ProGP249 (Ag43α (Antigen 43 passenger domain))
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| ProGP ID | ProGP249 (Ag43α (Antigen 43 passenger domain)) | ||||||||||||||||||
| Validation Status | Characterized | ||||||||||||||||||
| Organism Information | |||||||||||||||||||
| Organism Name | Escherichia coli K12 | ||||||||||||||||||
| Domain | Bacteria | ||||||||||||||||||
| Classification | Family: Enterobacteriaceae Order: "Enterobacteriales" Class: Gammaproteobacteria Division or phylum: "Proteobacteria" | ||||||||||||||||||
| Taxonomic ID (NCBI) | 83333 | ||||||||||||||||||
| Genome Information | |||||||||||||||||||
| GenBank | U00096.2 | ||||||||||||||||||
| EMBL | U00096 | ||||||||||||||||||
| Organism Additional Information | Escherichia coli (Gram-negative) is the predominant facultative organism in the human intestine. It is responsible for a number of diseases like urinary tract infections, gastroenteritis (diarrhoea), meningitis, traveler's diarrhea and hemorrhagic colitis. There are a myriad of serotypes of pathogenic E. coli. Adhesion to the host cells is an important step in its pathogenesis. However, most strains are harmless and normal flora residing in the gut. | ||||||||||||||||||
| Gene Information | |||||||||||||||||||
| Gene Name | flu | ||||||||||||||||||
| NCBI Gene ID | 946540 | ||||||||||||||||||
| GenBank Gene Sequence | NC_000913.2 | ||||||||||||||||||
| Protein Information | |||||||||||||||||||
| Protein Name | Ag43α (Antigen 43 passenger domain) | ||||||||||||||||||
| UniProtKB/SwissProt ID | P39180 | ||||||||||||||||||
| NCBI RefSeq | YP_026164.1 | ||||||||||||||||||
| EMBL-CDS | AAT48141.1 | ||||||||||||||||||
| UniProtKB Sequence | >sp|P39180|AG43_ECOLI Antigen 43 OS=Escherichia coli (strain K12) GN=flu PE=1 SV=3 MKRHLNTCYRLVWNHMTGAFVVASELARARGKRGGVAVALSLAAVTSLPVLAADIVVHPG ETVNGGTLANHDNQIVFGTTNGMTISTGLEYGPDNEANTGGQWVQDGGTANKTTVTSGGL QRVNPGGSVSDTVISAGGGQSLQGRAVNTTLNGGEQWMHEGAIATGTVINDKGWQVVKPG TVATDTVVNTGAEGGPDAENGDTGQFVRGDAVRTTINKNGRQIVRAEGTANTTVVYAGGD QTVHGHALDTTLNGGYQYVHNGGTASDTVVNSDGWQIVKNGGVAGNTTVNQKGRLQVDAG GTATNVTLKQGGALVTSTAATVTGINRLGAFSVVEGKADNVVLENGGRLDVLTGHTATNT RVDDGGTLDVRNGGTATTVSMGNGGVLLADSGAAVSGTRSDGKAFSIGGGQADALMLEKG SSFTLNAGDTATDTTVNGGLFTARGGTLAGTTTLNNGAILTLSGKTVNNDTLTIREGDAL LQGGSLTGNGSVEKSGSGTLTVSNTTLTQKAVNLNEGTLTLNDSTVTTDVIAQRGTALKL TGSTVLNGAIDPTNVTLASGATWNIPDNATVQSVVDDLSHAGQIHFTSTRTGKFVPATLK VKNLNGQNGTISLRVRPDMAQNNADRLVIDGGRATGKTILNLVNAGNSASGLATSGKGIQ VVEAINGATTEEGAFVQGNRLQAGAFNYSLNRDSDESWYLRSENAYRAEVPLYASMLTQA MDYDRIVAGSRSHQTGVNGENNSVRLSIQGGHLGHDNNGGIARGATPESSGSYGFVRLEG DLMRTEVAGMSVTAGVYGAAGHSSVDVKDDDGSRAGTVRDDAGSLGGYLNLVHTSSGLWA DIVAQGTRHSMKASSDNNDFRARGWGWLGSLETGLPFSITDNLMLEPQLQYTWQGLSLDD GKDNAGYVKFGHGSAQHVRAGFRLGSHNDMTFGEGTSSRAPLRDSAKHSVSELPVNWWVQ PSVIRTFSSRGDMRVGTSTAGSGMTFSPSQNGTSLDLQAGLEARVRENITLGVQAGYAHS VSGSSAEGYNGQATLNVTF | ||||||||||||||||||
| Sequence length | 1039 AA | ||||||||||||||||||
| Subcellular Location | Secreted | ||||||||||||||||||
| Function | Self-associating autotransporters (SAAT). It is the extracellular passenger domain of the E. coli autotransporter which represents a branch of the type V secretion pathway. Mediates bacterial autoaggregation (Ag43 interacts with Ag43 intercellularly) and biofilm formation as well as adhesion to and invasion of mammalian cells. It causes frizzy colony morphology and cell settling. | ||||||||||||||||||
| Glycosylation Status | |||||||||||||||||||
| Glycosylation Type | O- (Ser) linked | ||||||||||||||||||
