CN109142293A

CN109142293A - A kind of fluorescent optical sensor and its preparation and application based on carbonitride desorption

Info

Publication number: CN109142293A
Application number: CN201810840502.3A
Authority: CN
Inventors: 王建; 江舟; 张悦
Original assignee: Fuzhou University
Current assignee: Fuzhou University
Priority date: 2018-07-27
Filing date: 2018-07-27
Publication date: 2019-01-04

Abstract

The invention discloses a kind of fluorescent optical sensor based on carbonitride desorption and its preparations and application.Sensor the preparation method comprises the following steps: with g-C₃N₄Nanometer sheet is the reinforcing agent of chemical illuminating reagent, using the complementary strand of molecule DNA to be measured as biological identification element；By g-C₃N₄Nanometer sheet, chemical illuminating reagent, the complementary strand of molecule DNA to be measured and the mixing of Tris-HCI buffer, are made the fluorescent optical sensor based on carbonitride desorption.The sensor have simplicity, fast, it is accurate the features such as, when for detecting HIV nucleic acid small molecule, the range of linearity be 50-2000 nM, detection limit (3 S/N) be 20 nmol/L.

Description

A kind of fluorescent optical sensor and its preparation and application based on carbonitride desorption

Technical field

The invention belongs to technical field of fluorescence detection, and in particular to a kind of fluorescence sense based on carbonitride desorption Device and its preparation and application.

Background technique

AIDS is a kind of great infectious disease of harmfulness, is caused by aids infection viral (HIV).AIDS virus exists After invading human body, groups of people can be presented always whithin a period of time without apparent symptom, that is, incubation period is in each human body The length of upper latent time is all different.Therefore HIV infection detection is extremely important to the prevention and treatment of HIV.Under normal circumstances, viral After infecting human body, it can be found by a series of detections, and what can be detected earliest is viral nucleic acid.Detection of nucleic acids can be direct It checks HIV nucleic acid, HIV infection can be detected before discovery serology variation, and, energy sensitiveer than P24 antigen detection method Virus infection is found earlier.HIV nucleic acid quantification detection quantitative approach generally has: the two kinds of sides RT-PCR and signal amplification amplification Method, it usually needs use expensive instrument, and operate relatively complicated.

Summary of the invention

In view of the above-mentioned deficiencies in the prior art, it is an object of the present invention to provide a kind of fluorescence based on carbonitride desorption Sensor and its preparation and application.The sensor have simplicity, fast, it is accurate the features such as, for measuring HIV nucleic acid small molecule When, the range of linearity is 50-2000 nM, and detection limit (3 S/N) is 20 nmol/L.

To achieve the purpose of the present invention, it adopts the following technical scheme that

A kind of preparation method of the fluorescent optical sensor based on carbonitride desorption, with g-C₃N₄Nanometer sheet is chemiluminescence examination The reinforcing agent of agent, using the complementary strand of molecule DNA to be measured as biological identification element；By g-C₃N₄Nanometer sheet, chemiluminescence examination Agent, the complementary strand of molecule DNA to be measured and the mixing of Tris-HCI buffer, are made based on the glimmering of carbonitride desorption Optical sensor.

g-C₃N₄The concentration of nanometer sheet in the sensor is 132-330 mg/mL.

The concentration of the complementary strand of molecule DNA to be measured in the sensor is 1-20nM.

A kind of preparation method as described above fluorescent optical sensor obtained based on carbonitride desorption.

A kind of application of the fluorescent optical sensor as described above based on carbonitride desorption is used for small point of HIV nucleic acid The detection of son.

It further, is with described based on carbonitride desorption when detection for HIV nucleic acid small molecule Fluorescent optical sensor is matrix, system to be measured is added in the optical electro-chemistry sensor based on nitridation carbon signal amplification, Joint ultraviolet lamp carries out illumination and the imaging of chemiluminescence fluoroscopic imaging systems, described based on nitrogen in having system existing for HIV The fluorescent optical sensor for changing carbon desorption can generate luminous intensity enhancing, by the concentration for drawing known HIV nucleic acid small molecule With the standard curve of luminous intensity, the luminous intensity detected by the fluorescent optical sensor based on carbonitride desorption It can determine the concentration of HIV nucleic acid small molecule in system to be measured.

