Odyssey F Imager Operator's Manual | This is the manual for use of the Odyssey F Imager. | Manual |
Dye Decontamination Kit Pack Insert (P/N 9300-840, 9300-841, 9300-842) | This decontamination kit effectively and safely removes dye contamination from the skin of the animal or surface of Pearl imaging beds. | Pack Insert |
MPX Blotting System User Guide | This User Guide explains how to use the MPX Blotter accessory. | Manual |
WesternSure Pen Quick Reference Card | Use instructions for the WesternSure Pen (P/N 926-91000). | Quick Card |
Quick Start Guide for the C-DiGit Blot Scanner | This Quick Start Guide explains how to start using Image Studio Software version 5.0 with the C-DiGit Blot Scanner. | Quick Start |
Install Guide for the C-DiGit Blot Scanner Windows 10 Driver | If you are using Windows 10, a separate driver must be installed to connect your C-DiGit Blot Scanner to Image Studio Software via USB. | Installation Guide |
C-DiGit Quick Start Guide | This Quick Card covers installing the C-DiGit Blot Scanner and Image Studio Software 5.0 for the C-DiGit. | Quick Card |
C-DiGit Blot Scanner Operator's Manual | Operator Manual for the hardware specifications and operations of the C-DiGit Blot Scanner. | Manual |
Image Studio Software 5.x.x for the C-DiGit Blot Scanner Installation Instructions | This installation guide explains how to install the C-DiGit Blot Scanner with Image Studio Software 5.x.x. | Installation Guide |
Cleaning and Shipping Instructions for the D-DiGit Gel Scanner | This guide explains how to clean and package the D-DiGit Gel Scanner for shipping. | Quick Start |
Quick Start Guide for the D-DiGit Gel Scanner | This guide explains how to setup and begin using the D-DiGit Gel Scanner. | Quick Start |
D-DiGit Gel Scanner User Guide | Operator Manual for the D-DiGit Gel Scanner. Includes hardware specifications. | Manual |
Odyssey DLx Imaging System Operator's Manual | Operator's Manual for the Odyssey DLx Imaging System. Includes hardware specifications. | Manual |
Odyssey DLx Operator’s Manual for Labs Using Image Studio 21 CFR Part 11 | Operator's Manual for labs using Image Studio 21 CFR Part 11 Software with the Odyssey DLx Imager. | Manual |
Odyssey CLx Operator’s Manual | Operator's Manual for the Odyssey CLx Imager. | Manual |
Odyssey CLx Operator’s Manual for Labs Using Image Studio 21 CFR Part 11 | Operator's Manual for labs using Image Studio 21 CFR Part 11 Software with the Odyssey CLx Imager. | Manual |
Moving Instructions for Odyssey DLx and CLx Imagers | Instructions for moving the Odyssey DLx or Odyssey CLx Imager within the lab. | Quick Start |
Odyssey M Imaging System Operator's Manual | Operator's Manual for the Odyssey M Imaging System. Includes hardware specifications. | Manual |
Odyssey XF Operator's Manual | Operator's Manual for the hardware specifications and operations of the Odyssey XF Imaging System. | Manual |
Odyssey XF Operator’s Manual for Labs Using Image Studio 21 CFR Part 11 | Operator's Manual for labs using Image Studio 21 CFR Part 11 Software with the Odyssey XF Imager. | Manual |
Odyssey Fc Imaging Tray | P/N 926-40020 | Accessory Insert |
Pack the Odyssey Fc Imager for Shipping | Follow these steps to pack the Odyssey Fc into its shipping case. | Quick Start |
Moving Instructions for Odyssey XF and Fc Imagers | Instructions for moving the Odyssey XF or Odyssey Fc Imager within the lab. | Quick Start |
Pearl Macroscopic Imaging System | Pearl Macroscopic Imaging System Manual | Manual |
Image Studio Software 5.x.x Installation Instructions for Pearl Imaging Systems | Install Image Studio 5.x for use with a Pearl Imaging System. | Installation Guide |
Pearl Accessories Operator's Manual | This Manual includes instructions for using Pearl Imager Accessories including the Pearl Docking Station and Pearl Clean Box. | Manual |
Pearl Trilogy Manual | Operator's Manual for the hardware specifications and operations of the Pearl Trilogy Imager. | Manual |
Moving Instructions for the Pearl Trilogy Small Animal Imager | Instructions for moving the Pearl Trilogy Small Animal Imager within the lab. | Quick Start |
Quick Start Guide for the Pearl Trilogy Imager with Image Studio Software 5.0 | This Quick Start Guide introduces using the Pearl Trilogy Imager with Image Studio 5.0, including Work Area creation, image acquisition and display, data analysis, exporting images, and exporting data. | Quick Start |
Compound Injection Clip Pack Insert (P/Ns 9300-850, 9300-851) | The compound injection clip can be used with the Pearl Impulse Imaging System for in vivo imaging. | Accessory Insert |
Pearl Imaging Bed Pack Insert (P/Ns 9957-023 and 9300-021) | The Pearl Imaging Bed is an accessory for the Pearl Impulse Small Animal Imaging System. | Pack Insert |
Organ Tray Base Pack Insert (P/N 9300-23) | Pack insert for the Organ Tray Base accessory that can be used on the Pearl instrument for in vivo imaging. | Accessory Insert |
Organ Imaging Tray: Pack Insert for p/n 9300-836 | Organ Imaging Tray: Pack Insert for p/n 9300-836. | Accessory Insert |
Pearl Imager Cart | This document has instructions for the Pearl Imager Cart. | Accessory Insert |
Pearl_Source_Licenses.pdf | Pearl Source Licenses | License Information |
SmartFlow Anesthesia Suite Quick Start Guide for p/n 9000-101 and 9000-102 | Guide for using the Anesthesia Suite to supply Isoflurane anesthesia gas to the Pearl Impulse, Pearl Imager, MousePOD Accessory, or Pearl Docking Station. | Quick Start |
SmartFlow Anesthesia Suite Quick Card | User guide for the general operation of the SmartFlow Anesthesia Suite. | Quick Card |
Image Studio Connection Guide (Odyssey Family, Pearl, and Aerius Imagers) | This Guide explains how to connect the Odyssey Classic, Odyssey CLx, Odyssey Fc, C-DiGit Blot Scanner, Pearl Imager, and Aerius Imager to Image Studio Software. | Quick Start |
Image Studio 21CFR11 Software SMT Help v1.4.7.32 | This Help System PDF explains how to use the Image Studio 21CFR11 Software System Management Tool version 1.4.7.32. | Help System |
Image Studio 21CFR11 Software Help v5.6.2 | This Help System PDF explains how to use Image Studio 21CFR11 Software version 5.6.2. | Help System |
