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Difference between revisions of "Syn/anti lateral protonation"

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# HeightmanVasella1999 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. [http://www3.interscience.wiley.com/journal/55000581/abstract Article online].
 
# HeightmanVasella1999 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. [http://www3.interscience.wiley.com/journal/55000581/abstract Article online].
 
# Nerinckx2005 pmid=15642336
 
# Nerinckx2005 pmid=15642336

Revision as of 13:07, 7 January 2010


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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 tab above the page title.

Family Clan Structure fold Anomeric specificity Mechanism Syn/anti protonator Example PDB ID Enzyme Organism Ligand General acid Nucleophile or General base Reference
GH1 A (β/α)8 beta retaining anti 2cer β-glycosidase S Sulfolobus solfataricus P2 phenethyl glucoimidazol Glu206 Glu387 [3]
GH2 A (β/α)8 beta retaining anti 2vzu exo-β-glucosaminidase Amicolatopsis orientalis PNP-β-d-glucosamine Glu469 Glu541 [4]
GH3 none (β/α)8 beta retaining anti 1iex exo-1,3-1,4-glucanase Hordeum vulgare thiocellobiose Glu491 Asp285 [5]
GH5 A (β/α)8 beta retaining anti 1h2j endo-β-1,4-glucanase Bacillus agaradhaerens 2',4'-DNP-2-F-cellobioside Glu129 Glu228 [6]
GH6 none (β/α)8 beta inverting syn 1qjw cellobiohydrolase 2 Hypocrea jecorina (Glc)2-S-(Glc)2 Asp221 debated [7]
GH7 B β-jelly roll beta retaining syn 1ovw endo-1,4-glucanase Fusarium oxysporum thio-Glc5 Glu202 Glu197 [8]
GH8 M (α/α)6 beta inverting anti 1kwf endo-1,4-glucanase Clostridium thermocellum cellopentaose Glu95 Asp278 [9]
GH9 none (α/α)6 beta inverting syn 1rq5 cellobiohydrolase Clostridium thermocellum cellotetraose Glu795 Asp383 [10]
GH10 A (β/α)8 beta retaining anti 2d24 β-1,4-xylanase Streptomyces olivaceoviridis E-86 xylopentaose Glu128 Glu236 [11]
GH11 C β-jelly roll beta retaining syn 1bvv xylanase Bacillus circulans Xyl-2-F-xylosyl Glu172 Glu78 [12]
GH12 C β-jelly roll beta retaining syn 1w2u endoglucanase Humicola grisea thiocellotetraose Glu205 Glu120 [13]
GH13 H (β/α)8 alpha retaining anti 1cxk β-cyclodextrin glucanotransferase Bacillus circulans maltononaose Glu257 Asp229 [14]
GH14 none (β/α)8 alpha inverting syn 1itc β-amylase Bacillus cereus maltopentaose Glu172 Glu367 [15]
GH15 L (α/α)6 alpha inverting syn 1gah glucoamylase Aspergillus awamori acarbose Glu179 Glu400 [16]
GH16 B β-jelly roll beta retaining syn 1urx β-agarase A Zobellia galactanivorans oligoagarose Glu152 Glu147 [17]
GH17 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH18 K (β/α)8 beta retaining anti 1ffr chitinase A Serratia marcescens (NAG)6 Glu315 internal [18]
GH20 K (β/α)8 beta retaining anti 1c7s chitobiase Serratia marcescens chitobiose Glu540 internal [19]
GH22 none lysozyme type beta retaining syn 1h6m lysozyme C Gallus gallus Chit-2-F-chitosyl Glu35 Asp52 [20]
GH23 none lysozyme type beta inverting syn 1lsp lysozyme G Cygnus atratus Bulgecin A Glu73 internal [21]
GH24 I α + β beta inverting syn 148l lysozyme E Bacteriophage T4 chitobiosyl Glu11 Glu26 [22]
GH26 A (β/α)8 beta retaining anti 1gw1 mannanase A Cellvibrio japonicus 2',4'-DNP-2-F-cellotrioside Glu212 Glu320 [23]
GH27 D (β/α)8 alpha retaining anti 1ktc α-N-acetyl galactosaminidase Gallus gallus NAGal Asp201 Asp410 [24]
GH29 none (β/α)8 alpha retaining syn 1hl9 α-l-fucosidase Thermotoga maritima 2-F-fuco- pyranosyl Glu266 Asp224 [25]
GH30 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH31 D (β/α)8 alpha retaining anti 1xsk α-xylosidase Escherechia coli 5-F-xylosyl Asp482 Asp416 [26]
GH32 J 5-fold β-propeller alpha retaining anti 2add fructan β-(2,1)-fructosidase Cichorium intybus sucrose Glu201 Asp22 [27]
