Shop All Fluorescent Protein - Based Reagents

CellLight™ Lysosomes-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Lysosomes-GFP, BacMam 2.0, provides an easy way to label lysosomes with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to lamp1 (lysosomal associated membrane protein 1). You can observe lysosomes-GFP behavior in live cells independently of organelle pH and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Lysosomes-GFP, BacMam 2.0, is a fusion construct of Lamp1 (lysosomal associated membrane protein 1) and emGFP, providing accurate and specific targeting to cellular lysosomes-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Lysosomes-RFP, BacMam 2.0 (Invitrogen™)

CellLight® Lysosomes-RFP, BacMam 2.0, provides an easy way to label lysosomes with red fluorescent protein (RFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses RFP fused to lamp1 (lysosomal associated membrane protein 1). You can observe lysosomes-RFP behavior in live cells independently of organelle pH and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Lysosomes-RFP, BacMam 2.0, is a fusion construct of Lamp1 (lysosomal associated membrane protein 1) and TagRFP, providing accurate and specific targeting to cellular lysosomes-RFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Mitochondria-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Mitochondria-GFP, BacMam 2.0, provides an easy way to label mitochondria with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to the leader sequence of E1 alpha pyruvate dehydrogenase. You can observe mitochondria-GFP behavior in live cells independently of mitochondrial membrane potential and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Mitochondria-GFP, BacMam 2.0, is a fusion construct of the Leader sequence of E1 alpha pyruvate dehydrogenase and emGFP, providing accurate and specific targeting to cellular mitochondria-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Mitochondria-RFP, BacMam 2.0 (Invitrogen™)

CellLight® Mitochondria-RFP, BacMam 2.0, provides an easy way to label mitochondria with red fluorescent protein (RFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses RFP fused to the leader sequence of E1 alpha pyruvate dehydrogenase. You can observe mitochondria-RFP behavior in live cells independently of mitochondrial membrane potential and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Mitochondria-RFP, BacMam 2.0, is a fusion construct of the Leader sequence of E1 alpha pyruvate dehydrogenase and TagRFP, providing accurate and specific targeting to cellular mitochondria-RFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Tubulin-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Tubulin-GFP, BacMam 2.0, provides an easy way to label tubulin with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to human tubulin. You can observe tubulin-GFP behavior in live cells with almost no cytotoxicity and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Tubulin-GFP, BacMam 2.0, is a fusion construct of human tubulin and emGFP, providing accurate and specific targeting to cellular tubulin-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Actin-RFP, BacMam 2.0 (Invitrogen™)

CellLight® Actin-RFP, BacMam 2.0, provides an easy method for the labeling of actin with Red Fluorescent Protein (RFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning. This ready-to-use construct is transduced/transfected into cells using BacMam 2.0 technology, where it expresses RFP fused to human actin. You can observe actin-RFP behavior in live cells using a fluorescent imaging system and standard TRITC/RFP filter set. Study dynamic action of actin filaments in live cell, with almost no cytotoxicity. In addition, you can co-transduce/transfect more than one CellLight® reagent and label live cells with multiple tracking or tracing dyes to image dynamic cellular processes. Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexing with antibodies using immunocytochemical techniques.

CellLight® Technology
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose

Learn more about CellLight® fluorescent protein labeling

BacMam Technology
CellLight® Actin-RFP, BacMam 2.0, is a fusion construct of human actin and TagRFP, providing accurate and specific targeting to cellular actin-RFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Nucleus-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Nucleus-GFP, BacMam 2.0, provides an easy way to label nuclei with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to the SV40 nuclear localization sequence. You can observe nucleus-GFP behavior in live cells without the cellular toxicity associated with intercalators and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Nucleus-GFP, BacMam 2.0, is a fusion construct of SV40 nuclear localization sequence and emGFP, providing accurate and specific targeting to cellular nucleus-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Late Endosomes-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Late Endosomes-GFP, BacMam 2.0, provides an easy way to label late endosomes with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to Rab7a. You can observe late endosomes-GFP behavior in live cells independently of organelle pH and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology

CellLight® Late Endosomes-GFP, BacMam 2.0, is a fusion construct of Rab7a and emGFP, providing accurate and specific targeting to cellular Late Endosomes-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Tubulin-RFP, BacMam 2.0 (Invitrogen™)