Further, when detection for HIV nucleic acid small molecule, the chemical illuminating reagent is MCLA.

Further, when detection for HIV nucleic acid small molecule, the range of linearity to HIV nucleic acid small molecule is 50- 2000 nM, 3 S/N of detection limit are 20 nmol/L.

Further, when detection for HIV nucleic acid small molecule, light is carried out using the ultraviolet lamp of 350-400nm wavelength According to 60s.

When being used to measure HIV nucleic acid small molecule for sensor of the invention, the specific steps are as follows:

(1) foundation of standard curve:

1. respectively by chemical illuminating reagent MCLA, g-C₃N₄, the complementary strand of HIV-DNA and the HIV-DNA of isometric various concentration Standard solution mixing, is added Tris-HCI buffer, a series of test agents is made；

2. test agent is added in ELISA Plate, under 365 nm ultraviolet lamps after illumination 60s, it is placed in chemiluminescence fluorescence imaging system In the darkroom of system, each time for exposure is 90s；

3. reading and converting by software, luminous intensity corresponding to the HIV-DNA standard solution of various concentration is obtained；

4. by step 3. numeric renderings obtained at standard curve, equation of linear regression are as follows: the e of y=1.622⁸+ 2.084e⁷lg [x / (10^-8Mol/L)], related coefficient 0.985；Wherein y is luminous intensity, and x is the concentration of HIV-DNA standard solution；

(2) measurement of actual samples:

By chemical illuminating reagent MCLA, g-C₃N₄, HIV-DNA complementary strand and to test sample mix, be added Tris-HCI buffer, It is made to test sample；Will to test sample, through the in step (1), 2., 3. step continues to measure, obtain the luminous intensity to test sample, generation Enter in equation of linear regression to get to the HIV-DNA concentration in test sample.

Preferably, step 1. in test agent overall accumulated amount be 100 μ L；The dosage of MCLA is 15 μ L, in test agent In concentration be 0.15 mg/ml；g-C₃N₄Concentration in test agent is 198 mg/ml；The complementary strand of HIV-DNA is to be measured Concentration in reagent is 1 nM；The volume of HIV-DNA standard solution is 10 μ L；The concentration range of HIV-DNA standard solution is 0- 2000 nM。

MCLA:[2- methyl -6(-4- methoxyphenyl) -3,7- glyoxalidine simultaneously [1,2-a] piperazine -3-1- hydrochloric acid Salt], chemical illuminating reagent.

Step 1. described in HIV-DNA complementary strand, sequence are as follows: ACTGCTAGAGATTTTCCACAT.

Step 1. described in Tris-HCI buffer pH value be 7.4.

The step 3. reading and conversion are as follows: the chemiluminescence intensity in each hole of ELISA Plate is read with Image J software, The software optical density value indicates luminous intensity；The area for first selecting light emitting region passes through the optical density in measurement fixed-area Value, then to quantify the luminous intensity in every hole.

The mechanism of fluorescence detection of the present invention is:

g-C₃N₄Nanometer sheet can enhance the photochemical luminescence of MCLA, and provide one very well for fixed Hiv-DNA complementary strand Platform, DNA molecular in sugar chain (phosphoric acid backbone) have negative electrical charge phosphate group, g-C₃N₄Nanometer sheet is positively charged, g- C₃N₄It can be interacted by π-π and electrostatic force is in conjunction with the ssDNA probe, be adsorbed on g-C₃N₄The ss DNA on surface is accounted for According to g-C₃N₄Active site, to reduce photochemical luminescence signal.There are target Hiv-DNA, SsDNA probe identifies and combining target Hiv-DNA is to form double helix chain DNA (dsDNA).The dsDNA and g-C of formation₃N₄Between Interaction it is very weak, cause conjugate be detached from g-C₃N₄The surface of nanometer sheet, so as to cause the recovery of photochemiluminescence signal.