GH33 E 6-fold β-propeller alpha retaining anti 1s0k trans-sialidase Trypanosoma cruzi 2-F,3-F-sialosyl Asp59 Tyr342 [28]
GH34 E 6-fold β-propeller alpha retaining anti 2bat neuraminidase Influenza A virus sialic acid Asp151 Tyr406 [29]
GH35 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH37 G (α/α)6 alpha inverting anti 2jf4 trehalase Escherechia coli validoxylamine Asp312 Glu496 [30]
GH38 none (β/α)7 alpha retaining anti 1qwn α-mannosidase II Drosophila melanogaster 5-F-β-l-gulosyl Asp341 Asp204 [31]
GH39 A (β/α)8 beta retaining anti 1uhv β-xylosidase Thermoanaerobacterium saccharolyticum 2-F-xylosyl Glu160 Glu277 [32]
GH42 A (β/α)8 beta retaining anti 1kwk β-galactosidase Thermus thermophylus A4 d-galactose Glu141 Glu312 [33]
GH44 none (β/α)8 beta retaining anti 2eqd endoglucanase Clostridium thermocellum cellooctaose Glu186 Glu359 [34]
GH45 none 6-strand. β-barrel beta inverting syn 4eng endo-1,4-glucanase Humicola insolens cellohexaose Asp121 Asp10 [35]
GH46 I α + β beta inverting predicted syn by clan see at GH24
GH47 none (α/α)7 alpha inverting anti 1x9d α-mannosidase I Homo sapiens Me-2-S-(α-Man)-2-thio-α-Man Asp463 Glu599 [36], [37]
GH48 M (α/α)6 beta inverting predicted anti by clan see at GH8
GH50 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH51 A (β/α)8 alpha retaining anti 1pz2 α-l-arabino- furanosidase Geobacillus stearothermophilus l-arabino- furanosyl Glu175 Glu294 [38]
GH53 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH54 none β-sandwich alpha retaining anti 1wd4 α-l-arabino- furanosidase B Aspergillus kawachii l-arabino- furanose Asp297 Glu221 [39]
GH56 none (β/α)7 beta retaining anti 1fcv hyaluronidase Apis mellifera (hyaluron.)4 Glu113 internal [40]
GH57 none (β/α)7 alpha retaining anti 1kly glucanotransferase Thermococcus litoralis acarbose Asp214 Glu123 [41]
GH59 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH63 G (α/α)6 alpha inverting predicted anti by clan see at GH37
GH65 L (α/α)6 alpha inverting predicted syn by clan see at GH15
GH67 none (β/α)8 alpha inverting syn 1gql α-glucuronidase Cellvibrio japonicus Ueda107 d-glucuronic acid Glu292 unknown [42]
GH68 J 5-fold β-propeller beta retaining anti 1pt2 levansucrase Bacillus subtilis sucrose Glu342 Asp86 [43]
GH70 H (β/α)8 alpha retaining predicted anti by clan see e.g. at GH13
GH72 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH74 none 7-fold β-propeller beta inverting syn 2ebs cellobiohydrolase (OXG-RCBH) Geotrichum sp. m128 xyloglucan heptasaccharide Asp465 Asp35 [44]
GH77 H (β/α)8 alpha retaining anti 1esw amylomaltase Thermus aquaticus acarbose Asp395 Asp293 [45]
GH79 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH80 I α + β beta inverting predicted syn by clan see at GH24
GH83 E 6-fold β-propeller alpha retaining predicted anti by clan see e.g. at GH33
GH85 K (β/α)8 beta retaining predicted anti by clan see e.g. at GH18
GH86 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1
GH89 none (β/α)8 alpha retaining anti 2vcb α-N-acetyl- glucosaminidase Clostridium perfringens PUGNAc Glu483 Glu601 [46]
GH92 none (α/α)6 + β-sandw. alpha inverting anti 2ww1 α-1,2-mannosidase Bacteroides thetaiota- omicron VPI-5482 thiomannobioside Glu533 Asp644 Asp642 [47]
GH93 E 6-fold β-propeller alpha retaining predicted anti by clan see e.g. at GH33
GH94 none (α/α)6 beta inverting syn 1v7x chitobiose phosphorylase Vibrio proteolyticus GlcNAc Asp492 phosphate [48]
GH95 none (α/α)6 alpha inverting anti 2ead α-1,2-l-fucosidase Bifidobacterium bifidum Fuc-α-1,2-Gal Glu566 Asn423 Asp766 [49]
GH102 none double-ψ β-barrel beta retaining syn 2pi8 lytic transglycosylase A Escherechia coli chitohexaose Asp308 none [50]
GH113 A (β/α)8 beta retaining predicted anti by clan see e.g. at GH1

