DB code: D00860

RLCP classification	3.903.137500.660 : Transfer
CATH domain	-.-.-.- :
CATH domain	3.90.550.10 : Spore Coat Polysaccharide Biosynthesis Protein SpsA; Chain A	Catalytic domain
E.C.	2.4.1.223
CSA
M-CSA
MACiE

CATH domain	Related DB codes (homologues)
3.90.550.10 : Spore Coat Polysaccharide Biosynthesis Protein SpsA; Chain A	S00709 S00465 S00466 D00417 D00859 T00415

Uniprot Enzyme Name
UniprotKB	Protein name	Synonyms	RefSeq	CAZy	Pfam
Q9ES89	Exostosin-like 2	EC 2.4.1.223 Alpha-1,4-N-acetylhexosaminyltransferase EXTL2 Alpha-GalNAcT EXTL2 EXT-related protein 2 Glucuronyl-galactosyl-proteoglycan 4-alpha-N-acetylglucosaminyltransferase	NP_001156986.1 (Protein) NM_001163514.1 (DNA/RNA sequence) NP_067363.3 (Protein) NM_021388.4 (DNA/RNA sequence)	GT64 (Glycosyltransferase Family 64)	PF09258 (Glyco_transf_64) [Graphical View]

KEGG enzyme name
Glucuronyl-galactosyl-proteoglycan 4-alpha-N-acetylglucosaminyltransferase Alpha-N-acetylglucosaminyltransferase I Alpha1,4-N-acetylglucosaminyltransferase Glucuronosylgalactosyl-proteoglycan 4-alpha-N-acetylglucosaminyltransferase

UniprotKB: Accession Number	Entry name	Activity	Subunit	Subcellular location	Cofactor
Q9ES89	EXTL2_MOUSE	UDP-N-acetyl-D-glucosamine + beta-D-glucuronosyl-(1->3)-beta-D-galactosyl-(1->3)-beta-D-galactosyl-(1->4)-beta-D-xylosyl-proteoglycan = UDP + alpha-N-acetyl-D-glucosaminyl-(1->4)-beta-D-glucuronosyl-(1->3)-beta-D-galactosyl-(1->3)-beta-D-galactosyl-(1->4)-beta-D-xylosyl-proteoglycan.		Endoplasmic reticulum membrane, Single-pass type II membrane protein (By similarity).

KEGG Pathways
Map code	Pathways	E.C.
MAP00534	Glycosaminoglycan biosynthesis - heparan sulfate

Compound table
	Cofactors	Substrates		Products		Intermediates
KEGG-id	C00034	C00043	C04903	C00015	C15656
E.C.
Compound	Manganese	UDP-N-acetyl-D-glucosamine	3-beta-D-Glucuronosyl-3-beta-D-galactosyl-4-beta-D-galactosyl-O-beta-D-xylosylprotein	UDP	alpha-N-acetyl-D-glucosaminyl-(1->4)-beta-D-glucuronosyl-(1->3)-beta-D-galactosyl-(1->3)-beta-D-galactosyl-(1->4)-beta-D-xylosyl-proteoglycan
Type	heavy metal	amide group,carbohydrate,nucleotide	carboxyl group,peptide/protein,polysaccharide	amide group,nucleotide	amide group,carboxyl group,peptide/protein,polysaccharide
ChEBI	18291 35154 18291 35154	16264 16264		17659 17659
PubChem	23930 23930	445675 445675		6031 6031

1omxA00	Unbound	Unbound	Unbound	Unbound	Unbound
1omxB00	Unbound	Unbound	Unbound	Unbound	Unbound
1omzA00	Bound:_MN	Analogue:UD2	Unbound	Unbound	Unbound
1omzB00	Bound:_MN	Analogue:UD2	Unbound	Unbound	Unbound
1on6A00	Bound:_MN	Bound:UD1	Unbound	Unbound	Unbound
1on6B00	Bound:_MN	Bound:UD1	Unbound	Unbound	Unbound
1on8A00	Bound:_MN	Unbound	Analogue:BDP-GAL	Bound:UDP	Unbound
1on8B00	Bound:_MN	Unbound	Analogue:BDP-GAL	Bound:UDP	Unbound

Reference for Active-site residues
resource	references	E.C.
Literature [4]

Active-site residues
PDB	Catalytic residues	Cofactor-binding residues	Modified residues	Main-chain involved in catalysis	Comment

1omxA00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284	invisible 274-286
1omxB00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284	invisible 274-287
1omzA00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284	invisible 275-286
1omzB00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284	invisible 275-285
1on6A00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284	invisible 275-285
1on6B00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284	invisible 275-285
1on8A00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284
1on8B00	ASN 243;ASP 246;ARG 293	ASP 153(Manganese binding)		TRP 284	invisible 278-280

References for Catalytic Mechanism
References	Sections	No. of steps in catalysis
[4]	FIG.7
[7]	p.241
[8]	Figure 10

