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Uridine 5'-(tetrahydrogen triphosphate), 2'-deoxy-2'-fluoro-, also known as 2'-deoxy-2'-fluorouridine 5'-triphosphate (2'F-dUTP), is a modified nucleotide that plays a significant role in molecular biology and biotechnology. This chemical is a derivative of uridine triphosphate (UTP), where the 2'-hydroxyl group of the sugar moiety is replaced with a fluorine atom, and the 2'-deoxyribose is present instead of the ribose. This modification enhances the stability of the nucleotide, making it less susceptible to degradation by enzymes such as pyrophosphatases and exonucleases. 2'F-dUTP is commonly used in applications such as DNA synthesis, where it can be incorporated into DNA strands to study the effects of this modification on DNA structure and function, or in the development of antiviral drugs that target viral replication by interfering with the normal nucleotide pool. Its unique properties also make it a valuable tool in research aimed at understanding DNA repair mechanisms and developing new therapeutic strategies.

66840-02-6

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66840-02-6 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 66840-02-6 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 6,6,8,4 and 0 respectively; the second part has 2 digits, 0 and 2 respectively.
Calculate Digit Verification of CAS Registry Number 66840-02:
(7*6)+(6*6)+(5*8)+(4*4)+(3*0)+(2*0)+(1*2)=136
136 % 10 = 6
So 66840-02-6 is a valid CAS Registry Number.

66840-02-6Downstream Products

66840-02-6Relevant academic research and scientific papers

Structure activity and molecular modeling analyses of ribose- and base-modified uridine 5′-triphosphate analogues at the human P2Y 2 and P2Y4 receptors

Jacobson, Kenneth A.,Costanzi, Stefano,Ivanov, Andrei A.,Tchilibon, Susanna,Besada, Pedro,Gao, Zhan-Guo,Maddileti, Savitri,Harden, T. Kendall

, p. 540 - 549 (2006)

With the long-term goal of developing receptor subtype-selective high affinity agonists for the uracil nucleotide-activated P2Y receptors we have carried out a series of structure activity and molecular modeling studies of the human P2Y2 and P2Y4 receptors. UTP analogues with substitutions in the 2′-position of the ribose moiety retained capacity to activate both P2Y2 and P2Y4 receptors. Certain of these analogues were equieffective for activation of both receptors whereas 2′-amino-2′-deoxy-UTP exhibited higher potency for the P2Y 2 receptor and 2′-azido-UTP exhibited higher potency for the P2Y4 receptor. 4-Thio substitution of the uracil base resulted in a UTP analogue with increased potency relative to UTP for activation of both the P2Y2 and P2Y4 receptors. In contrast, 2-thio substitution and halo- or alkyl substitution in the 5-position of the uracil base resulted in molecules that were 3-30-fold more potent at the P2Y2 receptor than P2Y4 receptor. 6-Aza-UTP was a P2Y2 receptor agonist that exhibited no activity at the P2Y4 receptor. Stereoisomers of UTPαS and 2′-deoxy-UTPαS were more potent at the P2Y 2 than P2Y4 receptor, and the R-configuration was favored at both receptors. Molecular docking studies revealed that the binding mode of UTP is similar for both the P2Y2 and P2Y4 receptor binding pockets with the most prominent dissimilarities of the two receptors located in the second transmembrane domain (V90 in the P2Y2 receptor and I92 in the P2Y4 receptor) and the second extracellular loop (T182 in the P2Y2 receptor and L184 in the P2Y4 receptor). In summary, this work reveals substitutions in UTP that differentially affect agonist activity at P2Y2 versus P2Y4 receptors and in combination with molecular modeling studies should lead to chemical synthesis of new receptor subtype-selective drugs.

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