[[Image:...|thumb|400px|'''Figure 1. Multiple protein alignment of Aly PL7 ''' as well as a secondary structure prediction of the crystallized PL7 from ''Klabsiella pneumoniae'' (PDB code: 4OXZ, <cite>Howell2014</cite>). Conserved residues in the homologues are colored in red and (putative) catalytic residues are indicated by a star.]]
Arg, Gln, His, Tyr form active site <cite>Yamasaki2005</cite>
Arg (R), Gln (Q), His (H), Tyr (Y) form active site <cite>Yamasaki2005</cite>
In contrast to terrestrial PL7, marine PLs need the divalent cation calcium to recognize and bind alginate <cite>Thomas2013</cite>.
== Substrate specificities ==
== Substrate specificities ==
The polysaccharide lyase family 7 (PL7) contains five subfamilies (SF) based on their sequence similiarities <cite>Lombard2010</cite> plus a so far uncharacterized sixth subfamily, which sonstist only of marine representatives of the Flavobacteriaceae <cite>Thomas2013</cite>. All characterized PL7 enzymes were alginate lyases specific for the anionic, gel forming polysaccharide alginate. The substrate specificity depends on the source of alginate, i.e. derived from brown seaweed or mucoid bacteria ''Pseudomonas ''spp. and ''Azotobacter vinelandii'', as well as geographical and saisonal parameters. Alginate is an heteropolysaccharide, consisting of β-D-mannuronate (M) and α-L-guluronate (G). These monosaccharides can occur in homogenous and heterogenous blocks. Hence, PL7 lyases can be mannuronate (EC 4.2.2.3), guluronate (EC 4.2.2.11) or mixed link (EC 4.2.2.-) specific. Despite the pefernce for M- or G-enriched blocks, most PL7s also have a moderate to low processivity for the other building block.
The polysaccharide lyase family 7 (PL7) contains five subfamilies (SF) based on their sequence similiarities <cite>Lombard2010</cite>, plus a so far uncharacterized sixth subfamily, which sonstist only of marine representatives of the Flavobacteriaceae <cite>Thomas2013</cite>. All characterized PL7 enzymes were alginate lyases specific for the anionic, gel forming polysaccharide alginate. The substrate specificity depends on the source of alginate, i.e. derived from brown seaweed or mucoid bacteria ''Pseudomonas ''spp. and ''Azotobacter vinelandii'', as well as geographical and saisonal parameters. Alginate is an heteropolysaccharide, consisting of β-D-mannuronate (M) and α-L-guluronate (G). These monosaccharides can occur in homogenous and heterogenous blocks. Hence, PL7 lyases can be mannuronate (EC 4.2.2.3), guluronate (EC 4.2.2.11) or mixed link (EC 4.2.2.-) specific. Despite the pefernce for M- or G-enriched blocks, most PL7s also have a moderate to low processivity for the other building block <cite>Thomas2013</cite>, .
SF3 & SF5 G-specific <cite>Thomas2013</cite>
SF3 & SF5 G-specific <cite>Thomas2013</cite>
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== Three-dimensional structures ==
== Three-dimensional structures ==
[[Image:EndovsexoPL7_Thomas_et_al_2013.jpg|thumb|400px|'''Figure 2. 3D Structure of endo- and exo-active PL7s''' <cite>Thomas2013</cite>. (A,C) AlyA1 and (B, D) AlyA5 from ''Zobellia galaactinovorans'' DsijT shown as cartoon (A,C) and surface structure (B,D) with superimposed tetrasaccharide from PDB:2ZAA <cite>Ogura2007</cite>]]
[[Image:EndovsexoPL7_Thomas_et_al_2013.jpg|thumb|400px|'''Figure 2. 3D Structure of endo- and exo-active PL7s''' <cite>Thomas2013</cite>. (A,C) AlyA1 and (B, D) AlyA5 from ''Zobellia galaactinovorans'' DsijT shown as cartoon (A,C) and surface structure (B,D) with superimposed tetrasaccharide from PDB:2ZAA <cite>Ogura2007</cite>]]
PL 7 is a very well biochemical characterized family with almost 40 entries in the CAZy data base <cite>Lombard2014</cite>. Structural insights on the other hand are still restricted with nine 3D structures from only eight bacterial strains (status at [http://www.cazy.org/PL7.html CAZy] in August 2019). The first structure of a PL7 was determined from ''Pseudomonas aeruginosa'' by multiple isomorphous replacement (MIR) at 2.0 Å resolution <cite>Yamasaki2004</cite>. Just like PL14, PL7 belongs to the jelly roll family with a wide open cleft harboring the active site. Til date, there is only one known exoactive PL7 structure. ''Zobellia galaactinovorans'' DsijT is harboring, among others, two PL7 with two completely different activity modifs. AlyA1 belongs to SF3 and is an endo-active PL7, which active site . AlyA5 belongs to SF5 and is exo-active.
