Journal:Acta Cryst F:S1744309112050270
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The Arabidopsis “Aberrant growth and death-2” (AGD2) protein was originally identified as a protein that is associated with pathogen resistance. The AGD2 protein was subsequently identified as the diaminopimelate amino transferase (DAPAT) enzyme. An Arabidopsis homologue of this protein was subsequently identified and originally named as the AGD2-like defense response protein 1 (ALD1). Both DAPAT and ALD1 require pyridoxal-5′-phosphate (PLP) for their activities. Here we report the structure of the ALD1 protein from ''Arabidopsis thaliana'' (''At''ALD1), to a resolution of 2.1 Å. | The Arabidopsis “Aberrant growth and death-2” (AGD2) protein was originally identified as a protein that is associated with pathogen resistance. The AGD2 protein was subsequently identified as the diaminopimelate amino transferase (DAPAT) enzyme. An Arabidopsis homologue of this protein was subsequently identified and originally named as the AGD2-like defense response protein 1 (ALD1). Both DAPAT and ALD1 require pyridoxal-5′-phosphate (PLP) for their activities. Here we report the structure of the ALD1 protein from ''Arabidopsis thaliana'' (''At''ALD1), to a resolution of 2.1 Å. | ||
<scene name='Journal:Proteins:1/Cv/2'>The structure of AtALD1 shows a high level of similarity to the structures described for PLP dependent DAPAT from Arabidopsis thaliana (AtDAPAT)</scene> (PDB entry [[2z20]]), with an RMSD between structures of 0.64 Å over 324 Cα atoms. <span style="color:cyan;background-color:black;font-weight:bold;">''At''ALD1 is in cyan</span> and <span style="color:yellow;background-color:black;font-weight:bold;">''At''DAPAT is in yellow</span>. The largest difference between the two structures can be seen at the carboxy terminal regions of two helices: helix α2 (residues 37-53) and helix α12 (residues 373-386). There is a difference of about 6 Å at the loop edge carboxy-terminal to helix α2, between the Cα atom of Asn49 in ''At''ALD1 and the structurally aligned Cα atom of Asp55 in ''At''DAPAT. Helix α2 diverges between the two structures mainly because of differences in the dihedral angles of Gly36 and Tyr37 in ''At''ALD1 loop 33-37 verses its ''At''DAPAT counterparts. On the other hand, differences in helix α12 occur because of non-dramatic changes in dihedral angles of all the residues of loop 370-373. | <scene name='Journal:Proteins:1/Cv/2'>The structure of AtALD1 shows a high level of similarity to the structures described for PLP dependent DAPAT from Arabidopsis thaliana (AtDAPAT)</scene> (PDB entry [[2z20]]), with an RMSD between structures of 0.64 Å over 324 Cα atoms. <span style="color:cyan;background-color:black;font-weight:bold;">''At''ALD1 is in cyan</span> and <span style="color:yellow;background-color:black;font-weight:bold;">''At''DAPAT is in yellow</span>. The largest difference between the two structures can be seen at the carboxy terminal regions of two helices: helix α2 (residues 37-53) and helix α12 (residues 373-386). There is a difference of about 6 Å at the loop edge carboxy-terminal to helix α2, between the Cα atom of Asn49 in ''At''ALD1 and the structurally aligned Cα atom of Asp55 in ''At''DAPAT. Helix α2 diverges between the two structures mainly because of differences in the dihedral angles of Gly36 and Tyr37 in ''At''ALD1 loop 33-37 verses its ''At''DAPAT counterparts. On the other hand, differences in helix α12 occur because of non-dramatic changes in dihedral angles of all the residues of loop 370-373. | ||
| + | <scene name='Journal:Proteins:1/Cv/4'>The overall binding site structure and position of PLP is similar in AtALD1 and AtDAPAT</scene> (RMSD following superimposition equals 0.48 Å over 13 Cα atoms). | ||
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Revision as of 11:55, 28 February 2012
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