Amphetamine is reported to be oxidized at the 4 position of the benzen translation - Amphetamine is reported to be oxidized at the 4 position of the benzen Indonesian how to say

Amphetamine is reported to be oxidi

Amphetamine is reported to be oxidized at the 4 position of the benzene ring to form 4-hydroxyamphetamine, or on the side chain α or β carbons to form alpha-hydroxy-amphetamine or norephedrine, respectively. Norephedrine and 4-hydroxy-amphetamine are both active and each is subsequently oxidized to form 4-hydroxy-norephedrine. Alpha-hydroxy-amphetamine undergoes deamination to form phenylacetone, which ultimately forms benzoic acid and its glucuronide and the glycine conjugate hippuric acid. Although the enzymes involved in amphetamine metabolism have not been clearly defined, CYP2D6 is known to be involved with formation of 4-hydroxy-amphetamine. Since CYP2D6 is genetically polymorphic, population variations in amphetamine metabolism are a possibility.
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Amfetamin dilaporkan teroksidasi pada posisi 4 cincin benzena bentuk 4-hydroxyamphetamine, atau di sisi jaringan α atau β karbon untuk membentuk alpha-hydroxy-amfetamin atau norephedrine, masing-masing. Norephedrine dan 4-hidroksi-amphetamine keduanya aktif dan masing-masing kemudian teroksidasi untuk 4 bentuk-hidroksi-norephedrine. Alpha-hydroxy-amfetamin mengalami Deaminasi untuk bentuk phenylacetone, yang akhirnya membentuk asam benzoat dan glukuronida nya dan asam konjugat hipurat glisin. Meskipun enzim yang terlibat dalam metabolisme amfetamin tidak telah didefinisikan dengan jelas, CYP2D6 dikenal untuk terlibat dengan pembentukan 4-hidroksi-amfetamin. Karena CYP2D6 genetik polimorfik, populasi variasi dalam amfetamin metabolisme yang kemungkinan.
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Results (Indonesian) 2:[Copy]
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Amfetamin dilaporkan dioksidasi pada 4 posisi cincin benzena untuk membentuk 4-hydroxyamphetamine, atau pada α rantai samping atau karbon β untuk membentuk alpha-hydroxy-amfetamin atau norephedrine, masing-masing. Norephedrine dan 4-hidroksi-amphetamine keduanya aktif dan masing-masing kemudian teroksidasi untuk membentuk 4-hydroxy-norephedrine. Alpha-hydroxy-amfetamin mengalami deaminasi untuk membentuk phenylacetone, yang akhirnya membentuk asam benzoat dan glukuronida dan asam hipurat glisin konjugasi. Meskipun enzim yang terlibat dalam metabolisme amfetamin belum jelas, CYP2D6 diketahui terlibat dengan formasi 4-hydroxy-amphetamine. Sejak CYP2D6 secara genetik polimorfik, variasi populasi dalam metabolisme amphetamine adalah suatu kemungkinan.
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