Evidence_63777 |
TIGR02518 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_51192 |
ethanolamine diffusion facilitator |
None - {{∅}} |
True - {{t}} |
Unconfirmed presence |
|
Evidence_63775 |
TIGR00908 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_51190 |
ethanolamine ammonia-lyase, large subunit |
False - {{f}} |
False - {{f}} |
Confirmed absence |
|
Evidence_63776 |
PF04346 HMM |
None - {{∅}} |
True - {{t}} |
Unconfirmed presence |
|
Component_51191 |
ethanolamine ammonia-lyase, small subunit |
False - {{f}} |
False - {{f}} |
Confirmed absence |
|
Component_51193 |
putative acetaldehyde dehydrogenase (acetylating) |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
GenProp0294 |
ethanolamine degradation proteinaceous organelle~Ethanolamine can be broken down to acetaldehyde by the action of ethanolamine ammonia lyase, an adenosyl cobalamin (vitamin B12) dependent enzyme. In its simplest form this system consists only of the two subunits of the enzyme, but ususally also includes a transporter for ethanolamine and may include a coexpressed acetaldehyde dehydrogenase to ensure that the toxic aldehyde is efficiently converted to acetyl-CoA. A more complex version of this system exists (GenProp0292) which includes additional genes coding for the proteinaceous coat of a specialized organelle as well as other genes for the efficienct maintenance and regulation of the lyase, handling of the product and import of the substrate. Presumably, this organellar system in organisms which may rely on ethanolamine as a primary carbon source. |
False - {{f}} |
False - {{f}} |
Confirmed absence |
|
Evidence_63774 |
PF05985 HMM |
False - {{f}} |
False - {{f}} |
Confirmed absence |
|
Evidence_63773 |
PF06751 HMM |
False - {{f}} |
False - {{f}} |
Confirmed absence |
|