2YY7,3A1N


Conserved Protein Domain Family
TDH_SDR_e
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cd05272: TDH_SDR_e 
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L-threonine dehydrogenase, extended (e) SDRs
This subgroup contains members identified as L-threonine dehydrogenase (TDH). TDH catalyzes the zinc-dependent formation of 2-amino-3-ketobutyrate from L-threonine via NAD(H)-dependent oxidation. This group is distinct from TDHs that are members of the medium chain dehydrogenase/reductase family. This group has the NAD-binding motif and active site tetrad of the extended SDRs. Extended SDRs are distinct from classical SDRs. In addition to the Rossmann fold (alpha/beta folding pattern with a central beta-sheet) core region typical of all SDRs, extended SDRs have a less conserved C-terminal extension of approximately 100 amino acids. Extended SDRs are a diverse collection of proteins, and include isomerases, epimerases, oxidoreductases, and lyases; they typically have a TGXXGXXG cofactor binding motif. 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. 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. 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: 187580
Aligned: 17 rows
Threshold Bit Score: 510.316
Created: 27-Feb-2007
Updated: 2-Oct-2020
Structure
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Program:
Drawing:
Aligned Rows:
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Conserved site includes 4 residues -Click on image for an interactive view with Cn3D
Feature 1:active site [active site]
Evidence:
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Sequence Alignment
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Format: Row Display: Color Bits: Type Selection: 
Feature 1                                                                                     
2YY7_A      4 KILIIGACGQIGTELTQKLRKlYGTENVIASDIRKLntdvvn---sgpfevVNALDfnqiehLVEVHKITDIYLMAALLS 80  Flavobacterium fri...
3A1N_A      1 MILVTGSSGQIGTELVPYLAEkYGKKNVIASDIVQRdtggi------kfitLDVSNrdeidrAVEKYSIDAIFHLAGILS 74  Thermoplasma volca...
AAP07639    3 KILVTGSLGQIGSELVMKLRDvYGASNVIATDIRETdsevvt---sgpfetLDVTDgqklhdIAKRNEVDTIIHLAALLS 79  Bacillus cereus AT...
T29433     39 RVLITGSLGQLGRGLNSVYKYmYGSECVVMSDIVRLpanatd---vsdynyLDILNqgsieeIVVNKNIDTIVHFSALLS 115 nematode
CAJ68662    3 KILITGALGQIGSELTIKLRNeYGEQNVIASSRRVKegnpvce--sgifeiLDVTDknrffeIAKKYDVDTIIHLASLLS 80  Clostridium diffic...
NP_973000   5 KILVTGSLGQIGSELVMFLRKeYGNDNVIASDIEKKdvpkvig--sgpfekLDVLDgkktleVCKKYKVNTIIHLAALLS 82  Treponema denticol...
AAH63962   59 KVLITGGLGQLGVGLAKLLRKrFGKNNVILSDIRKPpsnvfhsgpfiysdiLDYKNlr---eIVVNNRITWLVHYSALLS 135 zebrafish
YP_016276   3 RIIVTGCLGQIGSELIARLRKdKGTENVLATDIKKPenhpvik--nglfetLDVLDevkmydLAKNFKADTIIHLASLLS 80  Mycoplasma mobile ...
CAC12238    1 MILVTGSSGQIGTELVPYLREkYGKDSVISSDIMEPtgtqt------gyirLDVTDrdsldrAIEKYGITDIFHLAGILS 74  Thermoplasma acido...
NP_522521   7 KILVVGANGQIGSELALALAErYGHAQVITSDLVPAgrhphlt--hemlnaTDRGEla---aVVERHGITQIYLLAAALS 81  Ralstonia solanace...

Feature 1                  #                       #                        #   #             
2YY7_A     81 ATAEKNPaFAWDLNMNSLFHVLNLAKAkkiKKIFWPSSIAVFGPTTPKENTPqyTIMEPSTVYGISKQAGERWCEYYHNI 160 Flavobacterium fri...
3A1N_A     75 AKGEKDPaLAYKVNMNGTYNILEAAKQhrvEKVVIPSTIGVFGPETPKNKVPsiTITRPRTMYGVTKIAAELLGQYYYEK 154 Thermoplasma volca...
AAP07639   80 ATAEKNPlFAWNLNMGGLVNALEAAREl-nCKFFTPSSIGAFGPSTPKDNTPqdTIQRPTTMYGVNKVAGELLCDYYHQK 158 Bacillus cereus AT...
T29433    116 AVGETNVpLALQVNCRGVENILQVAAKh-kLKVFIPSTIGAFGPTTPRENTPdlTVQCPTTIYGVSKVYAERLGEYFNHR 194 nematode
CAJ68662   81 AVAESKPlEAWNLNMNGLINGLEIAKEl-dCKFFTPSSIAAFGENSPKNMTPqdTLQRPNTMYGVTKVSGELLCDYYHSK 159 Clostridium diffic...
NP_973000  83 AVAEKNPqLAYQINLTGLHNMLELSREq-kYSLFVPSSIAAFGPSTPADKTPqdTIQRPTSMYGVTKVAGELLCDYYHQK 161 Treponema denticol...
AAH63962  136 AVGEANVaLARAVNITGLHNILDIAAEh-gLRLFVPSTIGAFGPTSPRNPTPdlCVQRPRTIYGVSKVHAELMGEYYHHR 214 zebrafish
YP_016276  81 ATAEDKPqFAWHLNMTGLMNALETARKl-nLKFFTPSSIGAFGPETPKVNTPqdTIQRPKTMYGITKTAGELLCDYYYNK 159 Mycoplasma mobile ...
CAC12238   75 AKGEKDPdLAYRVNLNGTYNVLEAARRhslDKVIIPSTIGVFGPETPKRNVPsiTVLRPRTMYGVTKVAAELLGQYYYEK 154 Thermoplasma acido...
NP_522521  82 ATGEKAPqWAWDLNMRSLLNVLEKARQmgvERVFWPSSIAVFGPTTPRDGTPqkTVMEPTTVYGISKQAGEGWCRWYHAN 161 Ralstonia solanace...

