Chinese cymbidiummiR390aApplication in controlling plant root system development
Technical Field
The invention relates to the technical field of plant genetic engineering, in particular to a non-coding RNA (ribonucleic acid) of cymbidium goeringiimiR390aThe application in controlling the development of plant root system.
Background
The orchid family (Orchidaceae) is one of the largest of the flowering plants, with 25000 varieties worldwide, accounting for approximately 10% of all flowering plants. Goering cymbidium (A. fern)Cymbidium goeringii) A species of floret type Gelidium belonging to the genus Orchidaceae, the flower type of which isThe flower color is light and elegant, the flower fragrance is delicate, the leaf appearance is beautiful, and the ornamental value and the economic value are extremely high. However, the time from seedling to flowering of cymbidium is long, wild cymbidium seedlings can flower in about ten years, and artificial tissue culture seedlings can flower for at least three years under proper maintenance. Ancient cloud: "deep-rooted phyllanthus. The root system is well developed, which is beneficial to the growth and development of other aboveground nutritive organs, and further leads the plant to enter the reproductive development stage in advance. Therefore, the research on the molecular mechanism of the gene on the development of plant root systems has important significance on the breeding, production and application of cymbidium goeringii. The miR390 has an important function in the aspect of plant growth and development (particularly root systems), and can provide an important basis for genetic improvement of plants.
MicroRNA390s (miR 390 s) is one of the more conservative ancient families in plant microRNAs, can participate in a plurality of plant physiological processes, and at present, more researches on the aspects of plant growth and development are carried out, wherein the researches comprise the formation of plant lateral organ polarity, the formation of flower organs, the formation of fruits and the like. For example of rape flowersmiR390Participates in the development of early embryo.Os miR390The overexpression of the precursor gene can cause phenotypical defects of abnormal apical meristem and delayed vegetative stage development of rice. The research shows that the compound has the advantages of high purity,miR390generally, it is involved in the regulation of the growth and development process of plants by influencing auxin signals. E.g., Arabidopsis thalianaAt miR390Can pass through the inhibitionARF3AndARF4the transcription factor is used for prolonging the juvenile period and postponing the flowering, thereby indirectly regulating the flowering period.
The root is an essential organ essential for plant growth, the apical meristem is a key part for controlling its growth, and the apical meristem of the root is mainly composed of a quiescent center, a proximal meristem and an elongation region. Research shows that miR390 has an important effect on the root development of plants. In the short-term cell amplification region in the root meristem of arabidopsis thaliana, ARF5/MONOPTEROS directly controls the expression of the short-term cell amplification region by combining with the AuxRE region on the miR390 promoter, thereby influencing the growth of the root system, and the process has strong response to exogenous auxin. In addition, Arabidopsis thaliana can also regulate the growth and development of lateral roots through miR390/TAS3/ARF (ARF2/ARF3/ARF4) pathway. However, mHow iR390 influences the development of the root system of cymbidium goeringii is not described in research at present, so that the cymbidium goeringii can be cloned and obtained from the cymbidium goeringii by using a genetic engineering technologymiR390aThe precursor gene is transferred into other plants, has important significance for researching the functions of the plants, and has great application prospect.
Disclosure of Invention
The invention provides a Chinese cymbidiummiR390aThe application in controlling the development of plant root system.
A kind of Chinese cymbidiummiR390aUse in controlling root development in plants, said plantsmiR390aThe nucleotide sequence of (A) is shown in SEQ ID NO.1 or SEQ ID NO. 2.
Preferably, the plant is cymbidium goeringii.
The specific method comprises the following steps: will contain the cymbidium goeringiimiR390aThe precursor gene is connected to a vector, is transformed into wild arabidopsis thaliana 'Columbia' through agrobacterium-mediated transformation, and is screened and cultured to obtain a transgenic plant.
Since miRNA is short and only about 20bp, and the precursor gene is slightly longer, the connection of the miRNA to a vector is beneficial to the realization of Arabidopsis thaliana transformation, and preferably, the sequence of the precursor gene is shown as SEQ ID No.3 or SEQ ID No. 4.
The invention is prepared by mixing the cymbidium goeringiimiR390aTransforming the gene into wild arabidopsis thaliana 'Columbia', obtaining T3 generation plants through screening and culturing, and finding over expressionmiR390aThe phenotype of the gene Arabidopsis plant such as the accelerated root growth speed and the accelerated true leaf formation speed in the seedling stage shows that the gene has wide application in the production and breeding of orchid and other horticultural plants.
