Marina Besprozvannaya scite author profile

Endoplasmic reticulum (ER) membrane contact sites (MCSs) are crucial regulatory hubs in cells, playing roles in signaling, organelle dynamics, and ion and lipid homeostasis. Previous work demonstrated that the highly conserved yeast Ltc/Lam sterol transporters localize and function at ER MCSs. Our analysis of the human family members, GRAMD1a and GRAMD2a, demonstrates that they are ER-PM MCS proteins, which mark separate regions of the plasma membrane (PM) and perform distinct functions in vivo. GRAMD2a, but not GRAMD1a, co-localizes with the E-Syt2/3 tethers at ER-PM contacts in a PIP lipid-dependent manner and pre-marks the subset of PI(4,5)P2-enriched ER-PM MCSs utilized for STIM1 recruitment. Data from an analysis of cells lacking GRAMD2a suggest that it is an organizer of ER-PM MCSs with pleiotropic functions including calcium homeostasis. Thus, our data demonstrate the existence of multiple ER-PM domains in human cells that are functionally specialized by GRAM-domain containing proteins.

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SpoIIIE Protein Achieves Directional DNA Translocation through Allosteric Regulation of ATPase Activity by an Accessory Domain

Besprozvannaya¹,

Pivorunas²,

Feldman

2013

Journal of Biological Chemistry

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Background: ATP-dependent bacterial chromosome transporters mediate substrate recognition through an accessory DNA-interacting domain. Results:The DNA-interacting domain regulates ATPase activity of the motor domain in a sequence-specific manner. Conclusion: The DNA-interacting domains mediate directional transport through allosteric regulation of the motor domains. Significance: Coordinated communication between accessory domains is a critical component of directional activation of DNA transport.

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Activity and inhibition of prostasin and matriptase on apical and basolateral surfaces of human airway epithelial cells

Nimishakavi

Besprozvannaya

Raymond

et al. 2012

American Journal of Physiology-Lung Cellular and Molecular Phys

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Do the same traffic rules apply? Directional chromosome segregation by SpoIIIE and FtsK

Besprozvannaya

2014

Molecular Microbiology

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SummaryOver a decade of studies have tackled the question of how FtsK/SpoIIIE translocases establish and maintain directional DNA translocation during chromosome segregation in bacteria. FtsK/SpoIIIE translocases move DNA in a highly processive, directional manner, where directionality is facilitated by sequences on the substrate DNA molecules that are being transported. In recent years, structural, biochemical, singlemolecule and high-resolution microscopic studies have provided new insight into the mechanistic details of directional DNA segregation. Out of this body of work, a series of models have emerged and, ultimately, yielded two seemingly opposing models: the loading model and the target search model. We review these recent mechanistic insights into directional DNA movement and discuss the data that may serve to unite these suggested models, as well as propose future directions that may ultimately solve the debate.

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