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Difference between revisions of "Syn/anti lateral protonation"

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Line 23: Line 23:
 
! '''Anomeric specificity'''
 
! '''Anomeric specificity'''
 
! '''Mechanism'''
 
! '''Mechanism'''
 +
! '''''syn/anti'''''
 
! '''Example PDB ID'''
 
! '''Example PDB ID'''
 +
! '''Enzyme'''
 +
! '''Organism'''
 +
! '''Ligand'''
 
! '''General acid'''
 
! '''General acid'''
! '''''syn/anti'''''
 
 
! '''Nucleophile or General base'''
 
! '''Nucleophile or General base'''
! '''Ligand'''
 
! '''Organism'''
 
! '''Enzyme'''
 
 
! '''Primary reference'''
 
! '''Primary reference'''
 
|-
 
|-
Line 37: Line 37:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''anti''
 
| 4pbg
 
| 4pbg
 +
| 6-phospho-beta-galactosidase
 +
| ''Lactococcus lactis''
 +
| product
 
| Glu160
 
| Glu160
| ''anti''
 
 
| Glu375
 
| Glu375
| product
 
| ''Lactococcus lactis''
 
| 6-phospho-beta-galactosidase
 
 
| <cite>Wiesmann1997</cite>
 
| <cite>Wiesmann1997</cite>
 
|-
 
|-
Line 51: Line 51:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''anti''
 
| 1jz0
 
| 1jz0
 +
| beta-galactosidase
 +
| ''Escherechia coli''
 +
| 2-F-galactosyl
 
| Glu461
 
| Glu461
| ''anti''
 
 
| Glu537
 
| Glu537
| 2-F-galactosyl
 
| ''Escherechia coli''
 
| beta-galactosidase
 
 
| <cite>Juers2001</cite>
 
| <cite>Juers2001</cite>
 
|-
 
|-
Line 65: Line 65:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''anti''
 
| 1iew
 
| 1iew
 +
| exo-1,3-1,4-glucanase
 +
| ''Hordeum vulgare''
 +
| 2-F-glucosyl
 
| Glu491
 
| Glu491
| ''anti''
 
 
| Asp285
 
| Asp285
| 2-F-glucosyl
 
| ''Hordeum vulgare''
 
| exo-1,3-1,4-glucanase
 
 
| <cite>Hrmova2001</cite>
 
| <cite>Hrmova2001</cite>
 
|-
 
|-
Line 79: Line 79:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''anti''
 
| 1h2j
 
| 1h2j
 +
| endo-1,4-glucanase
 +
| ''Bacillus agaradhaerans''
 +
| 2-F-glucosyl
 
| Glu129
 
| Glu129
| ''anti''
 
 
| Glu228
 
| Glu228
| 2-F-glucosyl
 
| ''Bacillus agaradhaerans''
 
| endo-1,4-glucanase
 
 
| <cite>Varrot_A2003</cite>
 
| <cite>Varrot_A2003</cite>
 
|-
 
|-
Line 93: Line 93:
 
| beta
 
| beta
 
| inverting
 
| inverting
 +
| ''syn''
 
| 1ocn
 
| 1ocn
 +
| cellobiohydrolase
 +
| ''Humicola insolens''
 +
| Glc-isofagomine
 
| Asp226
 
| Asp226
| ''syn''
 
 
| debated
 
| debated
| Glc-isofagomine
 
| ''Humicola insolens''
 
| cellobiohydrolase
 
 
| <cite>Varrot_B2003</cite>
 
| <cite>Varrot_B2003</cite>
 
|-
 
|-
Line 107: Line 107:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''syn''
 
| 1ovw
 
| 1ovw
 +
| endo-1,4-glucanase
 +
 +
| ''Fusarium oxysporum''
 +
| thio-Glc<sub>5</sub>
 
| Glu202
 
| Glu202
| ''syn''
 
 
| Glu197
 
| Glu197
| thio-Glc<sub>5</sub>
 
| ''Fusarium oxysporum''
 
| endo-1,4-glucanase
 
 
| <cite>Sulzenbacher1996</cite>
 
| <cite>Sulzenbacher1996</cite>
 
|-
 
|-
Line 121: Line 122:
 
| beta
 
| beta
 
| inverting
 
| inverting
 +
| ''anti''
 
| 1kwf
 
| 1kwf
 +
| endo-1,4-glucanase
 +
| ''Clostridium thermocellum''
 +
| Michaelis
 
| Glu95
 
| Glu95
| ''anti''
 
 
| Asp278
 
| Asp278
| Michaelis
 
| ''Clostridium thermocellum''
 
| endo-1,4-glucanase
 
 
| <cite>Guerin2002</cite>
 
| <cite>Guerin2002</cite>
 
|-
 
|-
Line 135: Line 136:
 
| beta
 
| beta
 
| inverting
 
| inverting
 +
| ''syn''
 
