Sandbox Reserved 697
From Proteopedia
| Line 8: | Line 8: | ||
Substrates for MAO-A include dopamine, serotonin and norepinephrine. The <scene name='Sandbox_Reserved_697/Mao-a_active_site/1'>substrate binding domain</scene> is located in the center of the protein shown in green. Additionally, MAO-A (and MAO-B) bind flavin adenine dinucleotide (FAD) at an <scene name='Sandbox_Reserved_697/Mao-a_fad_binding_site/1'>FAD binding domain</scene> shown in cyan which also is involved with the activity of the enzyme. This site of FAD covalent attachment is very conserved among MAOs. MAOs are anchored into the outer membrane of the mitochondria by a <scene name='Sandbox_Reserved_697/Mao-a_c-terminus/1'>C-terminal transmembrane region</scene> shown in yellow. Click <scene name='Sandbox_Reserved_697/Mao-a_c_term_fad_sub/1'>here</scene> to view all three of these highly conserved sites simultaneously. | Substrates for MAO-A include dopamine, serotonin and norepinephrine. The <scene name='Sandbox_Reserved_697/Mao-a_active_site/1'>substrate binding domain</scene> is located in the center of the protein shown in green. Additionally, MAO-A (and MAO-B) bind flavin adenine dinucleotide (FAD) at an <scene name='Sandbox_Reserved_697/Mao-a_fad_binding_site/1'>FAD binding domain</scene> shown in cyan which also is involved with the activity of the enzyme. This site of FAD covalent attachment is very conserved among MAOs. MAOs are anchored into the outer membrane of the mitochondria by a <scene name='Sandbox_Reserved_697/Mao-a_c-terminus/1'>C-terminal transmembrane region</scene> shown in yellow. Click <scene name='Sandbox_Reserved_697/Mao-a_c_term_fad_sub/1'>here</scene> to view all three of these highly conserved sites simultaneously. | ||
| - | MAO-B also binds similar monoamines to MAO-A, but preferentially binds beta-phenylethylamines and benzylamine. The <scene name='Sandbox_Reserved_697/Mao-b_c_terminus/1'>C-terminal domain</scene> is shown in green with the domain predicted to form the<scene name='Sandbox_Reserved_697/Mao-b_c_terminus_transmemb/1'>transmembrane helix</scene> shown in red. | + | MAO-B also binds similar monoamines to MAO-A, but preferentially binds beta-phenylethylamines and benzylamine. The <scene name='Sandbox_Reserved_697/Mao-b_c_terminus/1'>C-terminal domain</scene> is shown in green with the domain predicted to form the <scene name='Sandbox_Reserved_697/Mao-b_c_terminus_transmemb/1'>transmembrane helix</scene> shown in red. The <scene name='Sandbox_Reserved_697/Mao-b_better_look_at_substrate/1'>FAD</scene> located in the center of the protein binds the inhibitor to it covalently. The inhibitor shown is pargyline. |
Revision as of 17:42, 30 April 2013
| This Sandbox is Reserved from 30/01/2013, through 30/12/2013 for use in the course "Biochemistry II" taught by Hannah Tims at the Messiah College. This reservation includes Sandbox Reserved 686 through Sandbox Reserved 700. |
To get started:
More help: Help:Editing |
|
Monoamine Oxidases
Monoamine oxidases (MAOs) are a class of enzyme that are localized to the outer membrane of the mitochondria and catalyzes the oxidative deamination of different monoamines. There are two subtypes of MAOs: and , which are closely related in stucture, but each has different substrate and inhibitor specificities. The two subtypes of MAO shown were those of humans, which can vary between different species of mammals. Note that human MAO-A is monomeric while human MAO-B forms a dimer.
Substrates for MAO-A include dopamine, serotonin and norepinephrine. The is located in the center of the protein shown in green. Additionally, MAO-A (and MAO-B) bind flavin adenine dinucleotide (FAD) at an shown in cyan which also is involved with the activity of the enzyme. This site of FAD covalent attachment is very conserved among MAOs. MAOs are anchored into the outer membrane of the mitochondria by a shown in yellow. Click to view all three of these highly conserved sites simultaneously.
MAO-B also binds similar monoamines to MAO-A, but preferentially binds beta-phenylethylamines and benzylamine. The is shown in green with the domain predicted to form the shown in red. The located in the center of the protein binds the inhibitor to it covalently. The inhibitor shown is pargyline.
