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MOMP (Major outer membrane protein) |
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A putative porin and a multifuction surface protein, may play an important role in adherence. ... |
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MOMP (Major outer membrane protein) |
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A putative porin and a multifuction surface protein, may play an important role in adherence. ... |
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PEB1 |
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An aspartate/glutamate-binding protein of an ABC transporter, essential for microaerobic growth on dicarboxylic amino acids. ... |
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PEB1 |
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An aspartate/glutamate-binding protein of an ABC transporter, essential for microaerobic growth on dicarboxylic amino acids. ... |
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PEB1 |
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An aspartate/glutamate-binding protein of an ABC transporter, essential for microaerobic growth on dicarboxylic amino acids. ... |
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PEB1 |
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An aspartate/glutamate-binding protein of an ABC transporter, essential for microaerobic growth on dicarboxylic amino acids. ... |
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PEB1 |
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An aspartate/glutamate-binding protein of an ABC transporter, essential for microaerobic growth on dicarboxylic amino acids. ... |
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Ctad1 (C. trachomatis adhesin 1) |
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Ctad1 homolog is found in all members of the genus Chlamydia. Ctad1 is extremely well conserved among C. trachomatis serovars with identities between 98% and 100%, while the identities and homologies with homologs from other chlamydia species vary from 51% to 83%, and 69% to 90% respectively. Ctad1 homologs with significant identities and homologies can also be identified in the chlamydia-like organisms Parachlamydia, Waddlia and Simkania. ... |
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Ctad1 (C. trachomatis adhesin 1) |
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Ctad1 homolog is found in all members of the genus Chlamydia. Ctad1 is extremely well conserved among C. trachomatis serovars with identities between 98% and 100%, while the identities and homologies with homologs from other chlamydia species vary from 51% to 83%, and 69% to 90% respectively. Ctad1 homologs with significant identities and homologies can also be identified in the chlamydia-like organisms Parachlamydia, Waddlia and Simkania. ... |
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Ctad1 (C. trachomatis adhesin 1) |
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Ctad1 homolog is found in all members of the genus Chlamydia. Ctad1 is extremely well conserved among C. trachomatis serovars with identities between 98% and 100%, while the identities and homologies with homologs from other chlamydia species vary from 51% to 83%, and 69% to 90% respectively. Ctad1 homologs with significant identities and homologies can also be identified in the chlamydia-like organisms Parachlamydia, Waddlia and Simkania. ... |
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