Conserved hypothetical protein; Ulvan lyase involved in ulvan degradation. Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D-glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable). Ulvan lyase catalyzes the endolytic cleavage of the glycosidic bond between Rha3S and the uronic acids GlcA or IduA, producing oligosaccharides that have unsaturated 4-deoxy-L-threo-hex-4-enopyranosiduronic acid (deltaUA) at the non-reducing end. This resu [...]

Beta-galactosidase (GH2); Glycoside hydrolase that may be involved in ulvan degradation (Probable). Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D-glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable). Belongs to the glycosyl hydrolase 2 family.

alpha-L-rhamnosidase (GH78); Alpha-L-rhamnosidase involved in ulvan degradation (Ref.2,. Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D- glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable). Alpha-L-rhamnosidase converts Rha-Xyl-Rha3S, the product of a sulfatase acting on Rha3S-Xyl-Rha3S oligosaccharides, to Rha and Xyl- Rha3S. The enzyme is able to degrade p-nitrophenyl- alpha-L-rhamnopyranoside (PNP-Rha) in vitro. Belongs to t [...]

Arylsulfatase; Sulfatase involved in ulvan degradation. Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D-glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable). The sulfatase is most active on ulvan polymers, particularly on xylose-rich ulvan. It can desulfate oligosaccharides containing the motif Rha3S- Xyl2S-Rha3S and thus likely proceeds in an endolytic mode of action, removing sulfates from xylose residues in periplasmic oligosa [...]

alpha-L-rhamnosidase (GH78); Alpha-L-rhamnosidase that may be involved in ulvan degradation (Probable). Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D- glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable); Belongs to the glycosyl hydrolase 78 family.

Arylsulfatase; Sulfatase involved in ulvan degradation. Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D-glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable).

Arylsulfatase; Sulfatase that may be involved in ulvan degradation. Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D- glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable). Has no activity on different ulvan polymers.

Sulfatase; Sulfatase involved in ulvan degradation. Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D-glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable).

Conserved hypothetical protein; Broad-specificity lyase involved in ulvan degradation. Ulvan is the main polysaccharide component of the Ulvales (green seaweed) cell wall. It is composed of disaccharide building blocks comprising 3-sulfated rhamnose (Rha3S) linked to D- glucuronic acid (GlcA), L-iduronic acid (IduA), or D-xylose (Xyl) (Probable). Ulvan lyase catalyzes the endolytic cleavage of the glycosidic bond between Rha3S and the uronic acids GlcA or IduA, producing oligosaccharides that have unsaturated 4-deoxy-L- threo-hex-4-enopyranosiduronic acid (deltaUA) at the non-reducing [...]