Drawings
FIG. 1 is cymbidium goeringiimiR390aExpression in tissues during vegetative and reproductive growth of cymbidium;
FIG. 2 shows pBI121 and cymbidium goeringiimiR390aGene precursor fragment-encoding gene (MIR390a) A schematic representation of a recombinant vector;
FIG. 3 ismiR390aGel profile of the overexpression vector construction process. A.miR390aPrecursor bodyPCR amplifying gel map; B. pBI121-MIR390a (miR390aPrecursor) recombinant plasmid bacterial liquid PCR amplification gel map; C. pBI121-MIR390a (miR390aPrecursor) recombinant plasmid restriction map;
FIG. 4 shows the identification results of positive transgenic Arabidopsis plants of the T3 generation. A. Of 3 linesmiR390aA precursor PCR amplification gel map (M: DL2000 Marker; M1: positive control; M2: negative control; M3: blank control); B. of 3 linesmiR390aThe result of the fluorescence quantitative analysis;
FIG. 5 shows that when the seed was sown in the screening medium for 2 weeks,miR390aoverexpression of the Arabidopsis phenotype (WT: wild-type control;35S: MIR390atransgenic plants).
Detailed Description
The present invention will be further described with reference to the following specific examples.
Example 1 functional prediction of Gene
The material adopted in the embodiment is roots, stems and leaves of the cymbidium goeringii 'Songhei' in vegetative growth period and reproductive growth period, and the harvested materials are quickly frozen in liquid nitrogen and stored in an ultralow temperature refrigerator (minus 80 ℃).
1) Extraction of Total Small RNA from various cymbidium tissues
The method is carried out according to the instruction of a TaKaRa plant total RNA extraction kit, and comprises the following specific operations:
rapidly transferring the frozen cymbidium tissue into a mortar precooled by liquid nitrogen, grinding the tissue by a pestle, and continuously adding the liquid nitrogen until the tissue is respectively ground into powder; respectively adding the samples ground into powder into 1.5mL of sterilized tube containing 450 mu l of buffer PE, and repeatedly blowing and beating by using a pipette until no obvious precipitate exists in the lysate; the lysate was centrifuged at 12,000rpm for 5 minutes at 4 ℃; the supernatant was carefully pipetted into a fresh 1.5mL sterile tube. Adding 1/10 volumes of Buffer NB into the supernatant, Vortex mixing, centrifuging at 12,000rpm and 4 ℃ for 5 minutes; carefully sucking the supernatant into a new 1.5mL sterilized tube, adding 450. mu.L Buffer RL, and uniformly mixing the solution by using a pipette; adding anhydrous ethanol with the volume 1.5 times of the mixed solution, and usingAfter the solution is uniformly mixed by a liquid gun, immediately transferring all the mixed solution into the RNAspin Column; centrifuging at 12,000rpm for 1min, discarding the filtrate, and returning the RNA Spin Column to 2ml Collection Tube; adding 600 μ L of 80% ethanol into RNA Spin Column, centrifuging at 12,000rpm for 30s, and discarding the filtrate; adding 50 mu L of DNase I reaction solution into the center of an RNA Spin Column membrane, and standing for 15 minutes at room temperature; 350 μ L of Buffer RWB was added to the center of the RNA Spin Column membrane, centrifuged at 12,000rpm for 30 seconds, and the filtrate was discarded; adding 600 μ L of 80% ethanol into RNA Spin Column, centrifuging at 12,000rpm for 30s, and discarding the filtrate; the RNA SpinColumn was re-mounted on a 2mL Collection Tube and centrifuged at 12,000rpm for 2 minutes; the RNA SpinColumn was mounted on 1.5mL of RNase Free Collection Tube, and 30. mu.L of RNase Free dH was added to the center of the RNA SpinColumn membrane2O was left standing at room temperature for 5 minutes, and centrifuged at 12,000rpm for 2 minutes to elute RNA. The obtained RNA is stored in a refrigerator at minus 80 ℃ for later use after concentration and purity detection.
The result of taking 2. mu.L of RNA and detecting by 1% agarose gel electrophoresis shows that 28S and 18S bands are clearer, the brightness of the 28S band is about twice of that of the 18S band, and the RNA quality is better. Detection of RNA purity, OD by means of a micro-accounting protein assay260/OD280And OD260/OD230All are between 1.8 and 2.1, have better integrity and can be used for reverse transcription.
