Add to ORKGProteus mirabilis swarmer cell differentiation is induced by physical conditions that inhibit rotation of vegetative swimmer cell flagella. The protein FliL is important however, signal transduction to induce differentiation is unknown. Defects in differentiation result from mutations in genes involved in cell-wall formation and flagellar genes regulations. I hypothesized that upon surface contact, torsional stress due to inhibition of filament rotation activates stress response, induces swarmer cell differentiation and passes this signal to the protein FliL through a second protein, UmoA. My results show that the expression of stress gene cpxP changed over swarming migration with highest levels at zones of initial inoculation and areas whe...
M. xanthus possesses two motility systems that control gliding motility, namely S- and A-motility. C...
<p>Gliding motility facilitates the movement of bacteria along surfaces in many Bacteroidetes specie...
Partner-switching regulatory systems (PSRSs) are utilized by many different bacteria to regulate a w...
Proteus mirabilis is a Gram-negative bacterium that exists as a short rod when grown in liquid mediu...
Proteus mirabilis has two tandemly arranged flagellin-encoding genes, flaA and flaB. flaA is transcr...
Bacteria often experience changes in their external environment and have developed various strategie...
Proteus swarming is the rapid cyclical population migration across surfaces by elongated cells that ...
Swarming in Proteus mirabilis is characterized by the coordinated surface migration of multicellular...
Escherichia coli swarm on semi-solid surfaces with the aid of flagella. It has been hypothesized tha...
Escherichia coli swarm on semi-solid surfaces with the aid of flagella. It has been hypothesized tha...
Vibrio parahaemolyticus possesses two distinct motility systems, the polar system used for swimming ...
A key regulator of swarming in Proteus mirabilis is the Rcs phosphorelay, which represses flhDC, enc...
This thesis aims to understand how cells coordinate their motion during collective migration. As pre...
Proteus mirabilis alternates between motile and adherent forms. MrpJ, a transcriptional regulator pr...
The disA gene encodes a putative amino acid decarboxylase that inhibits swarming in Proteus mirabili...
M. xanthus possesses two motility systems that control gliding motility, namely S- and A-motility. C...
<p>Gliding motility facilitates the movement of bacteria along surfaces in many Bacteroidetes specie...
Partner-switching regulatory systems (PSRSs) are utilized by many different bacteria to regulate a w...
Proteus mirabilis is a Gram-negative bacterium that exists as a short rod when grown in liquid mediu...
Proteus mirabilis has two tandemly arranged flagellin-encoding genes, flaA and flaB. flaA is transcr...
Bacteria often experience changes in their external environment and have developed various strategie...
Proteus swarming is the rapid cyclical population migration across surfaces by elongated cells that ...
Swarming in Proteus mirabilis is characterized by the coordinated surface migration of multicellular...
Escherichia coli swarm on semi-solid surfaces with the aid of flagella. It has been hypothesized tha...
Escherichia coli swarm on semi-solid surfaces with the aid of flagella. It has been hypothesized tha...
Vibrio parahaemolyticus possesses two distinct motility systems, the polar system used for swimming ...
A key regulator of swarming in Proteus mirabilis is the Rcs phosphorelay, which represses flhDC, enc...
This thesis aims to understand how cells coordinate their motion during collective migration. As pre...
Proteus mirabilis alternates between motile and adherent forms. MrpJ, a transcriptional regulator pr...
The disA gene encodes a putative amino acid decarboxylase that inhibits swarming in Proteus mirabili...
M. xanthus possesses two motility systems that control gliding motility, namely S- and A-motility. C...
<p>Gliding motility facilitates the movement of bacteria along surfaces in many Bacteroidetes specie...
Partner-switching regulatory systems (PSRSs) are utilized by many different bacteria to regulate a w...