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Catalog Number:
47737
CAS Number:
150810-68-7
Éster N -succinimidilo de 5-carboxi-tetrametilrodamina
Grade:
Adecuado para fluorescencia.
Purity:
≥ 75% (Grado de acoplamiento)
Synonym(s):
5-TAMRA
Documents
$190.00 /1 mg
Tamaño
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Product Information

El éster N-succinimidilo de 5-carboxi-tetrametilrodamina (5-TAMRA) se utiliza como reactivo de acoplamiento de amina para formar compuestos derivatizados de 5-carboxi-tetrametilrodamina (5-TAMRA).

Synonyms
5-TAMRA
CAS Number
150810-68-7
Purity
≥ 75% (Grado de acoplamiento)
Grade
Adecuado para fluorescencia.
Molecular Formula
C29H25N3O7
Molecular Weight
527.52
MDL Number
MFCD03453223
Appearance
Polvo violeta oscuro
Conditions
Conservar a -20 °C
General Information
Synonyms
5-TAMRA
CAS Number
150810-68-7
Purity
≥ 75% (Grado de acoplamiento)
Grade
Adecuado para fluorescencia.
Molecular Formula
C29H25N3O7
Molecular Weight
527.52
MDL Number
MFCD03453223
Appearance
Polvo violeta oscuro
Conditions
Conservar a -20 °C
Properties
Additional property information coming soon!
-
Safety and Regulations
Hazmat
No
Antibiotic
No
DEA-regulated
No
Warnings
-
Applications

5-Carboxy-tetramethylrhodamine N-succinimidyl ester is widely utilized in research focused on:

  • Fluorescent Labeling: This compound is commonly used in biological research for labeling proteins and antibodies. Its bright fluorescence allows researchers to track and visualize cellular processes in real-time.
  • Immunofluorescence Assays: It plays a crucial role in immunofluorescence techniques, enabling the detection of specific antigens in cells or tissue sections. This application is vital in diagnostics and research in fields like cancer and immunology.
  • Flow Cytometry: The compound is utilized in flow cytometry to analyze cell populations. Its fluorescent properties help in distinguishing between different cell types based on their surface markers, facilitating advanced research in hematology and cell biology.
  • In Vivo Imaging: Researchers use this chemical for in vivo imaging studies, where it aids in tracking biological processes within living organisms. This application is particularly beneficial in drug development and disease progression studies.
  • Bioconjugation: It is effective for bioconjugation, where it links biomolecules to other entities like nanoparticles or drugs. This enhances the specificity and efficacy of therapeutic agents, making it a valuable tool in targeted drug delivery systems.

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