References

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  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. Error fetching PMID 15642336: [Nerinckx2005]
  3. Error fetching PMID 17002288: [Gloster2006]
  4. Error fetching PMID 18976664: [van_Bueren2009]
  5. Hrmova M, Varghese JN, De Gori R, Smith BJ, Driguez H, and Fincher GB. (2001). Catalytic mechanisms and reaction intermediates along the hydrolytic pathway of a plant beta-D-glucan glucohydrolase. Structure. 2001;9(11):1005-16. DOI:10.1016/s0969-2126(01)00673-6 | PubMed ID:11709165 [Hrmova2001]
  6. Error fetching PMID 12595701: [Varrot2003]
  7. Rouvinen J, Bergfors T, Teeri T, Knowles JK, and Jones TA. (1990). Three-dimensional structure of cellobiohydrolase II from Trichoderma reesei. Science. 1990;249(4967):380-6. DOI:10.1126/science.2377893 | PubMed ID:2377893 [Zhou1999]
  8. Error fetching PMID 11884144: [Guerin2002]
  9. Error fetching PMID 14756552: [Schubot2004]
  10. Error fetching PMID 19279191: [Suzuki2009]
  11. Error fetching PMID 10220321: [Sidhu1999]
  12. Sandgren M, Berglund GI, Shaw A, Ståhlberg J, Kenne L, Desmet T, and Mitchinson C. (2004). Crystal complex structures reveal how substrate is bound in the -4 to the +2 binding sites of Humicola grisea Cel12A. J Mol Biol. 2004;342(5):1505-17. DOI:10.1016/j.jmb.2004.07.098 | PubMed ID:15364577 [Sandgren2004]
  13. Uitdehaag JC, Mosi R, Kalk KH, van der Veen BA, Dijkhuizen L, Withers SG, and Dijkstra BW. (1999). X-ray structures along the reaction pathway of cyclodextrin glycosyltransferase elucidate catalysis in the alpha-amylase family. Nat Struct Biol. 1999;6(5):432-6. DOI:10.1038/8235 | PubMed ID:10331869 [Uitdehaag1999]
  14. Error fetching PMID 12741813: [Miyake2003]
  15. Error fetching PMID 8679589: [Aleshin1996]
  16. Error fetching PMID 15062085: [Allouch2004]
  17. Error fetching PMID 11560481: [Papanikolau2001]
  18. Error fetching PMID 10884356: [Prag2000]
  19. Vocadlo DJ, Davies GJ, Laine R, and Withers SG. (2001). Catalysis by hen egg-white lysozyme proceeds via a covalent intermediate. Nature. 2001;412(6849):835-8. DOI:10.1038/35090602 | PubMed ID:11518970 [Vocadlo2001]
  20. Error fetching PMID 15299731: [Karlsen1996]
  21. Error fetching PMID 8259514: [Baldwin1993]
  22. Ducros VM, Zechel DL, Murshudov GN, Gilbert HJ, Szabó L, Stoll D, Withers SG, and Davies GJ. (2002). Substrate distortion by a beta-mannanase: snapshots of the Michaelis and covalent-intermediate complexes suggest a B(2,5) conformation for the transition state. Angew Chem Int Ed Engl. 2002;41(15):2824-7. DOI:10.1002/1521-3773(20020802)41:15<2824::AID-ANIE2824>3.0.CO;2-G | PubMed ID:12203498 [Ducros2002]
  23. Error fetching PMID 12005440: [Garman2002]
  24. Sulzenbacher G, Bignon C, Nishimura T, Tarling CA, Withers SG, Henrissat B, and Bourne Y. (2004). Crystal structure of Thermotoga maritima alpha-L-fucosidase. Insights into the catalytic mechanism and the molecular basis for fucosidosis. J Biol Chem. 2004;279(13):13119-28. DOI:10.1074/jbc.M313783200 | PubMed ID:14715651 [Sulzenbacher2004]
  25. Error fetching PMID 15501829: [Lovering2005]
  26. Error fetching PMID 17335500: [Verhaest2007]
