CloneCard Tabs
CloneCard is for research purposes only. For commercial use contact Licensing@ospreybio.com.
Transcription Unit Tabs
TU-1
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-2
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-3
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-4
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-5
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-6
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-7
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-8
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-9
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-10
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-11
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-12
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-13
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-14
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-15
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
TU-16
Patent Pending OspreyBio's Transcription Units (TU) are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System. Transcription Unit architecture is defined by a 5' Transcription Regulatory Module (R) and a 3' Transcription Processing Module (P). The Transcription Regulatory Module (R) frequently includes DNA-encoded Promoter, Enhancer, Repressor Elements and/or chromatin modulators. Additionally, the "R" Module can include splicing elements and/or 5' untranslated regions (5' UTR). The Transcription Processing Module (P) frequently includes 3' Untranslated Regions (3'UTR), splicing elements, polyA signal(s), strong transcription terminators, and/or chromatin modulators.Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES Shuttle Tabs
IRES-1
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES-2
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES-3
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES-4
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES-5
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES-6
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES-7
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
IRES-8
Patent Pending OspreyBio's Internal Ribosome Entry Sites (IRES) modules are built from a series of natural and/or synthetic modules that are mutated to be compliant with the Bird of Prey DNA Design and Assembly System.Use an IRES vector to subclone your Effectors (ORFs) of interest chosen from any of our other CloneCard collections! Each IRES is flanked by an RFP and a GFP. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
Reporter Tabs
SEAP
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
HRP
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
fLUC
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
rLUC
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
GFP
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
RFP
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
mNIS2
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)
hNIS2
Patent Pending 8 Curated Reporter genes with varying use cases - ranging from in vitro work to in vivo imaging. Genes in Collection I contain SEAP, HRP, fLUC, rLUC, GFP, RFP, mNIS2, hNIS2. Ready-to-use plasmid after just one elution (~1 hour) Safe Long Term Storage: Can be stored flat at ambient temperature without the need for uninterrupted electricity supply (as in freezer storage) or the need for isolation from harmful agents (such as metal ions)