1U9J,1Z7E,2BLL,1Z75,1Z73,1Z7B,1Z74


Conserved Protein Domain Family
Arna_like_SDR_e
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cd05257: Arna_like_SDR_e 
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Arna decarboxylase_like, extended (e) SDRs
Decarboxylase domain of ArnA. ArnA, is an enzyme involved in the modification of outer membrane protein lipid A of gram-negative bacteria. It is a bifunctional enzyme that catalyzes the NAD-dependent decarboxylation of UDP-glucuronic acid and N-10-formyltetrahydrofolate-dependent formylation of UDP-4-amino-4-deoxy-l-arabinose; its NAD-dependent decaboxylating activity is in the C-terminal 360 residues. This subgroup belongs to the extended SDR family, however the NAD binding motif is not a perfect match and the upstream Asn of the canonical active site tetrad is not conserved. 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.
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Statistics
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PSSM-Id: 187567
Aligned: 24 rows
Threshold Bit Score: 317.319
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                                                                                       
1U9J_A       15 RVLILGVNGFIGNHLTERLLREDhYEVYGLDIGSDAISRFl-NHPHFHFVEGDISIHSEWieyHVKKCDVVLPLVAIATP 93  Escherichia coli
1Z7E_A      317 RVLILGVNGFIGNHLTERLLREDhYEVYGLDIGSDAISRFl-NHPHFHFVEGDISIHSEWieyHVKKCDVVLPLVAIATP 395 Escherichia coli
2BLL_A        2 RVLILGVNGFIGNHLTERLLREDhYEVYGLDIGSDAISRFl-NHPHFHFVEGDISIHSEWieyHVKKCDVVLPLVAIATP 80  Escherichia coli
1Z75_A       15 RVLILGVNGFIGNHLTERLLREDhYEVYGLDIGSDAISRFl-NHPHFHFVEGDISIHSEWieyHVKKCDVVLPLVAIATP 93  Escherichia coli
1Z73_A       15 RVLILGVNGFIGNHLTERLLREDhYEVYGLDIGSDAISRFl-NHPHFHFVEGDISIHSEWieyHVKKCDVVLPLVAIATP 93  Escherichia coli
1Z7B_A       15 RVLILGVNGFIGNHLTERLLREDhYEVYGLDIGSDAISRFl-NHPHFHFVEGDISIHSEWieyHVKKCDVVLPLVAIATP 93  Escherichia coli
1Z74_A       15 RVLILGVNGFIGNHLTERLLREDhYEVYGLDIGSDAISRFl-NHPHFHFVEGDISIHSEWieyHVKKCDVVLPLVAIATP 93  Escherichia coli
Q8D341      316 KILILGVNGFIGYHITNLLLKYNnYKIYGIDIKNNLVKSFi-GNEKFCFIKGDIKQYYNWvkkKIKKCDIILPLIAIARP 394 Wigglesworthia g...
AAQ58423      3 KVLILGVNGFIGHHLTKRIIETTdWEIYGMDMHADRVAEWk-DHPRFHFFEGDITINKEWieyHVKKCDVVLPLVAIATP 81  Chromobacterium ...
ZP_01167339   3 SVLITGVAGMIGSHLADILLEKG-HHVLGLDDLSVGSDVNlvEHESFKFINGSVLDSVLIe-nLVSKVDAVVHLATFKKG 80  Oceanospirillum ...

