CN103293309A - Carbon nano-tube micro-cantilever biosensor for detecting tumor markers - Google Patents

Abstract

The invention discloses a carbon nano-tube micro-cantilever biosensor which is simple in structure and can be used for detecting various tumor markers. The carbon nano-tube micro-cantilever biosensor comprises a bracket (1), a substrate material (2), a carbon nano-tube (3), a pickup circuit (4) and aptamers (5), wherein the substrate material (2) is fixed on one side of the bracket (1) to form a micro-cantilever structure; the carbon nano-tube (3) grows on the upper surface of the substrate material (2); and the pickup circuit (4) is arranged below the substrate material (2); and the aptamers (5) are attached to the carbon nano-tube (3). According to the carbon nano-tube micro-cantilever biosensor, the tumor markers are detected by using the aptamers modified on the carbon nano-tubes. The micro-cantilever serves as a sensor platform for detecting the tumor markers and easily meets the requirements on high flux, microminiaturization and array formation in detection; and the aim of detecting the tumor markers by combination of various indexes is fulfilled. The micro-cantilever is manufactured by a micro-electromechanical system (MEMS) processing process and can be produced in batches, so that the cost of the biosensor is reduced.

Description

Be used for the carbon nano-tube micro-cantilever biology sensor that tumor markers detects

Technical field

The present invention relates to biomedical engineering field, relate in particular to a kind of carbon nano-tube micro-cantilever biology sensor.

Background technology

Utilize sensor to detect the existing report of method of tumor markers, quality and heat immunosensor, electrochemical immunosensor etc. are arranged.These sensors are general, and false positive rate is higher only at the detection of single tumor markers, and it is not enough to detect degree of accuracy, delays easily or increases the weight of the state of an illness.Develop new detection technique, improve positive rate and accuracy of detection, realize online detection, become the technical matters that needs to be resolved hurrily.

Micro-cantilever beam sensor is fixed together determinand and micro-cantilever by certain mode, the deflection displacement by micro-cantilever or change of resonance frequency realize the signal conversion.Name is called utilizes functionalized carbon nano-tube to be the method for the micro-cantilever beam sensor of sensitive material, and publication number is the application for a patent for invention of CN201010241824.X, and carbon nano-tube is combined with micro-cantilever, realizes the detection to specific gas.This method is highly sensitive, good reproducibility; Weak point is to carry out the functionalization base group modification to carbon nano-tube according to the chemical property of object gas, and operation is comparatively complicated.With the sensor platform of micro-cantilever as the tumor markers detection, utilize the specific reaction between aptamer and the tumor markers to form compound, this compound produces mass effect at carbon nano-tube micro-cantilever biology sensor, and the technology of utilizing this mass effect to realize that tumor markers detects yet there are no report.

Summary of the invention

Technical matters to be solved by this invention provides a kind of carbon nano-tube micro-cantilever biology sensor that detects for tumor markers, and this biology sensor size is little, simple in structure, easy to operate, can realize online many index detections.

In order to solve this technical problem, the present invention realizes detection to tumor markers by modification of nucleic acids aptamers on carbon nano-tube.

Biology sensor of the present invention comprises the aptamer on support, base material, pick-up circuit, carbon nano-tube, the carbon nano-tube.Described base material is fixed on support one side and constitutes micro cantilever structure; Described pick-up circuit part is below base material; Described pick-up circuit part connects into wheatstone bridge form with four voltage dependent resistor (VDR)s; Described carbon nano tube growth is formation carbon nano-tube micro-cantilever beam sensor on micro-cantilever; Described aptamer is to be modified on the carbon nano-tube by hydrophobic effect, also can be to be modified on the carbon nano-tube by π-π superposition; Aptamer and tumor markers form compound by the specific recognition reaction, and the mass effect of utilizing this compound to produce at the micro-cantilever biology sensor realizes detecting.

The present invention utilizes micro-cantilever as the sensor platform that tumor markers detects, and is made into a kind of carbon nano-tube micro-cantilever biology sensor that can realize the kinds of tumors marker detection.

Characteristics of the present invention and advantage:

1, made up a kind of carbon nano-tube micro-cantilever biology sensor that detects tumor markers.This sensor utilizes aptamer and tumor markers reaction formation compound by modification of nucleic acids aptamers on carbon nano-tube, and this compound produces mass effect at micro-cantilever, utilizes this mass effect to realize detection to tumor markers.

