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4-amino-anhydrotetracycline is a chemical compound derived from the tetracycline family of antibiotics. It is characterized by the presence of an amino group at the 4-position and the absence of a hydroxyl group, which distinguishes it from other tetracyclines. This modification can alter its chemical properties and potentially its biological activity. The compound is of interest in pharmaceutical research for its potential applications in medicine, particularly in the development of new antibiotics or as a building block for semi-synthetic derivatives with improved properties. Its chemical structure and functional groups may also be studied for their interactions with bacterial ribosomes, which is the primary mode of action of tetracyclines in inhibiting protein synthesis and combating infections.

3593-53-1

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3593-53-1 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 3593-53-1 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 3,5,9 and 3 respectively; the second part has 2 digits, 5 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 3593-53:
(6*3)+(5*5)+(4*9)+(3*3)+(2*5)+(1*3)=101
101 % 10 = 1
So 3593-53-1 is a valid CAS Registry Number.

3593-53-1Downstream Products

3593-53-1Relevant academic research and scientific papers

Identifying the minimal enzymes required for anhydrotetracycline biosynthesis

Zhang, Wenjun,Watanabe, Kenji,Cai, Xiaolu,Jung, Michael E.,Tang, Yi,Zhan, Jixun

, p. 6068 - 6069 (2008)

The cyclohexenone ring A of tetracyclines exhibits unique structural features not observed among other aromatic polyketides. These substitutions include the C2 primary amide, C4 dimethylamine, and the C12a tertiary alcohol. Here we report the identification and reconstitution of the minimum set of enzymes required for the biosynthesis of anhydrotetracycline (ATC, 5), the first intermediate in the tetracycline biosynthetic pathway that contains the fully functionalized ring A. Using a combination of in vivo and in vitro approaches, we confirmed OxyL, OxyQ, and OxyT to be the only enzymes required to convert 6-methylpretetramid 1 into 5. OxyL is a NADPH-dependent dioxygenase that introduces two oxygen atoms into 1 to yield the unstable intermediate 4-keto-ATC 2. The aminotransferase OxyQ catalyzes the reductive amination of C4-keto of 2, yielding 4-amino-ATC 3. Furthermore, the N,N-dimethyltransferase OxyT catalyzes the formation of 5 from 3 in a (S)-adenosylmethionine (SAM)-dependent manner. Finally, a non-natural anhydrotetracycline derivative was generated, demonstrating that our heterologous host/vector pair can be a useful platform toward the engineered biosynthesis of tetracycline analogues. Copyright

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