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Y04C-02-5PK CellASIC ONIX plate for haploid yeast cells (4 chamber, 3.5-5 micron)

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Y04C-02-5PK
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      Overview

      Replacement Information
      Description
      Catalogue NumberY04C-02-5PK
      Trade Name
      • CellASIC ONIX
      DescriptionCellASIC ONIX plate for haploid yeast cells (4 chamber, 3.5-5 micron)
      References
      Product Information
      HS Code3926 90 40
      Device Configuration4 chamber
      Applications
      ApplicationThe Y04 plates for Haploid Yeast Cells utilize a microfabricated silicone ceiling with a height similar to yeast cells to restrict their growth in a single focal plane & maintaining x,y position over time.
      Biological Information
      Physicochemical Information
      Dimensions
      Dimensions85.48 mm Wide x 127.76 mm Long x 14.35 mm Height
      Cell Size Range3.5–5.0 µm
      Materials Information
      Device Material
      • PDMS
      • PMMA
      • Glass
      • Polycarbonate
      Toxicological Information
      Safety Information according to GHS
      Safety Information
      Product Usage Statements
      Storage and Shipping Information
      Packaging Information
      Material Size5
      Transport Information
      Supplemental Information
      Specifications
      Global Trade Item Number
      Catalogue Number GTIN
      Y04C-02-5PK 04053252823633

      Documentation

      CellASIC ONIX plate for haploid yeast cells (4 chamber, 3.5-5 micron) MSDS

      Title

      Safety Data Sheet (SDS) 

      References

      Reference overviewPub Med ID
      A Mammalian-like DNA damage response of fission yeast to nucleoside analogs.
      Sabatinos SA, Mastro TL, Green MD, Forsburg SL
      Genetics, 193 (1), 143-157 (Jan 2013)  2013

      Show Abstract
      23150603 23150603
      Continued DNA synthesis in replication checkpoint mutants leads to fork collapse.
      Sabatinos SA, Green MD, Forsburg SL
      Molecular and Cellular Biology, 32 (24), 4986-4997 (Dec 2012)  2012

      Show Abstract
      23045396 23045396
      Bacterial Virulence Proteins as tools to rewire kinase pathways in Yeast and immune cells.
      Wei P, Wong WW, Park JS, Corcoran EE, Peisajovich SG, Onuffer JJ, Weiss A, Lim WA
      Nature 488, 384-388 (16 August 2012)  2012

      Show Abstract
      22820255 22820255
      Commitment to a cellular transition precedes genome-wide trasncriptional change.
      Doncic A, Falleur-Fettig M, Skotheim J
      Molecular Cell Vol. 43, Issue 4, 515-527 (Aug 2011)  2011

      Show Abstract
      21855792 21855792
      Distinct interactions select and maintain a specific cell fate.
      Doncic A, Falleur-Fettig M, Skotheim J
      Molecular Cell Vol. 43, Issue 4, 528-539 (Aug 2011)  2011

      Show Abstract
      21855793 21855793
      Optical sensors for measuring dynamic changes of cytosolic metabolite levels in yeast.
      Clara Bermejo, Farzad Haerizadeh, Hitomi Takanaga, Diane Chermak, Wolf Frommer
      Nature Protocols 6, 1806-1817 (2011)  2011

      Show Abstract
      22036883 22036883
      Dynamic analysis of cytosolic glucose and ATP levels in yeast using optical sensors.
      Bermejo C, Haerizadeh F, Takanaga H, Chermak D, Frommer WB
      Biochem J 432(2), 399-406 (Dec 2010)  2010

      Show Abstract
      20854260 20854260
      Spinning-disk confocal microscopy of yeast.
      Kurt Thorn
      Methods in Enzymology, Volume 470, 581-602 (2010)  2010

      Show Abstract
      20946826 20946826
      Cytosolic pH is a second messenger for glucose and regulates the PKA pathway through V-ATPase.
      Reinhard Dechant, Matteo Binda, Sung Sik Lee, Serge Pelet, Joris Winderickx and Matthias Peter
      The EMBO Journal 29, 2515-2526 (2010)  2010

      Show Abstract
      20581803 20581803
      Oscillations in CDC14 release and sequestration reveal a circuit underlying mitotic exit.
      Romilde Manzoni, Francesca Montani, Clara Visintin, Fabrice Caudron, Andres Ciliberto, and Rosella Visintin
      JCB vol. 190 no. 2, 209-222 (July 2010)  2010

      Show Abstract
      20660629 20660629

      Certificates of Quality

      Title
      Certificate of Quality Y04C-02-5PK-10194608

      Brochure

      Title
      CellASIC Cancer Brochure
      CellASIC®ONIX Microfluidic Platform Dynamic live cell analysis for yeast
      CellASIC®ONIX Microfluidic System
      The CellASIC®ONIX2 Microfluidic System

      Technical Info

      Title
      A comprehensive workflow for screening and real-time analysis of cell migration
      An integrated platform for real-time dynamic culturing and analysis of hypoxia
      Demonstration of long-term culture and in-plate staining protocols using the CellASIC(R) ONIX Microfluidic platform
      Dynamic live cell imaging of bactereial biofilm communities using the CellASIC®ONIX Microfluidic System
      Establishing a time course for translocation of FOXO4 in live cells using a novel microfluidic culture platform assay
      Live cell imaging of yeast with the CellASIC®platform reveals effect of the extracellular milieu
      Long-term, live cell analysis of host-pathogen interactions using the CellASIC®ONIX System
      Microfluidic perfusion enables long-term cell culture, precise microenvironment control and gene expression analysis
      Microincubator for Long-Term, Live Cell Microscopy and Hypoxic Culture
      Primary neuron culture and analysis facilitated by the CellASIC®ONIX Microfluidic Platform

      User Guides

      Title
      User Guide - Cell ASIC ONIX2 Microfluidic System
      User Guide -Y04C-02-5PK