System and method for controlling movement of single biomolecule in nanopore
A technology of biomolecules and nanopores, which is applied in the biological field to achieve reliable data, simple control methods, and improved signal-to-noise ratio
Active Publication Date: 2014-11-26
INST OF PHYSICS - CHINESE ACAD OF SCI
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However, the current research methods have not specifically realized the system and method for controlling the movement of individual biomolecules in nanopores, so as to control specific behaviors such as driving, pausing, continuing to move, reverse moving, and stopping.
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[0038] In general, the present invention designs a system and method that can control the movement of biomolecules in nanopores. The present invention uses the following terms to describe the various states of biomolecules under control: "drive localization", which refers to driving a part of the biomolecule (eg, a length) into the nanopore by a signal such as voltage; "detection pause", It means that the biomolecules stop moving in the nanopore in order to detect the required physical signal of the biological single molecule; Refers to biomolecules waiting for a positive drive voltage to re-enter the nanopore.
[0039] The "connection" mentioned herein includes not only contacting and direct bonding between two parts, but also non-contact and indirect coupling between two parts.
[0040] Figure 1a A schematic diagram for controlling the movement of individual biomolecules in a nanopore according to the present invention is shown. From Figure 1a As can be seen in the figur...
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The invention discloses a system for controlling the movement of a single biomolecule in a nanopore. The system comprises a monitor, a signal screening module, a delay module and a voltage feedback module, wherein the monitor is used for monitoring the electric characteristic values at two sides of the nanopore and sending the electric characteristic values to the signal screening module; the signal screening module is used for receiving the electric characteristic values, judging whether the single biomolecule is subjected to event of entering into or getting out of the nanopore according to the electric characteristic values and then sending a judging result to the delay module; the delay module is used for receiving the judging result and actuating corresponding movement delay according to the judging result, wherein a trigger signal can be sent to the voltage feedback module when each delay is actuated; and the voltage feedback module is used for receiving the trigger signal and outputting feedback voltage to the two sides of the nanopore according to the trigger signal so as to control the movement of the single biomolecule. By utilizing the system disclosed by the invention, the state of the single biomolecule entering into the nanopore can be correctly identified, the measurement and the control for the movement of the single biomolecule can be completed, the repeated measurement of a single basic group in DNA (Deoxyribose Nucleic Acid) sequencing is facilitated, and thus an SNR (Signal to Noise Ratio) can be increased.
Description
technical field [0001] The invention relates to the field of biology, in particular to a system and method for controlling the movement of a single biomolecule in a nanopore. Background technique [0002] Biomacromolecules, such as DNA molecules and protein molecules, are of great significance in human medicine and biology. Their structure determination and property characterization have always been international research hotspots, and they have a huge potential market in the medical and health industry. For example, under the impetus of the Human Genome Project, great progress has been made in the determination of DNA sequences. There are already many methods to characterize its structure and properties, and industrialization has gradually begun. At present, many countries in the world have invested a lot of resources in the research and development of third-generation gene sequencers, in order to lead the development of this field. [0003] Using nanopores to determine th...
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IPC IPC(8): G05B19/401G01N27/00C12M1/36C12Q3/00
CPCC12Q1/6869C12Q2565/631
Inventor 胡颖周智孙云花颜世超单欣岩郭阳陆兴华
Owner INST OF PHYSICS - CHINESE ACAD OF SCI