CellLight® Tubulin-RFP, BacMam 2.0, provides an easy way to label tubulin with red fluorescent protein (RFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses RFP fused to human tubulin. You can observe tubulin-RFP behavior in live cells with almost no cytotoxicity and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Tubulin-RFP, BacMam 2.0, is a fusion construct of human tubulin and TagRFP, providing accurate and specific targeting to cellular tubulin-RFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Talin-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Talin-GFP, BacMam 2.0, provides an easy way to label talin with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transduced/transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to the c terminus of human talin. You can observe talin-GFP behavior in live cells to study the focal adhesion of integrins and their interaction with actin filaments using multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Talin-GFP, BacMam 2.0, is a fusion construct of the c terminus of human talin and emGFP, providing accurate and specific targeting to cellular talin-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Actin-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Actin-GFP, BacMam 2.0, provides an easy method for the labeling of actin with Green Fluorescent Protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning. This ready-to-use construct is transduced/transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to human actin. You can observe actin-GFP behavior in live cells using a fluorescent imaging system and standard FITC/GFP filter set. Study dynamic action of actin filaments in live cells, with almost no cytotoxicity. In addition, you can co-transduce/transfect more than one CellLight® reagent and label live cells with multiple tracking or tracing dyes to image dynamic cellular processes. Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexing with antibodies using immunocytochemical techniques.

CellLight® Technology
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose

Learn more about CellLight® fluorescent protein labeling

BacMam Technology
CellLight® Actin-GFP, BacMam 2.0, is a fusion construct of human actin and emGFP, providing accurate and specific targeting to cellular actin-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Plasma Membrane-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Plasma Membrane-GFP, BacMam 2.0, provides an easy way to label the plasma membrane with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to the myristolyation/palmitoylation sequence from Lck tyrosine kinase. You can observe plasma membrane-GFP behavior in live cells without staining internal membranes, and also use multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Plasma Membrane-GFP, BacMam 2.0, is a fusion construct of the myristolyation/palmitoylation sequence from Lck tyrosine kinase and emGFP, providing accurate and specific targeting to cellular Plasma Membrane-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Nucleus-RFP, BacMam 2.0 (Invitrogen™)

CellLight® Nucleus-RFP, BacMam 2.0, provides an easy way to label nuclei with red fluorescent protein (RFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses RFP fused to the SV40 nuclear localization sequence. You can observe nucleus-RFP behavior in live cells without the cellular toxicity associated with intercalators and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Nucleus-RFP, BacMam 2.0, is a fusion construct of SV40 nuclear localization sequence and TagRFP, providing accurate and specific targeting to cellular nucleus-RFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Late Endosomes-RFP, BacMam 2.0 (Invitrogen™)

CellLight® Late Endosomes-RFP, BacMam 2.0, provides an easy way to label late endosomes with red fluorescent protein (RFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses RFP fused to Rab7a. You can observe late endosomes-RFP behavior in live cells independently of organelle pH and label with multiple tracking or tracing dyes to image dynamic cellular processes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology

CellLight® Late Endosomes-RFP, BacMam 2.0, is a fusion construct of Rab7a and TagRFP, providing accurate and specific targeting to cellular Late Endosomes-RFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.

CellLight™ Golgi-GFP, BacMam 2.0 (Invitrogen™)

CellLight® Golgi-GFP, BacMam 2.0, provides an easy way to label golgi with green fluorescent protein (GFP) in live cells. Simply add the reagent to your cells, incubate overnight, and the cells are ready to image in the morning.

Want to label other cell structures? Learn more about CellLight® fluorescent protein labeling tools

This ready-to-use construct is transfected into cells using BacMam 2.0 technology, where it expresses GFP fused to human golgi resident enzyme (N-acetylgalactosaminyltransferase). You can observe golgi-GFP behavior in live cells using fluorescent imaging and multiplex with other fluorescent proteins or organic dyes.

Cells expressing CellLight® constructs can also be fixed with formaldehyde for multiplexed imaging using immunocytochemical techniques.

CellLight® Technology is:
Fast and convenient: simply add CellLight® reagent to your cells, incubate overnight, and image—or store frozen, assay-ready cells for later use
Highly efficient: up to 90% transduction of a wide range of mammalian cell lines, including primary cells, stem cells, and neurons
Flexible: co-transduce more than one BacMam reagent for multiplex experiments or co-localization studies; tightly control expression levels by simply varying the dose
Less toxic: CellLight® reagents are non-replicating in mammalian cells and are suitable for biosafety level (BSL) 1 handling

BacMam Technology
CellLight® Golgi-GFP, BacMam 2.0, is a fusion construct of human golgi resident enzyme (N-acetylgalactosaminyltransferase) and emGFP, providing accurate and specific targeting to cellular golgi-GFP. This fusion construct is packaged in the insect virus baculovirus, which does not replicate in human cells and is designated as safe to use with biosafety level (BSL) 1 in most laboratories. BacMam technology ensures that most mammalian cell types are transduced/transfected with high efficiency and minimal toxicity. This transient transfection can be detected after overnight incubation for up to five days—enough time to carry out most dynamic cellular analyses. Like any transfection/transduction technique, the BacMam method does not transfect/transduce all of the cells with equal efficiency, making it poorly suited to cellular population studies or automated imaging/counting. CellLight® reagents are ideal for experiments where cellular or subcellular co-locatization is required, or for cellular function studies that need special resolution.