2) Reverse transcription and fluorescent quantitative analysis
According to the cymbidium microRNA omics sequencing result, utilizing Primer 5 to design cymbidiummiR390aThe gene stem-loop primer has the reference sequence: 5'-GTCGTATCCAGTGCAGGGTCCGAGGTATTCGCACTG GATACGACTGGCGC-3' are provided. Meanwhile, 18S is taken as an internal reference gene, and the primer sequence is as follows: 5'-TCGCAGTGGTTCGTCTTT-3' are provided. Total Small RNAs of the above-mentioned tissues of cymbidium were used as templates, and HiScript III 1 by VazymestThe specification of Strand cDNASynthesis Kit is mixed into a system, cDNA reverse transcription is carried out, and the reverse transcription program comprises the following steps: 15min at 37 ℃ and 5s at 85 ℃.
The reverse transcription product was diluted 10 times, 1. mu.L was used as template, and the fluorescent quantitative primers used were as follows:
miR390a-F:5’-CGCGAAGCTCAGGAGGGATA-3’
miR390a-R:5’-AGTGCAGGGTCCGAGGTATT-3’
18S-F:5’-GGTCCTATTGTGTTGGCT-3’
18S-R:5’-TCGCAGTGGTTCGTCTTT-3’
the preparation of the reaction solution was carried out using the instructions of the ChamQ ™ Universal SYBR Qpcr Master Mix kit (Vazyme Co.), and the PCR program was run on an Applied Biosystems type real-time fluorescence quantitative analyzer: 5min at 95 ℃; circulating for 40 times at 95 ℃ for 10s and 60 ℃ for 30 s; 95 ℃ for 15s, 60 ℃ for 1min and 95 ℃ for 15 s. Obtaining an amplification curve after the reaction is finished, deriving data through StepOne Software v2.3, analyzing the data by using Excel, and using 2 according to the CT value-ΔΔCqThe relative expression was calculated by relative quantification, and the data analysis results are shown in FIG. 1.
This example shows the results of the quantitative analysis of fluorescencemiR390aThe expression level is highest on roots in the vegetative growth period of cymbidium goeringii, which shows that the expression level has an important effect on the growth and development of roots in the vegetative growth period of plants.
EXAMPLE 2 cloning and transformation of the Gene
The plant material used in this example was fresh leaves of cymbidium goeringii, songmeiArabidopsis thaliana) The Escherichia coli strain used is Trans5 α for gene cloning and over-expression vector construction, the vector construction is shown in figure 2, the Agrobacterium strain is GV3101 for transforming Arabidopsis thaliana, and the plant expression vector used in the test is pBI121, which are purchased from Protechs Biotech, Inc. and Pulsatis, respectively.
1) Extraction of cymbidium goeringii leaf gDNA
According to the instruction of TaKaRa plant Genomic DNA extraction kit, the specific operation is as follows:
transferring fresh leaf of "Songmei" of spring orchid into a mortar precooled with liquid nitrogen, grinding the tissue with a pestle while continuously adding liquid nitrogen until the ground leaf is powdered; the pulverized sample was quickly added to 1.5mL of sterilized tube containing 500. mu.l Buffer HS I and 10. mu.l of 50 XDTT Buffer mixture, mixed well, to which 10. mu.l RNase A was added, vortexed, mixed well, and incubated at 56 ℃ in a metal bath for 10 min. Adding 62.5 μ l Buffer KAC into the lysed sample, repeatedly blowing and mixing well with a pipette gun, placing on ice for 5min, and centrifuging at 12,000rpm for 5 min; carefully sucking the supernatant, transferring the supernatant into a new 1.5ml of sterilized tube, adding Buffer GB with the same volume as the supernatant, and uniformly mixing the two; transferring the obtained mixed solution into Spin Column of Collection tube, centrifuging at 12,000rpm for 1min, and discarding the filtrate; add 500. mu.l Buffer WA to Spin Column, centrifuge at 12,000rpm for 1min, discard the filtrate; adding 700 ul of Buffer WB along the periphery of the Spin Column wall, centrifuging at 12,000rpm for 1min, and discarding the filtrate; adding 700. mu.l of buffer WB along the periphery of the Spin Column wall, centrifuging at 12,000rpm for 1 minute, and removing the filtrate; centrifuge at 12,000rpm for 2 minutes to ensure no residual liquid remained in the Spin Column. Placing Spin Column in a new 1.5ml sterilized tube, adding 30 μ l of sterile water incubated on a 65 deg.C metal bath to the center of the Spin Column membrane, and standing at room temperature for 5 min; the gDNA was eluted by centrifugation at 12,000rpm for 2 minutes. The obtained gDNA is stored in a refrigerator at-80 ℃ for later use after concentration and purity detection.
