Difference between revisions of "Polysaccharide Lyase Family 9"

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Polysaccharide Lyase Family PL9
3D Structure	β-helix
Mechanism	β-elimination
Charge neutraliser	calcium
Active site residues	known
CAZy DB link
https://www.cazy.org/PL9.html

Substrate specificities

Polysaccharide lyases of family 9 (CAZy) are active on pectins, a major plant cell wall polysaccharide. The main activity in characterized PL9 is pectate lyase. These enzymes cleave non-methylated α-(1-4)-linked D-galacturonic acid (homogalacturonan) by a β-elimination mechanism (EC 4.2.2.2) [1]. Two PL9 endo-acting lyases have been shown to be active on rhamnogalacturonan-I (EC 4.2.2.23) [2]. Additional activities include: exopolygalacturonic lyase (EC 4.2.2.9) and thiopeptidoglycan lyase (EC 4.2.2.-) [3, 4].

Kinetics and Mechanism

PL9 acts by an anti-β-elimination mechanism generating a 4,5-unsaturated galacturonic acid product and a new reducing end. The elimination of C5 proton is base-catalyzed by lysine 237 [1]. Similar to the PL1 family, a calcium ion interacts with the substrate carboxylate at +1 subsite promoting the C5 proton acidification. [1, 5]. The characterization of the Bacteroides thetaiotaomicron rhamnogalacturonan lyase (BT4170) revealed an additional calcium ion also interacting with the substrate and playing a role in catalysis (Figure 1) [2].

Catalytic Residues

Figure 1. BT4170 (PDB ID 5OLR) and Pel9A (PDB ID 1RU4) active site. Superimposed active residues of BT4170 (cyan) and Pel9A (green). The calcium ions are represented as spheres (gray). The first calcium is found in both structures. However, Ca²⁺_2 is only present in BT4170 struture.

In Pel9A the lysine 237 (K237) is the Brønstead base (responsible for the abstraction of the C5 proton from galacturonic acid at +1 subsite). The calcium coordination pocket is comprised of four aspartates (D209, D233, D234 and D237) [1]. These residues are essential in catalysis and invariant in PL9 family (Figure 1) [2]. In BT4170 rhamnogalacturonan lyase, the residues G212, D246 and D280 comprise a second calcium binding site that is not conserved in pectate lyases (Figure 1) [2].

Three-dimensional structures

Figure 2. Pel9A in complex with Ca²⁺ (PDB ID 1RU4) A. Schematic representation of Pel9A parallel β-helix fold colour ramped from blue (N-terminal) to red (C-terminal). The active site is represented as sticks and highlighted inside the black box. The calcium is represented as sphere (gray) B. Blow up of the active site. The residues interacting with calcium and the proposed catalytic base (K237) are represented as stick in green and yellow, respectively.

PL9 structure of Erwinia chrysanthemi (Pel9A) was solved at a resolution of 1.6 Å (PDB ID 1RU4) and displays a right-handed parallel β-helix fold (Figure 2A). The superhelical structure presents 10 complete coils and 3 β -sheets (PB1, PB2, PB3). A short α-helix at N-terminus caps the hydrophobic core of the parallel β -helix. The catalytic base K237 and calcium binding site are orientated in the structure cleft (Figure 2B) [1]. The structure of the rhamnogalacturonan lyase (BT4170) in complex with the enzyme product showed that apart from the catalytic apparatus, there is little conservation of substrate binding residues between this enzyme and the pectate lyase Pel9A [2].

Family Firsts

First description of catalytic activity: PelX from Erwinia chrysanthemi [3].
First catalytic base identification: Pel9A from Erwinia chrysanthemi [1].
First catalytic divalent cation identification: Pel9A from Erwinia chrysanthemi [1].
First 3-D structure: Pel9A from Erwinia chrysanthemi [1].

References

All Medline abstracts: PubMed

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 == Substrate specificities ==
-Polysaccharide lyases of family 9 ([http://www.cazy.org/PL9.html CAZy]) are active on pectins, a major plant cell wall polysaccharide. The main activity in characterized PL9 is pectate lyases. These enzymes cleave non-methylated α-(1-4)-linked D-galacturonic acid (homogalacturonan)by a β-elimination mechanism ([{{EClink}}4.2.2.2 EC 4.2.2.2]) <cite>Jenkins2004</cite>. Two characterized PL9 rhamnogalacturonan endolyase  are active on rhamnogalacturonan-I ([{{EClink}}4.2.2.23 EC 4.2.2.23]) <cite>Luis2018</cite>. Additional activities include: exopolygalacturonic lyase ([{{EClink}}4.2.2.9 EC 4.2.2.9]) and thiopeptidoglycan lyase ([{{EClink}}4.2.2.- EC 4.2.2.-])  <cite>Brooks1990 Kondo2011</cite>.
+Polysaccharide lyases of family 9 ([http://www.cazy.org/PL9.html CAZy]) are active on pectins, a major plant cell wall polysaccharide. The main activity in characterized PL9 is pectate lyase. These enzymes cleave non-methylated α-(1-4)-linked D-galacturonic acid (homogalacturonan) by a β-elimination mechanism ([{{EClink}}4.2.2.2 EC 4.2.2.2]) <cite>Jenkins2004</cite>. Two PL9 endo-acting lyases have been shown to be active on rhamnogalacturonan-I ([{{EClink}}4.2.2.23 EC 4.2.2.23]) <cite>Luis2018</cite>. Additional activities include: exopolygalacturonic lyase ([{{EClink}}4.2.2.9 EC 4.2.2.9]) and thiopeptidoglycan lyase ([{{EClink}}4.2.2.- EC 4.2.2.-])  <cite>Brooks1990 Kondo2011</cite>.
 == Kinetics and Mechanism ==
@@ Line 36: / Line 36: @@
 == Catalytic Residues ==
-[[File:Active site PL9.png|thumb|300px|right|'''Figure 1.''' '''BT4170 ([{{PDBlink}}5OLR PDB ID 5OLR]) and Pel9A ([{{PDBlink}}1RU4 PDB ID 1RU4]) active site'''.  Superimposed active residues of BT4170  (cyan) and Pel9A (green). The calcium ions are represented as spheres (gray). The first calcium is found in both structures. However, Ca<sup>2+</sup>_2 is only present in BT4170 struture.]]
+[[File:Active site PL9 1.png|thumb|300px|right|'''Figure 1.''' '''BT4170 ([{{PDBlink}}5OLR PDB ID 5OLR]) and Pel9A ([{{PDBlink}}1RU4 PDB ID 1RU4]) active site'''.  Superimposed active residues of BT4170  (cyan) and Pel9A (green). The calcium ions are represented as spheres (gray). The first calcium is found in both structures. However, Ca<sup>2+</sup>_2 is only present in BT4170 struture.]]
 In Pel9A the lysine 237 (K237) is the Brønstead base (responsible for the abstraction of the C5 proton from galacturonic acid at +1 subsite). The calcium coordination pocket is comprised of four aspartates (D209, D233, D234 and D237) <cite>Jenkins2004</cite>. These residues are essential in catalysis and invariant in PL9 family (Figure 1) <cite>Luis2018</cite>. In BT4170 rhamnogalacturonan lyase, the residues G212, D246 and D280 comprise a second calcium binding site that is not conserved in pectate lyases (Figure 1) <cite>Luis2018</cite>.
 == Three-dimensional structures ==