Conserved Protein Domain Family
NmrA_TMR_like_1_SDR_a
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cd05231: NmrA_TMR_like_1_SDR_a 
NmrA (a transcriptional regulator) and triphenylmethane reductase (TMR) like proteins, subgroup 1, atypical (a) SDRs
Atypical SDRs related to NMRa, TMR, and HSCARG (an NADPH sensor). This subgroup resembles the SDRs and has a partially conserved characteristic [ST]GXXGXXG NAD-binding motif, but lacks the conserved active site residues. NmrA is a negative transcriptional regulator of various fungi, involved in the post-translational modulation of the GATA-type transcription factor AreA. NmrA lacks the canonical GXXGXXG NAD-binding motif and has altered residues at the catalytic triad, including a Met instead of the critical Tyr residue. NmrA may bind nucleotides but appears to lack any dehydrogenase activity. HSCARG has been identified as a putative NADP-sensing molecule, and redistributes and restructures in response to NADPH/NADP ratios. Like NmrA, it lacks most of the active site residues of the SDR family, but has an NAD(P)-binding motif similar to the extended SDR family, GXXGXXG. 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. Atypical SDRs are distinct from classical SDRs. 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
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Statistics
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PSSM-Id: 187542
Aligned: 13 rows
Threshold Bit Score: 253.018
Created: 18-May-2005
Updated: 2-Oct-2020
Structure
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Aligned Rows:
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putative NADP
Feature 1:putative NADP binding site [chemical binding site]
Evidence:
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Sequence Alignment
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Format: Row Display: Color Bits: Type Selection: 
Feature 1                 # ####                      #                   ###                   ###   
YP_625387           2 YAITGITGKVGGALARELL---ASGRPVRAVVRDa-tRAAAWAARGCEIATAFME-APALLADAFAGATGVFILLPPvfd 76  Burkholder...
YP_427421           3 IAVVGATGRIGSKLTRTLL---GAGHQVKALSRGg-aALEALVEAGAEPFLGSFDtGAGALDTFFQDVEAAFLMVKTdwn 78  Rhodospiri...
ZP_01460486         3 LLVTAASGNIGSRVAEQIV---AAGAEAVLLSRHp-aKLSALSARGAQVLPIGSD-DAPGLLSAAQGADALFFLAPPnpg 77  Stigmatell...
NP_969937           2 ILVMGATGHIGSKITTHLL---ANSQQVRCVARK---FPNKDAYRGAELAQGDAN-DVSFLMDCMRGCSAVFTMIPPdms 74  Bdellovibr...
YP_320391           2 YVVFGATGQTGSAVANALL---ERNFPVRVVLRSd-kAASTWREKGADVAIAEVT-DVEAMTAAMREADAVYVMNPPayn 76  Anabaena v...
ZP_01550473         2 ILVTTPTGDIGSRVLTKLL---EAKEDVRVITRDs-sKLSDDVKGAVDVVVGSHA-DEAVICSALYGVDAVFWLPPGspt 76  Stappia ag...
ZP_01459405       329 IVINTPNGTIGRSLAEKLL---AAGKALTVISRSp-dKVAELAKRGARVVEGSID-EQPVLERALAGAEALFWLTPPagr 403 Stigmatell...
YP_592971          20 IVVTTPTGHIGNKLANILL---DRKSDVTLIARHp-eKVKDLASRGAKVIAGEHS-NPAVLEQAVHGADALFWLTPPdmt 94  Acidobacte...
REF_jgi:Rfer_1765   6 ILVTGAAGNTGFQTTQQLL---EKGFPVRALVRRvdaRSDALKALGAEIQVGNLQ-DMDDVRQALRDVQRAYFCAPLl-- 79  Rhodoferax...
NP_103368           6 ILVSGATGRTGGAAIDELL---KSGKQVRAYVRSnddRAAAFRKRGVEVAIGDFT-GIDDIRAAMEGVTSAYFLHPIa-- 79  Mesorhizob...
AAN85488            6 LVLIPGAGGVGRTVFEHLR---AQDVPVRFMVRRddeRAAELRALGAEVVIGDLT-RPETVAAALQGVARMHFGISVs-- 79  Streptomyc...
YP_642411           7 ILVIGATGRHGNTGEHLVTrlrEEGRAVRVLARTfgeRTDRLADLGAEIVRGDLQ-DRGSLVAALADVDLAYFTYPIa-- 83  Mycobacter...
