Organelle positioning and cell polarity, Nat Rev Mol Cell Biol, vol.401, pp.874-886, 2008. ,
Exploration into the spatial and temporal 403 mechanisms of bacterial polarity, Trends Microbiol, vol.15, pp.101-108, 2007. ,
How do bacteria localize proteins to the cell 405 pole?, J Cell Sci, vol.127, pp.11-19, 2014. ,
Edelstein-Keshet L: Mechanisms of cell polarization, Curr Opin, p.407 ,
, Syst Biol, vol.3, pp.43-53, 2017.
Generating and exploiting polarity in 409 bacteria, Science, vol.298, pp.1942-1946, 2002. ,
Regulation of cell polarity in 411 bacteria, J Cell Biol, vol.206, pp.7-17, 2014. ,
Poles apart: prokaryotic polar organelles and 413 their spatial regulation, Cold Spring Harb Perspect Biol, 2011. ,
The bacterial Min system, Curr Biol, vol.415, pp.553-556, 2013. ,
The Min-protein oscillations in Escherichia coli: an 417 example of self-organized cellular protein waves, Philos Trans R Soc, vol.418 ,
, Lond B Biol Sci, p.373, 2018.
, , p.420
Mauriello E: How bacteria arrange their organelles. Elife 2019, 8. 423 12. Bange G, Sinning I: SIMIBI twins in protein targeting and localization, Nat 424 Struct Mol Biol, vol.20, pp.776-780, 2013. ,
ATPase and GTPase tangos drive intracellular protein 426 transport, Trends Biochem Sci, vol.41, pp.1050-1060, 2016. ,
, , p.428
Biogeography 429 and phylogenetic diversity of a cluster of exclusively marine 430 myxobacteria, ISME J, vol.6, pp.1260-1272, 2012. ,
, Reichenbach H: The ecology of the myxobacteria, Environ Microbiol, vol.15, pp.15-21, 1999.
Extracellular biology of 434 Myxococcus xanthus, FEMS Microbiol Rev, vol.34, pp.89-106, 2010. ,
, , vol.436
Myxobacteria: moving, killing, feeding, and surviving 437 together, Front Microbiol, vol.7, p.781, 2016. ,
Regulations governing the multicellular lifestyle of 439 Myxococcus xanthus, Curr Opin Microbiol, vol.34, pp.104-110, 2016. ,
, , p.441
Architecture of the type IVa pilus machine, Science, p.2001, 2016. ,
Regulation of cell polarity in motility 444 and cell division in Myxococcus xanthus, Annu Rev Microbiol, vol.445, pp.61-78, 2017. ,
, , p.447
The mechanism of 448 force transmission at bacterial focal adhesion complexes, Nature, vol.449, pp.530-535, 2016. ,
Making waves: pattern formation by a 451 cell-surface-associated signal, Trends Microbiol, vol.13, pp.249-252, 2005. ,
The 453 mechanistic basis of Myxococcus xanthus rippling behavior and its 454 physiological role during predation, PLoS Comput Biol, vol.455, p.1002715, 2012. ,
Rippling is a predatory 457 behavior in Myxococcus xanthus, J Bacteriol, vol.188, pp.5888-5895, 2006. ,
Directional 459 reversals enable Myxococcus xanthus cells to produce collective 460 one-dimensional streams during fruiting-body formation, J R Soc, vol.461, 2015. ,
,
Regulation of dynamic polarity switching in bacteria by a 464 ,
, Ras-like G-protein and its cognate GAP, EMBO J, vol.29, pp.2276-2289, 2010.
466 Bacterial motility complexes require the actin-like protein, MreB and 467 the Ras homologue, MglA, EMBO J, vol.29, pp.315-326, 2010. ,
, , p.469
, , p.470
, MglA connects to the MreB actin cytoskeleton at bacterial focal 471 adhesions, J Cell Biol, vol.210, pp.243-256, 2015.
A bacterial Ras-like small GTP-473 binding protein and its cognate GAP establish a dynamic spatial 474 polarity axis to control directed motility, PLoS Biol, vol.8, 2010. ,
, , p.476
, , p.477
, GTPase MglA by localized RomR-RomX GEF and MglB GAP activities 478 enables Myxococcus xanthus motility, Nat Microbiol, 2019.
, A response 480 regulator interfaces between the Frz chemosensory system and the 481
, MglA/MglB GTPase/GAP module to regulate polarity in Myxococcus 482 xanthus, PLoS Genet, vol.8, p.1002951, 2012.
A dynamic response 484 regulator protein modulates G-protein-dependent polarity in the 485 bacterium Myxococcus xanthus, PLoS Genet, vol.8, p.1002872, 2012. ,
, , p.487
A gated relaxation 488 ,