Conserved Protein Domain Family
SDR_a3
?
cd05229: SDR_a3 
atypical (a) SDRs, subgroup 3
These atypical SDR family members of unknown function have a glycine-rich NAD(P)-binding motif consensus that is very similar to the extended SDRs, GXXGXXG. Generally, this group has poor conservation of the active site tetrad, However, individual sequences do contain matches to the YXXXK active site motif, and generally Tyr or Asn in place of the upstream Ser found in most SDRs. Atypical SDRs generally lack the catalytic residues characteristic of the SDRs, and their glycine-rich NAD(P)-binding motif is often different from the forms normally seen in classical or extended SDRs. Atypical SDRs include biliverdin IX beta reductase (BVR-B,aka flavin reductase), NMRa (a negative transcriptional regulator of various fungi), progesterone 5-beta-reductase like proteins, phenylcoumaran benzylic ether and pinoresinol-lariciresinol reductases, phenylpropene synthases, eugenol synthase, triphenylmethane reductase, isoflavone reductases, and others. SDRs are a functionally diverse family of oxidoreductases that have a single domain with a structurally conserved Rossmann fold, an NAD(P)(H)-binding region, and a structurally diverse C-terminal region. Sequence identity between different SDR enzymes is typically in the 15-30% range; they 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 numbering). In addition to the Tyr and Lys, there is often an upstream Ser and/or an Asn, 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. In addition to the Rossmann fold core region typical of all SDRs, extended SDRs have a less conserved C-terminal extension of approximately 100 amino acids, 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.
Links
?
Statistics
?
PSSM-Id: 187540
Aligned: 14 rows
Threshold Bit Score: 339.689
Created: 30-Jun-2005
Updated: 2-Oct-2020
Structure
?
Aligned Rows:
Download Cn3D
 
putative activeputative NAD(P)
Feature 1:putative active site [active site]
Evidence:
  • Comment:partial match to canonical SDR catalytic tetrad: active site Y present in canonical location, N often substitutes for upstream S, K generally absent
  • Comment:YXXXK motif and upstream S, N form canonical catalytic tetrad
  • Citation:PMID 7742302
Scroll to Sequence Alignment Display
Sequence Alignment
?
Format: Row Display: Color Bits: Type Selection: 
Feature 1                                                                                       
NP_801075     1 MQTILGASGqIGRELALSLKRDfTSDIRLVSRNphrv---------netdQLVKADLLDaKQTSDAVKGSSVVYLTAGlp 71  Vibrio parahaemo...
YP_191174     1 MQTILGANGqIATELARSLHHHhTRDLRLVSRNprkv---------neddTLMATDLMDvRQTIEAVKGSDIVYFTAGlp 71  Gluconobacter ox...
BAC68160      2 AKHVIIGAGsIGTNVARLLAEG-GESVRIVTRSgsgpe--------hplvDRVAADASDpSRLTELSRGAGVIYHCANp- 71  Streptomyces ave...
NP_104849     3 KIAILGANGrLGRVVAKAFIDA-GFDVRTVTRTgkvpa-------eldgaTAVAGDALDrQSLISATEGVDIIFNGLN-- 72  Mesorhizobium lo...
NP_694303     3 TAIVLGATGgSGQVMVSELLNR-GGEVIAFGRSqrklkalikehdnnpklTYALGDIFDyQTIIEAAKDVDVIFQCAN-- 79  Oceanobacillus i...
ZP_01115726   3 TALIIGINGnFGRHMASALRAQ-GWQIRALMRTpskapd------wldvqSIIAGDARDaSSVERAAEGVDLLVYAAN-- 73  Reinekea sp. MED297
YP_324481     6 ELHVIFGTGpLAQAVMRELLAR-NKRVRMINRSgkadi--------pssvEIIASDAYNsENTRAVTTGATVVYQCAQ-- 74  Anabaena variabi...
ZP_01216213   4 YKSVVFGSGpLGVWVAVILAKQ-GWEVSLVNRSgkldqt------lpsniKVLAADATDeDSVYQICKDAGSVFHCAM-- 74  Psychromonas sp....
NP_102745     2 SFYVVVGAGpVGRETARLLGEE-GHDVVLTSRSvgsna--------lpnvRTVQADATDaSELSRICRGADAIFMCAM-- 70  Mesorhizobium lo...
YP_260735     3 QVALFGAVGaIGQSIARTLRSQ-GQPYRVVGRSqssllka---ygadplaEPVTWDPDQpASVEAAAAGIDTLIYLVG-- 76  Pseudomonas fluo...