BAC67849            7 ILITGAAGEVGGVSRTTVDmllEQGHPVRAFVRQddeRAHALRQAGAEVFVGDLL-TIADVSAALKGVRRIYFSMSLs-- 83  Streptomyc...

Feature 1                                                                                             
YP_625387          77 papgfpEARKVIEAVSAALLKARP-DRVVCLSTIGAqa----------------------dePNLLTQLALMEQALREMP 133 Burkholder...
YP_427421          79 n--iegHYPAVAQRFVDALRGSPV-KLAVSLSAMGSdvd---------------------gkTGHFELFHHLDQRLNELN 134 Rhodospiri...
ZP_01460486        78 akdlrdWYTQTATAAAQAVREHRI-PRVVCISTVGAhan---------------------apLGTIAFAAEMEERFNRAA 135 Stigmatell...
NP_969937          75 akevrfYQNKFGEVIAEAIEEAGV-KKVVNLSSVGAdle---------------------sgTGPILGLHDQEERLNSIT 132 Bdellovibr...
YP_320391          77 vsdmfaLAEQIGECYVEALTNADA-RKVVLLSSVGSqha---------------------sgTGNILTTHILERMLGNLA 134 Anabaena v...
ZP_01550473        77 dtnahaGYVEFSEAFVRALPASCV-KNVVGVSALGRgwe---------------------kpAGLVSASLAMDEAIANTG 134 Stappia ag...
ZP_01459405       404 p-dyhaWAAQAARSAAQAVKAHGV-GRVVVLSSVGAqsg---------------------pgTGPVSVLKDVEEAFLAAS 460 Stigmatell...
YP_592971          95 shdplgTARRMAEAAASVIRKHPD-LHVVQLSSAGAflp---------------------sgTGPIVGHHDTEEKFRAAG 152 Acidobacte...
REF_jgi:Rfer_1765  80 -----rGGLSASAIFASAAQEQRL-EVVVALSQWLAdpl---------------------hpSIHTRETWLSDKMLSWMP 132 Rhodoferax...
NP_103368          80 -----pGIIGAAAYFAQAAKEAGV-SAIVNMSQISArre---------------------saSHAAQDHWISERVFDWSG 132 Mesorhizob...
AAN85488           80 -----pDQLLAATVVASVAREYGElEALVDLSQMTVsqmta----------------tsteeSHQQRLHWLTEQMLDWSG 138 Streptomyc...
YP_642411          84 -----dGVVPAAANYASAVREVGRnPRTVVMSMGPAnpn---------------------hpSDLGKGQWLAEQVMEWAG 137 Mycobacter...
BAC67849           84 -----pYYTDAVSLMAAAARAQGDiEVFVNISEYEQsfmtfekmtapeeerrawlgglvanwSPQQRAHWVAEQVLDWSG 158 Streptomyc...

Feature 1                      ###                                                                    
YP_625387         134 m-pVTFLRPGWFMENAAwd---vaSARDEGVVASYLqpLDKPVPMVATADVGRVAAQLLQQTw-HGVRVVELEGPCRVSp 208 Burkholder...
YP_427421         135 didMVHLRAAWFMENTLaw---taSVAKYGRLAWFYe-PDLKMPWVATDDIAGLAAKELTNPt-GDHRVIRETGSEDLTm 209 Rhodospiri...
ZP_01460486       136 p-hVLHLRPGYFMENCLsq----vESIRHGVLSFPYa-EDHDMPWISTDDIGDVAAKYLLDGswTGHWTRNLLGPENLTl 209 Stigmatell...
NP_969937         133 radIMHLRPTYFMENLLsg---ipSIISMNRFFGTIs-SEVPVPMIATRDIAARAAFLLMHPefKSHNVEYLLGERDVTf 208 Bdellovibr...
YP_320391         135 v-pVTVLRAASFMENWGsa---aaIAAEQGVLPSFFapLDRRLPMVSTEDIGRTAAEAMIEDw-KGQRIIELHGPIDYSp 209 Anabaena v...
ZP_01550473       135 v-aYRALACASLMDNQLrq---lePIREAGTFYAPHp-SDLKLPHVAKSDVADVAVGLLTSRdwQGFEDVSLLGPEDITf 209 Stappia ag...
