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Showing 41 - 60 out of 609
Page 3 out of 31
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GSPure® Circ-IL12B
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-IL2 (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-IL2 (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-KLF4 (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-KLF4 (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-Mbl
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-mCherry
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NeuroD1 (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NeuroD1 (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NeuroD2 (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides.
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GSPure® Circ-NeuroD2 (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NeuroD6 (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NeuroD6 (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NGF (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NGF (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NRIP1
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NT3 (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NT3 (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NT4 (homo)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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GSPure® Circ-NT4 (mmu)
100 μg / 500 μg / 1 mg / 5 mg
In recent years, a large number ofcircRNA molecules have been found in organisms to exert biological functions through various pathways. Breakthrough research showing that natural circRNAs can serve as translation templates to directly translate peptides or proteins has made it possible to develop circRNA as a carrier for therapeutic drugs; compared with linear RNAs such as mRNA, the closed-loop structure of circRNA greatly prolongs its half-life in the body, and this stable structure is highly favorable for sustained expression of functional proteins/peptides. |
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Brand’s deal
