Efficient Tunicamycin CAS 11089-65-9 for Advanced Cell Signaling Research

Efficient Tunicamycin CAS 11089-65-9 for Advanced Cell Signaling Research: A Comprehensive Product Guide

This article provides a comprehensive guide to Efficient Tunicamycin CAS 11089-65-9, a key reagent for advanced cell signaling research. It covers various aspects such as product parameters, usage scenarios, case studies, solutions, expert guidance, and frequently asked questions (FAQs). By the end of this guide, readers will have a thorough understanding of how to effectively utilize this product in their research.

Abstract

This guide aims to provide a detailed overview of Efficient Tunicamycin CAS 11089-65-9, a highly efficient reagent for advanced cell signaling research. It discusses the product's parameters, usage scenarios, case studies, and expert guidance to help researchers make informed decisions. By the end of this guide, readers will be equipped with the knowledge to effectively utilize this reagent in their research projects.

Product Parameters

Efficient Tunicamycin CAS 11089-65-9 is a potent inhibitor of N-glycosylation, which is a critical step in protein synthesis and modification. The product is available in various concentrations and purity levels, as shown in the following table:

Usage Scenarios

Efficient Tunicamycin CAS 11089-65-9 is widely used in various research fields, including:

• Studying the role of N-glycosylation in protein function and stability
• Investigating the impact of N-glycosylation on protein-protein interactions
• Developing novel therapeutic strategies for diseases involving N-glycosylation

Case Studies

Here are two case studies demonstrating the use of Efficient Tunicamycin CAS 11089-65-9 in cell signaling research:

Case Study 1: Role of N-glycosylation in protein function

Dr. Smith from the University of XYZ used Efficient Tunicamycin CAS 11089-65-9 to investigate the role of N-glycosylation in the function of a specific protein. By treating cells with tunicamycin, Dr. Smith observed a significant decrease in protein activity, suggesting that N-glycosylation is crucial for the protein's function.

Case Study 2: Impact of N-glycosylation on protein-protein interactions

Dr. Johnson from the University of ABC used Efficient Tunicamycin CAS 11089-65-9 to study the impact of N-glycosylation on protein-protein interactions. By treating cells with tunicamycin, Dr. Johnson observed a decrease in protein-protein interactions, indicating that N-glycosylation plays a role in mediating these interactions.

Solutions

Efficient Tunicamycin CAS 11089-65-9 offers several advantages for cell signaling research:

• High purity and efficiency in inhibiting N-glycosylation
• Minimal interference with other cellular processes
• Easy to handle and store

Expert Guidance

When using Efficient Tunicamycin CAS 11089-65-9, it is essential to follow the recommended guidelines provided by the manufacturer. This includes proper handling, storage, and dosing. For further assistance, researchers can consult with experts in the field or contact the manufacturer directly.

Frequently Asked Questions (FAQs)

Q: What is the optimal concentration of Efficient Tunicamycin CAS 11089-65-9 for my experiment?

A: The optimal concentration may vary depending on the specific application. It is recommended to start with a low concentration and gradually increase it until the desired effect is achieved.

Q: Can Efficient Tunicamycin CAS 11089-65-9 be used in vivo studies?

A: Yes, Efficient Tunicamycin CAS 11089-65-9 can be used in vivo studies. However, it is essential to follow the appropriate guidelines and regulations for animal experimentation.

Conclusion

In conclusion, Efficient Tunicamycin CAS 11089-65-9 is a valuable reagent for advanced cell signaling research. Its high purity, efficiency, and minimal interference with other cellular processes make it an ideal choice for studying the role of N-glycosylation in various biological processes. By following the guidelines and expert advice provided in this guide, researchers can effectively utilize this product in their experiments.

Keywords

Efficient Tunicamycin CAS 11089-65-9, cell signaling research, N-glycosylation, protein function, protein-protein interactions, therapeutic strategies

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