ZP_01459405       461 p-nVTVLRPGFFMENILrs---ldTIVKAGAIFQPIp-GAKRVPMVASEDIAAKAAEVFLDAkwKGHRYLGVHGPQDLSh 535 Stigmatell...
YP_592971         153 k-nIVSLRPNEFMENVFfs---lpSIIGQDSIFTSIp-GSVKAPFIATQDIAEVAAEFLLRPi-NGHHVIDIVGPQEISl 226 Acidobacte...
REF_jgi:Rfer_1765 133 dvdVVTVNPGWFADNYMaa---lePIAQFGMMPMPL--GEGMNAPPSNEDIARVIVAALERPepHIGKTYRPTGPALLSp 207 Rhodoferax...
NP_103368         133 v-aTTHLRPTFFADWLVyph-fakEIWAKKKIEFPF--ENGRHAPIATDDQGRVIAHILANPegHGGKTYTLTGPIELNh 208 Mesorhizob...
AAN85488          139 l-pVVHVRPTAFLDNPLfttiaarSIQANGTIALPF--GTGRTSPVAADDVARTIATVLRDPapHIGQVYELTGPRSVDm 215 Streptomyc...
YP_642411         138 ldlLILRIAALFHENLLvlh--apSIRKDAVFRNSF--GASVIGWISGRDAADLSVAALLHPqrFDGPVTYPRGSEQFTh 213 Mycobacter...
BAC67849          159 l-pTVNIRAAMFVENPLmtw-lalEPLANGELRLPF--GHHRLAPIAGYDVAELCVKILADPapHISKSYDLNGPELKDm 234 Streptomyc...

Feature 1                                                                            
YP_625387         209 nDLALAFARVLGR-DVRAEAVDr---RTWEALFr---------AQGMKHPLPRMRMLDGFNEG 258 Burkholderia cenocepacia AU...
YP_427421         210 nELAAMIGREIGK-PVEYRFIDrg-rKEIENEYla-------rFGTPEHWLDDSRSADALNHG 263 Rhodospirillum rubrum ATCC ...
ZP_01460486       210 pEVAARISQVAGK-PIRYVQVSp---EAVQHQLea-------qGVNPTVRQQLGDLFRALGDP 261 Stigmatella aurantiaca DW4/3-1
NP_969937         209 dEALRILGQAIKKpEIEYVEVPe---QEMRNYLig-------aGLTEDWSDAMLEMNRSFNNG 261 Bdellovibrio bacteriovorus ...
YP_320391         210 nDVAAAFAAVLNR-NVQAIAVPe---SDWQATIss-------fGFSPEAVNSYSEMMRGFNSG 261 Anabaena variabilis ATCC 29413
ZP_01550473       210 eEMGRVMSNVLGR-EITFQSMPi---EQFEGTMqs-------iGTSEGMVRDYANMMIAKNEG 261 Stappia aggregata IAM 12614
ZP_01459405       536 lDVAEILSRELGQ-PVRYTEVTl---EQARQGMlg-------aGMPAFLADLFLEMYQAIPEG 587 Stigmatella aurantiaca DW4/3-1
YP_592971         227 dEWGSIAGQAIGK-QIRVVTIPg---DQLKAAMtq-------vGMSPEMAALLVEMEEAYPKI 278 Acidobacteria bacterium Ell...
REF_jgi:Rfer_1765 208 eDIAATYAKVLGR-PVKYVNAPvgmfTKVARAL----------NFPDFTIAQVLWYLDDYQRN 259 Rhodoferax ferrireducens T118
NP_103368         209 tEIAAAMSEVLGA-KIEYAPTSi---DEFRNKMen------vyKFPPFLTQHLVEVAQNYRDG 261 Mesorhizobium loti MAFF303099
AAN85488          216 tELAAEFSRALNR-PVSYVDLPl---DRWEAQLpk-------lGMSPHVAQHVATMARLHRDN 267 Streptomyces atroolivaceus
YP_642411         214 aDIAALLSEVLGT-PVGFTPVCe---AAWRDELleladndadgVVNPAMAQHISAVGAAISRS 272 Mycobacterium sp. MCS
BAC67849          235 hGFAEDYAAALGR-QVTYVPEDv---ETWNETYvdt-----vlGALPHTAEHLKTLTRLMGGG 288 Streptomyces avermitilis MA...

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