  27. Error fetching PMID 15130470: [Amaya2004]
  28. Error fetching PMID 1438172: [Varghese1992]
  29. Gibson RP, Gloster TM, Roberts S, Warren RA, Storch de Gracia I, García A, Chiara JL, and Davies GJ. (2007). Molecular basis for trehalase inhibition revealed by the structure of trehalase in complex with potent inhibitors. Angew Chem Int Ed Engl. 2007;46(22):4115-9. DOI:10.1002/anie.200604825 | PubMed ID:17455176 [Gibson2007]
  30. Error fetching PMID 12960159: [Numao2003]
  31. Error fetching PMID 14659747: [Yang2004]
  32. Error fetching PMID 12215416: [Hidaka2002]
  33. Error fetching PMID 17905739: [Kitago2007]
  34. Error fetching PMID 15299721: [Davies1996]
  35. Karaveg K, Siriwardena A, Tempel W, Liu ZJ, Glushka J, Wang BC, and Moremen KW. (2005). Mechanism of class 1 (glycosylhydrolase family 47) {alpha}-mannosidases involved in N-glycan processing and endoplasmic reticulum quality control. J Biol Chem. 2005;280(16):16197-207. DOI:10.1074/jbc.M500119200 | PubMed ID:15713668 [Karaveg2005]
  36. Cantú D, Nerinckx W, and Reilly PJ. (2008). Theory and computation show that Asp463 is the catalytic proton donor in human endoplasmic reticulum alpha-(1-->2)-mannosidase I. Carbohydr Res. 2008;343(13):2235-42. DOI:10.1016/j.carres.2008.05.026 | PubMed ID:18619586 [Nerinckx2008]
  37. Error fetching PMID 14517232: [Hoevel2003]
  38. Error fetching PMID 15292273: [Miyanaga2004]
  39. Error fetching PMID 11080624: [Markovic-Housley2000]
  40. Imamura H, Fushinobu S, Yamamoto M, Kumasaka T, Jeon BS, Wakagi T, and Matsuzawa H. (2003). Crystal structures of 4-alpha-glucanotransferase from Thermococcus litoralis and its complex with an inhibitor. J Biol Chem. 2003;278(21):19378-86. DOI:10.1074/jbc.M213134200 | PubMed ID:12618437 [Imamura2003]
  41. Error fetching PMID 11937059: [Nurizzo2002]
  42. Error fetching PMID 14517548: [Meng2003]
  43. Error fetching PMID 17498741: [Yaoi2007]
  44. Przylas I, Terada Y, Fujii K, Takaha T, Saenger W, and Sträter N. (2000). X-ray structure of acarbose bound to amylomaltase from Thermus aquaticus. Implications for the synthesis of large cyclic glucans. Eur J Biochem. 2000;267(23):6903-13. DOI:10.1046/j.1432-1033.2000.01790.x | PubMed ID:11082203 [Przylas2000]
  45. Error fetching PMID 18443291: [Ficko-Blean2008]

  46. Zhu et al. (2010) Nature Chemical Biology in the press; DOI: 10.1038/nchembio.278 direct link.

    [Zhu2009]
  47. Error fetching PMID 15274915: [Hidaka2004]
  48. Nagae M, Tsuchiya A, Katayama T, Yamamoto K, Wakatsuki S, and Kato R. (2007). Structural basis of the catalytic reaction mechanism of novel 1,2-alpha-L-fucosidase from Bifidobacterium bifidum. J Biol Chem. 2007;282(25):18497-18509. DOI:10.1074/jbc.M702246200 | PubMed ID:17459873 [Nagae2007]
  49. Error fetching PMID 17502382: [van_Straaten2007]
  50. Sulzenbacher G, Mackenzie LF, Wilson KS, Withers SG, Dupont C, and Davies GJ. (1999). The crystal structure of a 2-fluorocellotriosyl complex of the Streptomyces lividans endoglucanase CelB2 at 1.2 A resolution. Biochemistry. 1999;38(15):4826-33. DOI:10.1021/bi982648i | PubMed ID:10200171 [Sulzenbacher1999]

All Medline abstracts: PubMed

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