Locating Your LI-COR Instrument Serial Number | This Guide explains how to find the serial number on any Odyssey Imaging System, Pearl Imager, or 4300 DNA Analyzer. | Quick Start |
Western Blot Documentation Worksheet | Use this worksheet to keep track of experimental details. Good record-keeping is essential for performing reproducible Western blots. | Quick Card |
Empiria Studio Software Sample Images Guide | This guide provides the data needed to analyze the Sample Images available at licor.com/empiria-support. | Application Guide |
EULA-EmpiriaStudio-v1.3.pdf | Empiria Studio End User's License Agreement | EULA |
ESLicense.pdf | Empiria Studio Version 2.3 End User's License Agreement | EULA |
LASLicense.pdf | Image Studio™ Software Version 1.2 End User's License Agreement | EULA |
End-User License Agreement for Image Studio 2 | End-user license agreement for Image Studio V2 software. | EULA |
Image Studio Software Version 2.0 Help System | Help system for Image Studio Software version 2.0. | Help System |
End-User License Agreement for Image Studio 3 | End-user license agreement for Image Studio V3 software. | EULA |
Image Studio 4 End-User License Agreement | End-user license agreement for Image Studio V4 software. | EULA |
Image Studio 5 End-User License Agreement | End-user license agreement for Image Studio V5 software. | EULA |
image_studio2_licenses.pdf | Image Studio 2 license information | License Information |
image_studio3_licenses.pdf | Image Studio 3 License Information | License Information |
image_studio4_licenses.pdf | Image Studio 4 License Information | License Information |
Using the Image Studio Connection Diagnostics Utility Program with the Odyssey CLx, Odyssey Fc, C-DiGit Blot Scanner, or Pearl Impulse | This User Guide explains how to use the Image Studio Connections diagnostic utility. | Installation Guide |
Quick Start Guide for Image Studio Lite Software 5.x | This Quick Start Guide introduces using Image Studio Lite 5.x, including Work Area creation, image import, image display, data analysis, exporting images, and exporting data. | Quick Start Guide |
LI‑COR Acquisition Software End User's License Agreement | LI‑COR Acquisition Software End User's License Agreement (1.7.2021) | EULA |
LI‑COR Acquisition Software End User's License Agreement | LI‑COR Acquisition Software End User's License Agreement (01.2022) | EULA |
LI‑COR Acquisition Software End User's License Agreement | LI‑COR Acquisition Software End User's License Agreement (11.2021) | EULA |
Pearl Cam License Information | Pearl Cam License Information | License Information |
In-Cell Western Protocol: Assessing Response of A431 Cells to Stimulation with Epidermal Growth Factor | In-Cell Western protocol for the quantitative determination of EGF receptor and ERK phosphorylation in A431 cells. | Example Experiment |
Characterization and Performance of a Near-Infraed 2-Deoxyglucose Optical Imaging Agent for Mouse Cancer Models | Malignant neoplasms exhibit an elevated rate of glycolysis over normal cells. This characteristic can be exploited for optical imaging of tumors in mice. A near infrared fluorophore, IRDye 800CW, emission maximum 794 nm, was conjugated to 2-deoxyglucose (2-DG). An immunofluorescent cell-based assay was used to evaluate specificity and sensitivity of the conjugate in cultured cell monolayers. | Application Guide |
IRDye 800CW Maleimide Labeling Application Guide | IRDye 800CW Maleimide is a functional derivative of infrared dye IRDye 800CW that is reactive toward free–SH (thiol, sulfhydryl) groups. Most molecules that contain free–SH groups can be labeled with maleimide dyes, including IRDye 800CW Maleimide Infrared Dye. This application guide provides guidelines for labeling with IRDye 800CW Maleimide. | Application Guide |
Near-infrared-labeled tetracycline derivative is an effective marker of bone deposition in mice | This paper explores the use of IRDye 800CW labeled compounds to study bones. By conjugating target compounds to IRDye® 800CW, we extended the effective fluorescence signal detection to the NIR region without affecting the compound’s ability to function as a marker of the mineralization process. | Application Guide |
Using the Z'-Factor Coefficient to Monitor Quality of Near-Infrared Fluorescent Cell-Based Assays | Many factors affect the quality and reproducibility of microplate-based immunocytochemical assays like the In-Cell Western™ assay. Consequently, an efficient, reliable performance measurement for detection of changes in assay quality is desirable. The Z’-factor coefficient is a simple statistical parameter that is commonly used to assess the quality of high throughput screening (HTS) assays. | Application Guide |
A systematic approach to the development of fluorescent contrast agents for optical imaging of mouse cancer models | This review outlines some of the general principles that are important when developing and using fluorochrome-labeled optical contrast agents for oncology investigations in animals. | Application Guide |
LI‑COR Acquisition Software End User's License Agreement | LI‑COR Acquisition Software End User's License Agreement (Rev 11.2021) | EULA |
PearlCam_License.pdf | Pearl Cam License Information | License Information |
In-Cell Western Protocol: Assessing Response of A431 Cells to Stimulation with Epidermal Growth Factor | In-Cell Western protocol for the quantitative determination of EGF receptor and ERK phosphorylation in A431 cells. | Example Experiment |
Characterization and Performance of a Near-Infraed 2-Deoxyglucose Optical Imaging Agent for Mouse Cancer Models | Malignant neoplasms exhibit an elevated rate of glycolysis over normal cells. This characteristic can be exploited for optical imaging of tumors in mice. A near infrared fluorophore, IRDye 800CW, emission maximum 794 nm, was conjugated to 2-deoxyglucose (2-DG). An immunofluorescent cell-based assay was used to evaluate specificity and sensitivity of the conjugate in cultured cell monolayers. | Application Guide |
