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| Phospholipase C |
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Contribute to the pathogenesis by aiding in the lysis of host cells, via cleavage of phospholipids present in the host cell membrane, and by degrading phospholipids present at mucosal barriers to facilitate bacterial invasion. ... |
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| Phospholipase D |
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Contribute to the pathogenesis by aiding in the lysis of host cells, via cleavage of phospholipids present in the host cell membrane, and by degrading phospholipids present at mucosal barriers to facilitate bacterial invasion. ... |
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| alpha-toxin (CpPLC) |
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C. perfringens strains are classified into five groups (types A-E) on the basis of their production of four major toxins (known as the alpha-, beta-, epsilon-, and iota-toxins). All five toxin types of C. perfringens (A to E) carry and express the alpha-toxin structural gene, plc. ... |
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PlcA
(PI-PLC) |
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33-kDa, highly specific for PI, with a pH optimum between 5.5 and 6.5. Able to hydrolyze glycosyl PI(GPI)-anchored eukaryotic membrane proteins. ... |
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PlcB
(PC-PLC) |
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Secreted as an inactive propeptide, activated on cleavage by the Mpl. Active between pH 5.0 and 8.0. Also called lecithinase, zinc-dependent enzyme. ... |
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| Phospholipase C |
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Phospholipases can be divided into four groups depending on the position of the bond they hydrolyse on the phospholipid substrate: phospholipases A1, A2, C and D. ... |
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| Phospholipase C |
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Phospholipases can be divided into four groups depending on the position of the bond they hydrolyse on the phospholipid substrate: phospholipases A1, A2, C and D. ... |
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| Phospholipase C |
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Phospholipases can be divided into four groups depending on the position of the bond they hydrolyse on the phospholipid substrate: phospholipases A1, A2, C and D. ... |
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PLC
(Phospholipase C) |
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Degrading the phospholipid surfactant, which functions to reduce the surface tension so that the alveoli do not collapse completely when air leaves them during breathing. ... |
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| Phospholipase A2 |
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Two PLA2 enzymes (pat1 and pat2) have divergent evolutionary histories and discordant selective constraints, with pat2 deleted from most other non-TG rickettsiae genomes, while pat1 homologs are encoded in all sequenced Rickettsia genomes. Pat1 and Pat2 may be rvh T4SS substrates. ... |
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