Feature 1                #                       #                                              
NP_801075    72 MDTQLWVeQWPTMMRNVIAACKTh-QAKLVYFDNTYMYPQtdt-pqqEDAPFQPNGEKGRIRAVITDMLLESmnkgeIEA 149 Vibrio parahaemo...
YP_191174    72 PDSKLWEdRFPIMLKNALQACRTa-GASFAYFDNTYMYPQnsq-lqtEETRFAPIGRKGRVRAAMASMVLEEiargdIPV 149 Gluconobacter ox...
BAC68160     72 PSYTVWErLLPPLQTAAITAAKAn-DAVLALTGSLYAYGPqpggrmnEHTPMAATGHKGRLRRRMWEQALAGg----IRT 146 Streptomyces ave...
NP_104849    73 PIYTDWG-KCLPMAENVMAACHAn-NALHLFPGTVYNYGSpmpavitEDTPFHPTTEKGRIRCAMEELFRREadagrVRT 150 Mesorhizobium lo...
NP_694303    80 VKYQEMKtKLLPLGESVMKAADAl-GKHIVLVDGIYVYGHqva-kgdEAHPHQPHTKKGKLRVEFEQLIFNSkw-knAKA 156 Oceanobacillus i...
ZP_01115726  74 PPYHRWHqDAMAMLEPAVQAAETr-KLQLLFPGNVYAYAPqtn-pidEGTTVNPPTDKGAIRVQMEARLQQAas-rgARV 150 Reinekea sp. MED297
YP_324481    75 PAYTQWPeLFPSLQASIVEGVAAn-GAKLVVGDNLYMYGPvng-vlrEDMPNAATTRKGRVRGQMTEALLDAhrrgiVRV 152 Anabaena variabi...
ZP_01216213  75 PKYTQWAtQFIPLTQGILKGVMRt-NAKLIYADNLYMYGDtqglpitELSPCNAIGHKGKVRMAMADILLVAhakgdVGV 153 Psychromonas sp....
NP_102745    71 AAYHRWPtDFFPIIDGTVRAAEAv-GAKLIVLGNLYGYGEnadsplrSDLPLDPTSRKGTARTIMWQRAVRAg----IPA 145 Mesorhizobium lo...
YP_260735    77 VDYWRFE-LHPQLMRQTLDGAIAagVRRILLIGTVYPYGMarsnpvaEQHPRQPNSFKGRMRKAQEDLLWKAhadgkIQA 155 Pseudomonas fluo...

Feature 1               #   #                                                                   
NP_801075   150 VICRAPEFYGPGK--TQSITNSAIidnllnqkSAKVFLRD-DTKRSLIYTPDASRAMALIGNTPD--AYGQTWHLPCDDr 224 Vibrio parahaemo...
YP_191174   150 LIARAPEFYGPGK--TQSFTNALIidrlksgkRPLVPVRD-DTRRTLIWTPDASRALATLGNTPA--AFGQTWHLPCCDe 224 Gluconobacter ox...
BAC68160    147 VEVRGSDYIGKDAngIYSLLIKSAlq----kgKAAWITGHlDMPHTFTFNGDMAQALITLASEER--AWGRPWHVPSAPa 220 Streptomyces ave...
NP_104849   151 ILLRAGDFFGGTG--SGSWFDLVVaak--mskGVYTAPGPvDLVHEWAYLPDFAVGFVALARNLDrlGSYEALNFPGHA- 225 Mesorhizobium lo...
NP_694303   157 LIVRLPDYYGPTS--QNSYLQPTLegi--aanKTSIFIGNlKTPREYVYLPDAARMIVTIAEKDD--SYGENWNIPGAGl 230 Oceanobacillus i...
ZP_01115726 151 LILRAGDFIGPDT--EWTWLDLTAkvg--araVQMRFPHNeEHHHYWSYLPDLCANAALLLKEPL--GDFEVFHDPGLS- 223 Reinekea sp. MED297
YP_324481   153 AIGRASDFYGPLV--LDSVMGDRIfpsv-ltgKPASAIGEiDLPHTYTFIDDFGKALVVLGEEDK--ALGQIWHVPNAEt 227 Anabaena variabi...
ZP_01216213 154 TIGRASDFYGPQV--INSGLGKDVfkna-llqKPLNVLGNiELAHSYTYIKDFARALVILSDQDQ--ALGEIWHIPNAPt 228 Psychromonas sp....
NP_102745   146 IEIRSSDYLGHGA--ISYFSLIALpai--iegKPTAFIGDlDATHAWAFTKDVARTLVAAALYKG--EWGRAFHVPSQY- 218 Mesorhizobium lo...
YP_260735   156 TVLRLPDFYGPGV--DKSLLHGAFqaa--vqgGTANLVGPlDRPHEFVFVPDVGPVVCRLIQQPE--AFGKTWHLGGAGv 229 Pseudomonas fluo...