IRDye 800CW Maleimide Labeling Application Guide | IRDye 800CW Maleimide is a functional derivative of infrared dye IRDye 800CW that is reactive toward free–SH (thiol, sulfhydryl) groups. Most molecules that contain free–SH groups can be labeled with maleimide dyes, including IRDye 800CW Maleimide Infrared Dye. This application guide provides guidelines for labeling with IRDye 800CW Maleimide. | Application Guide |
Near-infrared-labeled tetracycline derivative is an effective marker of bone deposition in mice | This poaper explores the use of IRDye 800CW labeled compounds to study bones. By conjugating target compounds to IRDye® 800CW, we extended the effective fluorescence signal detection to the NIR region without affecting the compound’s ability to function as a marker of the mineralization process. | Application Guide |
Using the Z'-Factor Coefficient to Monitor Quality of Near-Infrared Fluorescent Cell-Based Assays | Many factors affect the quality and reproducibility of microplate-based immunocytochemical assays like the In-Cell Western™ assay. Consquently, an efficient, reliable performance measurement for de-tection of changes in assay quality is desirable. The Z’-factor coefficient is a simple statistical parameter that is commonly used to assess the quality of high throughput screening (HTS) assays. | Application Guide |
A systematic approach to the development of fluorescent contrast agents for optical imaging of mouse cancer models | This review outlines some of the general principles that are important when developing and using fluorochrome-labeled optical contrast agents for oncology investigations in animals. | Application Guide |
Cell Viability Assay with Sapphire700 Stain and the Odyssey CLx and Sa Imaging Systems | This protocol describes a cell viability assay that uses near-infrared fluorescent detection. Sapphire700 Stain is used to determine cell viability by assessing cell membrane integrity, and the assay is imaged with the Odyssey CLx and Odyssey Sa Imaging Systems. | Application Guide |
A High Throughput Drug Discovery for Intracellular Neurodegenerative Disease-Associated Targets using the LI-COR Odyssey Near Infrared System | This paper by Chad Dickey discusses a high-throughput method for the quantitative detection of an intracellular target (Tau) in a cell-based assay, the In-Cell Western assay. | Application Guide |
Electrophoretic Mobility Shift Assay (EMSA) Using IRDye Oligonucleotides | The Odyssey Family of Imagers offers a quick and easily-adapted alternative method to radioisotopic and chemiluminescent detection methods for EMSA analysis and visualization. | Application Guide |
| Glycoprotein Detection with the Odyssey Infrared Imaging System | Application Guide |
In-Gel Immunochemical Detection of Proteins that Transfer Poorly to Membranes | When fluorescent secondary antibodies are detected with an Odyssey Imager, nanogram quantities of protein can be specifically detected by the in-gel protocol. A linear fluorescence response is seen over three orders of magnitude in protein concentration. | Application Guide |
On-Cell Western Plate-Based Assay for Targeted Near-Infrared-Labeled Optical Imaging Agent Development: Receptor-Based Binding and Competition Assays | This protocol is intended to illustrate the process for testing a particular cell type with the IRDye 800CW EGF for eventual use in vivo. The On-Cell Western Assay is used. | Application Guide |
One-Blot Western Optimization using the MPX Blotting System | The independent channels of the MPX (Multiplex) Blotter make it possible to optimize blocking buffer, primary antibody dilution, and secondary antibody dilution on a single Western blot. | Application Guide |
In Vivo Animal Imaging Diet Considerations | As presented in this application note, a simple consideration of what diet to feed mice prior to imaging could improve background levels significantly in the abdominal region. | Application Guide |
Pearl Imager Precision in Organ Analysis | The Pearl Imager provides uniform area illumination by laser excitation, effectively minimizing variability when imaging animals and organs. This document will illustrate some of these effects and provide guidance when imaging high and low intensity targets (i.e., organs, tissues) in the same field of view. | Application Guide |
Labeling of Fixed Cells with IRDye NHS Ester Reactive Dyes for In-Cell Western Assay Normalization | A key feature in the In-Cell Western Assay is its ability to simultaneously measure two targets of interest or normalize the data for well-to-well variation in cell number. LI-COR has developed three types of protocols for normalization. | Application Guide |
Single-Dose Intravenous Toxicity Study of IRDye 800CW in Sprague-Dawley Rats | Based on hematologic, clinical chemistry, and histopathologic evaluation, single administration of IRDye 800CW carboxylate intravenously at dose levels of 1, 5, and 20 mg/kg or 20 mg/kg intradermally produced no pathological evidence of toxicity. | Application Guide |
Quantitative, Two-Color Western Blot Detection with Infrared Fluorescence | In this paper, LI-COR scientists compared the linear range of IR detection to chemiluminescence in a dot blot assay, and found that IR fluorescence provided a 16-250 fold wider quantifiable linear range with increased accuracy. | Application Guide |
Immunofluorescent Mapping of Cannabinoid CB1 and Dopamine D2 Receptors in the Mouse Brain | This paper demonstrates the utility of infrared immunostaining for rapid and detailed evaluation of expression patterns for two G protein coupled receptors, the cannabinoid CB1 and dopamine D2 receptor in mouse brain. | Application Guide |
A Cell Based Immunocytochemical Assay For Monitoring Kinase Signaling Pathways and Drug Efficacy | We have developed a near-infrared (NIR) cytoblot assay that can be used to investigate both kinase signaling and the effects of kinase inhibitors. | Application Guide |
Tracking G Protein-Coupled Receptor Trafficking using Odyssey Imaging | The Miller lab developed a novel way of quantifying the trafficking of CB1 to and from the cell membrane using IR fluorescence. With this technology, the detailed molecular mechanisms involved with GPCR trafficking can be elucidated. | Application Guide |
