Publications & Movies

Pubmed search:
Publications by Julie A. Theriot.

Physical Biology of the Cell:

Life history of a single infecting Listeria monocytogenes

The sequence begins with the bacterium at the lower left corner of the cell, still in the membrane-bound compartment. It breaks free from the membrane and divdes several times before the movement begins. Once movement begins, the descendants of the initial infecting bacterium spread through the whole cell very quickly. Speeded up 900X.
–Julie Theriot & Dan Portnoy

Listeria monocytogenes moving in PtK2 cells


These pathogenic bacteria grow directly in the host cell cytoplasm. The phase-dense streaks behind the bacteria are the actin-rich comet tails. Actin-based motility is also used in cellular motility; this cell is using it’s cytoskeleton to crawl toward the lower right-hand corner.  Speeded up 150X over real time.
–Julie Theriot & Dan Portnoy

Shigella flexneri associated with actin tails in PtK2 cells


These bacteria are unrelated to L. monocytogenes but move at similar rates and with similar behaviors. S. flexneri are substantially larger than L. monocytogenes and because of this the tails appear to be phase-lucent rather than phase-dense. Speeded up 300X.
–Julie Theriot & Marcia Goldberg

Shigella flexneri with a deletion for icsA infecting cells


Mutant S. flexneri with a deletion in icsA. These bacteria invade cells normally and grow normally in cytoplasm, but do not associate with actin and do not move. Instead, they form microcolonies in infected cells. Speeded up 200X.
–Julie Theriot & Marcia Goldberg

Candida albicans killing macrophages from the inside-out

Candida albicans, a fungal pathogen, being consumed by mouse bone marrow macrophages. After the macrophages engulf the yeast-like C. albicans, the fungus responds by rapidly growing a “germ tube.” This projection eventually pierces the macrophage from the inside, killing the attacking macrophage, while the fungus survives. Speeded up 900X.
–Julie Theriot & Julie Koehler

Salmonella typhimurium invading a fibroblast cell


Salmonella typhimurium invades Henle human epithelial cells. Contact of the bacteria on the host cell surface causes the host cell to send up huge actin-rich ruffles or “splashes” that engulf the bacteria as they fold back over. The bacteria are then trapped inside large vacuoles and replicate there. Speeded up 450X
–Julie Theriot & Jorge Galan

Vibrio cholerae colonizing human cells


Vibrio cholerae colonize the surface of HEp-2 human carcinoma cells. As more bacteria adhere to the host cell surface and secrete cholera toxin, th host cells begin to pump out water and salt due to constitutive activation of adenylyl cyclase. In the intesine, the water is pumped into the intestinal lumen, resulting in watery diarrhea. Speeded up 300X.
–Julie Theriot & Claudette Gardel

Listeria monocytogenes moving in Xenopus extract


Listeria monocytogenes bactera moving in a cytoplasmic extract. On the left is the phase-contrast sequence to show the bacterium moving. On the right is a simultaneously recorded fluorescence sequence, showing the distribution of fluorescently-labeled actin. Speeded up 60X.
–David Fung

Motility initiation of Listeria


How do Listeria start moving? This movie shows a bacterium’s journey from no actin to a full-fledged comet tail in Xenopus extract. Speeded up 60X.
–Susanne Rafelski & Julie Theriot

Keratocyte actin-based motility


A fish keratocyte, recently freed from the confines of a goby scale, crawls rapidly using actin-based motility. Speeded up 30X
–Rachael Ream, George Somero & Julie Theriot

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