| 3tf4,4tf4
 
| 3tf4,4tf4
 +
| cellulase
 +
| ''Thermomonospora fusca''
 +
| product
 
| Glu424
 
| Glu424
| ''syn''
 
 
| Asp55,Asp58
 
| Asp55,Asp58
| product
 
| ''Thermomonospora fusca''
 
| cellulase
 
 
| <cite>Irwin1998</cite>
 
| <cite>Irwin1998</cite>
 
|-
 
|-
Line 149: Line 150:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''anti''
 
| 2xyl
 
| 2xyl
 +
| xylanase B (Cex)
 +
| ''Cellulomonas fimi''
 +
| Xyl-2-F-xylosyl
 
| Glu127
 
| Glu127
| ''anti''
 
 
| Glu233
 
| Glu233
| Xyl-2-F-xylosyl
 
| ''Cellulomonas fimi''
 
| xylanase B (Cex)
 
 
| <cite>Notenboom1998</cite>
 
| <cite>Notenboom1998</cite>
 
|-
 
|-
Line 163: Line 164:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''syn''
 
| 1bvv
 
| 1bvv
 +
| xylanase
 +
| ''Bacillus circulans''
 +
| Xyl-2-F-xylosyl
 
| Glu172
 
| Glu172
| ''syn''
 
 
| Glu78
 
| Glu78
| Xyl-2-F-xylosyl
 
| ''Bacillus circulans''
 
| xylanase
 
 
| <cite>Sidhu1999</cite>
 
| <cite>Sidhu1999</cite>
 
|-
 
|-
Line 177: Line 178:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''syn''
 
| 2nlr
 
| 2nlr
 +
| endo-1,4-glucanase
 +
| ''Streptomyces lividans''
 +
| Glc<sub>2</sub>-2-F-glucosyl
 
| Glu203
 
| Glu203
| ''syn''
 
 
| Glu120
 
| Glu120
| Glc<sub>2</sub>-2-F-glucosyl
 
| ''Streptomyces lividans''
 
| endo-1,4-glucanase
 
 
| <cite>Sulzenbacher1999</cite>
 
| <cite>Sulzenbacher1999</cite>
 
|-
 
|-
Line 191: Line 192:
 
| alpha
 
| alpha
 
| retaining
 
| retaining
 +
| ''anti''
 
| 1ckx
 
| 1ckx
 +
| beta-cyclodextrin glucanotransferase
 +
| ''Bacillus circulans''
 +
| Michaelis
 
| Glu257
 
| Glu257
| ''anti''
 
 
| Asp229
 
| Asp229
| Michaelis
 
| ''Bacillus circulans''
 
| beta-cyclodextrin glucanotransferase
 
 
| <cite>Uitdehaag1999</cite>
 
| <cite>Uitdehaag1999</cite>
 
|-
 
|-
Line 205: Line 206:
 
| alpha
 
| alpha
 
| inverting
 
| inverting
 +
| ''syn''
 
| 1b9z
 
| 1b9z
 +
| beta-amylase
 +
| ''Bacillus cereus''
 +
| product
 
| Glu172
 
| Glu172
| ''syn''
 
 
| Glu367
 
| Glu367
| product
 
| ''Bacillus cereus''
 
| beta-amylase
 
 
| <cite>Mikami1999</cite>
 
| <cite>Mikami1999</cite>
 
|-
 
|-
Line 219: Line 220:
 
| alpha
 
| alpha
 
| inverting
 
| inverting
 +
| ''syn''
 
| 1gah
 
| 1gah
 +
| glucoamylase
 +
| ''Aspergillus awamori''
 +
| acarbose
 
| Glu179
 
| Glu179
| ''syn''
 
 
| Glu400
 
| Glu400
| acarbose
 
| ''Aspergillus awamori''
 
| glucoamylase
 
 
| <cite>Aleshin1996</cite>
 
| <cite>Aleshin1996</cite>
 
|-
 
|-
Line 233: Line 234:
 
| beta
 
| beta
 
| retaining
 
| retaining
 +
| ''syn''
 
| 1urx
 
| 1urx
 +
| beta-agarase A
 +
| ''Zobellia galactanivorans''
 +
| product
 
| Glu152
 
| Glu152
| ''syn''
 
 
| Glu147
 
| Glu147
| product
 
| ''Zobellia galactanivorans''
 