The LI-COR Odyssey as a Near-Infrared Imaging Platform for Animal Models of Alzhemier's Disease | In this study, the LI-COR Odyssey Imager was used as a detection platform to facilitate the development of new near infrared imaging approaches. The results show that the Odyssey Imager is a flexible imaging tool for molecular imaging of NIR fluorophores. | Application Guide |
Quantitative methods for analysis of protein phosphorylation in drug development | This review examines some of the current formats used for quantifying kinase function for drug development. | Application Guide |
Bacterial Colony Imaging Guide | This document describes how to use an Odyssey M Imager and LI-COR Acquisition Software to acquire an image of bacterial colonies. | Application Guide |
In-Cell Western Protocol: Phopho-p53 Detection in COS Cells in Response to Hydroxyurea | In-Cell Western protocol for the quantitative determination of p53 phosphorylation in COS cells in response to stimulation with hydroxyurea. | Example Experiment |
Determining the Linear Range for Quantitative Western Blot Detection | This protocol explains how to choose an appropriate amount of sample to load for QWB analysis. | Protocol |
Developing a 3-Color Western Blot: What You Need to Know to Get Started | This guide presents some things to keep in mind to achieve meaningful results when detecting three unique targets in a Western blot. | Application Guide |
Ex Vivo Imaging Quick Start Guide | Near-infrared labeled targeting agents provide the ability to see deeper into tissues to determine which organs retain the probe and how the probe is retained within different organs. | Protocol |
Near-Infrared (NIR) Western Blot Detection | This technical note discusses how to perform a near-infrared fluorescent Western blot. It also covers troubleshooting hints and tips. | Protocol |
Good Multiplexing Gone Bad: Tips to Target Multiple Proteins on One Western Blot | This guide presents nuances encountered when multiplexing more than one target per membrane and offers potential solutions that do not reduce assay accuracy. | Application Guide |
Good Normalization Gone Bad | Good Normalization Gone Bad presents examples of normalization that have been adversely affected by common pitfalls and offers potential solutions. | Application Guide |
Good Westerns Gone Bad: Maximizing Sensitivity on Chemiluminescent Western Blots | This troubleshooting guide addresses many common problems seen with chemiluminescent Western blots and correct or improve the issue for great results. | Application Guide |
Good Westerns Gone Bad: Tips to Make Your NIR Western Blot Great | Near-infrared fluorescence detection on the Odyssey Family of Imaging Systems provides a quantitative two-color detection method for Western blots. This document will discuss some factors that may alter the performance of a NIR Western blot. | Application Guide |
In-Cell Western Protocol: Complete Apoptosis Assay Example Detailing the Seeding, Induction, and Detection of the HeLa Cellular Response to Anisomycin Treatment | In-Cell Western protocol for the quantitative determination of apoptosis (cleaved caspase-3) in HeLa cells in response to Anisomycin treatment. | Example Experiment |
In-Cell Western Protocol: Complete Sample Protocol Detailing the Seeding, Stimulation, and Detection of the Hela Cellular Response to Epidermal Growth Factor | In-Cell Western protocol for the quantitative determination ERK phosphorylation in HeLa cells in response to EGF stimulation. | Example Experiment |
Housekeeping Protein Normalization Protocol | This protocol describes how to use a housekeeping protein for Western blot normalization and quantitative analysis. | Protocol |
Housekeeping Protein Validation Protocol | This protocol explains how to validate an HKP for use as an internal loading control, by demonstrating that HKP expression is stable in the relevant experimental samples. | Protocol |
In-Cell Western Assay Development Handbook | The In-Cell Western Assay is a quantitative immunofluorescence assay performed in microwell plates that combines the specificity of Western blotting with the replicability and throughput of ELISA. This handbook explains how to develop a reliable In-Cell Western assay. | Application Guide |
In-Gel Western Detection Using Near-Infrared Fluorescent Detection | Protocol for performing In-Gel Westerns with near infrared fluorescence for hydrophobic or large proteins or glycoproteins. Image with the Odyssey CLx, Odyssey Classic or Odyssey Fc Imaging System. | Protocol |
IRDye Peptide Labeling Application Guide | Peptides labeled with fluorescent dyes are important as probes for in vivo imaging and as substrates for en-zyme activity assays. The IRDye infrared dye NHS esters will react with the amino groups of a peptide to form a stable, specifically-labeled compound. | Application Guide |
In-Cell Western Protocol: Complete Sample Protocol Detailing the Seeding, Stimulation, and Detection of the NIH3T3 Cellular response to PDGF-BB | In-Cell Western protocol for the quantitative determination of AKT phosphorylation in NIH3T3 cells in response to PDGF-BB stimulation. | Example Experiment |
Complete Sample Protocol Detailing the Seeding, Stimulation, and Detection of the NIH3T3 Cellular Response to acidic Fibroblast Growth Factor | In-Cell Western assay protocol to assess the effect of acidic FGF on NIH3T3 cells. | Example Experiment |
Western Blot Normalization Handbook | The Normalization Handbook describes how to choose and validate an appropriate internal loading control for normalization. | Application Guide |
Imaging Nucleic Acid Gels on the Odyssey Fc Imager | The Odyssey Fc Imager, with 600 channel capabilities, can image agarose gels stained with popular DNA stains, such as ethidium bromide and SYBR Safe DNA stain, with sub-nanogram sensitivity. | Application Guide |