2, owing to growing at micro-cantilever carbon nano-tube is arranged, modification of nucleic acids aptamers on the carbon nano-tube, so this biology sensor size is little, simple in structure; The design is new reasonable, and is easy to operate, can realize online detection.

Description of drawings

Fig. 1 is the synoptic diagram that tumor markers detects the carbon nano-tube micro-cantilever biology sensor of usefulness.

Embodiment

Below in conjunction with drawings and Examples the present invention is described in further detail, but is not limited to this embodiment.

Embodiment:

Referring to Fig. 1, Fig. 1 is the synoptic diagram that tumor markers detects carbon nano-tube micro-cantilever biology sensor, comprises support 1, base material 2, carbon nano-tube 3, pick-up circuit 4 and be attached to aptamer 5 above the carbon nano-tube 3.Wherein base material 2 is fixed on support 1 one sides formation micro cantilever structure; Carbon nano-tube 3 be grown in base material 2 above; And pick-up circuit 4 is below base material 2; On carbon nano-tube 3, be modified with one deck aptamer 5 by hydrophobic effect.

The present invention is according to following common process preparation and operation

1, the manufacturing of micro cantilever structure

Micro-cantilever is to be base material 2 with Semiconducting Silicon Materials, is processed into micro cantilever structure.

2, the making of pick-up circuit 4

Pick-up circuit is to utilize microelectronic technique to make the silicon voltage dependent resistor (VDR) at base material 2 lower surfaces, and four voltage dependent resistor (VDR)s are connected into wheatstone bridge form.

3, semi-girder growth and coating carbon nano-tube technology

Upper surface to the base material 2 in the abovementioned steps carries out cleaning treatment, carries out ultrasound wave with acetone, absolute ethyl alcohol, deionized water respectively and cleans, and uses Low Pressure Chemical Vapor Deposition (LPCVD) carbon nano-tube then.Also can use pyrolysismethod, cladding process or additive method carbon nano-tube coating on silica-based.

4, the modification of aptamer on the carbon nano-tube micro-cantilever

Aptamer is modified on the carbon nano-tube by hydrophobic effect, forms a kind of detector probe of energy specific recognition tumor markers, finish carbon nano-tube micro-cantilever biology sensor thereby make up; Aptamer also can be to be modified on the carbon nano-tube by π-π superposition.

The present invention is as follows to the step that tumor markers detects:

(1) on the carbon nano-tube micro-cantilever, makes the detector probe that contains the tumor markers aptamer earlier;

(2) detector probe is put into sample to be tested, tumor markers forms compound by the aptamer on specific reaction and the detector probe and is attached on the micro-cantilever in the sample to be tested.

(3) the tumor-marker substrate concentration is proportionate in the quality of formed compound size and the sample to be tested.

(4) mass change that produces at micro-cantilever of described compound causes micro-cantilever deflection displacement or change of resonance frequency, thereby realizes the detection to tumor markers.

Claims (5)

1. be used for the carbon nano-tube micro-cantilever biology sensor that tumor markers detects, comprise support (1), base material (2), carbon nano-tube (3), pick-up circuit (4); Described base material (2) is fixed on support (1) one side and constitutes micro cantilever structure, carbon nano-tube (3) be grown in base material (2) above, pick-up circuit (4) is below base material (2); It is characterized in that: also comprise the aptamer (5) that is attached to above the carbon nano-tube (3).

2. according to the described biology sensor of claim 1, it is characterized in that: described base material (2) is selected silicon for use.

3. according to the described biology sensor of claim 1, it is characterized in that: described carbon nano-tube (3) be grown in base material (2) above be to adopt earlier the upper surface at base material (2) to carry out cleaning treatment, carry out ultrasound wave with acetone, absolute ethyl alcohol, deionized water respectively and clean, use Low Pressure Chemical Vapor Deposition (LPCVD) carbon nano-tube (3) then.

4. according to the described biology sensor of claim 1, it is characterized in that: the growing method that described carbon nano-tube (3) is grown in base material (2) is pyrolysismethod, perhaps cladding process.

5. according to the described biology sensor of claim 1, it is characterized in that: described pick-up circuit (4) is the piezoresistive effect that utilizes silicon, and four voltage dependent resistor (VDR)s are connected into wheatstone bridge form.

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