The present invention has the advantage that compared with the prior art

Sensor of the invention has simplicity, fast, it is accurate the features such as, when detection for HIV nucleic acid small molecule, the range of linearity For 50-2000 nM, detection limit (3 S/N) is 20 nmol/L, high sensitivity.

Detailed description of the invention

Fig. 1 is the principle of the present invention schematic diagram；Probe-DNA refers to Hiv-DNA complementary strand；

Fig. 2 is the increase figure of photochemical luminescence intensity under different light application times；(a) 0, (b) 20, (c) 40, (d) 60, (e) 80, (f) 120, (g) 140 and (h) 160 s；Tris-HCl buffer (pH=7.4), MCLA:0.15 mg/ml, 15 μ l；g-C₃N₄: 264 mg/ml；Time for exposure=90 s；Reagent total amount: 100 μ l；

Fig. 3 is g-C₃N₄Influence diagram of the concentration to PCL；(a) 0, (b) 66, (c) 132, (d) 198, (e) 264, (f) 330, (g) 396 and (h), 462 mg/mL；Tris-HCl buffer (pH=7.4)；MCLA:0.15 mg/ml, 15 μ l； Time for exposure=90s；Reagent total amount: 100 μ l；

Fig. 4 is influence diagram of the Hiv-DNA complementary strand concentration and probe concentration to PCL；DNA probe: 0,1,2,5,7,10,20,30*10^-7 mol/L；g-C₃N₄:198 mg/ml；Tris-HCl buffer (pH=7.4)；MCLA:0.15 mg/ml, 15 μ l；Time for exposure= 90s；Reagent total amount: 100 μ l；

Fig. 5 is the photochemiluminescence recovery situation figure of MCLA after adding target Hiv-DNA；Target dna: 0,2,5,20,50, 100,200*10^-8mol/L；DNA probe: 7e^-7；MCLA 0.15 mg/ml；C₃N₄: 198 mg/ml；Tris-HCl buffer (pH=7.4)；37 DEG C of 1 h of incubation；

Fig. 6 is the linear graph of luminous intensity and target DNA concentration；

Fig. 7 is mixture Capillary Electrophoresis map；A. probe and g-C₃N₄；B. probe/g-C₃N₄/ target dna (lazy weight)； C. detector/g-C₃N₄/ target dna (sufficient amount).

Specific embodiment

Further to disclose rather than the present invention is limited, the present invention is described in further detail below in conjunction with example.

A kind of preparation method of the fluorescent optical sensor based on carbonitride desorption, with g-C₃N₄Nanometer sheet is chemistry hair The reinforcing agent of light reagent, using the complementary strand of molecule DNA to be measured as biological identification element；By g-C₃N₄Nanometer sheet, chemiluminescence Reagent, the complementary strand of molecule DNA to be measured and the mixing of Tris-HCI buffer, are made based on carbonitride desorption Fluorescent optical sensor.

g-C₃N₄The concentration of nanometer sheet in the sensor is 132-330 mg/mL.

The present invention is described in detail by taking the detection of HIV nucleic acid small molecule as an example.Other test substances are referring to HIV nucleic acid The detection of small molecule carries out.

In order to obtain optimal detection performance, light application time, g-C are had studied₃N₄Concentration and HIV concentration and probe concentration are to detection The influence of HIV DNA response.

1, the influence that light application time detects Hiv-DNA

Fig. 2 has studied the influence that light application time detects Hiv-DNA.It can be seen that PCL reaction is extended to light application time from 20 s 160 s and increase, it is most strong to find that illumination 60s shines in figure.It chooses light application time 60s and does subsequent experimental.

2、 g-C₃N₄The influence that concentration detects HIV- DNA

Fig. 3 has studied g-C₃N₄The influence that concentration detects HIV-DNA increases g-C₃N₄After concentration, due to g-C₃N₄It is catalyzed MCLA Chemiluminescence obviously increases；Work as g-C₃N₄Concentration when being more than 198 mg/ml, catalytic effect weakens, so selection g-C₃N₄Concentration Subsequent experimental is done for 198 mg/ml.

