1WMB,2YZ7,2ZTM,2Q2Q,2ZTU


Conserved Protein Domain Family
HBDH_SDR_c

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cd08940: HBDH_SDR_c 
Click on image for an interactive view with Cn3D
d-3-hydroxybutyrate dehydrogenase (HBDH), classical (c) SDRs
DHBDH, an NAD+ -dependent enzyme, catalyzes the interconversion of D-3-hydroxybutyrate and acetoacetate. It is a classical SDR, with the canonical NAD-binding motif and active site tetrad. 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: 187644
Aligned: 10 rows
Threshold Bit Score: 417.619
Created: 11-Sep-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                                                                                     
1WMB_A      3 KGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEiekvraglaaqhGVKVLYDGADLskgEAVRGLVdnAVRQMG 82  Pseudomonas fragi
2YZ7_A      3 KGKKAVVTGSTSGIGLAMATELAKAGADVVINGFGQPEDiererstleskfGVKAYYLNADLsdaQATRDFIakAAEALG 82  Alcaligenes faecalis
2ZTM_A      3 KGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEiekvraglaaqhGVKVLYDGADLskgEAVRGLVdnAVRQMG 82  Pseudomonas fragi
2Q2Q_A      3 KGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPalae----iarhGVKAVHHPADLsdvAQIEALFalAEREFG 78  Pseudomonas putida
2ZTU_A      3 KGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEiekvraglaaqhGVKVLYDGADLskgEAVRGLVdnAVRQMG 82  Pseudomonas fragi
XP_823399   3 SGKVALVTGSTSGIGFGIARQLAAAGADILLNGKESSLRdaslle-nlekyGRRVRYFGADNrcrPALEDMVkyAEDELG 81  Trypanosoma brucei...
EAR90101    6 SNKVALITGSTSGIGLACAHTLAKAGANIVLNGFGDANEierirqnientyKVKSIYANYNLmkpTEIKQMIehVNKTFG 85  Tetrahymena thermo...
O86034      1 MTKTAVITGSTSGIGLAIARTLAKAGANIVLNGFGAPDEirtvtdevaglsSGTVLHHPADMtkpSEIADMMamVADRFG 80  Sinorhizobium meli...
P42317      2 RKQVALVTGAAGGIGFEIAREFAREGASVIVSDLRPEACekaas--klaeeGFDAAAIPYDVtkeAQVADTVnvIQKQYG 79  Bacillus subtilis ...
Q9X6U2      3 NGKTALVTGSTSGIGLGIAKALAAQGANIIVNGFGDADAakaei--aqagqGIRVGYHGADMskaAEIEDMMryAQSDFG 80  Ralstonia eutropha...
Feature 1                                    #                           #            #   #   
1WMB_A     83 RIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGV 162 Pseudomonas fragi
2YZ7_A     83 GLDILVNNAGIQHTAPIEEFPVDKWNAIIALNLSAVFHGTAAALPIMQKQGWGRIINIASAHGLVASVNKSAYVAAKHGV 162 Alcaligenes faecalis
2ZTM_A     83 RIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGV 162 Pseudomonas fragi
2Q2Q_A     79 GVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGV 158 Pseudomonas putida
2ZTU_A     83 RIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGV 162 Pseudomonas fragi
