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N-BOC-3-Fluoro-L-Tyrosine is an organic compound that is a derivative of the amino acid tyrosine. It features a protective tert-butyloxycarbonyl (BOC) group, which is used in organic synthesis to prevent unwanted reactions. N-BOC-3-FLUORO-L-TYROSINE is characterized by its left-handed (L) configuration and the presence of a fluorine atom attached to the third carbon in the parent chain. N-BOC-3-FLUORO-L-TYROSINE is primarily utilized in the pharmaceutical industry for the synthesis of various compounds and for applications in structure-activity studies and positron emission tomography (PET) imaging.

125218-33-9

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125218-33-9 Usage

Uses

Used in Pharmaceutical Industry:
N-BOC-3-Fluoro-L-Tyrosine is used as a building block for the synthesis of various pharmaceutical compounds, contributing to the development of new drugs and therapeutic agents.
Used in Structure-Activity Studies:
N-BOC-3-Fluoro-L-Tyrosine is employed as a key component in structure-activity relationship studies, which are essential for understanding how the structure of a compound influences its biological activity and for optimizing drug design.
Used in Positron Emission Tomography (PET) Imaging:
N-BOC-3-Fluoro-L-Tyrosine is used as a precursor in the synthesis of radiolabeled compounds for PET imaging, a diagnostic technique that aids in the visualization of biological processes in living organisms. This application is particularly relevant in the field of medical diagnostics and research.

Check Digit Verification of cas no

The CAS Registry Mumber 125218-33-9 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 1,2,5,2,1 and 8 respectively; the second part has 2 digits, 3 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 125218-33:
(8*1)+(7*2)+(6*5)+(5*2)+(4*1)+(3*8)+(2*3)+(1*3)=99
99 % 10 = 9
So 125218-33-9 is a valid CAS Registry Number.

125218-33-9Relevant academic research and scientific papers

Using unnatural amino acids to probe the energetics of oxyanion hole hydrogen bonds in the ketosteroid isomerase active site

Natarajan, Aditya,Schwans, Jason P.,Herschlag, Daniel

, p. 7643 - 7654 (2014/06/10)

Hydrogen bonds are ubiquitous in enzyme active sites, providing binding interactions and stabilizing charge rearrangements on substrate groups over the course of a reaction. But understanding the origin and magnitude of their catalytic contributions relative to hydrogen bonds made in aqueous solution remains difficult, in part because of complexities encountered in energetic interpretation of traditional site-directed mutagenesis experiments. It has been proposed for ketosteroid isomerase and other enzymes that active site hydrogen bonding groups provide energetic stabilization via "short, strong" or "low-barrier" hydrogen bonds that are formed due to matching of their pKa or proton affinity to that of the transition state. It has also been proposed that the ketosteroid isomerase and other enzyme active sites provide electrostatic environments that result in larger energetic responses (i.e., greater "sensitivity") to ground-state to transition-state charge rearrangement, relative to aqueous solution, thereby providing catalysis relative to the corresponding reaction in water. To test these models, we substituted tyrosine with fluorotyrosines (F-Tyr's) in the ketosteroid isomerase (KSI) oxyanion hole to systematically vary the proton affinity of an active site hydrogen bond donor while minimizing steric or structural effects. We found that a 40-fold increase in intrinsic F-Tyr acidity caused no significant change in activity for reactions with three different substrates. F-Tyr substitution did not change the solvent or primary kinetic isotope effect for proton abstraction, consistent with no change in mechanism arising from these substitutions. The observed shallow dependence of activity on the pKa of the substituted Tyr residues suggests that the KSI oxyanion hole does not provide catalysis by forming an energetically exceptional pKa-matched hydrogen bond. In addition, the shallow dependence provides no indication of an active site electrostatic environment that greatly enhances the energetic response to charge accumulation, consistent with prior experimental results.

Synthesis of novel and photolabile philanthotoxin analogs: Glutamate receptor antagonists

Choi,Goodnow,Kalivretenos,Chiles,Fushiya,Nakanishi

, p. 4793 - 4822 (2007/10/02)

The synthetic methods for 27 novel and photolabile philanthotoxin analogs are described. Most analogs were synthesized by two general methods with modifications of these methods where necessary.

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