biotechnology molecular-motors tethered-cell-analysis bacterial-flagellar-motor

Tethered-cell-analysis

Bacterial cells can be attached to the surface of a glass slide through their flagella which results in the cell body to rotate because of the presence of the bacterial flagellar motor, this program calculates angular velocity, number of frames rotated in clockwise direction and anti clockwise direction, frequency, length of cell, the center of rotation etc and gives outputs in the form of graphs and 2 .csv files Program to analyze directional switching of the rotating cell body tethered by a single flagellum over a glass surface rotating parallel to it.

Program made under the supervison of:

Prof. Ravikrishnan Elangovan Assistant Professor, Block I 328, Department of Biochemical Engg and Biotechnology Indian Institute of Technology, New Delhi -110016
Ph: 011-26591057, 011-26596243 Email: elangovan@dbeb.iitd.ac.in

Program made by

Kanishk Singh (2014BB50005)
Kaushtav Atri (2014PH10800)
Sarthak Mishra (2015CS10256) (Github)

About

Bacterial cells can be attached to the surface of a glass slide through their flagella which results in the cell body to rotate because of the presence of the bacterial flagellar motor, this program calculates angular velocity, number of frames rotated in clockwise direction and anti clockwise direction, frequency, length of cell, the center of rotation etc and gives outputs in the form of graphs and 2 .csv files

biotechnology molecular-motors tethered-cell-analysis bacterial-flagellar-motor

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