XP_823399  82 KVDILVNNAGIQHVASVTTLPAEKWNDVISINLSASFHTIQLCLPRMQQRGWGRIINISSVHGIVGSANKAAYCAAKHGL 161 Trypanosoma brucei...
EAR90101   86 GVDILINNAGMQHVTPIEDMPEDMYEKIIALNLSSNFYTIKYCIPHMKKRNWGRIINIASVHGKVASVNKAPYVASKHGV 165 Tetrahymena thermo...
O86034     81 GADILVNNAGVQFVEKIEDFPVEQWDRIIAVNLSSSFHTIRGAIPPMKKKGWGRIINIASAHGLVASPFKSAYVAAKHGI 160 Sinorhizobium meli...
P42317     80 RLDILVNNAGIQHVAPIEEFPTDTFEQLIKVMLTAPFIAMKHVFPIMKKQQFGRIINIASVNGLVGFAGKSAYNSAKHGV 159 Bacillus subtilis ...
Q9X6U2     81 GADILVNNAGIQHVAAIEDFPPERWDAIIAINLTSAFHTTRLALPGMKQKDWGRIINVASTHGLVASAQKSAYVAAKHGI 160 Ralstonia eutropha...
Feature 1                                                                                     
1WMB_A    163 VGFTKVTALETAGQGITANAICPGWVRTPLVEKQISALAEKNGvdq-etAARELLSEKQPSLQFVTPEQLGGTAVFLASD 241 Pseudomonas fragi
2YZ7_A    163 VGLTKVTALENAGKGITCNAICPGWVRTPLVEKQIEAISQQKGidi-eaAARELLAEKQPSLQFVTPEQLGGAAVFLSSA 241 Alcaligenes faecalis
2ZTM_A    163 VGFTKVTALETAGQGITANAICPGWVRSPLVEKQISALAEKNGvdq-etAARELLSEKQPSLQFVTPEQLGGTAVFLASD 241 Pseudomonas fragi
2Q2Q_A    159 VGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRAANGGdp--lqAQHDLLAEKQPSLAFVTPEHLGELVLFLCSE 236 Pseudomonas putida
2ZTU_A    163 VGFTKVTALETAGQGITANAICPGWVRAPLVEKQISALAEKNGvdq-etAARELLSEKQPSLQFVTPEQLGGTAVFLASD 241 Pseudomonas fragi
XP_823399 162 LGLTKAVALEVATTGVTCNAVCPGYVRTPLVEVQVKAIADAKFngdieaAKVELLREKQPSKSFITVEQVGDVVLWLANP 241 Trypanosoma brucei...
EAR90101  166 IGLTKVVALENAQTGVTCNAICPGWVLTDLIKKQIEALSQKNNttf-eeGAKALLKEKQPSQQFVRPEQIGETALFLCSD 244 Tetrahymena thermo...
O86034    161 MGLTKTVALEVAESGVTVNSICPGYVLTPLVEKQIPDQARTRGite-eqVINEVMLKGQPTKKFITVEQVASLALYLAGD 239 Sinorhizobium meli...
P42317    160 IGLTKVGALEGAPHGITVNALCPGYVDTQLVRNQLSDLSKTRNvpy-dsVLEQVIFPLVPQKRLLSVKEIADYAVFLASE 238 Bacillus subtilis ...
Q9X6U2    161 VGFTKVTALETAQTGVTANAICPGWVLTPLVQKQVEARAQKEGipv-eqAKRELVLEKQPSGQFVTPDELGALAVFLSSE 239 Ralstonia eutropha...
Feature 1                        
1WMB_A    242 AAAQITGTTVSVDGGWTAR 260 Pseudomonas fragi
2YZ7_A    242 AADQMTGTTLSLDGGWTAR 260 Alcaligenes faecalis
2ZTM_A    242 AAAQITGTTVSVDGGWTAR 260 Pseudomonas fragi
2Q2Q_A    237 AGSQVRGAAWNVDGGWLAQ 255 Pseudomonas putida
2ZTU_A    242 AAAQITGTTVSVDGGWTAR 260 Pseudomonas fragi
XP_823399 242 SSSQINGSNITVDGGWTAQ 260 Trypanosoma brucei TREU927
EAR90101  245 SASEIRGEAICVDGGWVAI 263 Tetrahymena thermophila SB210
O86034    240 DAAQITGTHVSMDGGWTAQ 258 Sinorhizobium meliloti 1021
P42317    239 KAKGVTGQAVVLDGGYTAQ 257 Bacillus subtilis subsp. subtilis str. 168
Q9X6U2    240 AARQVRGAIWNMDGGWVAQ 258 Ralstonia eutropha H16

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