Syto 60 Staining of Nucleic Acids in Gels | Nucleic acids stained with the Syto 60 stain can be detected and quantified on the Odyssey® Infrared and Odyssey Fc Imaging Systems using the 700 nm channel. | Application Guide |
In Vivo Validation of Optical Probes | Before beginning a large animal study, it is critical to confirm that your labeled targeting agent is specific to the intended target within the animal. Understanding the biodistribution and clearance of a labeled targeting agent is critical for meaningful image analysis and interpretation. | Protocol |
Optimizing Chemiluminescent Western Blots | This application note walks through the chemiluminescent Western blot workflow and how to optimize your results using the Odyssey Fc Dual-Mode Imaging System. | Application Guide |
In-Cell Western Protocol: Phospho-p38 Detection in HeLa Cells in Response to Anisomycin | In-Cell Western Assay for Phospho-p38 Detection in HeLa Cells in Response to Anisomycin. | Example Experiment |
Antibody Validation for Western blot: By the User, for the User | In this article, practical strategies are proposed for the validation of primary antibody specificity, selectivity, and reproducibility using Western blot analysis. | Article |
A systematic approach to quantitative Western blot analysis | Attaining true quantitative data from WB requires that all the players involved in the procedure are quality controlled including the user. | Article |
In-Cell Western Protocol: Complete Sample Protocol for PMA-Induced ERK Activation in Suspension Cell Lines | Odyssey In-Cell Western sample protocol for PMA-induced ERK Activation in Suspension Cell Lines. | Example Experiment |
Detection of Post-immunoprecipitation Proteins by Western blot using Quick Western Kit - IRDye 680RD | Immunoprecipitation (IP) is a valuable tool that utilizes antibody:antigen interactions to isolate a specific target protein from thousands of proteins in a complex solution. | Protocol |
Probe Design and In Vitro Validation Quick Start Guide | This guide provides an overview of labeling a targeting compound and evaluating the labeled targeting compound in vitro. | Protocol |
Pan/Phospho Analysis For Western Blot Normalization | This protocol describes how to use pan-specific antibodies as an internal loading control for normalization. | Protocol |
Quantitative Western Blot Analysis with Replicate Samples | Replicate measurements are critical for quantitative Western blot analysis. | Protocol |
Revert 700 Total Protein Stain Normalization | This protocol describes how to use Revert 700 Total Protein Stain for Western blot normalization and analysis. | Protocol |
IRDye 680LT Maleimide Labeling Application Guide | IRDye 680LT Maleimide is a functional derivative of infrared dye IRDye 680LT that is reactive with free –SH (thiol, sulfhydryl) groups. Most molecules that contain free –SH groups can be labeled with maleimide dyes, including IRDye 680LT Maleimide Infrared Dye. The application guide describes how to label with IRDye 680LT Maleimide. | Application Guide |
In-Cell Western Assay: FAQs for Suspension Cells | Information on how to successfully use non-adherent cells for In-Cell Western Assays. | Application Guide |
Western Blot and In-Cell Western Assay Detection Using IRDye Subclass Specific Antibodies | This Technical Note is a guide to using IRDye Subclass Specific antibodies for Western blotting and In-Cell Western Assay (In-Cell Western) applications. | Application Guide |
Protein Electrotransfer Methods and the Odyssey Infrared Imaging Systems | This document describes the specific application of these two transfer methods for detection on the Odyssey Infrared Imagers. | Application Guide |
2DE Gel Detection on the Odyssey Infrared Imaging System | General guide to adapting 2DE gels for imaging on the Odyssey Infrared Imaging system. | Application Guide |
In Vivo Image Analysis Options Using Image Studio Software | This technical note discusses how to perform image analysis of in vivo images from the Pearl Impulse Small Animal Imaging System with Image Studio Software. | Application Guide |
Handbook of Assays for Developing Targeted Therapeutics | The aim of this handbook is to describe assays you can use to answer vital questions related to therapeutics research. Creative uses of these assays are included to spark ideas. | Handbook |
Tissue Section Imaging Guide | Tissue section imaging and microscopy are effective for granular identification of targeting agent locations within an organ. With appropriate microscopy equipment, you can assess NIR-labeled targeting agent location. | Protocol |
In-Cell Western Protocol: Complete Sampling Protocol for Measuring IC50 of Inhibitor U0126 in NIH3T3 Responding to aFGF-1 | In-Cell Western protocol for the IC50 determination of the MEK inhibitor U0126 on NIH3T3 cells in response to aFGF-1. | Example Experiment |
Detecting Feline Panleukopenia Virus in CrFK Cells Using Virus Titration | In this example experiment, we present a protocol for detecting Feline Panleukopenia (FPL) in Crandall Reese Feline Kidney (CrFK) cells. | Example Experiment |
Odyssey Western Blot Blocker Optimization for Near-Infrared (NIR) Detection | This document describes a method to determine optimal blocking conditions for NIR Western blot detection with the Odyssey family of Imagers. | Protocol |
Image Studio 21 CFR Part 11 Compliance Guide | This document describes how Image Studio 21 CFR Part 11 can help your organization comply with the Food and Drug Administration's 21 CFR Part 11. | Software Guide |
Image Studio Software Background Subtraction Reference Guide | Image Studio Software Background Subtraction Reference Guide. | Software Guide |
How to Use the Image Studio Software In-Cell Western Analysis | A brief overview followed by step-by-step instructions for using the In-Cell Western Analysis (with In-Cell Western key). | Software Guide |
Image Studio Software Work Area Folder Best Practices | This Software Guide explains best practices for using a Work Area folder in Image Studio Software. | Software Guide |
Image Studio Software Work Area Folder Best Practices | This Software Guide explains best practices for using a Work Area folder in Image Studio Software 5.x. | Software Guide |
