Conserved Protein Domain Family
SDR_a7

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cd05262: SDR_a7 
atypical (a) SDRs, subgroup 7
This subgroup contains atypical SDRs of unknown function. Members of this subgroup have a glycine-rich NAD(P)-binding motif consensus that matches the extended SDRs, TGXXGXXG, but lacks the characteristic active site residues of the SDRs. This subgroup has basic residues (HXXXR) in place of the active site motif YXXXK, these may have a catalytic role. 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.
Statistics
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PSSM-Id: 187572
Aligned: 15 rows
Threshold Bit Score: 267.678
Created: 22-Sep-2006
Updated: 2-Oct-2020
Structure
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Aligned Rows:
 
putative NAD(P)
Feature 1:putative NAD(P) binding site [chemical binding site]
Evidence:
  • Comment:defined by comparison to other extended-SDRs with structure
  • Comment:TGXXGXXG NAD(P) binding motif matches the extended-SDR canonical NAD(P)-binding motif ([ST]GXXGXXG); this glycine-rich region plays a critical role in domain stability, and allows access of the NAD(P) pyrophosphate
  • Citation:PMID 1385397
  • Citation:PMID 7742302

Sequence Alignment
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Format: Row Display: Color Bits: Type Selection:
Feature 1             # ####                  ###                                       ###     
BAC88423      1 MEIFLTGATGYIGGAVARELLGRGHRVVGLVRNEDSArk-lPEDPRLLPLVADLADTAALAqaAREVDAVVHAGATGgsd 79  Gloeobacter viol...
YP_559238     1 MRIFITGATGVLGFAVVRELIAAGHAVTGLVRSAHAVa--pLEAVGARACRGTIEDTDILRqeAALADGVIHTAFFHals 78  Burkholderia xen...
BAE63577      1 MRVFVTGGTGFIGKAVVEELIGKGHSVLALTRSEKGAk--lLANLGADVYHGNLGDLESLRkgAAASEGVIHCAFRNtvq 78  Aspergillus oryzae
CAB61932      1 MHVFVAGGTGHSGSHIISELVAAGHEVTGLARSDAAAa--tLSALGAKVHRGDLQDLDGLKeaAADSDGVIHVAHRQdll 78  Streptomyces coe...
EAL84873      1 MHIFITGATGFIGRVVSELAIQQGHTVHGLSRSPQGDe--iLTSIGAIPIRGDLATHNILReqSAKADAVFHLAFDHdfg 78  Aspergillus fumi...
EAL19467      1 MKVFLTGATGYIGSHLTSILLSAGHDLSALARSDVGAe--kLEKQGISVVRGSLEDVDILTkaASEADAVIHLAYIHdfg 78  Cryptococcus neo...
CAB39844      1 MRIFVTGAAGFIGSEIVRQLLEAGHEVVGLVRSEENAa--kLRAAGGTPYIGTLEDLDTLKkgVAQCDGVIHTAFVHdfs 78  fission yeast
NP_786413     1 MKVFITGGTGFVGSAVVQELVANGFEVVGLARSETSAq--kLISWGAQPVRGSLTSLSTLAtaAAQADAIIHLGFNNdfr 78  Lactobacillus pl...
CAA88001      1 MKVFITGASGFIGSAVLSELISSGHEVVGLARSDEAAakikSIDPAAKILRGDLKDLEILKkgATESDGVIHLGFVHdfk 80  baker's yeast
ZP_01548488  42 MEVFVTGGTGEIGSAVVKRLVQDGARVIGLARSDASSa--kLRASGASAYPGDLRAPESWVsrAASCDAVIHLGATFsed 119 Stappia aggregat...
Feature 1                                    #                       ###                        
BAC88423     80 --------------------------gaeVDRRATFALLEALRGTAK--PFLYTSGVWIMGntggqvlde-------aap 124 Gloeobacter viol...
YP_559238    79 haslgirarilfggppvriverfaaaavaVDQRAIETFGEALGARKV--SLVIAFPTMAMAagrhalet---------dd 147 Burkholderia xen...
BAE63577     79 dftva-----------------efeaacqEERQAIEAIGNALVGSNK--PLVITSGTMLLPpgrlgtedd-------hdp 132 Aspergillus oryzae
CAB61932     79 psgg-------------------idavaaAELPIVRAYGEALAGTGK--PLVAAGSIGSPGtgrdlgrpsteedpalpvg 137 Streptomyces coe...
EAL84873     79 ksy---------------------dqiikLDTEAVDALAAPLVGTSK--PLIAASGILTVRpdqgdcvvn-------esa 128 Aspergillus fumi...
EAL19467     79 nhd---------------------gtpirVDNAAIRALAEGLKGTDK--PLLTTSALPFGTpyate-------------- 121 Cryptococcus neo...
CAB39844     79 iy----------------------qeackLDARVIEAIGEVLRGTER--PLITTSVTAVLSsngklgt----------ei 124 fission yeast
NP_786413    79 hf----------------------fqagaMDRRAIETMGRAISGTNK--PLVVTYGTTGIRkhvetehe---------va 125 Lactobacillus pl...