Feature 1                    #                      #                               #   #       
1U9J_A       94 IEYTRNPLRVFELDFEENLRIIRYCVKyRKRIIFPSTSEVYGMCs-dKYFDEDHSNlivgpvnKPRWIYSVSKQLLDRVI 172 Escherichia coli
1Z7E_A      396 IEYTRNPLRVFELDFEENLRIIRYCVKyRKRIIFPSTSEVYGMCs-dKYFDEDHSNlivgpvnKPRWIYSVSKQLLDRVI 474 Escherichia coli
2BLL_A       81 IEYTRNPLRVFELDFEENLRIIRYCVKyRKRIIFPSTSEVYGMCs-dKYFDEDHSNlivgpvnKPRWIYSVSKQLLDRVI 159 Escherichia coli
1Z75_A       94 IEYTRNPLRVFELDFEENLRIIRYCVKyRKRIIFPSTSEVYGMCs-dKYFDEDHSNlivgpvnKPRWIYSVSKQLLDRVI 172 Escherichia coli
1Z73_A       94 IEYTRNPLRVFELDFEENLRIIRYCVKyRKRIIFPSTAEVYGMCs-dKYFDEDHSNlivgpvnKPRWIYSVSKQLLDRVI 172 Escherichia coli
1Z7B_A       94 IEYTRNPLRVFELDFEENLRIIRYCVKyRKRIIFPSTSEVYGMCs-dKYFDEDHSNlivgpvnKPRWIYSVSKQLLDRVI 172 Escherichia coli
1Z74_A       94 IEYTRNPLRVFELDFEENLRIIRYCVKyRKRIIFPSTSEVYGMCs-dKYFDEDHSNlivgpvnKPRWIYSVSKQLLDRVI 172 Escherichia coli
Q8D341      395 MQYIKNPLKVFKIDFEENLKIIRYCVKyKKRIIFPSTSEVYGMCk-dDYFDEENSNlvtgaikNQRWIYSSSKQLLDRII 473 Wigglesworthia g...
AAQ58423     82 STYVNNPLRVFELDFEANLPIVRQCVKyKKHLVFPSTSEVYGMSqdaEFDPENSQLiyg-pinKPRWIYACSKQLMDRVI 160 Chromobacterium ...
ZP_01167339  81 SNLHESRSTLRLITQSADIVLDAAYRL-GKRVVLASTSDVYGHGt-sFPFRESDPVsyg-pfnTRRWAYATAKQYTEQLA 157 Oceanospirillum ...

Feature 1                                                                                       
1U9J_A      173 WAYGeKEGLQFTLFRPFNWMGPRLDNLNAARig----sSRAITQLILNLVEGSPIKLIDGGKQ-KRCFTDIRDGIEALYR 247 Escherichia coli
1Z7E_A      475 WAYGeKEGLQFTLFRPFNWMGPRLDNLNAARig----sSRAITQLILNLVEGSPIKLIDGGKQ-KRCFTDIRDGIEALYR 549 Escherichia coli
2BLL_A      160 WAYGeKEGLQFTLFRPFNWMGPRLDNLNAARig----sSRAITQLILNLVEGSPIKLIDGGKQ-KRCFTDIRDGIEALYR 234 Escherichia coli
1Z75_A      173 WAYGeKEGLQFTLFRPFNWMGPRLDNLNAARig----sSRAITQLILNLVEGSPIKLIDGGKQ-KRCFTDIRDGIEALYR 247 Escherichia coli
1Z73_A      173 WAYGeKEGLQFTLFRPFNWMGPRLDNLNAARig----sSRAITQLILNLVEGSPIKLIDGGKQ-KRCFTDIRDGIEALYR 247 Escherichia coli
1Z7B_A      173 WAYGeKEGLQFTLFRPFNWMGPRLDNLNAARig----sSRAITQLILNLVEGSPIKLIDGGKQ-KRCFTDIRDGIEALYR 247 Escherichia coli
1Z74_A      173 WAYGeKEGLQFTLFRPFNWMGPRLDNLNAARig----sSRAITQLILNLVEGSPIKLIDGGKQ-KRCFTDIRDGIEALYR 247 Escherichia coli
Q8D341      474 WAYGvKNNLNFTIFRPFNWIGPGLDDFKIAEkq----nARVTTQIIFNLINGLPVTIVNNGNQ-KRCFTDIDDGIEALFE 548 Wigglesworthia g...
AAQ58423    161 HAYAmEEGLNYTLFRPFNWIGGGLDNINTPKeg----sSRVITQFLGHIVRGETIKLVDGGHQ-KRAFTYVDDGISALMK 235 Chromobacterium ...
ZP_01167339 158 FDYA-HDGLDVRIIRYFGGFSERSCSGWQGGhlpifikRILENEALEIHGDGSQTRCVTYGADlALGTYLALITEDVEGE 236 Oceanospirillum ...