2 mu L gDNA is absorbed and detected by 1.5% agarose gel electrophoresis, and the result shows that only one clear macromolecular band is available, and the quality of the whole genome DNA is better. Detection of gDNA purity, OD by means of a micro-accounting protein assay260/OD280And OD260/OD230All are between 1.8 and 2.1, have good integrity and can be used for PCR.
2) Design and cloning of target gene primer
Performing Blast homology comparison by using MIR390 related gene sequences of other species according to the existing sequencing data of the cymbidium miRNA group to obtain the sequence containing the cymbidiummiR390aThe precursor sequence of (1). Using Oligo6.0, Prime5.0 in cymbidiummiR390aCorresponding primers are designed at two ends of the hairpin structure of the precursor sequence, homologous arms of the two enzyme cutting sites on the selected enzyme cutting sites (XbaI and SmaI) and pBI121 are added, and the primer sequences are as follows:
MIR390a-XbaI-F:5'- GAGAACACGGGGGACTCTAGAAATGTATGGGAGAA CCATTAAAGCT-3' (the XbaI cleavage site is underlined),
MIR390a-SmaI-R:5'- ATAAGGGACTGACCACCCGGGAGAGCAGGAAGAA CCAATAGAACTCA-3' (SmaI cleavage site is underlined).
Cloning of the cymbidium MIR390 gene was performed using PrimerStar Max Hi Fidelity enzyme with gDNA as template. The PCR amplification system (50. mu.L) was: 25 μ L PrimerStar Max, 2 μ L Forward Primer, 2 μ L Reverse Primer, 2 μ L lte plate DNA, 19 μ L ddH2And O. The PCR procedure was: the reaction conditions are pre-denaturation at 94 ℃ for 3min, denaturation at 98 ℃ for 10s, annealing at 60 ℃ for 15s, extension at 72 ℃ for 30s, 32 cycles, total extension at 72 ℃ for 5min and heat preservation at 16 ℃.
After the PCR reaction is completed, all PCR products are taken to be detected by 1.8% agarose gel electrophoresis (the PCR amplification result is shown in figure 3A), target fragments are cut, and the target PCR amplification products are recovered and purified by gel. The DNA gel recovery kit of TransGen company is adopted to purify and recover the target fragment, and the specific operations are as follows: cutting a single target strip from the agarose gel, putting the cut single target strip into a clean centrifugal tube, and weighing the cut single target strip; adding 3 times volume of GSB (300 μ L GSB solution if gel is 0.1g and volume is 100 μ L) into the gel block, standing in 55 deg.C water bath while turning the centrifuge tube up and down continuously and gently until the gel block is completely dissolved; cooling the melted gel solution to room temperature, adding 1 volume of isopropanol (if the gel is 0.1g, 100 μ L of isopropanol), and gently mixing; adding the mixed solution into a centrifugal column, standing at room temperature for 1min, centrifuging at 12000rpm for 1min, discarding the effluent, and then putting the centrifugal column back into the collecting tube; adding 650 μ L of WB solution into the centrifugal column, centrifuging at 12000rpm for 1min, and discarding the effluent; centrifuging at 12000rpm for 2min to remove residual WB as much as possible, placing the adsorption column at room temperature, uncovering, standing for 5min, and air drying completely; placing the centrifugal column into a clean centrifugal tube, suspending and dropwise adding 30 mu L ddH to the middle position of the adsorption film2O(ddH2And preheating O in a water bath at 60-70 ℃ in advance), standing at room temperature for 2min, and centrifuging at 12000rpm for 2min to collect a DNA solution. Collecting 2 μ L of the recovered and purified product, detecting by gel electrophoresis using 1.5% agarose, and placing the rest at-20 deg.CAnd (3) a box which is used for connecting with a pBI121 vector to construct an overexpression vector.
