You Searched For: Tetramethylrhodamine-5-isothiocyanate (5-TRITC)

Organic Compounds Building Blocks and Intermediates Organic compounds are gaseous liquid or solid chemical and whose molecules contain carbon. Unlike most other elements carbon forms strong bonds to other carbon atoms and to a wide variety of othe...

Building Blocks Organic compounds are gaseous liquid or solid chemical and whose molecules contain carbon. Unlike most other elements carbon forms strong bonds to other carbon atoms and to a wide variety of other elements including hydrogen (most ...

Organic Building Blocks and Intermediates Organic compounds are gaseous liquid or solid chemical and whose molecules contain carbon. Unlike most other elements carbon forms strong bonds to other carbon atoms and to a wide variety of other elements...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...

Phenotypic Characterization of Anti-Cancer Drug effects using Automated Imaging | Molecular Devices Benefits • Relevance of compounds identified • Increased drug discovery success and productivity • Translational biomarkers for phenotypic screenin...