RNA Modification
Synbio Technologies offers a wide range of modification options for synthetic RNA, providing customers with flexible and diverse choices, including fluorescent labeling. RNA modifications enhance cellular delivery, stability, and resistance to nuclease degradation with options like phosphorothioate, 2’-OMe, and 2’-F modifications. Fluorescent labeling allows for the observation and localization of RNA using fluorescence and confocal laser microscopy, and serves as a tool for virus detection,
disease diagnosis, and early tumor screening.
Highlights
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- Expert Team
Delivering optimal customized RNA synthesis solutions
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- Various Modifications & Fluorescent Labeling
Tailored RNA modifications and fluorescent labeling to meet our customers’ needs
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- Cost-Effective
Competitive prices and affordable services
Service Details
RNA Modifications and Fluorescence Labeling
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RNA Modifications
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RNA Fluorescence
Groups/Quenchers Labeling
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Dual/Multiple Labeling
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Modified Bases
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• 2′-O-Methyl
• 2′ Fluoro
• m6A
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• 5’ Cy3
• 3′ Cy3
• 5’ Cy5
• 3′ Cy5
• 5’ FAM
• 3′ FAM
• 5′ ROX
• 3′ ROX
• 5’HEX
• 5’TAMRA
• 5’TET
• 3’BHQ-1
• 3’DABCYL
• 3’TAMRA
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• 5′ FAM-3′ BHQ1
• 5′ HEX-3′ BHQ1
• 5′ TET-3′ BHQ-1
• 5′ FAM-3′ MGB
• 5′ FAM-3′ TAMRA
• 5′ HEX-3′ TAMRA
• 5′ TET-3′ TAMRA
• 5′ HEX-3′ MGB
• 5′ TET-3′ MGB
• 5′ FAM-3′ DABCYL
• 5′ HEX-3′ DABCYL
• 5′ Phos-3′ FAM
• 5’TAMRA-3’Phos
• 5’C6-Biotin-3’Cy5
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Phosphorothioates
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• P-S
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Phosphorylation
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• 5’- PHO
• 3′- PHO
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Amino Linkers
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• 5’-NH2 C6
• 3’-NH2 C7
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Thiol
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• 5’-SH C6
• 3’-SH C3
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Biotin
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• 5′ Biotin
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Digoxigenin
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• 5′ DIG
• 3′ DIG
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FAQs
Dysregulation of RNA modifications is associated with various diseases, including cancer, neurological disorders, and metabolic syndromes. Understanding their roles in disease pathology may lead to novel therapeutic strategies.
RNA modifications play crucial roles in regulating gene expression, RNA processing, translation efficiency, and RNA-protein interactions. The modifications contribute to cellular differentiation, development, and response to environmental stimuli.
RNA modifications are generally conserved across species, indicating their fundamental roles in cellular processes and gene regulation. While specific patterns and levels of modification may vary between species, the presence of conserved modifications underscores their evolutionary significance and functional importance in maintaining biological integrity and adaptability across diverse organisms. Understanding these conservation patterns is essential for deciphering the regulatory mechanisms governed by RNA modifications and their implications in health and disease.
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