Abstract
Author SummaryBacteria are generally distinguished from the cells of fungi, plants, and animals (eukaryotes) not only by their much smaller size but also by the absence of certain subcellular structures such as nuclei, internal organelles, and microtubules. Using state-of-the-art microscopy, we demonstrate here that microtubules do exist in some bacteria. These bacterial microtubules are built from proteins that are closely related to the microtubule proteins in eukaryotes. Bacterial microtubules are smaller in diameter than their counterparts in eukaryotic cells but have the same basic architecture. We propose that bacterial microtubules represent primordial structures that preceded eukaryotic microtubules evolutionarily. Because bacterial microtubules can be produced and handled in the lab more easily than their eukaryotic counterparts, they may become useful tools for microtubule research and anti-cancer drug screening.
Highlights
Microtubules are among the most-studied eukaryotic subcellular structures [1,2,3,4]
All tubulins evolved from a common ancestor they share with the distantly related bacterial cell division protein FtsZ [5,6,7,8,9], but while eukaryotic a- and b-tubulins evolved into highly conserved tube-forming heterodimers [1,4], bacterial FtsZ presumably continued to function as single homopolymeric protofilaments as it does today [10]
Using state-of-the-art microscopy, we demonstrate here that microtubules do exist in some bacteria
Summary
Microtubules are among the most-studied eukaryotic subcellular structures [1,2,3,4]. Their crucial role in cell division, transport, and motility make them superb targets for anti-cancer drugs. 13 a/b-protofilaments align slightly staggered to form a hollow eukaryotic microtubule, but microtubule-like structures have not been described in BtubA/B preparations [17,19,21]. Together with additional phylogenetic sequence analyses, these results support the notion that BtubA/B microtubules represent an ancient evolutionary form that led to modern eukaryotic 13-protofilament microtubules.
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