3) And (3) plasmid extraction:
extracting plasmids according to the specification of the small-extraction medium-volume kit of the Tiangen plasmids, and specifically comprising the following steps:
taking 10mL of overnight cultured bacterial liquid, centrifuging at 12000rpm for 1min, and removing supernatant; adding 500 mu L P1 solution (containing RNaseA) into a centrifuge tube with the thallus precipitate, and completely suspending the thallus precipitate by using a vortex apparatus; adding 500 mu L P2 solution into a centrifuge tube, fully cracking thalli when turning the solution gently up and down, adding 700 mu L P3 solution into the centrifuge tube, immediately turning the solution gently up and down, fully mixing the solution, and centrifuging the solution at 12000rpm for 10min when white flocculent precipitates appear; adding 500 μ L of equilibrium liquid BL into adsorption column CP4, centrifuging at 12000rpm for 1min, discarding waste liquid in the collection tube, returning the adsorption column to the collection tube, adding collected supernatant into filtration column CS in batches, centrifuging at 12000rpm for 2min, carefully adding solution collected in the collection tube into adsorption column CP4 in batches, centrifuging at 12000rpm for 1min, discarding waste liquid in the collection tube, and returning adsorption column CP4 to the collection tube; adding 500 μ L deproteinized solution PD into adsorption column CP4, centrifuging at 12000rpm for 1min, discarding waste liquid in the collection tube, and replacing adsorption column CP4 into the collection tube; adding 600 μ l rinsing solution PW (containing anhydrous ethanol) into adsorption column CP4, centrifuging at 12000rpm for 1min, discarding waste liquid in the collection tube, placing adsorption column CP4 back into the collection tube, centrifuging at 12000rpm for 2min, and removing residual rinsing solution in the adsorption column; the adsorption column CP4 was transferred to a new 1.5ml centrifuge tube, and 60. mu.L ddH was added to the middle of the adsorption membrane2O; standing at room temperature for 2min, centrifuging at 12000rpm for 1min, and collecting the solution in the centrifuge tube as plasmid. Finally, the plasmid concentration was determined and prepared for the next experiment.
4) Double enzyme digestion reaction
The extracted pBI121 plasmid is digested with XbaI and SmaI at 37 ℃ for 30min, and the linear vector is recovered by electrophoresis and stored at-20 ℃ for later use. The double enzyme digestion reaction system is 50 mu L: pBI121 plasmid 20. mu.L, 5 XBuffer 5. mu.L, XbaI 1. mu.L, SmaI 1. mu.L, ddH2O 23μL。
5) Recombination reactions
Agarose gel electrophoresisDetecting the target gene and the vector pBI121 recovered after enzyme digestion, and adding various reagents according to a connection system according to the detected purity and concentration. Wherein, the number of target fragment molecules is: the number of carrier molecules =3: 1-5: 1, and the connection reaction system is as follows: linearized pBI121 vector 7. mu.L, insert 3. mu.L, 5 × CE II buffer 4. mu.L, Exnase II 2. mu.L, ddH2OUp to 20. mu.L. The reaction was carried out at 37 ℃ for 30min, left at room temperature (without immediate cooling), and transformed to E.coli competent cells after 10 min.
6) Transfer of the ligation product into E.coli
The competent cell Trans5 α strain was taken out from the ultra-low temperature refrigerator, placed on ice to melt, 10. mu.L of recombinant product was taken and added to 100. mu.L of competent cell, the centrifuge tube was placed on ice for 10min, water bath was carried out in a water bath kettle at 42 ℃ for 90s with heat shock without shaking, then immediately placed on ice for 2min, 500. mu.L of liquid medium without antibiotic was added to a super clean bench, thawed by shaking at 37 ℃ and 200 rpm for 25min, centrifuged at 6000 rpm for 1min, 350. mu.L of supernatant was taken out, and the precipitated cells were resuspended, spread on LB plate (Kana concentration 50 mg/L), and cultured overnight at 37 ℃.
7) Identification of recombinants
Single colonies on the plates were picked and inoculated into LB liquid medium containing antibiotic (Kana), and shake-cultured overnight at 200 rpm at 37 ℃. PCR was performed on the bacterial suspension using the full-length primers of the target gene to screen positive clones, and the results of the bacterial assay are shown in FIG. 3B. The positive clones after screening were sent to Nanjing Sipulin for sequencing. And (3) carrying out positive cloning with a correct sequencing result, after amplification culture, extracting plasmids by using a Tiangen plasmid extraction kit, carrying out double enzyme digestion verification, and judging whether the sizes of fragments after enzyme digestion are consistent, wherein the enzyme digestion result is shown in a figure 3C, wherein M: DL2000 Marker; 1:miR390athe precursor was ligated to pBI121 and digested simultaneously with XbaI and SmaI.