| Experimentally Validated Glycosite(s) in Full Length Protein | (Signal pepide: 1-52; sequence beyond 551 is cleaved during secretion) T87, T113, S117, S135, T149, T150, T229, T232, T287/T288, S317, S332, S396, S406, S422, T487, S491, S503 | ||||||||||||||||||
| Experimentally Validated Glycosite(s ) in Mature Protein | T35, T61, S65, S83, T97, T98, T177, T180, T235/T236, S265, S280, S344, S354, S370, T435, S439, S451 | ||||||||||||||||||
| Glycosite(s) Annotated Protein Sequence | >sp|P39180|AG43_ECOLI Antigen 43 OS=Escherichia coli (strain K12) GN=flu PE=1 SV=3 MKRHLNTCYRLVWNHMTGAFVVASELARARGKRGGVAVALSLAAVTSLPVLAADIVVHPG ETVNGGTLANHDNQIVFGTTNGMTIST*(87)GLEYGPDNEANTGGQWVQDGGTANKT*(113)TVTS*(117)GGL QRVNPGGSVSDTVIS*(135)AGGGQSLQGRAVNT*(149)T(150)LNGGEQWMHEGAIATGTVINDKGWQVVKPG TVATDTVVNTGAEGGPDAENGDTGQFVRGDAVRTTINKNGRQIVRAEGT*(229)ANT*(232)TVVYAGGD QTVHGHALDTTLNGGYQYVHNGGTASDTVVNSDGWQIVKNGGVAGNT*(287)T*(288)VNQKGRLQVDAG GTATNVTLKQGGALVTS*(317)TAATVTGINRLGAFS*(332)VVEGKADNVVLENGGRLDVLTGHTATNT RVDDGGTLDVRNGGTATTVSMGNGGVLLADSGAAVS*(396)GTRSDGKAFS*(406)IGGGQADALMLEKG SS*(422)FTLNAGDTATDTTVNGGLFTARGGTLAGTTTLNNGAILTLSGKTVNNDTLTIREGDAL LQGGSLT*(487)GNGS*(491)VEKSGSGTLTVS*(503)NTTLTQKAVNLNEGTLTLNDSTVTTDVIAQRGTALKL TGSTVLNGAIDPTNVTLASGATWNIPDNATVQSVVDDLSHAGQIHFTSTRTGKFVPATLK VKNLNGQNGTISLRVRPDMAQNNADRLVIDGGRATGKTILNLVNAGNSASGLATSGKGIQ VVEAINGATTEEGAFVQGNRLQAGAFNYSLNRDSDESWYLRSENAYRAEVPLYASMLTQA MDYDRIVAGSRSHQTGVNGENNSVRLSIQGGHLGHDNNGGIARGATPESSGSYGFVRLEG DLMRTEVAGMSVTAGVYGAAGHSSVDVKDDDGSRAGTVRDDAGSLGGYLNLVHTSSGLWA DIVAQGTRHSMKASSDNNDFRARGWGWLGSLETGLPFSITDNLMLEPQLQYTWQGLSLDD GKDNAGYVKFGHGSAQHVRAGFRLGSHNDMTFGEGTSSRAPLRDSAKHSVSELPVNWWVQ PSVIRTFSSRGDMRVGTSTAGSGMTFSPSQNGTSLDLQAGLEARVRENITLGVQAGYAHS VSGSSAEGYNGQATLNVTF | ||||||||||||||||||
| Sequence Around Glycosites (21 AA) | FGTTNGMTISTGLEYGPDNEA
WVQDGGTANKTTVTSGGLQRV GGTANKTTVTSGGLQRVNPGG PGGSVSDTVISAGGGQSLQGR GQSLQGRAVNTTLNGGEQWMH QSLQGRAVNTTLNGGEQWMHE NGRQIVRAEGTANTTVVYAGG QIVRAEGTANTTVVYAGGDQT IVKNGGVAGNTTVNQKGRLQV VKNGGVAGNTTVNQKGRLQVD TLKQGGALVTSTAATVTGINR VTGINRLGAFSVVEGKADNVV VLLADSGAAVSGTRSDGKAFS SGTRSDGKAFSIGGGQADALM ADALMLEKGSSFTLNAGDTAT GDALLQGGSLTGNGSVEKSGS LQGGSLTGNGSVEKSGSGTLT EKSGSGTLTVSNTTLTQKAVN | ||||||||||||||||||
| ProGP Web Logo |   Technique(s) used for Glycosylation Detection | Labelling with digoxigenin (DIG)-conjugated hydrazide. Subsequently, the DIG-labelled structures were detected with peroxidase-conjugated anti-DIG antibodies.. | Technique(s) used for Glycosylated Residue(s) Detection | Automated LC-ESI–MS/MS (liquid chromatography electrospray ionization tandem mass spectrometry) with CID (collision induced dissociation) and ETD (electron transfer dissociation) after β-elimination. | Protein Glycosylation- Implication | Glycosylation protects Ag43α against native-state proteolysis and stabilizes it against thermal and chemical denaturation, and also increases its refolding rate. It reduces the stabilizing effect of Ca2+ ions, prevents Ca2+ to promote cell adhesion and inhibits the bacterial amyloid-forming ability of Ag43α. | Glycan Information | Glycan Annotation | Multiple heptose residues. | Protein Glycosylation linked (PGL) gene(s) | OST Gene Name | Aah is the heptosyltransferase. Tib C (E. coli (ETEC) strain H10407) has sequence similarity with Aah gene and it can substitute function of Aah. | OST ProGT ID | ProGT8 (Aah) | Literature | | |||
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