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Title :   MINIMIZED MEAN SOLUTION STRUCTURE OF THE ACYL CARRIER PROTEIN DOMAIN FROM MODULE 2 OF 6-DEOXYERYTHRONOLIDE B SYNTHASE (DEBS)

Authors :   V. Y. Alekseyev, C. W. Liu, J. D. Puglisi, C. Khosla

Date :   12 Aug 07 (Deposition) - 02 Oct 07 (Release) - 24 Feb 09 (Revision)

Method :   SOLUTION NMR

Resolution :   NOT APPLICABLE

Chains :   NMR Structure  : A

Keywords :   Carrier Protein Domain, Modular Polyketide Synthase, Alpha- Helical Bundle, Acyltransferase, Antibiotic Biosynthesis, Multifunctional Enzyme, Nadp, Phosphopantetheine, Transferase (Keyword Search: [Gene Ontology, PubMed, Web (Google)] )

Reference :   V. Y. Alekseyev, C. W. Liu, D. E. Cane, J. D. Puglisi, C. Khosla
Solution Structure And Proposed Domain Domain Recognition Interface Of An Acyl Carrier Protein Domain From A Modular Polyketide Synthase.
Protein Sci. V. 16 2093 2007
PubMed-ID: 17893358 | Reference-DOI: 10.1110/PS.073011407
(for further references see the PDB file header)

Compounds

Molecule 1 - ERYTHRONOLIDE SYNTHASE
	Chains	:	A
	EC Number	:	2.3.1.94
	Engineered	:	YES
	Expression System	:	ESCHERICHIA COLI BL21(DE3)
	Expression System Plasmid	:	PET28(A)
	Expression System Strain	:	BL21(DE3)
	Expression System Taxid	:	469008
	Expression System Vector Type	:	PLASMID
	Fragment	:	ACYL CARRIER PROTEIN DOMAIN
	Gene	:	ERYA
	Organism Scientific	:	SACCHAROPOLYSPORA ERYTHRAEA
	Organism Taxid	:	1836
	Other Details	:	STOP CODON AT THE C-TERMINUS, BEFORE THE C- TERMINAL HIS-TAG PRESENT IN THE EXPRESSION VECTOR PLASMID
	Synonym	:	ORF 1, 6-DEOXYERYTHRONOLIDE B SYNTHASE I, DEBS 1

Structural Features

Chains, Units

Ligands, Modified Residues, Ions (0, 0)

Sites (0, 0)

SS Bonds (0, 0)

Cis Peptide Bonds (0, 0)

Sequence-Structure Mapping

SAPs(SNPs)/Variants (0, 0)

PROSITE Motifs (2, 2)

Exons (0, 0)

Sequences/Alignments

NMR Structure

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	UniProt sequence: complete aligned part

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Chain A from PDB  Type:PROTEIN  Length:95
 aligned with ERYA1_SACER | Q03131 from UniProtKB/Swiss-Prot  Length:3491

    Alignment length:98
                                  3320      3330      3340      3350      3360      3370      3380      3390      3400        
         ERYA1_SACER   3311 GEPETESLRDRLAGLPRAERTAELVRLVRTSTATVLGHDDPKAVRATTPFKELGFDSLAAVRLRNLLNAATGLRLPSTLVFDHPNASAVAGFLDAELG 3408
               SCOP domains -------------------------------------------------------------------------------------------------- SCOP domains
               CATH domains -------------------------------------------------------------------------------------------------- CATH domains
               Pfam domains -------------------------PP-binding-2ju2A01 A:23-90                                          ----- Pfam domains
         Sec.struct. author .---..hhhhhhh..hhhhhhhhhhhhhhhhhhhhhh..hhhhh....hhhhhhh.hhhhhhhhhhhhhhhh.....hhhhhh.hhhhhhhhhhhhhh Sec.struct. author
                 SAPs(SNPs) -------------------------------------------------------------------------------------------------- SAPs(SNPs)
                PROSITE (1) ------------------CARRIER  PDB: A:16-94 UniProt: 3329-3407                                       - PROSITE (1)
                PROSITE (2) ---------------------------------------------------PHOSPHOPANTETHEI------------------------------- PROSITE (2)
                 Transcript -------------------------------------------------------------------------------------------------- Transcript
                2ju2 A    1 G---SHMLRDRLAGLPRAERTAELVRLVRTSTATVLGHDDPKAVRATTPFKELGFDSLAAVRLRNLLNAATGLRLPSTLVFDHPNASAVAGFLDAELG   95
                            |   |    7        17        27        37        47        57        67        77        87        
                            |   2                                                                                             
                            1

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Classification and Annotation

SCOP Domains (0, 0)

CATH Domains (0, 0)

Pfam Domains (1, 1)

Gene Ontology (8, 8)

NMR Structure(hide GO term definitions)

Chain A (ERYA1_SACER | Q03131)

molecular function
	GO:0003824	catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.
	GO:0047879	erythronolide synthase activity	Catalysis of the reaction: 6 malonyl-CoA + propionyl-CoA = 7 CoA + 6-deoxyerythronolide B.
	GO:0031177	phosphopantetheine binding	Interacting selectively and non-covalently with phosphopantetheine, the vitamin pantetheine 4'-(dihydrogen phosphate).
	GO:0016740	transferase activity	Catalysis of the transfer of a group, e.g. a methyl group, glycosyl group, acyl group, phosphorus-containing, or other groups, from one compound (generally regarded as the donor) to another compound (generally regarded as the acceptor). Transferase is the systematic name for any enzyme of EC class 2.
	GO:0016746	transferase activity, transferring acyl groups	Catalysis of the transfer of an acyl group from one compound (donor) to another (acceptor).
biological process
	GO:0017000	antibiotic biosynthetic process	The chemical reactions and pathways resulting in the formation of an antibiotic, a substance produced by or derived from certain fungi, bacteria, and other organisms, that can destroy or inhibit the growth of other microorganisms.
	GO:0033068	macrolide biosynthetic process	The chemical reactions and pathways leading to the formation of macrolides, any of a large group of polyketide compounds that contain a large lactone ring with few or no double bonds and no nitrogen atoms, linked glycosidically to one or more sugar groups. The macrolides include the carbomycins, the erythromycins, oleandomycin, oligomycins, and the spiramycins, and act as antibiotics, mainly against Gram-positive bacteria.
	GO:0008152	metabolic process	The chemical reactions and pathways, including anabolism and catabolism, by which living organisms transform chemical substances. Metabolic processes typically transform small molecules, but also include macromolecular processes such as DNA repair and replication, and protein synthesis and degradation.

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