AbstractMembers of the actin-like MreB family of proteins localize as a helical filament in bacteria and are important for determining cylindrical cell shape. Recent results show that new cell wall biosynthesis occurs along a helical track dependent on one of these actin homologs, providing new insights into bacterial cell growth, division and shape
SummaryMreB proteins are bacterial actin homologs involved in cell morphogenesis and various other c...
Rod-like bacteria maintain their cylindrical shapes with remarkable precision during growth. However...
Prokaryotic cells possess filamentous proteins, analogous to eukaryotic cytoskeletal proteins, that ...
AbstractMembers of the actin-like MreB family of proteins localize as a helical filament in bacteria...
Prokaryotes come in a wide variety of shapes, determined largely by natural selection, physical cons...
Prokaryotes come in a wide variety of shapes, determined largely by natural selection, physical cons...
Cell shape matters across the kingdoms of life, and cells have the remarkable capacity to define and...
AbstractBacterial cells exhibit a wide variety of shapes. Recent results indicate that the character...
AbstractCell shape in most eubacteria is maintained by a tough external peptidoglycan cell wall. Rec...
AbstractCell shape in most eubacteria is maintained by a tough external peptidoglycan cell wall. Rec...
AbstractIn bacteria, cytoskeletal filament bundles such as MreB control the cell morphology and dete...
AbstractVarious cell shapes are encountered in the prokaryotic world, but how they are achieved is p...
SummaryThe bacterial actin-like protein MreB is thought to form a continuous helical polymer at the ...
Bacteria have remarkably robust cell shape control mechanisms. For example, cell diameter only varie...
Bacterial actin homologue MreB is required for cell shape maintenance in most non-spherical bacteria...
SummaryMreB proteins are bacterial actin homologs involved in cell morphogenesis and various other c...
Rod-like bacteria maintain their cylindrical shapes with remarkable precision during growth. However...
Prokaryotic cells possess filamentous proteins, analogous to eukaryotic cytoskeletal proteins, that ...
AbstractMembers of the actin-like MreB family of proteins localize as a helical filament in bacteria...
Prokaryotes come in a wide variety of shapes, determined largely by natural selection, physical cons...
Prokaryotes come in a wide variety of shapes, determined largely by natural selection, physical cons...
Cell shape matters across the kingdoms of life, and cells have the remarkable capacity to define and...
AbstractBacterial cells exhibit a wide variety of shapes. Recent results indicate that the character...
AbstractCell shape in most eubacteria is maintained by a tough external peptidoglycan cell wall. Rec...
AbstractCell shape in most eubacteria is maintained by a tough external peptidoglycan cell wall. Rec...
AbstractIn bacteria, cytoskeletal filament bundles such as MreB control the cell morphology and dete...
AbstractVarious cell shapes are encountered in the prokaryotic world, but how they are achieved is p...
SummaryThe bacterial actin-like protein MreB is thought to form a continuous helical polymer at the ...
Bacteria have remarkably robust cell shape control mechanisms. For example, cell diameter only varie...
Bacterial actin homologue MreB is required for cell shape maintenance in most non-spherical bacteria...
SummaryMreB proteins are bacterial actin homologs involved in cell morphogenesis and various other c...
Rod-like bacteria maintain their cylindrical shapes with remarkable precision during growth. However...
Prokaryotic cells possess filamentous proteins, analogous to eukaryotic cytoskeletal proteins, that ...
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