| beta-agarase A
 
 
| <cite>Allouch2004</cite>
 
| <cite>Allouch2004</cite>
 
|}
 
|}

Revision as of 12:48, 14 November 2009


Under construction icon-blue-48px.png

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 Example PDB ID Enzyme Organism Ligand General acid Nucleophile or General base Primary reference
GH1 A (β/α)8 beta retaining anti 4pbg 6-phospho-beta-galactosidase Lactococcus lactis product Glu160 Glu375 [3]
GH2 A (β/α)8 beta retaining anti 1jz0 beta-galactosidase Escherechia coli 2-F-galactosyl Glu461 Glu537 [4]
GH3 none (β/α)8 beta retaining anti 1iew exo-1,3-1,4-glucanase Hordeum vulgare 2-F-glucosyl Glu491 Asp285 [5]
GH5 A (β/α)8 beta retaining anti 1h2j endo-1,4-glucanase Bacillus agaradhaerans 2-F-glucosyl Glu129 Glu228 [6]
GH6 none (β/α)8 beta inverting syn 1ocn cellobiohydrolase Humicola insolens Glc-isofagomine Asp226 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 Michaelis Glu95 Asp278 [9]
GH9 none (α/α)6 beta inverting syn 3tf4,4tf4 cellulase Thermomonospora fusca product Glu424 Asp55,Asp58 [10]
GH10 A (β/α)8 beta retaining anti 2xyl xylanase B (Cex) Cellulomonas fimi Xyl-2-F-xylosyl Glu127 Glu233 [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 2nlr endo-1,4-glucanase Streptomyces lividans Glc2-2-F-glucosyl Glu203 Glu120 [13]
GH13 H (β/α)8 alpha retaining anti 1ckx beta-cyclodextrin glucanotransferase Bacillus circulans Michaelis Glu257 Asp229 [14]
GH14 none (β/α)8 alpha inverting syn 1b9z beta-amylase Bacillus cereus product 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 beta-agarase A Zobellia galactanivorans product Glu152 Glu147 [17]

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. 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. Varrot A and Davies GJ. (2003). Direct experimental observation of the hydrogen-bonding network of a glycosidase along its reaction coordinate revealed by atomic resolution analyses of endoglucanase Cel5A. Acta Crystallogr D Biol Crystallogr. 2003;59(Pt 3):447-52. DOI:10.1107/s0907444902023405 | PubMed ID:12595701 [Varrot_A2003]
  7. Varrot A, Macdonald J, Stick RV, Pell G, Gilbert HJ, and Davies GJ. (2003). Distortion of a cellobio-derived isofagomine highlights the potential conformational itinerary of inverting beta-glucosidases. Chem Commun (Camb). 2003(8):946-7. DOI:10.1039/b301592k | PubMed ID:12744312 [Varrot_B2003]
  8. Sulzenbacher G, Driguez H, Henrissat B, Schülein M, and Davies GJ. (1996). Structure of the Fusarium oxysporum endoglucanase I with a nonhydrolyzable substrate analogue: substrate distortion gives rise to the preferred axial orientation for the leaving group. Biochemistry. 1996;35(48):15280-7. DOI:10.1021/bi961946h | PubMed ID:8952478 [Sulzenbacher1996]
  9. Guérin DM, Lascombe MB, Costabel M, Souchon H, Lamzin V, Béguin P, and Alzari PM. (2002). Atomic (0.94 A) resolution structure of an inverting glycosidase in complex with substrate. J Mol Biol. 2002;316(5):1061-9. DOI:10.1006/jmbi.2001.5404 | PubMed ID:11884144 [Guerin2002]
  10. 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]
  11. Notenboom V, Birsan C, Warren RA, Withers SG, and Rose DR. (1998). Exploring the cellulose/xylan specificity of the beta-1,4-glycanase cex from Cellulomonas fimi through crystallography and mutation. Biochemistry. 1998;37(14):4751-8. DOI:10.1021/bi9729211 | PubMed ID:9537990 [Notenboom1998]
  12. Sidhu G, Withers SG, Nguyen NT, McIntosh LP, Ziser L, and Brayer GD. (1999). Sugar ring distortion in the glycosyl-enzyme intermediate of a family G/11 xylanase. Biochemistry. 1999;38(17):5346-54. DOI:10.1021/bi982946f | PubMed ID:10220321 [Sidhu1999]
  13. 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]
  14. 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]
  15. Mikami B, Adachi M, Kage T, Sarikaya E, Nanmori T, Shinke R, and Utsumi S. (1999). Structure of raw starch-digesting Bacillus cereus beta-amylase complexed with maltose. Biochemistry. 1999;38(22):7050-61. DOI:10.1021/bi9829377 | PubMed ID:10353816 [Mikami1999]
  16. Aleshin AE, Stoffer B, Firsov LM, Svensson B, and Honzatko RB. (1996). Crystallographic complexes of glucoamylase with maltooligosaccharide analogs: relationship of stereochemical distortions at the nonreducing end to the catalytic mechanism. Biochemistry. 1996;35(25):8319-28. DOI:10.1021/bi960321g | PubMed ID:8679589 [Aleshin1996]
  17. Allouch J, Helbert W, Henrissat B, and Czjzek M. (2004). Parallel substrate binding sites in a beta-agarase suggest a novel mode of action on double-helical agarose. Structure. 2004;12(4):623-32. DOI:10.1016/j.str.2004.02.020 | PubMed ID:15062085 [Allouch2004]

All Medline abstracts: PubMed

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