Feature 1                                                                                     
2YY7_A    161 YGVDVRSIRYPGLISWstpPGGGTTDYAVDIFYKAIAdKKYECFLSSETKMPMMYMDDAIDATINIMKAPVEKIkihSSY 240 Flavobacterium fri...
3A1N_A    155 FGLDVRSLRYPGIISYkaePTAGTTDYAVEIFYYAVKrEKYKCYLAPNRALPMMYMPDALKALVDLYEADRDKLvlrNGY 234 Thermoplasma volca...
AAP07639  159 FGVDTRGVRFPGLISYvapPGGGTTDYAVEIYYEAIKkGAYTSYIAEGTYMDMMYMPDALQAIISLMEADPSKLvhrNAF 238 Bacillus cereus AT...
T29433    195 FGVDFRSMRFPGIISAt-kPGGGTTDYAIQIFYDALQkGKHTCYLRPDTRLPMMYDTDCMASVIQLLAADSQSLk-rRTY 272 nematode
CAJ68662  160 FGVDTRGVRFPGLISYvtpPGGGTTDYAVDIYYEALKnKRYKSYIAEGTKMDMMYMPDALQSIVDLIEAPADKLihrNAF 239 Clostridium diffic...
NP_973000 162 FGVDTRGVRFPGLISYealPGGGTTDYAVHIYYEALKkGAYTSFIKKGTLMDMMYMPDALNAIFKLLEADPAKLkhrNAF 241 Treponema denticol...
AAH63962  215 YGLDFRCLRYPGIISAdsqPGGGTTDYAVQIFHDAVKtGKFECNLKPDTRLPMMYIDDCLRATLEVMEAPLETLs-mRTY 293 zebrafish
YP_016276 160 FGVDTRGVRFPGLISYdtlPGGGTTDYAVEIYYEAIKkGMYKSPIGKGTYMDMMYMPDAIDSIIKLLETPQEKLihrNAF 239 Mycoplasma mobile ...
CAC12238  155 FRLDVRSLRYPGIISYmaePTAGTTDYAVEIFYYAVRmKKYTCYLQKNRRLPMMYMPDALRALTDLYEADSNKIslrNGY 234 Thermoplasma acido...
NP_522521 162 HGVDVRSMRYPGLISYktlPGGGTTDYAVDIFHAAVKgEPYTCFLDPDEALPMMYMPDAIRATIELMEAPAERLterGSY 241 Ralstonia solanace...

Feature 1                                                                              
2YY7_A    241 NLAAMSFTPTEIANEIKKhIPEFTITYEPDFRQK-IADSWPASIDDSQAREDWDWKh-TFDLESMTKDMIEHL 311 Flavobacterium frigidimaris
3A1N_A    235 NVTAYTFTPSELYSKIKErIPEFEIEYKEDFRDK-IAATWPESLDSSEASNEWGFSi-EYDLDRTIDDMIDHI 305 Thermoplasma volcanium GSS1
AAP07639  239 NITAMSFEPEQIAASIRKhIPTFTMDYAVDPARQtIADSWPNSIDATAAMKEWGFKa-EYDLDKMTTDMLAKL 310 Bacillus cereus ATCC 14579
T29433    273 NVTGFSFTPEEIADAIRRvMPGFEIDYDICPTRQsIADSWPMSLDDSEARNPYLNIqgPFGNFSENEKKQTCF 345 nematode
CAJ68662  240 NITAMSFSPEEIADSIKKyIPDFVIEYDVDPVRQsIADSWPNSLDSSSAVKEWNFKf-SYDLDKMTKDMLEKL 311 Clostridium difficile 630
NP_973000 242 NITAMSFAPETIAAEIKKhIPKFKMSYDVDPVRQaIADSWPNSLDDSCAKKEWGWKp-KYNLESMTKDMLEKL 313 Treponema denticola ATCC ...
AAH63962  294 NINAMSFTPEELANEVQKqLPDLQVSYEIDSVRQaIADSWPMNFDDTNARNDWGWKh-DYDLPELVQTMLNYI 365 zebrafish
YP_016276 240 NVSAMSFDPEEIKNSIKKfIPSFSMTYEVNPKLQkIANSWPDSLDVSAAKKEWGFSp-KYNLDEMSKDMIEKL 311 Mycoplasma mobile 163K
CAC12238  235 NVQAYSFTPEELYGKIAErINGFQIEYKPDYRDG-IAATWPESIDSSDAIKEWGFRy-DYDLDRTVDDMIDHI 305 Thermoplasma acidophilum
NP_522521 242 NIAGMTFTPAQIAAAIREhVPGFQIRYEPDYRQA-IAQGWPDSIDDSVARADWGWQa-EYGLESMVADMLVNL 312 Ralstonia solanacearum GM...

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