7C5F,1CER,1DBV,1DSS,1GAD,1HDG,1OBF,1YWG,2D2I,2EP7,2X0N,2XF8,3DOC,3GNQ,3HJA,3HQ4,3K2B,3PYM,3STH,4DIB,4K9D,4O59,4P8R,4QX6,4Z0H,5J9G,5LD5,5UR0,5VMT,6DFZ,6FZI,6IQM,6M5X,6OK4,1ZNQ,7D1G,7JH0,7JWK


Conserved Protein Domain Family
GAPDH_I_C
?
cd18126: GAPDH_I_C 
C-terminal catalytic domain of type I glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and similar proteins
Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) plays an important role in glycolysis and gluconeogenesis by reversibly catalyzing the oxidation and phosphorylation of D-glyceraldehyde-3-phosphate to 1,3-diphospho-glycerate. It has been implicated in varied activities including regulating mRNA stability, the regulation of gene expression, induction of apoptosis, intracellular membrane trafficking, iron uptake and transport (via secreted GAPDH), heme metabolism, the maintenance of genomic integrity, and nuclear tRNA export. GAPDH proteins contains an N-terminal NAD(P)-binding domain and a C-terminal catalytic domain. The primarily N-terminal NAD(P)-binding domain contains a Rossmann fold which combines with the catalytic cysteine-containing C-terminus to form a catalytic cleft. Phosphatidyl-serine, RNA, and glutathione binding sites have been identified in the N-terminus. Different forms of GAPDH exist which utilize NAD (1.2.1.12), NADP (1.2.1.13) or either (1.2.1.59). The family corresponds to the ubiquitous NAD+ or NADP+ utilizing type I GAPDH and a small clade of dehydrogenases, called erythrose-4-phosphate dehydrogenase (E4PDH) proteins, which utilize NAD+ to oxidize erythrose-4-phosphate (E4P) to 4-phospho-erythronate, a precursor for the de novo synthesis of pyridoxine via 4-hydroxythreonine and D-1-deoxyxylulose.
Links
?
Statistics
?
PSSM-Id: 467676
Aligned: 153 rows
Threshold Bit Score: 212.701
Created: 22-May-2007
Updated: 27-Apr-2023
Structure
?
Program:
Drawing:
Aligned Rows:
Download Cn3D
 
catalytic siteNAD bindingtetramer
Conserved site includes 2 residues -Click on image for an interactive view with Cn3D
Feature 1: catalytic site [active site], 2 residue positions
Conserved feature residue pattern:C HClick to see conserved feature residue pattern help
Evidence:
  • Comment:The catalytic cysteine residue acts as the active site nucleophile; the histidine residue has been proposed to be an acid/base catalyst functioning in conjunction with the catalytic cysteine residue.
Download Cn3D for Viewing 3D StructureScroll to Sequence Alignment Display
Sequence Alignment
?
Format: Row Display: Color Bits: Type Selection: 
Feature 1     #                          #                                                    
7C5F_R    169 CTTNCLAPMAKALHDsFGIEVGTMTTIHAYTGtQSLVDGPRgk--dLRASRAAAENIIPHTtGAAKAIGLVIPelSGKLK 246 Escherichia coli B...
P58559    153 CTTNCLAPVVKVIHEgLGIKHGIITTIHDNTNtQTLVDAPHk---dLRRARATSLSLIPTTtGSATAIALIYPelKGKLN 229 Nostoc sp. PCC 7120
EAU53462  138 CTTNCLAPIVKVMHEsLGIKHGCMTTIHDITNtQTLVDKGHk---dLRRARACGQSLIPTStGSAKAITSIFPelEGKLN 214 Mariprofundus ferr...
EDM25591  153 CTTNCLAPVVKVINEkLGIKHGCMTTIHDITNtQTIIDAPHk---dLRRARACGESLIPTTtGSATAITVIYPelKGKLN 229 Lentisphaera arane...
ABY33268  153 CTTNCLAPIVKVIHEgIGIRHGMITTIHSSTNtQTVHDRPHk---dLRRARAASLSLIPTTtGSATAIGLIFPelQGKLD 229 Chloroflexus auran...
EED90700  154 CTTNCLAPVVKVIKEnFGIKHGCITTVHDVTGtQTIVDMPNtkksdLRRARSGMLNLCPTStGSATAIVEIYPelKGKLN 233 Thalassiosira pseu...
CBI65690  149 CTTNATAPLLKILDEaFKVENALLTTIHSYTNdQNLLDTKHk---dIRRARAASLNLIPTStGVSKAISLVLPhlGPKVT 225 Helicobacter pylor...
CEG01069  163 CTTNCIAPVIYTIHNeIGVHRGSITTVHNVTNtQCMVDAPNtkkddLRRARSGLVNLAPTStGSATAVQLIIPdlKGKLN 242 Ostreococcus tauri
OUV09842  149 CTTNCIAPVIKVIHEtFGLKHGMLTTLHDLTNtQTIVDAPHk---dLRRARSAVNSLIPTTtGSATAVTMIFPelKGRLN 225 Verrucomicrobiacea...
OUX01975  151 CTTNCLAPVVKVIHEqFGIEHGVITTIHDVTNtQVVVDAPHr---dLRRARSALNALIPTStGSATAITMIYPelAGRLD 227 Phycisphaeraceae b...

