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Fluorescent Probes for Imaging Bacteria
RADA

What We Offer

RADA

Name: RADA
Brand: BOC Sciences
Rating: 5 (1 reviews)

Catalog Number	A21-0009
Category	Fluorescent Probes for Imaging Bacteria
Molecular Formula	C28H28N4O6
Molecular Weight	516.55

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* Please be kindly noted products are not for therapeutic use. We do not sell to patients.

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Product Introduction

RADA is an orange-red TAMRA-based fluorescent D-amino acid. Suitable for labeling peptidoglycans in live bacteria. Incorporated into bacterial cell walls during synthesis. Suitable for prolonged exposure due to red-shift photophysical properties. Suitable for dSTORM and reSTORM. Displays good water solubility, photostability and thermostability.

Chemical Information
Product Specification
Application

Purity	≥98% (HPLC)
Solubility	DMSO

Fluorescence Quantum Yield	0.69
Excitation	554
Emission	580
Storage	Store at -20°C

RADA, a self-assembling peptide with versatile applications across diverse scientific fields, showcases immense potential. Here are four key applications of RADA:

Tissue Engineering: Utilizing RADA peptides in tissue engineering revolutionizes the field by crafting scaffolds that foster cell proliferation and tissue regeneration. Their unique self-assembling nature enables the formation of nanofibrous structures resembling the extracellular matrix, paving the way for the development of synthetic tissues and organs. This breakthrough enhances outcomes in regenerative medicine, offering new possibilities for repairing and regenerating damaged tissues.

Drug Delivery: Delving into advanced drug delivery systems, RADA peptides offer a sophisticated approach to encapsulating and releasing therapeutic agents. Their exceptional biocompatibility and hydrogel-forming ability make them an ideal choice for controlled drug delivery, promising enhanced efficacy and minimized side effects across various disease treatments. This innovative solution heralds a new era in drug delivery technology, optimizing the therapeutic impact of medications.

Wound Healing: Embarking on a groundbreaking journey in medical care, the integration of RADA peptides in wound healing procedures marks a significant advancement. These peptides create a supportive matrix at the wound site, facilitating the natural healing process. They stimulate cell migration, angiogenesis, and tissue repair, proving invaluable in the treatment of chronic wounds and burns. This novel approach to wound care offers a promising avenue for improving patient outcomes and accelerating healing processes.

Neuroscience Research: Venturing into the realm of neuroscience, RADA peptides play a pivotal role in constructing three-dimensional cell culture systems. These cutting-edge systems enable researchers to delve into neural cell interactions and disease models within a physiologically relevant environment. This immersive exploration enhances our comprehension of neurological disorders and expedites the discovery of novel treatments, ultimately advancing our understanding of the intricate complexities of the human brain.