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  • Book
    edited by Thomas Kroneis.
    Contents:
    Principles of whole-genome amplification / Zbigniew Tadeusz Czyz, Stefan Kirsch, and Bernhard Polzer
    Bias in whole genome amplification : causes and considerations / Jeffrey Sabina and John H. Leamon
    Single-cell lab or how to perform single-cell molecular analysis / Roland Kirchner and Marianna Alunni-Fabbroni
    Sample preparation methods following cellsearch approach compatible of single-cell whole-genome amplification : an overview / Joost F. Swennenhuis and Leon Terstappen
    Deterministic whole-genome amplification of single cells / Zbigniew Tadeusz Czyż and Christoph A. Klein
    Construction of a DNA library on microbeads using whole genome amplification / Takaaki Kojima, Bo Zhu, and Hideo Nakano
    Heat-induced fragmentation and adapter-assisted whole genome amplification using GenomePlex® single-cell whole genome amplification kit (WGA4) / Amin El-Heliebi, Shukun Chen , and Thomas Kroneis
    Whole genome amplification by isothermal multiple strand displacement using Phi29 DNA polymerase / Thomas Kroneis and Amin El-Heliebi
    Using multiplex PCR for assessing the quality of whole genome amplified DNA / Amin El-Heliebi, Shukun Chen, and Thomas Kroneis
    Quality control of isothermal amplified DNA based on short tandem repeat analysis / Thomas Kroneis and Amin El-Heliebi
    Laser microdissection of FFPE tissue areas and subsequent whole genome amplification by Ampli1 / Zbigniew Tadeusz Czyz, Nikolas H. Stoecklein, and Bernhard Polzer
    Whole genome amplification from blood spot samples / Karina Meden Sørensen
    Analysis of whole mitogenomes from ancient samples / Gloria Gonzales Fortes and Johanna L. A. Paijmans
    Copy number variation analysis by array analysis of single cells following whole genome amplification / Eftychia Dimitriadou, Masoud Zamani Esteki, and Joris Robert Vermeesch
    Whole genome amplification in genomic analysis of single circulating tumor cells / Christin Gasch, Klaus Pantel, and Sabine Riethdorf
    Whole genome amplification of labeled viable single cells suited for array-comparative genomic hybridization / Thomas Kroneis and Amin El-Heliebi
    Low-volume on-chip single-cell whole genome amplification for multiple subsequent analyses / Thomas Kroneis, Shukun Chen, and Amin El-Heliebi
    Detection and characterization of circulating tumor cells by the cellsearch approach / Frank Coumans and Leon Terstappen.
    Digital Access Springer 2015
  • Article
    Stanton RH, Plapp FW, White RA, Agosin M.
    Comp Biochem Physiol B. 1978;61(2):297-305.
    1. Microsomal fractions isolated from various housefly strains have been characterized with respect to multiple forms of cytochrome P-450 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. 2. Susceptible NAIDM houseflies were pretreated with known inducers of cytochrome P-450, and their microsomal electrophoretic profiles were compared to control NAIDM microsomes, using as standards partially purified cytochrome P-450s from noninduced NAIDM houseflies. 3. Tentatively, at least five different species of cytochrome P-450 may exist in the NAIDM housefly strain. 4. A comparison of the microsomal electrophoretic profile of different housefly strains also indicates the presence of at least two additional cytochrome P-450 species. 5. Induction with alpha-pinene and phenobarbital was expressed by a shift of the maximum absorbance at 452 nm in the CO-difference spectrum to lower wavelengths in the NAIDM strain; whereas, beta-naphthoflavone, although increasing the amount of cytochrome P-450, did not change the wavelength of maximum absorbance. 6. Cytochromes of the P-452 type appear to predominate in the susceptible NAIDM strain, while cytochromes of the P-450 and P-448 types predominate in resistant strains.
    Digital Access Access Options