1I24,1QRR,1I2B


Conserved Protein Domain Family
SQD1_like_SDR_e
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cd05255: SQD1_like_SDR_e 
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UDP_sulfoquinovose_synthase (Arabidopsis thaliana SQD1 and related proteins), extended (e) SDRs
Arabidopsis thaliana UDP-sulfoquinovose-synthase ( SQD1), an extended SDR, catalyzes the transfer of SO(3)(-) to UDP-glucose in the biosynthesis of plant sulfolipids. Members of this subgroup share the conserved SDR catalytic residues, and a partial match to the characteristic extended-SDR NAD-binding motif. 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: 187565
Aligned: 11 rows
Threshold Bit Score: 596.676
Created: 12-Apr-2005
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                                                                                     
1I24_A     12 SRVMVIGGDGYCGWATALHLSKKNYEVCIVDNLVRRLFDH-QLGLESLTPIASIHDRISRWKALTGKSIE-LYVGDICDF 89  thale cress
1QRR_A      2 KRVMVIGGDGYCGWATALHLSKKNYEVCIVDNLVRRLFDH-QLGLESLTPIASIHDRISRWKALTGKSIE-LYVGDICDF 79  thale cress
1I2B_A     12 SRVMVIGGDGYCGWATALHLSKKNYEVCIVDNLVRRLFDH-QLGLESLTPIASIHDRISRWKALTGKSIE-LYVGDICDF 89  thale cress
BAC82433   83 TRVMIIGGDGYCGWATALHLSARGYEVCIVDNLCRRQFDL-QLGLDTLTPIATIHDRVRRWGEVSGKHIS-LQIGDICDW 160 Chlamydomonas rein...
BAB73443    1 MKVLVIGGDGYCGWATALYLSNRGYEVGILDSLVRRHWDN-ELGIETLTPIAPIQQRLQRWQDLTGKSID-LFVGDITNY 78  Nostoc sp. PCC 7120
AAV47944    1 MTILITGGDGYVGWPAALRIADRTDERVLLVDNFARRGWVeDVGATSATPVASIDERLDAAREVHGLTNLsFVEGDLAEK 80  Haloarcula marismo...
CAC12201    1 MKILIMGIDGYIGFPLAMRLLNRGHQVYGLDNYITRRRVS-KVGSDSALPILSFHERNRRLKRHFGHQIP-FFYGDASNP 78  Thermoplasma acido...
NP_343918   2 MKVIILGADGYLGWALALRLAKRGHEVIGVDNLYTRDAVR-EVGSDSAFPLPDPEERISAARKLLDVDIT-FYRADVKDF 79  Sulfolobus solfata...
YP_644017   1 MKVLVLGGDGYCGWPTALHLSEAGHEVVIVDNFVRRQIDH-ELGVQSLTPIRTLSERVRAWKEVSGQKIG-VEVGDLLDW 78  Rubrobacter xylano...
YP_343524   1 MKILILGGDGFCGWPTSLHLSALGHEVAIVDNLSRRCIDV-ELECESLTPIRPLGERLRAWKEISGKTIAfHNFDVAVNY 79  Nitrosococcus ocea...
NP_386851   1 MKIAVLGGDGFVGWPTALHLSDAGHEVHILDNLSRRWIDT-ELGVQSLTPMDSIQERTRIWHAETGRRIHfNLIDLARDY 79  Sinorhizobium meli...