Image Studio Software Export Guide | This technical note explains how to export images and data folders from Image Studio Software, and when each method should be used. | Software Guide |
Exporting Files from Odyssey Application Software for Various Uses | This Software Guide outlines how to export images and files using Odyssey Application Software. | Software Guide |
Odyssey Application Software Browser Interface: Acquiring Images and Saving for Image Studio Use | This technical note explains how to: take a scan using the Odyssey Application Software Browser Interface, save the image to a computer, and import the image into Image Studio Software. | Software Guide |
Using Chameleon Protein Ladders in Image Studio Software 1.x-3.x | This Software Guide explains how to add protein markers to a Work Area, size bands using protein markers, and export data using Image Studio Software 1.x-3.x. | Software Guide |
Using Chameleon Protein Ladders in Image Studio Software 4.0 | This Software Guide explains how to add protein markers to a Work Area, size bands using protein markers, and export data using Image Studio Software 4.0. | Software Guide |
How to Use the Image Studio Software Small Animal Image Analysis | A brief overview followed by step-by-step instructions for using the Small Animal Image Analysis (with Small Animal Analysis key). | Software Guide |
Image Studio System Management Tool Guide | This guide describes how to use the System Management Tool for Image Studio 21 CFR Part 11 Software. | Software Guide |
How to Use the Image Studio Software Western and MPX Western Analyses | A quick overview of how to perform Western and MPX Western analyses in Image Studio Software followed by step-by-step instructions. | Software Guide |
Microwell Plate Loading Guides | These blank plate layouts can be placed under a 96-well microwell plate to make it easier to pipette the correct solutions into the correct wells. Label the rows and columns or color in the wells as appropriate for your experiment. | Quick Start |
Secondary Antibody Quick Card | Quick card with information about secondary antibodies in the .1 mg pack size. | Quick Card |
Secondary Antibody Quick Card | Quick card with information about secondary antibodies in the .5 mg pack size. | Quick Card |
FieldBrite XT(2) Optical System within the Odyssey Fc Imaging System | Because FieldBrite™ XT2 technology offers an optimized optical system, data images only need to be captured once, without the need for post-image data manipulation. This white paper discusses this innovative technology. | White Paper |
Empiria Studio® Software: Adaptive Background Subtraction | This White Paper explains the Adaptive Background Subtraction (ABS) method used byEmpiria Studio® Software, and compares ABS to some traditional methods. | White Paper |
Western blot analysis: Comparison of film and the C-DiGit Blot Scanner | This study compares the performance of two signal capture methods: film exposure and the C-DiGit Chemiluminescent Western Blot Scanner. | White Paper |
Digital Film for Westerns: The C-DiGit Chemiluminescent Western Blot Scanner | The C-DiGit Blot Scanner is engineered to make Western blot experiments simpler and more productive. Digital film documents your chemiluminescent Western blot results and makes darkroom hassles disappear. Read this white paper for more information. | White Paper |
Imaging Chemiluminescence by Scanning | The C-DiGit Chemiluminescent Western Blot Scanner is a digital replacement for film, combining the sensitivity of film with the convenience and flexibility of a CCD imager, all offered at an affordable price. | White Paper |
Chemiluminescent Westerns: How film and photochemistry affect experimental results | This paper describes the effects of photochemistry on the response of film to both faint and strong signals, image quality, image clarity, and quantification by densitometry. | White Paper |
Film and CCD Imaging of Western Blots: Exposure time, signal saturation, and linear dynamic range | Chemiluminescence is a dynamic, enzymatic process that introduces variability and error in your Western Blot experiments. It’s difficult to find the “best” exposure, and the need for multiple exposures limits the reproducibility of your results. read this white paper to learn how chemiluminescent detection introduces variability and error and how you can improve the reproducibility of your Western blot data. | White Paper |
Near-Infrared Fluorescence Imaging: Seeing Beyond the Visible with IRDye Infrared Dyes | Fluorescent dyes are important labeling tools for life science research. This paper discusses near-infrared fluorescence and its uses in a variety of research applications. | White Paper |
Western Blot Normalization: Challenges and Considerations for Quantitative Analysis | Researchers rely on Western blotting (also called immunoblotting) to detect and compare target proteins in complex samples. This white paper reviews the various normalization strategies that you should consider for your Western blots. | White Paper |
M13 Forward (-29) IRDye 800 Value Pack | P/N 4000-20H | Pack Insert |
M13 Forward (-29) IRDye 700 Value Pack | P/N 4200-20G | Pack Insert |
50-350 BP DNA Sizing Standard | P/Ns: 4200-44, 4000-44B | Pack Insert |
50-700 BP Sizing Standard | P/Ns: 4200-60, 4000-45 | Pack Insert |
KB(Plus)™ 10X TBE Buffer Pack | P/N 826-05213 | Pack Insert |
KB(Plus)™ 3.7% Gel Matrix | P/N 827-05214 | Pack Insert |
KB(Plus)™ 5.5% Gel Matrix | P/N 827-05215 | Pack Insert |
KB(Plus)™ 6.5% Gel Matrix | P/N 827-05607 | Pack Insert |
Odyssey Demo Kit I | P/N 827-06894 | Pack Insert |
Odyssey Demo Kit II | P/N 827-06895 | Pack Insert |
CellTag 700 Stain In-Cell Western Demo Kits I and II (with Odyssey Blocking Buffer) | P/Ns: 827-13640, 827-13641 | Pack Insert |
CellTag 700 Stain Kits I and II Demo Pack | P/Ns: 827-13640, 827-13641 | Pack Insert |
M13 Forward (-29) IRDye 800 Primer | P/N 829-05565 | Pack Insert |
M13 Reverse IRDye 800 Budget Primer | P/N 829-05566 | Pack Insert |
M13 Forward (-29) IRDye 700 Primer | P/N 829-05570 | Pack Insert |
