期刊
ENVIRONMENTAL MICROBIOLOGY
卷 14, 期 12, 页码 3188-3202出版社
WILEY
DOI: 10.1111/j.1462-2920.2012.02898.x
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资金
- Max Planck Society
- National Institutes of Health [EB001567]
Archaea display a variety of type IV pili on their surface and employ them in different physiological functions. In the crenarchaeon Sulfolobus acidocaldarius the most abundant surface structure is the aap pilus (archaeal adhesive pilus). The construction of in frame deletions of the aap genes revealed that all the five genes (aapA, aapX, aapE, aapF, aapB) are indispensible for assembly of the pilus and an impact on surface motility and biofilm formation was observed. Our analyses revealed that there exists a regulatory cross-talk between the expression of aap genes and archaella (formerly archaeal flagella) genes during different growth phases. The structure of the aap pilus is entirely different from the known bacterial type IV pili as well as other archaeal type IV pili. An aap pilus displayed 3 stranded helices where there is a rotation per subunit of similar to 138 degrees and a rise per subunit of similar to 5.7 angstrom. The filaments have a diameter of similar to 110 angstrom and the resolution was judged to be similar to 9 angstrom. We concluded that small changes in sequence might be amplified by large changes in higher-order packing. Our finding of an extraordinary stability of aap pili possibly represents an adaptation to harsh environments that S.?acidocaldarius encounters.
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