Feature 1                                             #                         #             
1I24_A     90 EFLAESFKSFEPDSVVHFGEQRSAPYSMIDRSRAVYTQHNNVIGTLNVLFAIKEFg-eECHLVKLGTMGEYGTPNID--I 166 thale cress
1QRR_A     80 EFLAESFKSFEPDSVVHFGEQRSAPYSMIDRSRAVYTQHNNVIGTLNVLFAIKEFg-eECHLVKLGTMGEYGTPNID--I 156 thale cress
1I2B_A     90 EFLAESFKSFEPDSVVHFGEQRSAPYSMIDRSRAVYTQHNNVIGTLNVLFAIKEFg-eECHLVKLGAMGEYGTPNID--I 166 thale cress
BAC82433  161 EFLSQAFTSFKPNHVVHFGEQRSAPYSMIDRQKAVFTQHNNVIGTINVLFAIKELq-pDCHMVKLGTMGEYGTPNID--I 237 Chlamydomonas rein...
BAB73443   79 EFLQKALHKFEPNAIVHFGEQRSAPFSMIDREHAVVTQVNNVVGTLNLLYAMKEDf-pDCHLVKLGTMGEYGTPNID--I 155 Nostoc sp. PCC 7120
AAV47944   81 SFVDELLAVHEPEVVVHTAAQPSAPYSQINGERANYTQHNNLQATRNLLWGLEEHdltDTHFVETTTTGVYGAPEFP--I 158 Haloarcula marismo...
CAC12201   79 DFVYKVIEKIRPDAVVHLAEQRSAPYSMIGLREANETMVKNITSTMNLIYAIKDIv-pEAHILKLGTMGEYGTPNID--I 155 Thermoplasma acido...
NP_343918  80 DKLHEIIQRHKPEAIVHFAEQRSAPYSMIDVNHANYTLINNLTSTINLIYSIIKVd-pSIHILKMGTMGEYGTPNYD--I 156 Sulfolobus solfata...
YP_644017  79 EFVAGFMRRHRPDAVVHFAEQRAAPYSMIDRAHAVYTQHNNVIGTLNLLFAIRDFa-pECHLVKLGTMGEYGTPNID--I 155 Rubrobacter xylano...
YP_343524  80 QRLLDLLREWQPHAIVHFAEQRAAPYSMKSSHHKRYTVSNNLNATNNVLAAVVESg-qDIHIAHLGTMGVYGYGTAGmkI 158 Nitrosococcus ocea...
NP_386851  80 ELLKNWLAEHRPDAVVHFAEQRAAPYSMKSDRHKNYTVNNNVNATHNLLNALVELe-lDAHLVHLGTMGVYGYSTIGaaI 158 Sinorhizobium meli...

Feature 1                                    #   #                                            
1I24_A    167 EEGYITIT---HNGRTDTL---PYPKQASSFYHLSKVHDSHNIAFTCKAWGIRATDLNQGVVYGVktDETEMHEE-LRNR 239 thale cress
1QRR_A    157 EEGYITIT---HNGRTDTL---PYPKQASSFYHLSKVHDSHNIAFTCKAWGIRATDLNQGVVYGVktDETEMHEE-LRNR 229 thale cress
1I2B_A    167 EEGYITIT---HNGRTDTL---PYPKQASSFYHLSKVHDSHNIAFTCKAWGIRATDLNQGVVYGVktDETEMHEE-LRNR 239 thale cress
BAC82433  238 EEGYITIN---HNGRTDTL---PYPKQGNSFYHLSKIHDSTNMLFTCKAWKIAATDLNQGVVYGVrtDETMADPL-LLNR 310 Chlamydomonas rein...
BAB73443  156 EEGYITIE---HNGRKDTL---PYPKQPGSMYHLSKVHDSHNIHFACRIWGLRATDLNQGVVYGVltEETGMDEL-LINR 228 Nostoc sp. PCC 7120
AAV47944  159 PEGGSTME---NQGERDEV---PFPNMGGSWYHATKGFDAQNMRLAHTQFDIPISDVRTAIVYGTetEETRADDR-LKTR 231 Haloarcula marismo...
CAC12201  156 PEGFFEIE---YNGRRDVL---PFPKNAGSWYHWTKVHDSNNLMFANRVWNLAVTDVMQGVVYGT--KTQEIDETgLYTR 227 Thermoplasma acido...
NP_343918 157 LESPFVEVe--INGKKDKI---PFPKWASSWYHWSKVYDSYNLMWANKVWNLTITDIMQGPVYGT--RTEEIIDEkLRTR 229 Sulfolobus solfata...
YP_644017 156 EEGFIEIE---HNGRRDVV---PYPKQPGSFYHLSKVHDSHNIMFACRIWGIRSTDLNQGVVYGTitAQTEQDER-LINR 228 Rubrobacter xylano...
YP_343524 159 PEGYLQVKvetDEGKLLDNe-iLYPANPGSIYHMTKTQDQLLFFFYNKNDKVRITDLHQGIVWGTqtQETRLDER-LINR 236 Nitrosococcus ocea...
NP_386851 159 PEGYLPVGi-eTMGEETVNqeiLYPSNPGSVYHMTKCLDQLLFQFYAKNDGLRITDLHQGIVWGThtEQTRRHPQ-LINR 236 Sinorhizobium meli...

