1IY8


Conserved Protein Domain Family
cyclohexanol_reductase_SDR_c

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cd05330: cyclohexanol_reductase_SDR_c 
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cyclohexanol reductases, including levodione reductase, classical (c) SDRs
Cyloclohexanol reductases,including (6R)-2,2,6-trimethyl-1,4-cyclohexanedione (levodione) reductase of Corynebacterium aquaticum, catalyze the reversible oxidoreduction of hydroxycyclohexanone derivatives. SDRs are a functionally diverse family of oxidoreductases that have a single domain with a structurally conserved Rossmann fold (alpha/beta folding pattern with a central beta-sheet), an NAD(P)(H)-binding region, and a structurally diverse C-terminal region. Classical SDRs are typically about 250 residues long, while extended SDRs are approximately 350 residues. Sequence identity between different SDR enzymes are typically in the 15-30% range, but the enzymes share the Rossmann fold NAD-binding motif and characteristic NAD-binding and catalytic sequence patterns. These enzymes catalyze a wide range of activities including the metabolism of steroids, cofactors, carbohydrates, lipids, aromatic compounds, and amino acids, and act in redox sensing. Classical SDRs have an TGXXX[AG]XG cofactor binding motif and a YXXXK active site motif, with the Tyr residue of the active site motif serving as a critical catalytic residue (Tyr-151, human 15-hydroxyprostaglandin dehydrogenase (15-PGDH) numbering). In addition to the Tyr and Lys, there is often an upstream Ser (Ser-138, 15-PGDH numbering) and/or an Asn (Asn-107, 15-PGDH numbering) contributing to the active site; while substrate binding is in the C-terminal region, which determines specificity. The standard reaction mechanism is a 4-pro-S hydride transfer and proton relay involving the conserved Tyr and Lys, a water molecule stabilized by Asn, and nicotinamide. Extended SDRs have additional elements in the C-terminal region, and typically have a TGXXGXXG cofactor binding motif. Complex (multidomain) SDRs such as ketoreductase domains of fatty acid synthase have a GGXGXXG NAD(P)-binding motif and an altered active site motif (YXXXN). Fungal type ketoacyl reductases have a TGXXXGX(1-2)G NAD(P)-binding motif. Some atypical SDRs have lost catalytic activity and/or have an unusual NAD(P)-binding motif and missing or unusual active site residues. Reactions catalyzed within the SDR family include isomerization, decarboxylation, epimerization, C=N bond reduction, dehydratase activity, dehalogenation, Enoyl-CoA reduction, and carbonyl-alcohol oxidoreduction.
Statistics
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PSSM-Id: 187591
Aligned: 5 rows
Threshold Bit Score: 438.493
Created: 23-Jan-2007
Updated: 2-Oct-2020
Structure
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Program:
Drawing:
Aligned Rows:
 
Conserved site includes 4 residues -Click on image for an interactive view with Cn3D
Feature 1:active site [active site]
Evidence:

Sequence Alignment
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Format: Row Display: Color Bits: Type Selection:
Feature 1                                                                                       
1IY8_A       11 FTDRVVLITGGGSGLGRATAVRLAAEGAKLSLVDVSSEGLEASKAAVLetaPDAEVLTTVADVSDEAQVEAYVTATTERF 90  Leifsonia aquatica
NP_691955     4 FQDKVILITGGGSGLGKATALQVAKEGAILSLVDLNEQGLEETKKEILeivPNAKIALIKANVANEEEVKAYVQETINQF 83  Oceanobacillus i...
YP_497743     3 FKDKVVIVTGAGSGLGLATVQRLAEEGATLALVDLREDWLEAARATLP---DATRTKLIKADVADVAQVEAYVDATVAQF 79  Novosphingobium ...
ZP_01061938   1 MKDQVIIITGAAMGLGLATAELLAKEGAKLVLVDYNENALKDAEQKLKeinPEVALLSVKADVSSEEQVKNYVDKTVEKF 80  Leeuwenhoekiella...
Q9LBG2       11 FTDRVVLITGGGSGLGRATAVRLAAEGAKLSLVDVSSEGLEASKAAVLetaPDAEVLTTVADVSDEAQVEAYVTATTERF 90  Leifsonia aquatica
Feature 1                                        #                           #            #   # 
1IY8_A       91 GRIDGFFNNAGIEGKQNPTESFTAAEFDKVVSINLRGVFLGLEKVLKIMREQGSGMVVNTASVGGIRGIGNQSGYAAAKH 170 Leifsonia aquatica
NP_691955    84 GKIDGFFNNAGIEGKQNLTEDFGSDEFEKVVDINLNGVFYGMKHVLKVMKEQGSGSIVNTASVGGIRGVGNQSGYAASKH 163 Oceanobacillus i...
YP_497743    80 GRIDGFFNNAGIEGRQNLTENFGAEEFHRVISINLDGVFYGMAAVLKVMREQGFGAIVNTASVGGIRGVGNQSGYAAAKH 159 Novosphingobium ...
ZP_01061938  81 GRIDGLYNNAGIEGKQASIVDYDLDIFKKVIDINLMGVYYGLRYVIPVMQKQKFGRIVNVASVGGIRGVLNQMPYVASKH 160 Leeuwenhoekiella...
Q9LBG2       91 GRIDGFFNNAGIEGKQNPTESFTAAEFDKVVSINLRGVFLGLEKVLKIMREQGSGMVVNTASVGGIRGIGNQSGYAAAKH 170 Leifsonia aquatica
Feature 1                                                                                       
1IY8_A      171 GVVGLTRNSAVEYGRYGIRINAIAPGAIWTPMVENSMKQLdpenprkaaeeFIQVNPSKRYGEAPEIAAVVAFLLSDDas 250 Leifsonia aquatica
NP_691955   164 GVVGLTRNSGIEYGQYGVSIKAIAPGAILTPMVEGSLKQMggenweeagkeFVSVNPMKRFGKPEEVGYLVAFLLSDHag 243 Oceanobacillus i...
YP_497743   160 GVVGLTRNSAVEYGQYGVQINAIAPGAIMTAMVEGSLRQIggenweeagrqFVSVNPMKRFGRPEEVAALVAFLLSGEai 239 Novosphingobium ...
ZP_01061938 161 AVSGMTKNAALEYGKDGILTNAIAPGAILTPMVAEAFKQVnpedpkaaeaqYASNNPTRALGDPKDVASVVGFLLSKAng 240 Leeuwenhoekiella...
Q9LBG2      171 GVVGLTRNSAVEYGRYGIRINAIAPGAIWTPMVENSMKQLdpenprkaaeeFIQVNPSKRYGEAPEIAAVVAFLLSDDas 250 Leifsonia aquatica
Feature 1                        
1IY8_A      251 YVNATVVPIDGGQSAAY 267 Leifsonia aquatica
NP_691955   244 FINAAVVPIDGGQSYKY 260 Oceanobacillus iheyensis HTE831
YP_497743   240 FINGATIPIDGGQSYKY 256 Novosphingobium aromaticivorans DSM 12444
ZP_01061938 241 YVSGQTIAIDGGESNMY 257 Leeuwenhoekiella blandensis MED217
Q9LBG2      251 YVNATVVPIDGGQSAAY 267 Leifsonia aquatica

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