Feature 1                                                                                     
7C5F_R    247 GHAQRVPVKtGSVTELVSILGKk--vTAEEVNNALKQATTn---nESFGYTDEEIVSSDIIGSHFGSVFDATQteitavG 321 Escherichia coli B...
P58559    230 GIAVRVPLLnASLTDCVFEVTRp--tTVEEINALLKAASEqaplqGILGYEERPLVSIDYKDDPRSSIIDALStm---vV 304 Nostoc sp. PCC 7120
EAU53462  215 GLAVRVPLLnASLVDFVFEAARe--tDADEVNALFHSASEgv-lkGILGYEERPLVSVDYTNDPRSSVIDALStm---vI 288 Mariprofundus ferr...
EDM25591  230 GLAVRVPLLnGSLTDCVFELERp--tTKEEVNQFFKEASEsy-lkGILGYEEKPLVSVDYKDEKRSSVIDAPStm---vI 303 Lentisphaera arane...
ABY33268  230 GQAVRVPLLnASLTDCVFEVRRp--tTVAEVNGLLQAAAEga-lkGILAYETRPLVSIDFLGNPHSAIVDSLCtm---vT 303 Chloroflexus auran...
EED90700  234 GLAIRVPLLnASLTDCVFEIEKeggvTREEVNAALKKASEegplkGLLGYETKPLVSTDYTNDTRSCIIDALStq---vI 310 Thalassiosira pseu...
CBI65690  226 GLAIRVPTPnVSLVDLSLNFKKs--vSKASVQHALKDACKha-fkGVVGIDEERLVSSDFISSPFSAIVIDDQim---tI 299 Helicobacter pylor...
CEG01069  243 GLAVRVPLTnGSLSDIVLELKRp--vTRDEINALLKKHSEegplvGIMGFEEQPLVSTDFVNDSRSGIVDAEStm---vI 317 Ostreococcus tauri
OUV09842  226 GVAVRVPLLnASLTDLVLELEKe--vTVDEVNAALKAAAEgt-lkGILGYEEKPLVSADYTNDPRSGIIDAKStm---vV 299 Verrucomicrobiacea...
OUX01975  228 GIAVRVPLLnASLVDAVFTCRKp--vTVESVNGALRDASEgd-leGILGFETRPLVSTDFVNDPRSGIIDAPStm---vV 301 Phycisphaeraceae b...

Feature 1                   
7C5F_R    322 DLQLVKTVAWYDNE 335 Escherichia coli BL21(DE3)
P58559    305 DETQVKILAWYDNE 318 Nostoc sp. PCC 7120
EAU53462  289 DQTQVKVLAWYDNE 302 Mariprofundus ferrooxydans PV-1
EDM25591  304 NGTQVKILAWYDNE 317 Lentisphaera araneosa HTCC2155
ABY33268  304 NETQVKIYAWYDNE 317 Chloroflexus aurantiacus J-10-fl
EED90700  311 DGSMIKIYAWYDNE 324 Thalassiosira pseudonana CCMP1335
CBI65690  300 GEKNAKVLAWYDNE 313 Helicobacter pylori B8
CEG01069  318 DGTHLKLYVWYDNE 331 Ostreococcus tauri
OUV09842  300 NGTQLKLLVWYDNE 313 Verrucomicrobiaceae bacterium TMED86
OUX01975  302 GDRMVKILAWYDNE 315 Phycisphaeraceae bacterium TMED231

| Disclaimer | Privacy statement | Accessibility |
NCBI Home NCBI Search NCBI SiteMap