Salvatore Paxia scite author profile

We present a display device which solves a long-standing problem: to give a true stereoscopic view of simulated objects, without artifacts, to a single unencumbered observer, while allowing the observer to freely change position and head rotation.Based on a novel combination of temporal and spatial multiplexing, this technique will enable artifact-free stereo to become a standard feature of display screens, without requiring the use of special eyewear. The availability of this technology may significantly impact CAD and CHI applications, as well as entertainment graphics. The underlying algorithms and system architecture are described, as well as hardware and software aspects of the implementation.

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A shotgun optical map of the entire Plasmodium falciparum genome

Lai

Jing

Aston

et al. 1999

Nat Genet

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The unicellular parasite Plasmodium falciparum is the cause of human malaria, resulting in 1.7-2.5 million deaths each year. To develop new means to treat or prevent malaria, the Malaria Genome Consortium was formed to sequence and annotate the entire 24.6-Mb genome. The plan, already underway, is to sequence libraries created from chromosomal DNA separated by pulsed-field gel electrophoresis (PFGE). The AT-rich genome of P. falciparum presents problems in terms of reliable library construction and the relative paucity of dense physical markers or extensive genetic resources. To deal with these problems, we reasoned that a high-resolution, ordered restriction map covering the entire genome could serve as a scaffold for the alignment and verification of sequence contigs developed by members of the consortium. Thus optical mapping was advanced to use simply extracted, unfractionated genomic DNA as its principal substrate. Ordered restriction maps (BamHI and NheI) derived from single molecules were assembled into 14 deep contigs corresponding to the molecular karyotype determined by PFGE (ref. 3).

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Copy Number Variant Analysis of Human Embryonic Stem Cells

Kim

Mehta

et al. 2008

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Differences between individual DNA sequences provide the basis for human genetic variability. Forms of genetic variation include single-nucleotide polymorphisms, insertions/duplications, deletions, and inversions/translocations. The genome of human embryonic stem cells (hESCs) has been characterized mainly by karyotyping and comparative genomic hybridization (CGH), techniques whose relatively low resolution at 2-10 megabases (Mb) cannot accurately determine most copy number variability, which is estimated to involve 10%-20% of the genome. In this brief technical study, we examined HSF1 and HSF6 hESCs using arraycomparative genomic hybridization (aCGH) to determine copy number variants (CNVs) as a higher-resolution method for characterizing hESCs. Our approach used five samples for each hESC line and showed four consistent CNVs for HSF1 and five consistent CNVs for HSF6. These consistent CNVs included amplifications and deletions that ranged in size from 20 kilobases to 1.48 megabases, involved seven different chromosomes, were both shared and unique between hESCs, and were maintained during neuronal stem/ progenitor cell differentiation or drug selection. Thirty HSF1 and 40 HSF6 less consistently scored but still highly significant candidate CNVs were also identified. Overall, aCGH provides a promising approach for uniquely identifying hESCs and their derivatives and highlights a potential genomic source for distinct differentiation and functional potentials that lower-resolution karyotype and CGH techniques could miss.

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Salvatore Paxia

An autostereoscopic display

A shotgun optical map of the entire Plasmodium falciparum genome

Copy Number Variant Analysis of Human Embryonic Stem Cells

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