CAA88001     81 nf----------------------eqcceIDRQATVAMLESLKGSNK--PFLYTNGTLSLRpnkvane----------qd 126 baker's yeast
ZP_01548488 120 --------------------------mgrVDRQSMLALKQAAKHRKQplKIIYTGGIWLFPattgnqll--------sek 165 Stappia aggregat...
Feature 1            #   #                      ####                                            
BAC88423    125 ldptpLIAWRAELEAKLLAESGVR---AVVVRPAVVYGrg-ggLVGGLVDSG-REAGVVRYVGDGENRWPL-VHVDDLAR 198 Gloeobacter viol...
YP_559238   148 adraaVGGARARSEQAAVDLVRAGvnaSIVRLPPTVHDetklgLVTRLIEIA-RKKRMSACPGDGFNRWAA-VHRLDASR 225 Burkholderia xen...
BAE63577    133 nprspIALARGPSEILALSFASKGvrvSILRIPPVNYGegdegFVPMMIDAA-RKNMKSIYMGDGLNRWPA-THVQDTAK 210 Aspergillus oryzae
CAB61932    138 dehkgTLRARNVVEATVIGLAERGvrsSVVRIANIAHStadraGFLPTLIALaKERGFAGYPGDGSNLWNA-VHIRDAAS 216 Streptomyces coe...
EAL84873    129 pytknTRVRRHVCEENALSWAERGvrvNVVRLPPYVYGranetGFAARMVRMaVDNGVSGYIASVKDRCVTsVYVDDAAA 208 Aspergillus fumi...
EAL19467    122 -ldpaTFGPRAQAERTLLEYTSQGv-rTGIVRLPNVHGdndkaFVPHVIAQS-RKNGVAAYVGEGKTHWAA-VHVKDAVQ 197 Cryptococcus neo...
CAB39844    125 sevpqPPIPRQLGEVTTLKFASQGvraSILRLPPTVHGagdhaFVPMLINVA-KNKGVSAYIGNGMNCWPA-VHRTDAAN 202 fission yeast
NP_786413   126 dtgllKWLTPRKSEIVARQLMAQNinaFVVRLSPAVHGagdmgFTRTVIERA-KKSHRAEYFGLGTHAWSA-VHRLDAAH 203 Lactobacillus pl...
CAA88001    127 gidedSKILRAVTEQVALSYKDKGvsaRIVRLPFSVHGkgdkaFVPILMNIA-KAAGKSGYVGQGTNAWAA-VHRLDTAP 204 baker's yeast
ZP_01548488 166 tqfapLPAFRFMTETIRTLSHGTDl-nLTVIHPALACSqt-tgPIALMTAAL-KEGRPFQTRATAQTRWPL-VEINDLAA 241 Stappia aggregat...
Feature 1                                                                                       
BAC88423    199 LYAAAIEsg-----lsNTVFIAAAg----pSLRLKDIALAASraa--giPGRVESWPLEAARQTlgafadALALDQQVTA 267 Gloeobacter viol...
YP_559238   226 LFRLALEng-----epGDRYHGAAe----eGMPFRDIANAIGryl--dvPVVPLPAKDCARHFGwl--apFVAADNPVSS 292 Burkholderia xen...
BAE63577    211 AYRLALEka-----paGSTLHGVAe----qGVPLKDIAEAIGerl--svPVESKEWEDMKAHFGwl--anIVALDNYISS 277 Aspergillus oryzae
CAB61932    217 LFRLALEkg-----paGSYWHAVEd----gGIPVREIAEAIGnrl--glPAVSVPLDELMLPGHfgfltnIVTRSYPTSN 285 Streptomyces coe...
EAL84873    209 LFLLLASdkt---vkaGEIFHGTAdwdttyGMLAKAIGRAVGv------PVRQFEREEAEERWGafl-ssFFGLIIRASN 278 Aspergillus fumi...
EAL19467    198 VYKLAIEski---lkgGEVLHAVHd----eGVESKKLMELIAnki--gvETKSIMPEEAATFYTfl--gpFVQADITGTS 266 Cryptococcus neo...
CAB39844    203 LFVLALEke-----taGSIYHAVAe----eGIPIKEIAGMIGkrl--diPVISVSSEEATEHFGfl--ssFLSVDNPTSS 269 fission yeast
NP_786413   204 LFYLVTMyglehpttnERVFNAVAe----eSITIAAIARTISr-----kLNVPLKAKYNPLSFGdt--amLYLINCPTSS 272 Lactobacillus pl...
CAA88001    205 LFRLVLEkg-----ktGQVYHCVGe----qGIPFKDIARVIGeil--nvPVASIPVDDAESHFGfl--tcFVTRDGPVSS 271 baker's yeast
ZP_01548488 242 LYTLALKn-------aRFRMSLIAsc--ieGISVGHLASHISarhglplEIETVPAPEAAEPLTdw--aaGYALSQSVDV 310 Stappia aggregat...
Feature 1                           
BAC88423    268 akatrLLGWQSQAPSLPDEL 287 Gloeobacter violaceus PCC 7421
YP_559238   293 qmtreRLGWTPQHPSLMNDL 312 Burkholderia xenovorans LB400
BAE63577    278 qktqaLLDWKPKQRPLLSYI 297 Aspergillus oryzae
CAB61932    286 litrkTLGWEPARPGLLADL 305 Streptomyces coelicolor A3(2)
EAL84873    279 gkaveKLGWKPSGPSLVEEL 298 Aspergillus fumigatus Af293
EAL19467    267 tltreRLGWEPKEKTLLEDL 286 Cryptococcus neoformans var. neoformans B-3501A
CAB39844    270 iltqqRLGWKPTHSTLMTDL 289 fission yeast
NP_786413   273 qltrqILGWVPVQPDLLTDI 292 Lactobacillus plantarum WCFS1
CAA88001    272 egtrkELGWQPQQIGLLEDI 291 baker's yeast
ZP_01548488 311 shaqrATGWQPEHSTIEDLV 330 Stappia aggregata IAM 12614

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