Feature 1                                                                                     
1I24_A    240 LDYDAVFGTALNRFCVQAAVGHPLTVYGKGGQTRGYLDIRDTVQCVEIAIANP--AKAGEFRVFNQFTEQFSVNELASLV 317 thale cress
1QRR_A    230 LDYDAVFGTALNRFCVQAAVGHPLTVYGKGGQTRGYLDIRDTVQCVEIAIANP--AKAGEFRVFNQFTEQFSVNELASLV 307 thale cress
1I2B_A    240 LDYDAVFGTALNRFCVQAAVGHPLTVYGKGGQTRGYLDIRDTVQCVEIAIANP--AKAGEFRVFNQFTEQFSVNELASLV 317 thale cress
BAC82433  311 YDYDGIFGTALNRFVVQAAVGHPLTVYGKGGQTRGFLDIRDTVRCIQLAIDNP--APKGEMRVYNQFTEQFSVNQLAEIV 388 Chlamydomonas rein...
BAB73443  229 LDYDGVFGTALNRFCIQAATGHPLTVYGTGGQTRGFLDIRDTVRCVELAIANP--APSGEFRVFNQFTEQFSVGDLALMV 306 Nostoc sp. PCC 7120
AAV47944  232 FDFDYYFGTVTHRFCAQAVAGYPVTVYGKGEQRKPFISLEDAVEGLAEVALTDpdERPEGLTVYNQVTRAISIVEIAETI 311 Haloarcula marismo...
CAC12201  228 FDIDEVYGTALNRFTAEAIIDMPLTVYGKGGQTRGFLSLNDSIQCLTLALEKP--PKAGEYRVLNQFDEKYSVGQLAEMV 305 Thermoplasma acido...
NP_343918 230 FDFDEVWGTVVNRYCVEAVLGLPLTPYGKGGQTRGFISLEDSMQALTILLEHP--PSQGEYRVVNQIHEVYSVGQIANMV 307 Sulfolobus solfata...
YP_644017 229 FDYDEVFGTVLNRFCIQAAVGHPLTVYGKGGQTRGFLDIRDTVRCVELAIENP--PEEGEYRVFNQFTEEFSVRELAEKV 306 Rubrobacter xylano...
YP_343524 237 FDYDGDYGTVLNRFLMQASIGYPLTVHGTGGQTRAFIHIQDTVQCIQIALENPp-APGDRVQIFNQMTETHRVRDLAQML 315 Nitrosococcus ocea...
NP_386851 237 FDYDGDYGTVLNRFLIQAAIDYPLTVHGTGGQTRAFIHIQDSVRCIELALRNPp-ARGSRVEIFNQMTETHRIRDLAEMV 315 Sinorhizobium meli...

Feature 1                                                                                    
1I24_A    318 Tk-AGSKLGLdvkkmtVPNPRVEAEEHYYNAKHTKLMELGLEPHYLsDSLLDSLLNFAVQFKD--RVDTKQIMPSVSWK 393 thale cress
1QRR_A    308 Tk-AGSKLGLdvkkmtVPNPRVEAEEHYYNAKHTKLMELGLEPHYLsDSLLDSLLNFAVQFKD--RVDTKQIMPSVSWK 383 thale cress
1I2B_A    318 Tk-AGSKLGLdvkkmtVPNPRVEAEEHYYNAKHTKLMELGLEPHYLsDSLLDSLLNFAVQFKD--RVDTKQIMPSVSWK 393 thale cress
BAC82433  389 Er-EGKKLGLnvevtkVPNPRVELEEHYYNAKCTKLRDLGLQPHLLaDSMIDSLLEFAVTYKD--RVRHELIKPAVDWR 464 Chlamydomonas reinh...
BAB73443  307 Kk-AGNALGLnveinnLDNPRIEKEEHYFNAKNTKLLDLGLQPHYLsDSLLDSLLNFAVKYQG--RVDQKQILPKVSWH 382 Nostoc sp. PCC 7120
AAV47944  312 Ad-VGSEYDLdvavehFENPRDEDETHKMEIENDRYADLIGGQSQSfEDGVDDIFGTLTRYADtiEAHEDRFLPGVLSE 389 Haloarcula marismor...
CAC12201  306 QriFENEYGKrpeiahLDNPRVEKEEHYYNPEHRKLEEMGYRRTKIiEEEIVDAISDLSKFRDriYNLRGTLMPKTFWK 384 Thermoplasma acidop...
NP_343918 308 Ke-VGESMGLtvkiqnVNNPRVEKEEHYYNVETKILPSLGFSPKKNlKNEIRNIIEDLIPYKNrlESFKHVILPKTDWR 385 Sulfolobus solfatar...
YP_644017 307 Ve-AAAKLGVearvenLPNPRVEAEEHYYNAKHTKLLDLGLKPHYLsESLLDSLLNIALEHRE--RVDEAAILPRVDWR 382 Rubrobacter xylanop...
YP_343524 316 SerTGVKIDY------LSNPRNEADENDLHVKNDRFLALGLDPITLnEGLMEEVTDIARKYAH--RCDQSKIPCTSLWK 386 Nitrosococcus ocean...
NP_386851 316 ArmTGAKIAW------LPNPRKEAAENELVVRNEKFLALGLNPVRLeDGLLSEIVDVAKKFAY--RVDRSRVPAVSAWT 386 Sinorhizobium melil...

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