Add to ORKGMagnetotactic bacteria possess cellular compartments called magnetosomes that sense magnetic fields. Alignment of magnetosomes in the bacterial cell is necessary for their function, and this is achieved through anchoring of magnetosomes to filaments composed of the protein MamK. MamK is an actin homolog that polymerizes upon ATP binding. Here, we report the structure of the MamK filament at ∼6.5 Å, obtained by cryo-Electron Microscopy. This structure confirms our previously reported double-stranded, nonstaggered architecture, and reveals the molecular basis for filament formation. While MamK is closest in sequence to the bacterial actin MreB, the longitudinal contacts along each MamK strand most closely resemble those of eukaryotic act...
International audienceBacteria have recently revealed an unexpectedly complex level of intracellular...
Magnetosomes are membranous bacterial organelles sharing many features of eukaryotic organelles. Usi...
ABSTRACT: Bacteria have recently revealed an unexpectedly complex level of intracellular organizatio...
It is now recognized that actin-like proteins are widespread in bacteria and, in contrast to eukaryo...
Magnetotactic bacteria (MTB) synthesize magnetosomes, which are intracellular vesicles comprising a ...
Magnetotactic bacteria (MTB) synthesize magnetosomes, which are intracellular vesicles comprising a ...
Magnetotactic bacteria (MTB) synthesize magnetosomes, which are intracellular vesicles comprising a ...
ABSTRACT Magnetotactic bacteria (MTB), a group of phylogenetically diverse organisms that use their ...
Many bacterial species contain multiple actin-like proteins tasked with the execution of crucial cel...
Bacterial actins, in contrast to their eukaryotic counterparts, are highly divergent proteins whose...
Magnetotactic bacteria are able to swim navigating along geomagnetic field lines. They synthesize fe...
Magnetotactic bacteria synthesize magnetosomes, which are unique organelles consisting of membrane-e...
Magnetotactic bacteria are able to swim navigating along geomagnetic field lines. They synthesize fe...
Cellular organization is critical for life to flourish. Historically, this area of research has focu...
ABSTRACT Magnetotactic bacteria are a unique group of bacteria that synthesize a magnetic organelle ...
International audienceBacteria have recently revealed an unexpectedly complex level of intracellular...
Magnetosomes are membranous bacterial organelles sharing many features of eukaryotic organelles. Usi...
ABSTRACT: Bacteria have recently revealed an unexpectedly complex level of intracellular organizatio...
It is now recognized that actin-like proteins are widespread in bacteria and, in contrast to eukaryo...
Magnetotactic bacteria (MTB) synthesize magnetosomes, which are intracellular vesicles comprising a ...
Magnetotactic bacteria (MTB) synthesize magnetosomes, which are intracellular vesicles comprising a ...
Magnetotactic bacteria (MTB) synthesize magnetosomes, which are intracellular vesicles comprising a ...
ABSTRACT Magnetotactic bacteria (MTB), a group of phylogenetically diverse organisms that use their ...
Many bacterial species contain multiple actin-like proteins tasked with the execution of crucial cel...
Bacterial actins, in contrast to their eukaryotic counterparts, are highly divergent proteins whose...
Magnetotactic bacteria are able to swim navigating along geomagnetic field lines. They synthesize fe...
Magnetotactic bacteria synthesize magnetosomes, which are unique organelles consisting of membrane-e...
Magnetotactic bacteria are able to swim navigating along geomagnetic field lines. They synthesize fe...
Cellular organization is critical for life to flourish. Historically, this area of research has focu...
ABSTRACT Magnetotactic bacteria are a unique group of bacteria that synthesize a magnetic organelle ...
International audienceBacteria have recently revealed an unexpectedly complex level of intracellular...
Magnetosomes are membranous bacterial organelles sharing many features of eukaryotic organelles. Usi...
ABSTRACT: Bacteria have recently revealed an unexpectedly complex level of intracellular organizatio...