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Difference between revisions of "Syn/anti lateral protonation"

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| 4pbg
 
| 4pbg
 
| <cite>Wiesmann1997</cite>
 
| <cite>Wiesmann1997</cite>
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|-
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| [[GH2]]
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| A
 +
| beta
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| retaining
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| Glu461
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| ''anti''
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| Glu537
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| GalF-glycenz.
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| ''Escherechia coli''
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| beta-galactosidase
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| 1jz0
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| <cite>Juers2001</cite>
 
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| [[GH9]]
 
| [[GH9]]
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#Wiesmann1997 pmid=9223646
 
#Wiesmann1997 pmid=9223646
 
#Irwin1998 pmid=9537366
 
#Irwin1998 pmid=9537366
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#Juers2001 pmid=11732897
 
</biblio>
 
</biblio>
  
  
 
[[Category:Definitions and explanations]]
 
[[Category:Definitions and explanations]]

Revision as of 03:29, 10 November 2009

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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.


Overview

This page will provide a table (and eventually a full lexicon article) on the spatial positioning of the catalytic general acid residue in the active sites of glycoside hydrolases. The table below updates those found in the seminal paper on this concept by Heightman and Vasella [1], and the more recent summary by Nerinckx et al. [2].

Table

This table can be re-sorted by clicking on the icons in the header (javascript must be turned on in your browser). To reset the page to be sorted by GH family, click the page above the page title.

Family Clan Anomeric specificity Mechanism General acid syn/anti Nucleophile or General base Ligand Organism Enzyme PDB ID Primary reference
GH1 A beta retaining Glu160 anti Glu375 product Lactococcus lactis 6-phosopho-beta-galactosidase 4pbg [3]
GH2 A beta retaining Glu461 anti Glu537 GalF-glycenz. Escherechia coli beta-galactosidase 1jz0 [4]
GH9 beta inverting Glu424 anti Asp55,Asp58 product Thermomonospora fusca cellulase 3tf4,4tf4 [5]

References

  1. Heightman, T.D. and Vasella, A.T. (1999) Recent Insights into Inhibition, Structure, and Mechanism of Configuration-Retaining Glycosidases. Angewandte Chemie-International Edition 38(6), 750-770. Article online.

    [HeightmanVasella1999]
  2. Nerinckx W, Desmet T, Piens K, and Claeyssens M. (2005). An elaboration on the syn-anti proton donor concept of glycoside hydrolases: electrostatic stabilisation of the transition state as a general strategy. FEBS Lett. 2005;579(2):302-12. DOI:10.1016/j.febslet.2004.12.021 | PubMed ID:15642336 [Nerinckx2005]
  3. Wiesmann C, Hengstenberg W, and Schulz GE. (1997). Crystal structures and mechanism of 6-phospho-beta-galactosidase from Lactococcus lactis. J Mol Biol. 1997;269(5):851-60. DOI:10.1006/jmbi.1997.1084 | PubMed ID:9223646 [Wiesmann1997]
  4. Juers DH, Heightman TD, Vasella A, McCarter JD, Mackenzie L, Withers SG, and Matthews BW. (2001). A structural view of the action of Escherichia coli (lacZ) beta-galactosidase. Biochemistry. 2001;40(49):14781-94. DOI:10.1021/bi011727i | PubMed ID:11732897 [Juers2001]
  5. Irwin D, Shin DH, Zhang S, Barr BK, Sakon J, Karplus PA, and Wilson DB. (1998). Roles of the catalytic domain and two cellulose binding domains of Thermomonospora fusca E4 in cellulose hydrolysis. J Bacteriol. 1998;180(7):1709-14. DOI:10.1128/JB.180.7.1709-1714.1998 | PubMed ID:9537366 [Irwin1998]

All Medline abstracts: PubMed