Results for RNA ( 591 )
Renilla luciferase (Renilla Luc) is a bioluminescent reporter protein derived from Renilla reniformis (sea pansy) (Lorenz, et al). In the presence of the cofactor, coelenterazine, Renilla luciferase produces light. Renilla Luc mRNA can be used as an internal control in combination with FLuc mRNA to test different conditions, such as dosage or chemical modifications, and their effect on translation. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, modified with 5-methoxyuridine and optimized for mammalian systems. It mimics a fully processed mature mRNA.
Renilla luciferase (Renilla Luc) is a bioluminescent reporter protein derived from Renilla reniformis (sea pansy) (Lorenz, et al). In the presence of the cofactor, coelenterazine, Renilla luciferase produces light. Renilla Luc mRNA can be used as an internal control in combination with FLuc mRNA to test different conditions, such as dosage or chemical modifications, and their effect on translation. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, modified with 5-methoxyuridine and optimized for mammalian systems. It mimics a fully processed mature mRNA.
Renilla luciferase (Renilla Luc) is a bioluminescent reporter protein derived from Renilla reniformis (sea pansy) (Lorenz, et al). In the presence of the cofactor, coelenterazine, Renilla luciferase produces light. Renilla Luc mRNA can be used as an internal control in combination with FLuc mRNA to test different conditions, such as dosage or chemical modifications, and their effect on translation. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, modified with 5-methoxyuridine and optimized for mammalian systems. It mimics a fully processed mature mRNA.
Cas9 mRNA expresses a version of the Streptococcus pyogenes SF370 Cas9 protein (CRISPR Associated Protein 9). Cas9 functions as part of the CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) genome editing system. In the CRISPR system, an RNA guide sequence targets the site of interest and the Cas9 protein is employed to perform double stranded DNA cleavage. Cas9 mRNA encodes the Cas9 protein with an N and C terminal nuclear localization signal (NLS). The incorporation of two NLS signals within the mRNA increases the frequency of delivery to the nucleus, thus increasing the rate of DNA cleavage. Additionally, a C terminal HA epitope tag aids detection, isolation, and purification of the Cas9 protein. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, substituted with a modified uridine and optimized for mammalian systems.
Cas9 mRNA expresses a version of the Streptococcus pyogenes SF370 Cas9 protein (CRISPR Associated Protein 9). Cas9 functions as part of the CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) genome editing system. In the CRISPR system, an RNA guide sequence targets the site of interest and the Cas9 protein is employed to perform double stranded DNA cleavage. Cas9 mRNA encodes the Cas9 protein with an N and C terminal nuclear localization signal (NLS). The incorporation of two NLS signals within the mRNA increases the frequency of delivery to the nucleus, thus increasing the rate of DNA cleavage. Additionally, a C terminal HA epitope tag aids detection, isolation, and purification of the Cas9 protein. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, substituted with a modified uridine and optimized for mammalian systems.
Cas9 mRNA expresses a version of the Streptococcus pyogenes SF370 Cas9 protein (CRISPR Associated Protein 9). Cas9 functions as part of the CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) genome editing system. In the CRISPR system, an RNA guide sequence targets the site of interest and the Cas9 protein is employed to perform double stranded DNA cleavage. Cas9 mRNA encodes the Cas9 protein with an N and C terminal nuclear localization signal (NLS). The incorporation of two NLS signals within the mRNA increases the frequency of delivery to the nucleus, thus increasing the rate of DNA cleavage. Additionally, a C terminal HA epitope tag aids detection, isolation, and purification of the Cas9 protein. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, substituted with a modified uridine and optimized for mammalian systems.
Description Cas9 Nickase mRNA expresses a version of the Streptococcus pyogenes SF370 Cas9 protein (CRISPR Associated Protein 9) that contains a D10A amino acid substitution. This mRNA also contains a C-terminal nuclear localization signal followed by a HA tag. Cas9 functions as part of the CRISPR (clustered regularly interspaced short palindromic repeats) genome editing system. In the CRISPR system, an RNA guide sequence targets the site of interest and the Cas9 protein is employed to perform the DNA cleavage. While wild-type Cas9 creates a double stranded break at the target site, Cas9 nickase creates a single stranded break. This favors homology-directed repair and decreases the occurrence of non-homologous end joining. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, modified with 5-methoxyuridine and optimized for mammalian system
Description Cas9 Nickase mRNA expresses a version of the Streptococcus pyogenes SF370 Cas9 protein (CRISPR Associated Protein 9) that contains a D10A amino acid substitution. This mRNA also contains a C-terminal nuclear localization signal followed by a HA tag. Cas9 functions as part of the CRISPR (clustered regularly interspaced short palindromic repeats) genome editing system. In the CRISPR system, an RNA guide sequence targets the site of interest and the Cas9 protein is employed to perform the DNA cleavage. While wild-type Cas9 creates a double stranded break at the target site, Cas9 nickase creates a single stranded break. This favors homology-directed repair and decreases the occurrence of non-homologous end joining. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, modified with 5-methoxyuridine and optimized for mammalian system
Description Cas9 Nickase mRNA expresses a version of the Streptococcus pyogenes SF370 Cas9 protein (CRISPR Associated Protein 9) that contains a D10A amino acid substitution. This mRNA also contains a C-terminal nuclear localization signal followed by a HA tag. Cas9 functions as part of the CRISPR (clustered regularly interspaced short palindromic repeats) genome editing system. In the CRISPR system, an RNA guide sequence targets the site of interest and the Cas9 protein is employed to perform the DNA cleavage. While wild-type Cas9 creates a double stranded break at the target site, Cas9 nickase creates a single stranded break. This favors homology-directed repair and decreases the occurrence of non-homologous end joining. This mRNA is capped using CleanCap, TriLink's proprietary co-transciptional capping method, which results in the naturally occuring Cap 1 structure with high capping efficiency. It is polyadenylated, modified with 5-methoxyuridine and optimized for mammalian system