M13 Reverse IRDye 700 Budget Primer | P/N 829-05571 | Pack Insert |
50-350 BP Concentrated Sizing Standard | P/Ns: 829-06157, 829-06158 | Pack Insert |
Odyssey Western Blotting Starter Kit 1 (with OBB) | P/N 925-34010 | Pack Insert |
Odyssey Western Blotting Starter Kit 2 (with OBB) | P/N 925-34011 | Pack Insert |
Odyssey Western Blotting Starter Kit 3 (with OBB) | P/N 925-34014 | Pack Insert |
Odyssey Western Blotting Starter Kit 4 (with OBB) | P/N 925-34015 | Pack Insert |
IRDye 680RD EGF Optical Probe | P/N 926-08445 | Pack Insert |
IRDye 800CW/QC-1 CSP-3 | P/N 926-08590 | Pack Insert |
IRDye 680RD RGD Optical Probe | P/N 926-09888 | Pack Insert |
ROSstar 550 Probe | P/N 926-20000 | Pack Insert |
IRDye 800CW YC-27 Optical Probe | P/N 926-27000 | Pack Insert |
ROSstar 650 Probe | P/N 926-30000 | Pack Insert |
Odyssey Western Blotting Kits LT (PBS) | P/Ns: 926-31062, 926-31064, 926-31066, 926-31068 | Pack Insert |
In-Cell Western Assay Kits I and II | P/Ns: 926-31070, 926-31072 | Pack Insert |
Odyssey Western Blotting Kits RD (PBS) | P/Ns: 926-31081, 926-31082, 926-31083, 926-31084 | Pack Insert |
Chemi-IR Detection Kit, 20 Western Blots | P/N 926-32234 | Pack Insert |
Chemi-IR Detection Kit, 100 Western Blots | P/N 926-32236 | Pack Insert |
Odyssey Western Blotting Kits RD (TBS) | P/Ns: 926-34010, 926-34011, 926-34014, 926-34015 | Pack Insert |
Odyssey Western Blotting Kits LT (TBS) | P/Ns: 926-34012, 926-34013, 926-34016, 926-34017 | Pack Insert |
ELISA HRP Substrate (680) Pack | P/N 926-34300 | Pack Insert |
ELISA AP Substrate (680) Pack | P/N 926-34301 | Pack Insert |
CellTag 700 Stain In-Cell Western Kits I and II (with OBB PBS) | P/Ns: 926-41091, 926-41092 | Pack Insert |
IRDye 680RD HA Optical Probe | P/N 926-50000 | Pack Insert |
IRDye 800CW HA Optical Probe | P/N 926-50001 | Pack Insert |
Quick Western Kit - IRDye 680RD (with OBB PBS) | P/N 926-68100 | Pack Insert |
ROSstar 800CW Probe | P/N 926-80000 | Pack Insert |
WesternSure ECL Substrate | P/Ns: 926-80020, 926-80100, 926-80200, 926-80500 | Pack Insert |
WesternSure ULTRA Chemiluminescent Substrate | P/N 926-85000 | Pack Insert |
Blocking Buffer Optimization Kit | P/N 927-40040 | Pack Insert |
Western Blocking Buffer Sample Pack | P/N 927-40050 | Pack Insert |
Tris Glycine Buffer, 10X Liquid Concentrate | P/N 928-40010 | Pack Insert |
Tris Glycine Dry Powder Buffer | P/N 928-40012 | Pack Insert |
Tris Glycine/Sodium Dodecyl Sulfate Buffer, 10X Liquid Concentrate | P/N 928-40014 | Pack Insert |
Tris Glycine SDS Dry Powder Buffer | P/N 928-40016 | Pack Insert |
Phosphate Buffered Saline (PBS), 10X Dry Buffer Packs | P/N 928-40020 | Pack Insert |
Casein Blocking Buffer | P/Ns: 927-40300, 927-40200 | Pack Insert |
IRDye 800 Phosphoramidite | P/N 4000-33 | Pack Insert |
IRDye 800CW Goat anti-Mouse IgG Sample Pack | P/N 827-08364 | Pack Insert |
IRDye 800CW Goat anti-Rabbit IgG Sample Pack | P/N 827-08365 | Pack Insert |
IRDye 680LT Goat anti-Mouse IgG Sample Pack | P/N 827-11080 | Pack Insert |
IRDye 680LT Goat anti-Rabbit IgG Sample Pack | P/N 827-11081 | Pack Insert |
In-Cell Western™ Assay Demo Kit I Pack Insert | 827-14642 | Pack Insert |
In-Cell Western™ Assay Demo Kit II Pack Insert | 827-14643 | Pack Insert |
Odyssey Protein Molecular Weight Marker Sample Pack | P/N 827-40000 | Pack Insert |
50-1500 bp DNA Sizing Standard | P/Ns: 829-05350, 829-05351 | Pack Insert |
50-1500 bp Two-Color DNA Sizng Standard | P/N 829-05352 | Pack Insert |
Odyssey EMSA Kit | P/N 829-07910 | Pack Insert |
IRDye 700 p53 Consensus Oligonucleotide | P/N 829-07921 | Pack Insert |
IRDye 700 Stat3 Consensus Oligonucleotide | P/N 829-07922 | Pack Insert |
IRDye 700 CREB Consensus Oligonucleotide | P/N 829-07923 | Pack Insert |
IRDye 700 NFkB Consensus Oligonucleotide | P/N 829-07924 | Pack Insert |
IRDye 700 AP-1 Consensus Oligonucleotide | P/N 829-07925 | Pack Insert |
IRDye 700 Sp-1 Consensus Oligonucleotide | P/N 829-07926 | Pack Insert |
Blue Stop Solution | P/Ns: 829-04459, 830-05629, 830-05630 | Pack Insert |
IRDye 800CW Donkey anti-Chicken IgG , 0.1 mg | P/N 925-32218 | Pack Insert |
IRDye 800CW Streptavidin, 0.1 mg | P/N 925-32230 | Pack Insert |
Western Blotting Starter Kit 1 (TBS/PVDF) | P/N 925-35010 | Pack Insert |
Western Blotting Starter Kit 2 (TBS/PVDF) | P/N 925-35011 | Pack Insert |
Western Blotting Starter Kit 3 (TBS/NITRO) | P/N 925-35014 | Pack Insert |
Western Blotting Starter Kit 4 (TBS/NITRO) | P/N 925-35015 | Pack Insert |
IRDye 680LT Streptavidin, 0.1 mg | P/N 925-68031 | Pack Insert |
IRDye 680RD Streptavidin, 0.1 mg | P/N 925-68079 | Pack Insert |
IRDye 800CW EGF Optical Probe | P/N 926-08446 | Pack Insert |
IRDye 800CW 2-DG Optical Probe | P/N 926-08946 | Pack Insert |
IRDye 680RD BoneTag Optical Probe | P/N 926-09374 | Pack Insert |
IRDye 800CW BoneTag Optical Probe | P/N 926-09375 | Pack Insert |
IRDye 800CW RGD Optical Probe | P/N 926-09889 | Pack Insert |
Revert 700 Total Protein Stain Products | P/Ns: 926-11010, 926-11011, 926-11012, 926-11013, 926-11014, 926-11015, 926-11016 | Pack Insert |
Odyssey Loading Indicators | P/Ns: 926-20002, 926-20004, 926-20012, 926-20014 | Pack Insert |
Western Blotting Kits RD with PBS Blocking Buffer | P/Ns: 926-32081, 926-32082, 926-32083, 926-32084 | Pack Insert |
Western Blotting Kits RD with TBS Blocking Buffer | P/Ns: 926-35010, 926-35011, 926-35014, 926-35015 | Pack Insert |
CellTag™ 700 Stain | P/N 926-41090 | Pack Insert |
CellTag™ 700 Stain Kits I and II | P/Ns: 926-42091, 926-42092 | Pack Insert |
β-Actin Rabbit Monoclonal Antibody | P/N 926-42210 | Pack Insert |
β-Tubulin Rabbit Polyclonal Antibody | P/N 926-42211 | Pack Insert |
β-Actin Mouse Monoclonal Antibody | P/N 926-42212 | Pack Insert |
α-Tubulin Mouse Monoclonal Antibody | P/N 926-42213 | Pack Insert |
COX IV Rabbit Monoclonal Antibody | P/N 926-42214 | Pack Insert |
VRDye™ 490 Goat anti-Mouse IgG, 0.5 mg | P/N 926-49010 | Pack Insert |
VRDye™ 490 Goat anti-Rabbit IgG, 0.5 mg | P/N 926-49020 | Pack Insert |
VRDye™ 490 Goat anti-Mouse IgG Sample Pack, 25 uL | P/N 926-49110 | Pack Insert |
VRDye™ 490 Goat anti-Rabbit IgG Sample Pack, 25 uL | P/N 926-49120 | Pack Insert |