Feature 1                                                                                       
NP_801075   225 rLTYREFia-----vaAKVFNVQPkykv--ikrWQLWLAGRFNQT--IRDAAELLPRYESDNLFVSDKFQARFPDFQi-T 294 Vibrio parahaemo...
YP_191174   225 rPTYKTFva-----maSRVFGRTPaysv--igkWPLIIAGIFSKQ--VREIRELLPRYEQDNLFDSAKFKRHFPEFSv-T 294 Gluconobacter ox...
BAC68160    221 -VTIRELar-----ryAVAAGRPPikli-qiprSVTRTAGLIVPI--AREMAEMDYQWYAPFHMDATETTETFGLTA--T 289 Streptomyces ave...
NP_104849   226 -VTDLEIka-----aaEKALGRPLkmts--mpwWVLRAGSPFVAM--WREIVSMSYLRFEPHQLASTRLEGIIGEIPh-T 294 Mesorhizobium lo...
NP_694303   231 -ISGKEIik-----isRQITGNQKmvip--ltkSTIRFIGLFDEF--MREIVEIMYLTKEGFILSGEKYEKRIGTIPk-T 299 Oceanobacillus i...
ZP_01115726 224 -LTRADWr--------QAFAERQIsvressfpwWGLWLARLASPL--MREVWKMRYLWQQPVLMDGRRLITTLGDRRqqT 292 Reinekea sp. MED297
YP_324481   228 -ITTRQFit-----iaFEEAGYPPkisk--mgkFMMRLGGIFIPE--ARETVEMMYEFDEPFVVNHDKYVQAFGNHA--T 295 Anabaena variabi...
ZP_01216213 229 -ISTKALld-----cvQTELGQNIkvra--tgkKMLSVLGLFNPM--LKELKEMMYAWDQPYIVEHNKFQNAFSMPV--T 296 Psychromonas sp....
NP_102745   219 -ASPRELiq-----kaAAMLGQEVs--------GTLSYSVPEIEAlgMHEAIEMSYLFEKPLLVDASDTEALLGVKA--S 282 Mesorhizobium lo...
YP_260735   230 -TSQRELlelirqhggARFKQRVIg-------kPLLRLLGLFDPL--LREMVEMHYLISSPLILDDSALQALIGPIAk-T 298 Pseudomonas fluo...

Feature 1                 
NP_801075   295 TFEQGLTTIQ 304 Vibrio parahaemolyticus RIMD 2210633
YP_191174   295 TYEEGLELIG 304 Gluconobacter oxydans 621H
BAC68160    290 DLDTAVRNEV 299 Streptomyces avermitilis MA-4680
NP_104849   295 PLDQAVAQAL 304 Mesorhizobium loti MAFF303099
NP_694303   300 PFKEGLRETL 309 Oceanobacillus iheyensis HTE831
ZP_01115726 293 RLADVIDQCG 302 Reinekea sp. MED297
YP_324481   296 PLREAIRHTL 305 Anabaena variabilis ATCC 29413
ZP_01216213 297 STEIAIQETL 306 Psychromonas sp. CNPT3
NP_102745   283 SLEEMIADTL 292 Mesorhizobium loti MAFF303099
YP_260735   299 SYTEGVRQTL 308 Pseudomonas fluorescens Pf-5

| Disclaimer | Privacy statement | Accessibility |
NCBI Home NCBI Search NCBI SiteMap