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Your search keyword '"Kamerkar, Sukrut"' showing total 13 results
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13 results on '"Kamerkar, Sukrut"'

1. Validity of point-mass model in off-resonance dynamic atomic force microscopy

Author

Rajput, Shatruhan Singh, Deopa, Surya Pratap S, Ajith, V. J., Kamerkar, Sukrut C., and Patil, Shivprasad

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics
Abstract

The quantitative measurement of viscoelasticity of nano-scaleentities is an important goal of nanotechnology research and there is considerable progress with advent of dynamic Atomic Force Microscopy. The hydrodynamics of cantilever, the force sensor in AFM measurements, plays a pivotal role in quantitative estimates of nano-scale viscoelasticity. The point-mass model,wherein the AFM cantilever is approximated as a point mass with mass-less spring is widely used in dynamic AFM analysis and its validity, particularly in liquid environments, is debated. It is suggested that the cantilever must be treated as a continuous rectangular beam to obtain accurate estimates of nano-scale viscoelasticity of materials it is probing. Here, we derived equations, which relate stiffness and damping coefficient of the material under investigation to measured parameters, by approximating cantilever as a point mass and also considering the full geometric details. These equations are derived for both tip-excited as well as base excited cantilevers. We have performed off-resonance dynamic atomic force spectroscopy on a single protein molecule to investigate the validity of widely used point-mass model. We performed measurements with AFMs equipped with different cantilever excitation methods as well as detection schemes to measure cantilever response. The data was analyzed using both, continuous-beam model and the point-mass model. We found that both models yield same results when the experiments are performed in truly off-resonance regime with small amplitudes and the cantilever stiffness is much higher than the interaction stiffness. Our findings suggest that a simple point-mass approximation based model is adequate to describe the dynamics, provided care is taken while performing experiments so that the approximations used in these models are valid.

Published
2021

13. Salmonella SipA mimics a cognate SNA RE for host Syntaxin8 to promote fusion with early endosomes.

Author

Singh, Pawan Kishor, Kapoor, Anjali, Lomash, Richa Madan, Kumar, Kamal, Kamerkar, Sukrut C., Pucadyil, Thomas J., and Mukhopadhyay, Amitabha

Subjects
*SALMONELLA, *GENE expression, *IMMUNOGLOBULINS, *FOOD pathogens, *T cells
Abstract

SipA is a major effector of Salmonella, which causes gastroenteritis and enteric fever. Caspase-3 cleaves SipA into two domains: the C-terminal domain regulates actin polymerization, whereas the function of the N terminus is unknown. We show that the cleaved SipA N terminus binds and recruits host Syntaxin8 (Syn8) to Salmonella-containing vacuoles (SCVs). The SipA N terminus contains a SNA RE motif with a conserved arginine residue like mammalian R-SNA REs. SipAR204Q and SipA1-435R204Q do not bind Syn8, demonstrating that SipA mimics a cognate R-SNA RE for Syn8. Consequently, Salmonella lacking SipA or that express the SipA1-435R204Q SNA RE mutant are unable to recruit Syn8 to SCVs. Finally, we show that SipA mimicking an R-SNA RE recruits Syn8, Syn13, and Syn7 to the SCV and promotes its fusion with early endosomes to potentially arrest its maturation. Our results reveal that SipA functionally substitutes endogenous SNA REs in order to hijack the host trafficking pathway and promote Salmonella survival. [ABSTRACT FROM AUTHOR]

Published
2018
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