dbCAN-seq: a database of CAZyme sequence and annotation

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CAZyme Information: MGYG000003236_01063

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Basic Information help

Species

UMGS1397 sp900761355

Lineage

Bacteria; Firmicutes_A; Clostridia; Oscillospirales; Acutalibacteraceae; UMGS1397; UMGS1397 sp900761355

CAZyme ID

MGYG000003236_01063

CAZy Family

GT4

CAZyme Description

hypothetical protein

CAZyme Property

Protein Length	CGC	Molecular Weight	Isoelectric Point
643	MGYG000003236_46\|CGC1	73382.55	8.878

Genome Property

Genome Assembly ID	Genome Size	Genome Type	Country	Continent
MGYG000003236	2919488	MAG	United States	North America

Gene Location

Start: 4271; End: 6202 Strand: +

Full Sequence Download help

Enzyme Prediction help

No EC number prediction in MGYG000003236_01063.

CAZyme Signature Domains help

Family	Start	End	Evalue	family coverage
GT4	201	348	3.2e-24	0.94375

CDD Domains download full data without filtering help

Cdd ID	Domain	E-Value	qStart	qEnd	sStart	sEnd	Domain Description
cd03817	GT4_UGDG-like	2.35e-69	2	371	1	369	UDP-Glc:1,2-diacylglycerol 3-a-glucosyltransferase and similar proteins. This family is most closely related to the GT1 family of glycosyltransferases. UDP-glucose-diacylglycerol glucosyltransferase (EC 2.4.1.337, UGDG; also known as 1,2-diacylglycerol 3-glucosyltransferase) catalyzes the transfer of glucose from UDP-glucose to 1,2-diacylglycerol forming 3-D-glucosyl-1,2-diacylglycerol.
COG0438	RfaB	1.38e-42	1	377	1	380	Glycosyltransferase involved in cell wall bisynthesis [Cell wall/membrane/envelope biogenesis].
cd03801	GT4_PimA-like	2.74e-42	2	372	1	366	phosphatidyl-myo-inositol mannosyltransferase. This family is most closely related to the GT4 family of glycosyltransferases and named after PimA in Propionibacterium freudenreichii, which is involved in the biosynthesis of phosphatidyl-myo-inositol mannosides (PIM) which are early precursors in the biosynthesis of lipomannans (LM) and lipoarabinomannans (LAM), and catalyzes the addition of a mannosyl residue from GDP-D-mannose (GDP-Man) to the position 2 of the carrier lipid phosphatidyl-myo-inositol (PI) to generate a phosphatidyl-myo-inositol bearing an alpha-1,2-linked mannose residue (PIM1). Glycosyltransferases catalyze the transfer of sugar moieties from activated donor molecules to specific acceptor molecules, forming glycosidic bonds. The acceptor molecule can be a lipid, a protein, a heterocyclic compound, or another carbohydrate residue. This group of glycosyltransferases is most closely related to the previously defined glycosyltransferase family 1 (GT1). The members of this family may transfer UDP, ADP, GDP, or CMP linked sugars. The diverse enzymatic activities among members of this family reflect a wide range of biological functions. The protein structure available for this family has the GTB topology, one of the two protein topologies observed for nucleotide-sugar-dependent glycosyltransferases. GTB proteins have distinct N- and C- terminal domains each containing a typical Rossmann fold. The two domains have high structural homology despite minimal sequence homology. The large cleft that separates the two domains includes the catalytic center and permits a high degree of flexibility. The members of this family are found mainly in certain bacteria and archaea.
cd03814	GT4-like	1.13e-36	2	372	1	365	glycosyltransferase family 4 proteins. This family is most closely related to the GT4 family of glycosyltransferases and includes a sequence annotated as alpha-D-mannose-alpha(1-6)phosphatidyl myo-inositol monomannoside transferase from Bacillus halodurans. Glycosyltransferases catalyze the transfer of sugar moieties from activated donor molecules to specific acceptor molecules, forming glycosidic bonds. The acceptor molecule can be a lipid, a protein, a heterocyclic compound, or another carbohydrate residue. This group of glycosyltransferases is most closely related to the previously defined glycosyltransferase family 1 (GT1). The members of this family may transfer UDP, ADP, GDP, or CMP linked sugars. The diverse enzymatic activities among members of this family reflect a wide range of biological functions. The protein structure available for this family has the GTB topology, one of the two protein topologies observed for nucleotide-sugar-dependent glycosyltransferases. GTB proteins have distinct N- and C- terminal domains each containing a typical Rossmann fold. The two domains have high structural homology despite minimal sequence homology. The large cleft that separates the two domains includes the catalytic center and permits a high degree of flexibility. The members of this family are found mainly in bacteria and eukaryotes.
cd03811	GT4_GT28_WabH-like	1.14e-34	2	353	1	340	family 4 and family 28 glycosyltransferases similar to Klebsiella WabH. This family is most closely related to the GT1 family of glycosyltransferases. WabH in Klebsiella pneumoniae has been shown to transfer a GlcNAc residue from UDP-GlcNAc onto the acceptor GalUA residue in the cellular outer core.

CAZyme Hits help

Hit ID	E-Value	Query Start	Query End	Hit Start	Hit End
ANW99047.1	2.64e-239	1	623	3	616
ANX01575.1	2.64e-239	1	623	3	616
AGC68714.1	2.64e-239	1	623	3	616
AGI39723.1	2.64e-239	1	623	3	616
ABN52751.1	1.75e-160	1	592	30	597

PDB Hits download full data without filtering help

Hit ID	E-Value	Query Start	Query End	Hit Start	Hit End	Description
3QHP_A	5.59e-40	203	353	3	153	Crystalstructure of the catalytic domain of cholesterol-alpha-glucosyltransferase from Helicobacter pylori [Helicobacter pylori 26695],3QHP_B Crystal structure of the catalytic domain of cholesterol-alpha-glucosyltransferase from Helicobacter pylori [Helicobacter pylori 26695]

Swiss-Prot Hits help

has no Swissprot hit.

SignalP and Lipop Annotations help

This protein is predicted as OTHER

Other	SP_Sec_SPI	LIPO_Sec_SPII	TAT_Tat_SPI	TATLIP_Sec_SPII	PILIN_Sec_SPIII
1.000030	0.000000	0.000000	0.000000	0.000000	0.000000

TMHMM Annotations help

There is no transmembrane helices in MGYG000003236_01063.