LI-COR Biosciences - Biotechnology Product Line

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Aerius® Automated Imager Model 4300 DNA Analyzer Odyssey® Imager Odyssey MousePOD™ Pearl™ Imager

EMSA Oligos In-Cell Western Assay Incubation Boxes IRDye® Infrared Dyes IRDye Secondary Antibodies Molecular Imaging Protein Array Accessories Reagents Western Kits

AlignIR Software e-Seq Software SagaGT Software SagaMX Software

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Proteomics

In-Cell Westerns Molecular Imaging Western Blots

Genomics

AFLP® DNA Sequencing Ecotilling Education Solutions Microsatellites Reverse Genetics SNP Discovery TILLING Undergraduate Research

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Biotechnology

Product Profile

Products
Webinars
(web seminars)
- Optical Agents Webinar
- Molecular Imaging Webinar

Webinars

On-line resources and
webinars.

Molecular Imaging Seminar Series from Baylor College of Medicine and the University of Nebraska Medical Center.

Molecular Imaging: A Systematic Approach to the Development of Fluorescent Contrast Agents for Optical Imaging of Mouse Cancer Models

Instrumentation

Odyssey Infrared Imaging System
MousePOD™ Imaging Accessory
NEW! Pearl Imager --A Near-Infrared In vivo Imaging System

Reagents

IRDye 800CW 2-DG Optical Probe
IRDye 800CW EGF Optical Probe
IRDye Protein Labeling Kits
IRDye 800CW Streptavidin
IRDye NHS Esters

Featured Webinar

Introducing the Pearl Imager, A Near-Infrared in vivo Imaging System

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

Comparison of visible and near-infrared wavelength-excitable fluorescent dyes for molecular imaging of cancer

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

More Webinars

Why Infrared for
Molecular Imaging?

For an overview on the advantages of infrared for molecular imaging, visit our Molecular Imaging Resource home page.

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