Serine acetyltransferase
From Proteopedia
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== Function == | == Function == | ||
| - | '''Serine acetyltransferase''' (SAT) catalyzes the reaction converting serine to O-acetyl-serine using acetyl-CoA as a cofactor. This reaction is the first step in the synthesis of cysteine in bacteria and plants<ref>PMID:15581566</ref>. | + | '''Serine acetyltransferase''' (SAT) catalyzes the reaction converting serine to O-acetyl-serine using acetyl-CoA as a cofactor. This reaction is the first step in the synthesis of cysteine in bacteria and plants<ref>PMID:15581566</ref>. SAT is regulated by a feedback inhibition by ots end product - cysteine. |
== Structural highlights == | == Structural highlights == | ||
| - | The structure of the complex of SAT with its substrate serine suggest that <scene name='80/801782/Cv/3'>His169 and Asp154 form a catalytic dyad</scene> and that <scene name='80/801782/Cv/4'>His189 may stabilize the oxyanion intermediate</scene>. <scene name='80/801782/Cv/7'>Glu177 helps to position Arg203 and His204</scene> for <scene name='80/801782/Cv/ | + | The structure of the complex of SAT with its substrate serine suggest that <scene name='80/801782/Cv/3'>His169 and Asp154 form a catalytic dyad</scene> and that <scene name='80/801782/Cv/4'>His189 may stabilize the oxyanion intermediate</scene>. <scene name='80/801782/Cv/7'>Glu177 helps to position Arg203 and His204</scene> for <scene name='80/801782/Cv/8'>serine binding</scene> (water molecules are shown as red spheres). Arg253 is important for the catalytic efficiency of SAT. Lys230 is required for the cofactor acetyl-CoA binding<ref>PMID:24225955</ref>. |
</StructureSection> | </StructureSection> | ||
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**[[4hzc]] – BaSAT – ''Brucella abortus''<br /> | **[[4hzc]] – BaSAT – ''Brucella abortus''<br /> | ||
**[[3f1x]] – SAT – ''Bacterioides vulgatus''<br /> | **[[3f1x]] – SAT – ''Bacterioides vulgatus''<br /> | ||
| + | **[[6lcn]] – SAT – ''Planctopirus limnophila<''br /> | ||
*Serine acetyltransferase complex with amino acid | *Serine acetyltransferase complex with amino acid | ||
| - | **[[ | + | **[[4n69]] – sSAT + Ser<br /> |
| - | **[[ | + | **[[1ssq]] – HiSAT + Cys<br /> |
| - | **[[1t3d]] – SAT + | + | **[[1t3d]] – SAT + Cys – ''Escherichia coli''<br /> |
| - | **[[3gvd]] – SAT + | + | **[[3gvd]] – SAT + Cys – ''Yersinia pestis''<br /> |
| - | **[[3p47]] – EhSAT + | + | **[[3p47]], [[7bw9]] – EhSAT + Cys<br /> |
| - | **[[3q1x]] – EhSAT + | + | **[[3q1x]] – EhSAT + Ser<br /> |
| - | **[[4h7o]] – SAT + | + | **[[4h7o]] – SAT + Cys + Arg – ''Vibrio cholerae''<br /> |
| + | **[[6jvu]] – SAT + Cys – ''Klebsiella pneumoniae''<br /> | ||
| + | **[[7ra4]] – NgSAT + Ser – ''Neisseria gonorrhoeae''<br /> | ||
| + | **[[6wye]] – NgSAT + malate<br /> | ||
| + | **[[7e3y]] – SAT + Cys – ''Salmonella typhimurium''<br /> | ||
*Serine acetyltransferase complex with acetyl-CoA | *Serine acetyltransferase complex with acetyl-CoA | ||
| - | **[[1sst]] – HiSAT + Acetyl CoA <br /> | ||
**[[4n6b]] – sSAT + Acetyl CoA <br /> | **[[4n6b]] – sSAT + Acetyl CoA <br /> | ||
| + | **[[1sst]] – HiSAT + Acetyl CoA <br /> | ||
**[[4hzd]] – BaSAT + Acetyl CoA <br /> | **[[4hzd]] – BaSAT + Acetyl CoA <br /> | ||
}} | }} | ||
Current revision
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3D structures of serine acetyltransferase
Updated on 15-November-2023
References
- ↑ Gerlt JA, Babbitt PC, Rayment I. Divergent evolution in the enolase superfamily: the interplay of mechanism and specificity. Arch Biochem Biophys. 2005 Jan 1;433(1):59-70. doi: 10.1016/j.abb.2004.07.034. PMID:15581566 doi:http://dx.doi.org/10.1016/j.abb.2004.07.034
- ↑ Yi H, Dey S, Kumaran S, Lee SG, Krishnan HB, Jez JM. Structure of Soybean Serine Acetyltransferase and Formation of the Cysteine Regulatory Complex as a Molecular Chaperone. J Biol Chem. 2013 Nov 13. PMID:24225955 doi:http://dx.doi.org/10.1074/jbc.M113.527143
