9.B.297.1.1
Archaeosortase A of 303 aas and 7 or 8 TMSs, probably in a 4 + 4 TMS arrangement. It is at ranspeptidase that recognizes and modifies its substrate by proteolytic
cleavage of a sorting signal. Following cleavage, a covalent
intermediate is formed via a thioester bond between the archaeosortase
and its substrate, which is then transferred and covalently attached to
the cell membrane. This sortase recognizes a tripartite
structure consisting of a conserved Pro-Gly-Phe (PGF) motif, followed by
a transmembrane alpha helix domain and a cluster of basic residues,
usually at the C-terminus of target proteins. Confirmed
substrates include the cell surface S-layer glycoprotein Csg and
HVO_0405 (Abdul Halim et al. 2013, Abdul Halim et al. 2015, Abdul Halim et al. 2017).
ArtA is required for the C-terminal processing of Csg and for its lipidation and attachment to the archaeal plasma membrane (Abdul Halim et al. 2013, Abdul Halim et al. 2015).
It is also required for the processing of HVO_0405, which contains an atypical central tripartite structure (Abdul Halim et al. 2017).
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| Accession Number: | D4GUZ4 |
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| Protein Name: | Archaeosortase A |
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| Length: | 303 |
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| Molecular Weight: | 33092.00 |
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| Species: | Haloferax volcanii (strain ATCC 29605 / DSM 3757 / JCM 8879 / NBRC 14742 / NCIMB 2012 / VKM B-1768 / DS2) [309800] |
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| Number of TMSs: | 7 |
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| Location1 / Topology2 / Orientation3: |
Cell membrane1 / Multi-pass membrane protein2 |
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| Substrate |
protein |
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1: MPGLLSDILA WVVIGTFVAG AVANGRDREL GRRVMTAAWV LFALFWLQLI PHFTLVHKSY
61: IEGLLTIAAV PASLYAGWLL YNGRDTLFVL SRAVAAMGVV YLPFETIPAF TLLGATVPAP
121: RGVLMETVAA QTRFLIESLG YTPQMIVGDQ GYLNTFLWMQ GSHRLEISVV LACTGLGSIA
181: IFAGLIAAVD APMGRKLRGL AIAVPIIYAL NLLRTTFIAI SVGKQYFHLF VDEVLFLFGS
241: SDPYMVSFFI SDRIISQALA VVALVGVTYL VVHEVPELLT VIEDVLYMVT GDEYDLRNEL
301: GLD