IRDye 800CW PEG Contrast Agent | P/N 926-50401 | Pack Insert |
VRDye™ 549 Goat anti-Mouse IgG. 0.5 mg | P/N 926-54010 | Pack Insert |
VRDye™ 549 Goat anti-Rabbit IgG. 0.5 mg | P/N 926-54020 | Pack Insert |
VRDye™ 549 Goat anti-Mouse IgG Sample Pack, 25 uL | P/N 926-54110 | Pack Insert |
VRDye™ 549 Goat anti-Rabbit IgG Sample Pack, 25 uL | P/N 926-54120 | Pack Insert |
IRDye 680LT Streptavidin, 0.5 mg | P/N 926-68031 | Pack Insert |
Quick Western Kit | P/N 926-69100 | Pack Insert |
10X Orange Loading Dye | P/N 927-10100 | Pack Insert |
Intercept Blocking Buffers | P/Ns: 927-60000,927-60001,927-60003,927-60010,927-60025,927-60050,927-70000,927-70001,927-70003,927-70010,927-70025,927-70050 | Pack Insert |
927-750xx-650xx_intercept-diluent.pdf | 927-65001,927-65003,927-65010,927-75001,927-75003,927-75010 | Pack Insert |
Intercept T20 Protein-Free Antibody Diluents | P/Ns: 927-85001,927-85003,927-85010,927-95001,927-95003,927-95010 | Pack Insert |
IRDye 800CW Protein Labeling Kit - High MW | P/N 928-38040 | Pack Insert |
IRDye 800CW Protein Labeling Kit - Low MW | P/N 928-38042 | Pack Insert |
IRDye 800CW Protein Labeling Kit - Microscale | P/N 928-38044 | Pack Insert |
IRDye 680LT Protein Labeling Kit - High MW | P/N 928-38066 | Pack Insert |
IRDye 680LT Protein Labeling Kit - Low MW | P/N 928-38068 | Pack Insert |
IRDye 680LT Protein Labeling Kit - Microscale | P/N 928-38070 | Pack Insert |
IRDye 680RD Protein Labeling Kit - High MW | P/N 928-38072 | Pack Insert |
IRDye 680RD Protein Labeling Kit - Low MW | P/N 928-38074 | Pack Insert |
IRDye 680RD Protein Labeling Kit - Microscale | P/N 928-38076 | Pack Insert |
4X Protein Sample Loading Buffer | P/N 928-40004 | Pack Insert |
Sapphire700 Stain | P/N 928-40022 | Pack Insert |
VRDye Protein Labeling Kit - High MW | P/Ns: 928-49040, 928-54040, 928-65040 | Pack Insert |
VRDye Protein Labeling Kits - High MW-Microscale | P/Ns: 928-65044, 928-54044, 928-49044 | Pack Insert |
| P/Ns: 929-60011, 929-65011 | Pack Insert |
CellTag 520 Stain Kits III and IV Pack Insert | P/Ns: 926-42093, 926-42094 | Pack Insert |
CellTag 520 Stain Pack Insert | P/Ns: 926-41094 | Pack Insert |
Chameleon 700 Pre-stained Protein Ladder | P/N 928-70000 | Pack Insert |
Chameleon 800 Pre-stained Protein Ladder | P/N 928-80000 | Pack Insert |
Chameleon Duo Pre-stained Protein Ladder | P/N 928-60000 | Pack Insert |
Chameleon Kit Pre-stained Protein Ladder | P/N 928-90000 | Pack Insert |
Chameleon Vue Pre-stained Protein Ladder | P/N 928-50000 | Pack Insert |
GAPDH Rabbit Monoclonal Antibody, 100 uL | 926-42216 | Pack Insert |
Histone H3 Mouse Monoclonal Antibody, 100 uL | 926-42218 | Pack Insert |
Histone H3 Rabbit Monoclonal Antibody, 100 uL | 926-42219 | Pack Insert |
Intercept Blocking Buffer and Antibody Diluent Kits | P/Ns: 927-66003,927-76003 | Pack Insert |
Intercept Protein-Free Blocking Buffers | P/Ns: 927-80000,927-80001,927-80003,927-80010,927-90000,927-90001,927-90003,927-90010 | Pack Insert |
IRDye 680RD Protein Labeling Kit - High MW Quick Card | 928-38072 | Quick Card |
IRDye 680RD Protein Labeling Kit - Low MW Quick Card | 928-38074 | Quick Card |
IRDye 680RD Protein Labeling Kit - Microscale Quick Card | 928-38076 | Quick Card |
IRDye 680RD Streptavidin, 0.5 mg | P/N 926-68079 | Pack Insert |
IRDye 700 Phosphoramidite | 4200-33 | Pack Insert |
IRDye 800CW Donkey anti-Chicken IgG, 0.5 mg | P/N 926-32218 | Pack Insert |
irdye-800cw-donkey-anti-goat-igg.pdf | 926-32214 | Pack Insert |
IRDye 800CW Donkey anti-Guinea Pig IgG, 0.5 mg | P/N 926-32411 | Pack Insert |
IRDye 800CW Donkey anti-Mouse IgG, 0.5 mg | P/N 926-32212 | Pack Insert |
IRDye 800CW Donkey anti-Rabbit IgG, 0.5 mg | P/N 926-32213 | Pack Insert |
IRDye 800CW Goat anti-Human IgG, 0.5 mg | P/N 926-32232 | Pack Insert |
IRDye 800CW Goat anti-Mouse IgG, 0.5 mg | P/N 926-32210 | Pack Insert |
IRDye 800CW Goat anti-Mouse IgG1, 0.5 mg | P/N 926-32350 | Pack Insert |
IRDye 800CW Goat anti-Mouse IgG2a, 0.5 mg | P/N 926-32351 | Pack Insert |
IRDye 800CW Goat anti-Mouse IgG2b, 0.5 mg | P/N 926-32352 | Pack Insert |
IRDye 800CW Goat anti-Mouse IgGM (mu chain specific) 0.5 mg | P/N 926-32280 | Pack Insert |
IRDye 800CW Goat anti-Rabbit IgG, 0.5 mg | P/N 926-32211 | Pack Insert |
IRDye 800CW Goat anti-Rat IgG, 0.5 mg | P/N 926-32219 | Pack Insert |
IRDye 800CW Protein Labeling Kit - High MW Quick Card | 928-38040 | Quick Card |
IRDye 800CW Protein Labeling Kit - Low MW Quick Card | 928-38042 | Quick Card |
IRDye 800CW Protein Labeling Kit - Microscale Quick Card | 928-38044 | Quick Card |
IRDye 800CW Rabbit Anti-HRP | IRDye 800CW Rabbit Anti-HRP | Pack Insert |
IRDye 800CW Streptavidin, 0.5 mg | P/N 926-32230 | Pack Insert |
NewBlot™ IR Stripping Buffer Pack Insert | P/N 928-40028 | Pack Insert |
NewBlot™ PVDF Stripping Buffer, 5X | P/N 928-40032 | Pack Insert |
NewBlot™ Nitro Stripping Buffer, 5X | P/N 928-40030 | Pack Insert |
Odyssey Blocking Buffer (PBS) | P/Ns: 927-40100, 927-40000, 927-40003, 927-40010 | Pack Insert |
Odyssey Blocking Buffer (TBS) | P/Ns: 927-50100, 927-50000, 927-50003, 927-50010 | Pack Insert |
Revert 520 Total Protein Stain Pack Insert | P/Ns: 926-10010, 926-10016, 926-10015, 926-10011, 926-10021 | Pack Insert |
Vinculin Rabbit Monoclonal Antibody, 100 uL | 926-42215 | Pack Insert |
VRDye™ 490 Donkey anti-Rabbit IgG Secondary Antibody Pack Insert | P/Ns: 926-49014 | Pack Insert |
VRDye™ 490 Donkey anti-Rabbit IgG Secondary Antibody Pack Insert | P/Ns: 926-49013 | Pack Insert |
VRDye™ 490 Streptavidin Pack Insert | P/Ns: 926-49030 | Pack Insert |
VRDye™ 549 Donkey anti-Goat IgG Secondary Antibody Pack Insert | P/Ns: 926-54014 | Pack Insert |
VRDye™ 549 Donkey anti-Rabbit IgG Secondary Antibody Pack Insert | P/Ns: 926-54012 | Pack Insert |
VRDye™ 549 Donkey anti-Rabbit IgG Secondary Antibody Pack Insert | P/Ns: 926-54013 | Pack Insert |
VRDye™ 549 Streptavidin Pack Insert | P/Ns: 926-54030 | Pack Insert |
VRDye™ 490 Donkey anti-Mouse IgG Secondary Antibody Pack Insert | P/Ns: 926-49012 | Pack Insert |
WesternSure Pen | P/N 926-91000 | Quick Card |
Western Blot Storage Bags | P/N 929-95100 | Pack Insert |