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A multi-channel single-protein magnetic tweezers measurement and control method and system

A measurement and control method and multi-channel technology, applied in the field of multi-channel single-protein magnetic tweezers measurement and control method and system, can solve the problems of complex preparation process, high equipment cost, and incapability of dynamic observation, so as to achieve simple steps, realize precise positioning, and avoid numerical value unstable effect

Active Publication Date: 2020-01-14
SOUTH CHINA UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But these techniques, including existing magnetic tweezers, can only observe one molecule at a time, and single-molecule methods are time-consuming to obtain statistically significant results.
[0003] On the other hand, the detection of protein structure and function generally uses X-ray diffraction, electron microscopy and other technologies, which generally can only observe static images, not dynamic observations.
Moreover, these devices are expensive, and for functional tests related to protein molecules, the sample preparation process is complicated, and generally requires genetic engineering recombination to add fluorescent groups, histidine tags and other tags

Method used

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  • A multi-channel single-protein magnetic tweezers measurement and control method and system

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Embodiment

[0030] This embodiment provides a multi-channel single-protein magnetic tweezers measurement and control method, the flow chart of the method is as follows figure 1 As shown, including the following steps:

[0031] First, perform coupling preparation of the protein sample, dissolve the appropriate amount of protein, activate the carboxyl group of the protein with the configured EDC, and then add amino beads to the protein solution to cause hydroxylamine reaction. After 2 hours, the amino beads are bound to the carboxyl group of the protein At this time, the amino group of the protein is still exposed. A traditional method is used to prepare a glutaraldehyde-modified glass slide. The amino bead-protein complex is added to the glass slide, and the amino group reacts with the aldehyde group to bridge the beads to the glass slide. ;

[0032] Figure 4 The device diagram of the multi-channel single-protein magnetic tweezers measurement and control system, including a magnetic circuit u...

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Abstract

The invention discloses a multi-channel single-protein magnetic tweezer measurement and control method and system, the method comprises the steps of: first preparing a protein sample, identifying a plurality of microbeads to be tracked in a field of view by automatic detection or manual intervention, and simultaneously selecting an appropriate reference microbead; then controlling lifting and rotation of a magnet by a motor to control the sizes of stress and torque of the microbeads in the sample, performing real-time display after correction, measuring the three-dimensional coordinates of themulti-channel microbeads by a microbead positioning and tracking technology, displaying in real time the real-time change of the length of a protein fastening the microbeads through the waveform; storing the corrected real-time displayed sizes of the stress and the torque of the microbeads and the real-time displayed length of the protein, after the plurality of microbeads to be tracked in the field of view are completely collected and processed, changing to a next field of view of the sample, and repeating the above steps to measure the mechanical properties of the molecule of the protein. The method can realize simultaneous fast sampling of a plurality of research objects and realize high-throughput measurement.

Description

Technical field [0001] The invention relates to the field of microscopic measurement and control and protein molecular detection, and in particular to a multi-channel single-protein magnetic tweezers measurement and control method and system. Background technique [0002] Like the spectrum, each biomolecule has its own unique force spectrum. The force spectrum refers to the relationship between the force on the molecule and the deformation. The research of investigating molecular functions and detecting molecular properties through force spectroscopy is in the ascendant. Mechanics-based operation and detection technologies, such as optical tweezers, magnetic tweezers, atomic force microscopes, biological force probes, etc., have been greatly developed, and the measurement accuracy is high. The measured length and force are respectively nanometer and pico Class. However, in comparison, magnetic tweezers can perform mechanical tensile tests with a wide range of force ranges on s...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N21/17G01N33/543G01N33/552G01N33/68
CPCG01N21/17G01N33/54326G01N33/552G01N33/6803G01N2021/1765G01N2446/90
Inventor 肖波涛杨会莹肖力福吕婧淇丁珂
Owner SOUTH CHINA UNIV OF TECH
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