Higher Metal−Ligand Coordination in the Catalytic Site of Cobalt-Substituted Thermoanaerobacter brockii Alcohol Dehydrogenase Lowers the Barrier for Enzyme Catalysis
Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP+/H-linked class enzyme that reversibly catalyzes the oxidation of secondary alcohols to their corresponding ketones. Cobalt substitution studies of other members of the alcohol dehydrogenase (ADH) family showed that th...
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| Published in: | Biochemistry (Easton) Vol. 43; no. 22; pp. 7151 - 7161 |
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| Abstract | Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP+/H-linked class enzyme that reversibly catalyzes the oxidation of secondary alcohols to their corresponding ketones. Cobalt substitution studies of other members of the alcohol dehydrogenase (ADH) family showed that the cobalt-containing ADHs have a similar active site structure but slightly decreased activity compared to wild-type zinc ADHs. In contrast, the cobalt-substituted TbADH (Co-TbADH) exhibits an increase in specific activity compared to the native enzyme [Bogin, O., Peretz, M., and Burstein, Y. (1997) Protein Sci. 6, 450−458]. However, the structural basis underlying this behavior is not yet clear. To shed more light on this issue, we studied the local structure and electronics at the catalytic metal site in Co-TbADH by combining X-ray absorption (XAS) and quantum chemical calculations. Importantly, we show that the first metal−ligand coordination shell of Co-TbADH is distorted compared to its native tetrahedral coordination shell and forms an octahedral structure. This is mediated presumably by the addition of two water molecules and results in more positively charged catalytic metal ions. Recently, we have shown that the metal−ligand coordination number of the zinc ion in TbADH changes dynamically during substrate turnover. These structural changes are associated with a higher coordination number of the native catalytic zinc ion and the consequent buildup of a positive charge. Here we propose that the accumulation of a higher coordination number and positive charge at the catalytic metal ion in TbADH stabilizes the structure of the catalytic transition state and hence lowers the barrier for enzyme catalysis. |
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| AbstractList | Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP(+)/H-linked class enzyme that reversibly catalyzes the oxidation of secondary alcohols to their corresponding ketones. Cobalt substitution studies of other members of the alcohol dehydrogenase (ADH) family showed that the cobalt-containing ADHs have a similar active site structure but slightly decreased activity compared to wild-type zinc ADHs. In contrast, the cobalt-substituted TbADH (Co-TbADH) exhibits an increase in specific activity compared to the native enzyme [Bogin, O., Peretz, M., and Burstein, Y. (1997) Protein Sci. 6, 450-458]. However, the structural basis underlying this behavior is not yet clear. To shed more light on this issue, we studied the local structure and electronics at the catalytic metal site in Co-TbADH by combining X-ray absorption (XAS) and quantum chemical calculations. Importantly, we show that the first metal-ligand coordination shell of Co-TbADH is distorted compared to its native tetrahedral coordination shell and forms an octahedral structure. This is mediated presumably by the addition of two water molecules and results in more positively charged catalytic metal ions. Recently, we have shown that the metal-ligand coordination number of the zinc ion in TbADH changes dynamically during substrate turnover. These structural changes are associated with a higher coordination number of the native catalytic zinc ion and the consequent buildup of a positive charge. Here we propose that the accumulation of a higher coordination number and positive charge at the catalytic metal ion in TbADH stabilizes the structure of the catalytic transition state and hence lowers the barrier for enzyme catalysis. Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP super(+)/H-linked class enzyme that reversibly catalyzes the oxidation of secondary alcohols to their corresponding ketones. Cobalt substitution studies of other members of the alcohol dehydrogenase (ADH) family showed that the cobalt-containing ADHs have a similar active site structure but slightly decreased activity compared to wild-type zinc ADHs. In contrast, the cobalt-substituted TbADH (Co-TbADH) exhibits an increase in specific activity compared to the native enzyme [Bogin, O., Peretz, M., and Burstein, Y. (1997) Protein Sci. 6,450-458]. However, the structural basis underlying this behavior is not yet clear. To shed more light on this issue, we studied the local structure and electronics at the catalytic metal site in Co-TbADH by combining X-ray absorption (XAS) and quantum chemical calculations. Importantly, we show that the first metal-ligand coordination shell of Co-TbADH is distorted compared to its native tetrahedral coordination shell and forms an octahedral structure. This is mediated presumably by the addition of two water molecules and results in more positively charged catalytic metal ions. Recently, we have shown that the metal-ligand coordination number of the zinc ion in TbADH changes dynamically during substrate turnover. These structural changes are associated with a higher coordination number of the native catalytic zinc ion and the consequent buildup of a positive charge. Here we propose that the accumulation of a higher coordination number and positive charge at the catalytic metal ion in TbADH stabilizes the structure of the catalytic transition state and hence lowers the barrier for enzyme catalysis. Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP+/H-linked class enzyme that reversibly catalyzes the oxidation of secondary alcohols to their corresponding ketones. Cobalt substitution studies of other members of the alcohol dehydrogenase (ADH) family showed that the cobalt-containing ADHs have a similar active site structure but slightly decreased activity compared to wild-type zinc ADHs. In contrast, the cobalt-substituted TbADH (Co-TbADH) exhibits an increase in specific activity compared to the native enzyme [Bogin, O., Peretz, M., and Burstein, Y. (1997) Protein Sci. 6, 450−458]. However, the structural basis underlying this behavior is not yet clear. To shed more light on this issue, we studied the local structure and electronics at the catalytic metal site in Co-TbADH by combining X-ray absorption (XAS) and quantum chemical calculations. Importantly, we show that the first metal−ligand coordination shell of Co-TbADH is distorted compared to its native tetrahedral coordination shell and forms an octahedral structure. This is mediated presumably by the addition of two water molecules and results in more positively charged catalytic metal ions. Recently, we have shown that the metal−ligand coordination number of the zinc ion in TbADH changes dynamically during substrate turnover. These structural changes are associated with a higher coordination number of the native catalytic zinc ion and the consequent buildup of a positive charge. Here we propose that the accumulation of a higher coordination number and positive charge at the catalytic metal ion in TbADH stabilizes the structure of the catalytic transition state and hence lowers the barrier for enzyme catalysis. |
| Author | Frenkel, Anatoly Bogin, Oren Burstein, Yigal Kleifeld, Oded Rulíšek, Lubomír Sagi, Irit Havlas, Zdeněk |
| Author_xml | – sequence: 1 givenname: Oded surname: Kleifeld fullname: Kleifeld, Oded – sequence: 2 givenname: Lubomír surname: Rulíšek fullname: Rulíšek, Lubomír – sequence: 3 givenname: Oren surname: Bogin fullname: Bogin, Oren – sequence: 4 givenname: Anatoly surname: Frenkel fullname: Frenkel, Anatoly – sequence: 5 givenname: Zdeněk surname: Havlas fullname: Havlas, Zdeněk – sequence: 6 givenname: Yigal surname: Burstein fullname: Burstein, Yigal – sequence: 7 givenname: Irit surname: Sagi fullname: Sagi, Irit |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/15170352$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1002_chem_200801223 crossref_primary_10_1016_j_abb_2009_08_004 crossref_primary_10_1134_S1995078019040086 crossref_primary_10_1016_j_bbagen_2019_129465 crossref_primary_10_1002_prot_26339 crossref_primary_10_1016_j_biochi_2015_04_012 crossref_primary_10_1039_D0RA02066D crossref_primary_10_1021_jacs_6b05896 crossref_primary_10_21517_1992_7223_2019_7_8_57_70 crossref_primary_10_1074_jbc_M412582200 crossref_primary_10_1016_j_ccr_2009_12_039 crossref_primary_10_2174_1389450124666230224140724 crossref_primary_10_1021_bi301096a crossref_primary_10_1021_cm060538p crossref_primary_10_1021_ja900296u crossref_primary_10_1016_j_abb_2008_11_019 crossref_primary_10_1016_j_ijbiomac_2018_04_090 crossref_primary_10_1021_bi100894r crossref_primary_10_1039_b514454j |
| Cites_doi | 10.1016/S0021-9258(18)54756-6 10.1111/j.1432-1033.1979.tb13211.x 10.1016/S0021-9258(19)45387-8 10.1128/jb.144.2.569-578.1980 10.1107/S0567740874003803 10.1021/ja001265g 10.1111/j.1432-1033.1991.tb16322.x 10.1006/jmbi.1998.1750 10.1103/PhysRevA.38.3098 10.1016/S0021-9258(19)42460-5 10.1016/0076-6879(93)26006-U 10.1103/PhysRevB.52.2995 10.1042/bj1950183 10.1093/oxfordjournals.jbchem.a003049 10.1103/PhysRevB.48.9825 10.1107/S0909049500017684 10.1016/S0162-0134(98)10042-9 |
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| Notes | istex:55AFCA559F38F881B84657BB08EFCF9AA69D47F7 ark:/67375/TPS-0HT21FR3-L This work was supported in part by Grants 377-11 (to I.S.) and 296-00 (to Y.B.) from the Israel Science Foundation and A4055103 from GA AV CR. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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| Snippet | Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP+/H-linked class enzyme that reversibly catalyzes the oxidation of secondary... Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP(+)/H-linked class enzyme that reversibly catalyzes the oxidation of secondary... Thermoanaerobacter brockii alcohol dehydrogenase (TbADH) is a zinc-dependent NADP super(+)/H-linked class enzyme that reversibly catalyzes the oxidation of... |
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| SubjectTerms | Alcohol Dehydrogenase - chemistry Alcohol Dehydrogenase - metabolism Bacteria, Anaerobic - enzymology Catalysis Catalytic Domain Cobalt - metabolism Crystallography, X-Ray Ligands Thermoanaerobacter brockii Water - metabolism Zinc - metabolism |
| Title | Higher Metal−Ligand Coordination in the Catalytic Site of Cobalt-Substituted Thermoanaerobacter brockii Alcohol Dehydrogenase Lowers the Barrier for Enzyme Catalysis |
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