Sandbox Reserved 1136

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== Structural highlights ==
== Structural highlights ==
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Sucrose synthase is a homotetrameric enzyme.
There are 6 SUS isoforms in Arabidopsis thaliana and all of them are structurally similar to sucrose phosphate synthases and glycogen synthases. <ref>Salerno GL, Curatti L. Origin of sucrose metabolism in higher plants: when, how and why? Trends Plant Sci. 2003 Feb</ref>.
There are 6 SUS isoforms in Arabidopsis thaliana and all of them are structurally similar to sucrose phosphate synthases and glycogen synthases. <ref>Salerno GL, Curatti L. Origin of sucrose metabolism in higher plants: when, how and why? Trends Plant Sci. 2003 Feb</ref>.
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There are three notable domains:
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Each monomer is a chain of 808 residues which possesses four specific domains:
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• 1-276: N-Terminal regulatory domain involved in targeting <ref>Determination of structural requirements and probable regulatory effectors for membrane association of maize sucrose synthase 1. Hardin SC, Duncan KA, Huber SC. Plant Physiol. 2006</ref>. On this sequence, two serines can be phosphorylated, which enable a control of enzyme location <ref>Phosphorylation of sucrose synthase at serine 170: occurrence and possible role as a signal for proteolysis. Hardin SC, Tang GQ, Scholz A, Holtgraewe D, Winter H, Huber SC. Plant J. 2003</ref>.
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• 1-127: N-Terminal regulatory domain involved in targeting <ref>Determination of structural requirements and probable regulatory effectors for membrane association of maize sucrose synthase 1. Hardin SC, Duncan KA, Huber SC. Plant Physiol. 2006</ref>. On this sequence, two serines can be phosphorylated, which enable a control of enzyme location <ref>Phosphorylation of sucrose synthase at serine 170: occurrence and possible role as a signal for proteolysis. Hardin SC, Tang GQ, Scholz A, Holtgraewe D, Winter H, Huber SC. Plant J. 2003</ref>.
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157-276: ENOD40 peptide-binding domain.
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277-776 : GT-B glycosyltransferase domain.
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• 776-808 : C-terminal domain. The length of this domain is variable depending of the SUS isoform.

Revision as of 12:36, 29 January 2016

This Sandbox is Reserved from 15/12/2015, through 15/06/2016 for use in the course "Structural Biology" taught by Bruno Kieffer at the University of Strasbourg, ESBS. This reservation includes Sandbox Reserved 1120 through Sandbox Reserved 1159.
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Structure and Functional aspects of Sucrose Synthase from Arabidopsis thaliana

X-ray crystal structures of AtSus1, as a complex with UDP-glucose at 2.8-Å resolution and as a complex with UDP and fructose at 2.85-Å resolution

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References

• UniProt entry: P49040

• Brenda entry : 2.4.1.13

  1. Salerno GL, Curatti L Origin of sucrose metabolism in higher plants: when, how and why? Trends Plant Sci. 2003 Feb
  2. Baroja-Fernández, E., Muñoz, F.J., Saikusa, T., Rodríguez-López, M., Akazawa, T. and Pozueta-Romero, J. Sucrose synthase catalyzes the de novo production of ADPglucose linked to starch biosynthesis in heterotrophic tissues of plants. Plant Cell Physiol.
  3. Salerno GL, Curatti L. Origin of sucrose metabolism in higher plants: when, how and why? Trends Plant Sci. 2003 Feb
  4. Determination of structural requirements and probable regulatory effectors for membrane association of maize sucrose synthase 1. Hardin SC, Duncan KA, Huber SC. Plant Physiol. 2006
  5. Phosphorylation of sucrose synthase at serine 170: occurrence and possible role as a signal for proteolysis. Hardin SC, Tang GQ, Scholz A, Holtgraewe D, Winter H, Huber SC. Plant J. 2003
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