Proteomics
Genomics
Biotechnology
On-line resources and webinars.
Molecular Imaging Seminar Series from Baylor College of Medicine and the University of Nebraska Medical Center.
...For Infrared Imaging Systems
IRDye® Secondary Antibodies Blocking Buffer Western Blot Kits In-Cell Western Assay Kits IRDye Labeling Kits Western Incubation Boxes Molecular Imaging Agents Quansys ELISA's Protease Assay Kits Stripping Buffers Smart Gel™
...For LI-COR DNA Analyzers
AFLP® Reagents cDNA AFLP Expression Reagents IRDye Primers IRDye Custom Primers IRDye Terminator Mixes KB Plus Liquid Gel Matrix Sizing Standards
All IRDye Reagents
IRDye 800CW EGF Optical Probe IRDye Labeled Streptavidin IRDye NHS Esters IRDye Secondary Antibodies IRDye Protein Labeling Kits IRDye Sequencing Primers IRDye Phosphoramidites NEW! Casein Protease Assay NEW! FRET Assays
Reagent News
Sept 10, 2007: LI-COR Infrared Dye Successfully Completes Toxicity Studies May 25, 2007: New Reagents and Kits Introduced October 23, 2006: New Paper on Near Infrared Technology for Optical Imaging October 1, 2006: New IRDye in vivo Imaging Publication April 1, 2006: LI-COR Biosciences introduces IRDye 800CW EGF Optical Probe February 1, 2006: New line of IRDye-labeled secondary antibodies June 1, 2005: LI-COR introduces reagents and accessories for protein array analysis
Ordering Information
Order Sequencing Oligonucleotides Online
Odyssey Ordering Information
Aerius Ordering Information
Suppliers of IRDye-labeled Oligonucleotides in Europe
January 2008 - LI-COR Introduces New Line of IRDye Protease Assay Kits
Sept 10, 2007: LI-COR Infrared Dye Successfully Completes Toxicity Studies
May 25, 2007: New Reagents and Kits Introduced
April 12, 2007: Publication comparing IRDye 800CW to Cy 5.5.
October 23, 2006: New Paper on Near Infrared Technology for Optical Imaging
October 1, 2006: New IRDye in vivo Imaging Publication
April 14, 2006: LI-COR Biosciences introduces IRDye 800CW EGF Optical Probe
February 21, 2006: New line of IRDye-labeled secondary antibodies
Seeing Beyond the Visible With IRDye® Infrared Dyes
A Systematic Approach to the Development of Fluorescent Contrast Agents for Optical Imaging of Mouse Cancer Models
Comparison of visible and near-infrared wavelength-excitable fluorescent dyes for molecular imaging of cancer
Purification method directly influences effectiveness of an epidermal growth factor-coupled targeting agent for noninvasive tumor detection in mice
Miniature near-infrared dual-axes confocal microscope utilizing a two-dimensional microelectromechanical systems scanner
In Vivo Optical Imaging of Pleural Space Drainage to Lymph Nodes of Prognostic Significance
In vivo near-infrared fluorescence imaging of osteoblastic activity
Near-infrared fluorescence imaging of microcalcification in an animal model of breast cancer
Dual optical and nuclear imaging in human melanoma xenografts using a single targeted imaging probe
Quality analysis of in vivo near-infrared fluorescence and conventional gamma images acquired using a dual-labeled tumor-targeting probe
Detecting Microbes in Space - LI-COR IRDye Infrared Dyes tested by NASA
Discussion of IRDye 800CW compared to Cy 5.5 for in vivo imaging.
- Dr. Eva Sevick-Muraca and Dr. Shi Ke, Baylor College of Medicine - Jun 26, 2006
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