Feature 1                                                                                       
1U9J_A      248 IIENagnrcDGEIINIGn-pENEASIEELGEMLLASFEKHplrhhfppfagfrvvesssyyGKGYQDVEHRKPSIRNAHR 326 Escherichia coli
1Z7E_A      550 IIENagnrcDGEIINIGn-pENEASIEELGEMLLASFEKHplrhhfppfagfrvvesssyyGKGYQDVEHRKPSIRNAHR 628 Escherichia coli
2BLL_A      235 IIENagnrcDGEIINIGn-pENEASIEELGEMLLASFEKHplrhhfppfagfrvvesssyyGKGYQDVEHRKPSIRNAHR 313 Escherichia coli
1Z75_A      248 IIENagnrcDGEIINIGn-pENEASIEELGEMLLASFEKHplrhhfppfagfrvvesssyyGKGYQDVEHMKPSIRNAHR 326 Escherichia coli
1Z73_A      248 IIENagnrcDGEIINIGn-pENEASIEELGEMLLASFEKHplrhhfppfagfrvvesssyyGKGYQDVEHRKPSIRNAHR 326 Escherichia coli
1Z7B_A      248 IIENagnrcDGEIINIGn-pENEASIEELGEMLLASFEKHplrhhfppfagfrvvesssyyGKGYQDVEHEKPSIRNAHR 326 Escherichia coli
1Z74_A      248 IIENagnrcDGEIINIGn-pENEASIEELGEMLLASFEKHplrhhfppfagfrvvesssyyGKGYQDVEHYKPSIRNAHR 326 Escherichia coli
Q8D341      549 IIKNknnkcNKKIINIGnphNEYTIMQLTKIIINIIYSNNrnynfpkfsg-fnmlsgtnyyGEGYQDIDRRKPNIDIAKK 627 Wigglesworthia g...
AAQ58423    236 IIENkdgkaSGQIYNIGn-pANNYSIRELAQMMLDLARVYpeyqlnadkvqvvettsgqyyGKGYQDVQNRVPKIANTMA 314 Chromobacterium ...
ZP_01167339 237 LFNIg----GTEEISVKd-tALRIAEIAGLEEPAINYIDTke------------------iFGTYQEIQRRLPCLDKAKE 293 Oceanospirillum ...

Feature 1                               
1U9J_A      327 CLDWEPKIDMQETIDETLDFFLRT 350 Escherichia coli
1Z7E_A      629 CLDWEPKIDMQETIDETLDFFLRT 652 Escherichia coli
2BLL_A      314 CLDWEPKIDMQETIDETLDFFLRT 337 Escherichia coli
1Z75_A      327 CLDWEPKIDMQETIDETLDFFLRT 350 Escherichia coli
1Z73_A      327 CLDWEPKIDMQETIDETLDFFLRT 350 Escherichia coli
1Z7B_A      327 CLDWEPKIDMQETIDETLDFFLRT 350 Escherichia coli
1Z74_A      327 CLDWEPKIDMQETIDETLDFFLRT 350 Escherichia coli
Q8D341      628 LLNWTPKTKIRITLRKIINFFINN 651 Wigglesworthia glossinidia endosymbiont of Glossina brevipalpis
AAQ58423    315 DLDWKPGVTMADALRGIYDYYRDQ 338 Chromobacterium violaceum ATCC 12472
ZP_01167339 294 MLGYEPQWSFEKGVKQMISAYKKQ 317 Oceanospirillum sp. MED92

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