3, the influence that concentration and probe concentration detects Hiv- DNA

In the case where other conditions are constant, from fig. 4, it can be seen that with the increase of concentration and probe concentration, chemiluminescence imaging intensity Increase.When concentration and probe concentration reaches 1 nM, luminous value inhibits most obvious.Therefore, 1 nM of optimum concentration of probe is selected to carry out down The experiment of one step.

4, in the presence of target Hiv-DNA, with g-C₃N₄The formation and release of middle dsDNA, CL intensity are remarkably reinforced.Knot Fruit shows dsDNA and g-C₃N₄Interaction be weaker than ssDNA and g-C₃N₄Interaction.Therefore, target analytes are deposited It can restore g-C₃N₄To the humidification of MCLA photochemical luminescence.

With the increase of target Hiv-DNA concentration, photochemiluminescence intensity is gradually increased, photochemiluminescence intensity relative to The curve of aimed concn has good linear relationship for target within the scope of 50-2000 nM.Equation of linear regression is expressed as y =1.622 e⁸+2.084e⁷lg [x/ (10^-8Mol/L)], related coefficient 0.985, according to the inspection of the 3 δ Hiv-DNA calculated Surveying limit (LOD) is 20 nM.

5, the combination of capillary electrophoresis separation analysis verifying probe and target Hiv-DNA

Capillary electrophoresis be used to prove g-C₃N₄In the presence of probe and target Hiv-DNA specific recognition.Complementary strand is visited Needle indicates fluorescent marker.It can be seen from figure 7 that the peak occurred in curve a, indicates probe；Two peaks of appearance in curve b, 1 New peak at min indicates probe and g-C₃N₄Combination product, the dissociative DNA for still indicating not participate in reaction at 4 min visits Needle.Said sample and target Hiv DNA are incubated for 20 hours.Analyze Incubation mixtures.Such as Fig. 7 curve c, only one strong peak goes out Existing, this shows in g-C₃N₄In the presence of, the specific recognition of probe and target Hiv DNA are extremely successful.

The present invention is based on g-C₃N₄Unique photocatalysis performance, have developed a kind of novel photochemical luminescence (PCL) imaging Method.Using the graphite-phase carbonitride (g-C of high dispersive in water₃N₄) it is catalyst, ultraviolet excitation induction generates active oxygen and increases The chemiluminescence of Strong oxdiative MCLA, the detection using HIV-DNA complementary strand as biological identification element, for HIV DNA sequence dna.Experiment The result shows that MCLA shows very strong photoinduction chemiluminescence response in neutral buffered medium；As the suitable g-C of use₃N₄ When, photochemical luminescence response enhancing.g-C₃N₄Possess big specific surface area and pi-conjugated structure, it can be with Hiv-DNA complementary strand It is combined closely by π-π sintering action, encloses g-C₃N₄Active site, cause MCLA photochemical luminescence be suppressed； When Hiv-DNA chain to be measured is added, due to the ds DNA (double helix chain DNA) and g-C of formation₃N₄Between declines, DNA double chain is tended to far from g-C₃N₄The surface of nanometer sheet, therefore luminous signal restores.UV light irradiation time, reagent concentration etc. because Element has an impact to photochemiluminescence intensity, by optimum experimental, obtains optimal conditions are as follows: it shines within illumination 60 seconds, g-C₃N₄Concentration 198 mg/ml, 1 nM of concentration and probe concentration.The intensity that the photochemical luminescence restores is linear related to the concentration of Hiv-DNA sequence, The range of linearity is 50-2000 nM, and detection limit (3 S/N) is 20 nmol/L, the experimental results showed that g-C₃N₄Successful utilization is photic In luminescence imaging sensor, have it is prominent easy, fast, it is accurate the features such as.