PL 7 is a very well biochemical characterized family with almost 40 entries in the CAZy data base <cite>Lombard2014</cite>. Structural insights on the other hand are still restricted with nine 3D structures from only eight bacterial strains (status at [http://www.cazy.org/PL7.html CAZy] in August 2019). The first structure of a PL7 was determined from ''Pseudomonas aeruginosa'' by multiple isomorphous replacement (MIR) at 2.0 Å resolution <cite>Yamasaki2004</cite>. Just like PL14, PL7 belongs to the jelly roll family with a wide open cleft harboring the active site. Til date, there is only one known exoactive PL7 structure. ''Zobellia galaactinovorans'' DsijT is harboring, among others, two PL7 with two completely different activity modifs. AlyA1 belongs to SF3 and is an endo-active PL7, which active site . AlyA5 belongs to SF5 and is exo-active, which active site is close by three additional loops forming a small pocket.
<cite>Thomas2013</cite>
<cite>Thomas2013</cite>
== Evolution of Aly PULs ==
== Evolution of Aly PULs ==
lyases play different roles and have complementary activities <cite>Thomas2013</cite>
<cite>Hehemann2010</cite>
<cite>Hehemann2010</cite>
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#Yamasaki2004 pmid=15136569
#Yamasaki2004 pmid=15136569
#Ogura2007 [http://dx.doi.org/10.2210/pdb2ZAA/pdb Crystal Structure of Family 7 Alginate Lyase A1-II' H191N/Y284F in Complex with Substrate (GGMG)]
#Ogura2007 [http://dx.doi.org/10.2210/pdb2ZAA/pdb Crystal Structure of Family 7 Alginate Lyase A1-II' H191N/Y284F in Complex with Substrate (GGMG)]
#Howell2014 [http://dx.doi.org/10.2210/pdb4OZX/pdb Crystal Structure of the alginate lyase from Klebsiella pneumoniae]
#Badur2015 pmid=25556193
#Yamasaki2005 pmid=16081095
#Yamasaki2005 pmid=16081095
#Deng2014 pmid=24050202
#Deng2014 pmid=24050202
</biblio>
</biblio>
[[Category:Polysaccharide Lyase Families|PL007]]
[[Category:Polysaccharide Lyase Families|PL007]]
Revision as of 07:36, 1 August 2019
This page is currently under construction. This means that the Responsible Curator has deemed that the page's content is not quite up to CAZypedia's standards for full public consumption. All information should be considered to be under revision and may be subject to major changes.
Authors: ^^^Nadine Gerlach^^^ and ^^^Jan-Hendrik Hehemann^^^
Alginate lyases (Alys) of all families, PL5-7, PL14, PL15, PL17-18, cleave the glycosidic bond via β-elimination. Most PL7s are endo-active, i.e. acting within a poly- or oligosaccharide and releasing smaller alginate fragments.
File:...Figure 1. Multiple protein alignment of Aly PL7 as well as a secondary structure prediction of the crystallized PL7 from Klabsiella pneumoniae (PDB code: 4OXZ, [2]). Conserved residues in the homologues are colored in red and (putative) catalytic residues are indicated by a star.
Arg (R), Gln (Q), His (H), Tyr (Y) form active site [3]
His removes negative charge of the substrate
additional negatively charged residues [1]
In contrast to terrestrial PL7, marine PLs need the divalent cation calcium to recognize and bind alginate [1].
Substrate specificities
The polysaccharide lyase family 7 (PL7) contains five subfamilies (SF) based on their sequence similiarities [4], plus a so far uncharacterized sixth subfamily, which sonstist only of marine representatives of the Flavobacteriaceae [1]. All characterized PL7 enzymes were alginate lyases specific for the anionic, gel forming polysaccharide alginate. The substrate specificity depends on the source of alginate, i.e. derived from brown seaweed or mucoid bacteria Pseudomonas spp. and Azotobacter vinelandii, as well as geographical and saisonal parameters. Alginate is an heteropolysaccharide, consisting of β-D-mannuronate (M) and α-L-guluronate (G). These monosaccharides can occur in homogenous and heterogenous blocks. Hence, PL7 lyases can be mannuronate (EC 4.2.2.3), guluronate (EC 4.2.2.11) or mixed link (EC 4.2.2.-) specific. Despite the pefernce for M- or G-enriched blocks, most PL7s also have a moderate to low processivity for the other building block [1], .
Substitution of hydrophobic amino acids in the isoleucine site of domain QIH could have an enormous influence on the high-affinity to pM or pG. This isoleucine was reconfirmed to be indispensable for recognition of the pG or G-G bond [5]
Three-dimensional structures
Figure 2. 3D Structure of endo- and exo-active PL7s [1]. (A,C) AlyA1 and (B, D) AlyA5 from Zobellia galaactinovorans DsijT shown as cartoon (A,C) and surface structure (B,D) with superimposed tetrasaccharide from PDB:2ZAA [6]
PL 7 is a very well biochemical characterized family with almost 40 entries in the CAZy data base [7]. Structural insights on the other hand are still restricted with nine 3D structures from only eight bacterial strains (status at CAZy in August 2019). The first structure of a PL7 was determined from Pseudomonas aeruginosa by multiple isomorphous replacement (MIR) at 2.0 Å resolution [8]. Just like PL14, PL7 belongs to the jelly roll family with a wide open cleft harboring the active site. Til date, there is only one known exoactive PL7 structure. Zobellia galaactinovorans DsijT is harboring, among others, two PL7 with two completely different activity modifs. AlyA1 belongs to SF3 and is an endo-active PL7, which active site . AlyA5 belongs to SF5 and is exo-active, which active site is close by three additional loops forming a small pocket.