References
[1]
Resource
Comments
Medline ID
PubMed ID	10318803
Journal	J Biol Chem
Year	1999
Volume	274
Pages	13933-7
Authors	Kitagawa H, Shimakawa H, Sugahara K
Title	The tumor suppressor EXT-like gene EXTL2 encodes an alpha1, 4-N-acetylhexosaminyltransferase that transfers N-acetylgalactosamine and N-acetylglucosamine to the common glycosaminoglycan-protein linkage region. The key enzyme for the chain initiation of heparan sulfate.
Related PDB
Related UniProtKB
[2]
Resource
Comments
Medline ID
PubMed ID	11042448
Journal	Curr Opin Struct Biol
Year	2000
Volume	10
Pages	518-27
Authors	Sugahara K, Kitagawa H
Title	Recent advances in the study of the biosynthesis and functions of sulfated glycosaminoglycans.
Related PDB
Related UniProtKB
[3]
Resource
Comments
Medline ID
PubMed ID	12659829
Journal	Biochem Biophys Res Commun
Year	2003
Volume	303
Pages	393-8
Authors	Negishi M, Dong J, Darden TA, Pedersen LG, Pedersen LC
Title	Glucosaminylglycan biosynthesis: what we can learn from the X-ray crystal structures of glycosyltransferases GlcAT1 and EXTL2.
Related PDB
Related UniProtKB
[4]
Resource
Comments	X-RAY CRYSTALLOGRAPHY (2.1 ANGSTROMS) OF 38-330, METAL-BINDING, DISULFIDE BOND.
Medline ID
PubMed ID	12562774
Journal	J Biol Chem
Year	2003
Volume	278
Pages	14420-8
Authors	Pedersen LC, Dong J, Taniguchi F, Kitagawa H, Krahn JM, Pedersen LG, Sugahara K, Negishi M
Title	Crystal structure of an alpha 1,4-N-acetylhexosaminyltransferase (EXTL2), a member of the exostosin gene family involved in heparan sulfate biosynthesis.
Related PDB	1omx 1omz 1on6 1on8
Related UniProtKB	Q9ES89
[5]
Resource
Comments
Medline ID
PubMed ID	15489968
Journal	Chem Commun (Camb)
Year	2004
Volume	(20)
Pages	2243-8
Authors	Lairson LL, Withers SG
Title	Mechanistic analogies amongst carbohydrate modifying enzymes.
Related PDB
Related UniProtKB
[6]
Resource
Comments
Medline ID
PubMed ID	15831490
Journal	J Biol Chem
Year	2005
Volume	280
Pages	23441-5
Authors	Sobhany M, Dong J, Negishi M
Title	Two-step mechanism that determines the donor binding specificity of human UDP-N-acetylhexosaminyltransferase.
Related PDB
Related UniProtKB
[7]
Resource
Comments
Medline ID
PubMed ID
Journal	Top Curr Chem
Year	2007
Volume	272
Pages	217-57
Authors	Schuman B, Alfaro JA, Evans SV
Title	Glycosyltransferase structure and function.
Related PDB
Related UniProtKB
[8]
Resource
Comments
Medline ID
PubMed ID	18518825
Journal	Annu Rev Biochem
Year	2008
Volume	77
Pages	521-55
Authors	Lairson LL, Henrissat B, Davies GJ, Withers SG
Title	Glycosyltransferases: structures, functions, and mechanisms.
Related PDB
Related UniProtKB

Comments
This enzyme belongs to glycosyltransferase family-64 (GT64 family), with a GT-A fold and a retaining mechanism (see [7]). The structure of the N-terminal domain, which contains the N-terminal cytoplasmic region and a membrane-bound region, has not been determined yet. According to the literature [4], [7] and [8], this enzyme catalyzes the following reaction (so-called substitution nucleophilic internal (SNi)-like mechanism): (0) Manganese ion, bound to Asp153, and mainchain amide of Trp284 stabilize the negative charge on the leaving phosphate groups. Sidechains of Asn243 and Asp246 modulate the positive charge or pKa of sidechain of Arg293. (1) The transferred group, N-acetyl-glucosamine, forms an oxocarbenium ion-like transition state, with a positive charge developed on C1' atom on the N-acetyl-glucosamine and a negative charge on the leaving phosphate oxygen atom (Dissociative reaction/SN1-like reaction). Here, Arg293 stabilizes the positive charge on C1' atom in the transition state. (2) The leaving phosphate oxygen acts as a general base to deprotonate O4 atom of the acceptor, GlcA group. (3) The activated O4 atom of the GlcA makes a nucleophilic attack on C1' atom of the N-acetyl-glucosamine from the same side as the leaving phosphate group, so that the N-acetyl-glucosamine group of the final product retains its configuration.

Comments

This enzyme belongs to glycosyltransferase family-64 (GT64 family), with a GT-A fold and a retaining mechanism (see [7]).
The structure of the N-terminal domain, which contains the N-terminal cytoplasmic region and a membrane-bound region, has not been determined yet.
According to the literature [4], [7] and [8], this enzyme catalyzes the following reaction (so-called substitution nucleophilic internal (SNi)-like mechanism):
(0) Manganese ion, bound to Asp153, and mainchain amide of Trp284 stabilize the negative charge on the leaving phosphate groups. Sidechains of Asn243 and Asp246 modulate the positive charge or pKa of sidechain of Arg293.
(1) The transferred group, N-acetyl-glucosamine, forms an oxocarbenium ion-like transition state, with a positive charge developed on C1' atom on the N-acetyl-glucosamine and a negative charge on the leaving phosphate oxygen atom (Dissociative reaction/SN1-like reaction). Here, Arg293 stabilizes the positive charge on C1' atom in the transition state.
(2) The leaving phosphate oxygen acts as a general base to deprotonate O4 atom of the acceptor, GlcA group.
(3) The activated O4 atom of the GlcA makes a nucleophilic attack on C1' atom of the N-acetyl-glucosamine from the same side as the leaving phosphate group, so that the N-acetyl-glucosamine group of the final product retains its configuration.

Created	Updated
2010-08-19	2011-10-05