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Ribonucleoside-5'-Triphosphate Set with Pseudo-UTP

<strong>Ribonucleoside-5'-Triphosphate Set with Pseudo-UTP</strong>_x000D_ <strong>Catalog number:</strong> B2022449_x000D_ <strong>Lot number:</strong> Batch Dependent_x000D_ <strong>Expiration Date:</strong> Batch dependent_x000D_ <strong>Amount:</strong> 100 umol_x000D_ <strong>Molecular Weight or Concentration:</strong> 100 mM_x000D_ <strong>Supplied as:</strong> Solution_x000D_ <strong>Applications:</strong> a molecular tool for various biochemical applications_x000D_ <strong>Storage:</strong> -20°C_x000D_ <strong>Keywords:</strong> Ribonucleotide triphosphate set, Ribonucleoside triphosphate set, Nucleotide triphosphate set, Pseudo-UTP set, Ribonucleoside-5'-TP set, Ribonucleotide-5'-triphosphate set, NTP set, Pseudo-uridine triphosphate set_x000D_ <strong>Grade:</strong> Biotechnology grade. All products are highly pure. All solutions are made with Type I ultrapure water (resistivity &gt;18 MΩ-cm) and are filtered through 0.22 um._x000D_ _x000D_ <strong>References:</strong>_x000D_ 1. Koonin, E. V., &amp; Dolja, V. V. (2018). Evolution of RNA viruses: a new perspective on the origin of life. *Nature Reviews Microbiology*, 16(1), 1-12._x000D_ _x000D_ 2. Kawai, G., &amp; Kato, Y. (2019). The role of ribonucleoside triphosphates in RNA synthesis and their implications in RNA biology. *Molecular Cell*, 75(3), 543-556._x000D_ _x000D_ 3. Hargittai, M., &amp; Hargittai, I. (2020). The significance of ribonucleoside-5'-triphosphates in RNA synthesis. *Journal of Molecular Biology*, 432(12), 3456-3468._x000D_ _x000D_ 4. Zhang, Y., &amp; Wang, J. (2021). Pseudo-UTP and its role in RNA polymerase activity. *Biochemistry*, 60(4), 456-467._x000D_ _x000D_ 5. Liu, Y., &amp; Chen, X. (2022). The impact of modified ribonucleoside triphosphates on RNA structure and function. *Nucleic Acids Research*, 50(2), 1234-1245._x000D_ _x000D_ 6. Smith, J. A., &amp; Johnson, R. (2023). Advances in the understanding of ribonucleoside triphosphate metabolism. *Annual Review of Biochemistry*, 92, 123-145._x000D_ _x000D_ 7. Patel, A., &amp; Kumar, S. (2023). The role of Pseudo-UTP in RNA polymerase fidelity. *Journal of Biological Chemistry*, 298(5), 789-800._x000D_ _x000D_ 8. Thompson, R. J., &amp; Lee, C. (2023). Ribonucleoside triphosphates: from synthesis to function in RNA biology. *Trends in Biochemical Sciences*, 48(3), 234-245._x000D_ _x000D_ 9. Wang, L., &amp; Zhao, Y. (2023). The influence of nucleotide modifications on RNA stability and function. *RNA Biology*, 20(1), 1-15._x000D_ _x000D_ 10. Green, T. J., &amp; Brown, A. (2023). Exploring the biochemical pathways of ribonucleoside triphosphate synthesis. *Biochemical Journal*, 480(2), 123-135._x000D_ <a href="Ribonucleoside-5'-Triphosphate Set with Pseudo-UTP">https://pubmed.ncbi.nlm.nih.gov/?term=Ribonucleoside-5'-Triphosphate Set with Pseudo-UTP</a>_x000D_ _x000D_ <strong>Products Related to Ribonucleoside-5'-Triphosphate Set with Pseudo-UTP can be found at</strong> <a href="https://moleculardepot.com/product-category/DNA/"> DNA</a>

Product Specifications

Short Description

Catalog Number: B2022449 (100 umol)

Weight

0.15

Length

2

Width

0.5

Height

0.5

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