Embodiment 1

A kind of preparation method of the fluorescent optical sensor based on carbonitride desorption measurement HIV nucleic acid small molecule, including it is following Step:

(1) foundation of standard curve:

(2) measurement of actual samples:

Step 1. in test agent overall accumulated amount be 100 μ L；The dosage of MCLA is 15 μ L, the concentration in test agent For 0.15 mg/ml；g-C₃N₄Concentration in test agent is 198 mg/ml；The complementary strand of HIV-DNA is in test agent Concentration is 1 μM；The volume of HIV-DNA standard solution is 10 μ L；The concentration range of HIV-DNA standard solution is 50-2000 nM.

In step (2) to the overall accumulated amount of test sample be 100 μ L；The dosage of MCLA is 15 μ L, is being to the concentration in test sample 0.15 mg/ml；g-C₃N₄It is being 198 mg/ml to the concentration in test sample；The complementary strand of HIV-DNA is being to the concentration in test sample 1 nM；Volume to test sample is 10 μ L.

In view of security consideration, the present invention only tests simulation sample, and the results are shown in Table 1.

Table 1: the rate of recovery experimental result of HIV-DNA is measured

The foregoing is merely presently preferred embodiments of the present invention, all equivalent changes done according to scope of the present invention patent with repair Decorations, are all covered by the present invention.

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Claims

1. a kind of preparation method of the fluorescent optical sensor based on carbonitride desorption, it is characterised in that: with g-C₃N₄Nanometer sheet For the reinforcing agent of chemical illuminating reagent, using the complementary strand of molecule DNA to be measured as biological identification element；By g-C₃N₄Nanometer sheet, Chemical illuminating reagent, the complementary strand of molecule DNA to be measured and the mixing of Tris-HCI buffer, are made and are desorbed based on carbonitride The fluorescent optical sensor of attached effect.

2. the preparation method of the fluorescent optical sensor according to claim 1 based on carbonitride desorption, feature exist In: g-C₃N₄The concentration of nanometer sheet in the sensor is 132-330 mg/mL.

3. the preparation method of the fluorescent optical sensor according to claim 1 based on carbonitride desorption, feature exist In: the concentration of the complementary strand of molecule DNA to be measured in the sensor is 1-20nM.

4. a kind of preparation method as described in any one of claims 1-3 fluorescence obtained based on carbonitride desorption passes Sensor.

5. a kind of application of the fluorescent optical sensor as claimed in claim 4 based on carbonitride desorption, it is characterised in that: Detection for HIV nucleic acid small molecule.

6. the application of the fluorescent optical sensor according to claim 5 based on carbonitride desorption, it is characterised in that: use When the detection of HIV nucleic acid small molecule, be using the fluorescent optical sensor based on carbonitride desorption as matrix, will be to Survey system is added in the optical electro-chemistry sensor based on nitridation carbon signal amplification, and joint ultraviolet lamp carries out illumination and change Luminous fluorescent imaging system images are learned, in having system existing for HIV, the fluorescence based on carbonitride desorption is passed Sensor can generate luminous intensity enhancing, by drawing the concentration of known HIV nucleic acid small molecule and the standard curve of luminous intensity, by The luminous intensity that the fluorescent optical sensor based on carbonitride desorption detects can determine HIV core in system to be measured The concentration of sour small molecule.

7. the application of the fluorescent optical sensor according to claim 6 based on carbonitride desorption, it is characterised in that: use When the detection of HIV nucleic acid small molecule, the chemical illuminating reagent is MCLA.

8. the application of the fluorescent optical sensor according to claim 6 based on carbonitride desorption, it is characterised in that: use When the detection of HIV nucleic acid small molecule, the range of linearity to HIV nucleic acid small molecule is 50-2000 nM, and 3 S/N of detection limit is 20 nmol/L。

9. the application of the fluorescent optical sensor according to claim 6 based on carbonitride desorption, it is characterised in that: use When the detection of HIV nucleic acid small molecule, illumination 60s is carried out using the ultraviolet lamp of 350-400nm wavelength.