub-Angstrom E-beam Imaging Carl Zeiss SMT announces a major break-through by achieving a record image resolution of 0.8 Angstrom (0.08 nanometer) during qualification of its latest generation ultra-high-resolution transmission electron microscope (UHRTEM). The milestone was achieved using a newly developed 200kV field-emission UHRTEM equipped with electron optical components for aberration correction, electron beam monochromatization and energy filtered imaging, partly co-developed with CEOS GmbH, Heidelberg. By unique and proprietary integration of these advanced components into a revolutionary new UHRTEM platform, image resolution of even down to 0.7 Angstrom was demonstrated for certain image directions which nearly equals the theoretically achievable resolution limit (one Angstrom is a tenth of a nanometer, while a nanometer is one billionth of a meter). The TEM instrument is specifically designed for sub-Angstrom characterization of advanced materials and device structures, e.g. for atomic scale analysis of transistor gate areas, and will be made available to demanding customers in cutting-edge nanotechnology research and development. “We are highly impressed by the latest results in high-resolution TEM development achieved by Carl Zeiss SMT. Especially combined with its proprietary energy filter technology, this tool combines resolution and analytical capabilities required for successful process development and control of leading edge IC devices for current and future technology generations,” stated Dr. Udo Nothelfer, Vice President AMD Fab30 Dresden. “In addition to semiconductor industry requirements, artifact-free imaging at utmost resolution will also serve the world's growing nanotechnology community to characterize new devices and materials down to the atomic scale and even below, especially where non-periodic structures like crystal defects and interfaces become of increasing significance. By development of our sub-Angstrom resolution TEM, we enable our most demanding customers to enter the “magic” sub-Angstrom regime defining the key properties of materials," stated Jan Vermeulen, Marketing Director of Carl Zeiss SMT. For demonstration of the achieved image resolution, Young's fringes patterns have been generated from micrographs recorded at 800,000 times image magnification and image acquisition times of 1s. The energy spread of the field emission source was reduced by the monochromator to 0.2eV and a residual spherical aberration of the objective lens (Cs value) was obtained using the integrated aberration corrector from CEOS GmbH. An amorphous Tantalum thin film was used as specimen. Four ring insets, calibrated by gold lattice reflections, indicate the 1.0, 0.9, 0.8 and 0.7 Angstrom resolution limits (from inside to outside). For all image directions, the fringe contrast clearly extends to the 0.8 Angstrom ring and even extends to the 0.7 Angstrom ring for certain image directions.
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•	[Biochemistry and Molecular Biology] Multiple Gene Polymorphisms in the Complement Factor H Gene Are Associated with Exudative Age-Related Macular Degeneration in Chinese
	purpose. Variants in the complement factor H (CFH) gene have been shown to be strongly associated with age-related macular degeneration (AMD). In this study, sequence alterations in CFH were investigated in 163 Chinese patients with exudative AMD and 155 unrelated Chinese control subjects. methods. All the 22 CFH exons, intron–exon boundaries, and promoter sequences were screened by polymerase chain reaction and DNA sequencing. results. Fifty-eight sequence changes, 42 of them novel, were identified. Six SNPs with an allele frequency >30% were significantly associated with exudative AMD. SNP rs3753396 was novel; the rest had been reported: rs3753394, rs551397, rs800292, rs2274700, and rs1329428. Two haplotype blocks were constructed. The TG haplotype for rs551397 and rs800292 was the major haplotype that conferred a significantly increased susceptibility to exudative AMD (P_corr = 0.0001, OR = 1.91, 95% CI = 1.36–2.68). conclusions. The findings support prior evidence that the CFH gene is one of the AMD-associated genes. There is a different distribution pattern of CFH variants in the Chinese compared with other populations. Individual SNP and haplotype analyses revealed that the ancient alleles at the 5' end of CFH contribute to an increased susceptibility to exudative AMD.
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•	Studies on Polyamidoamine Dendrimers as Efficient Gene Delivery Vector
	Non-viral methods of gene delivery are attractive alternatives compared to virus-based gene delivery. Polyamidoamine (PAMAM) dendrimers are a new class of highly branched spherical polymers and have a unique surface of positively charged primary amine groups. They can form complex with DNA by electrostatic interaction, and deliver gene into cells. The ability of G5 PAMAM dendrimers binding and transferring DNA to cells has been investigated, and the effect of this complex to cell viability has been evaluated. G5 PAMAM dendrimers can bind DNA and transfer it to cultured cells efficiently, and have low cytotoxicity. The complex of PAMAM dendrimer—DNA can remain intact in a broad pH range, and also can prevent DNA from being degraded by restriction enzyme. Using the EGFP-C2 gene as marker genes, PAMAM dendrimers can deliver it to many organs after intravenous injection and have high expression in liver, kidney, lung, and spleen. Polyamidoamine— DNA complex can bind selectively plasma proteins, which may be correlated with its transportation in vivo. Polyamidoamine dendrimers' high-efficiency, low-cytotoxicity gene vector, appear to have potential for fundamental research and genetic therapy in vitro and in vivo.
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•	New metamaterials that bend light backwards bring invisibility cloaks 1 step closer
	Scientists at the University of California, Berkeley, have for the first time engineered 3-D materials that can reverse the natural direction of visible and near-infrared light, a development that could help form the basis for higher resolution optical imaging, nanocircuits for high-powered computers, and, to the delight of science-fiction and fantasy buffs, cloaking devices that could render objects invisible to the human eye. (2008-08-11)
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