8) Preparation and transformation of Agrobacterium-infected competent cells
In the embodiment, agrobacterium GV3101 is used for preparing agrobacterium competence for carrying out an infection experiment of arabidopsis; the preparation process of the agrobacterium infection is as follows: selecting the activated agrobacterium single colony, inoculating the agrobacterium single colony in 5mL liquid LB culture medium,culturing at 28 deg.C and 250rpm for 20-24 hr; 2mL of the bacterial suspension was aspirated, inoculated into a flask containing 50mL of liquid LB medium, and shaken at 28 ℃ and 250rpm to OD600The value is about 0.8; placing the expanded bacterial solution on ice for ice bath for 30min, centrifuging at 4 ℃ and 5000 rpm for 5min, and removing the supernatant; 10mL of precooled 0.1 mo1/L CaCl was added2A solution to fully suspend the precipitated bacteria; centrifuging at 4 deg.C and 5000 rpm for 5min, and discarding supernatant; 1mL of pre-cooled 20 mmo1/L CaCl was added2The solution fully suspends the thalli to obtain GV3101 competent cells to be prepared, the competent cells are subpackaged into 100 mu L/tube by a centrifuge tube, 20% of sterile glycerol is rapidly added, and the competent cells are placed and stored at minus 80 ℃.
Agrobacterium transformation of recombinants: ice-bath to melt the agrobacterium-infected cells, adding 600ng of the recovered and purified plasmid into 100 mul of agrobacterium-infected cells, mixing the plasmid and the cells gently, and ice-bath for 5 min; quickly freezing with liquid nitrogen for 5min, thermally exciting in metal bath at 37 deg.C for 5min, and rapidly placing on ice for 5 min; adding 800 μ l LB culture medium without any antibiotic, and resuscitating at 28 deg.C and 200 rpm for 2 h; centrifuging at 4000rpm for 3min, and sucking off part of liquid culture medium; mixing the rest bacteria solution with a pipette, and spreading on solid LB medium containing 50 mg/L kanamycin and 100 mg/L gentamicin (GV 3101); and (3) performing inverted culture at 28 ℃ for 30-48 h.
Identification of Agrobacterium recombinants: picking out single colony from the plate culture medium, and inoculating the single colony in a liquid culture medium containing corresponding antibiotics; culturing at 28 deg.C and 200 rpm overnight; use of35SF, respectively matching the following primers to carry out PCR of the bacterial liquid, wherein the sequences of the primers are as follows:
35S-F:5'-GATAGTGGAAAAGGAAGGTG-3',
35S:MIR390a-R:5'- ATAAGGGACTGACCACCCGGGAGAGCAGGAAGAA CCAATAGAACTCA -3'。
detecting the PCR product by 1.5% agarose gel electrophoresis, identifying whether the PCR product contains the target fragment, adding a proper amount of sterile 50% glycerol into the identified positive clone, and storing at-80 ℃ for later use.
9) Agrobacterium-mediated transformation of Arabidopsis thaliana
The method is characterized in that a target gene is transferred into arabidopsis thaliana by adopting an inflorescence infection method, and the specific operation method comprises the following steps: arabidopsis (col wild type) maintained healthy growth until flowering; activating the agrobacterium GV3101 strain carrying the target gene. Selecting a single colony, inoculating the single colony on 5mL LB culture medium containing kanamycin and gentamicin, and shaking the colony at the temperature of 28 ℃ and the speed of 200 rpm until the bacterial liquid just turns turbid for about 8-10 hours; 1mL of bacterial liquid is sucked and inoculated into a triangular flask (50 mL) for shaking bacteria for 24 hours until the OD value is about 0.8; centrifuging the bacterial liquid at 6000 rpm at room temperature for 5min, removing supernatant, collecting thallus, and suspending with 3% sucrose solution with pH of 5.8; before soaking, adding Silwet L-77 with the concentration of 0.03% (300 mul/L), and shaking out foams; soaking the overground part of arabidopsis in agrobacterium suspension for 1min, and gently shaking the overground part of arabidopsis; laying the soaked arabidopsis thaliana in a tray, covering the tray with a preservative film, sealing the tray with tinfoil paper in the dark, and standing for 24 hours; the tinfoil paper is uncovered, the culture is carried out under a normal condition, and watering is stopped when the seeds are mature.
The 3% sucrose solution resuspension had the following composition: MS culture medium, adding sucrose 30g/L, Silwet-77300 μ L/L. (Note: after preparation, pH was adjusted to 5.8, and after centrifugation and resuspension of the bacterial solution, Silwet L-77 was added, and the conversion relationship between the resuspension solution and the bacterial solution was that the amount of the resuspension solution was OD of the bacterial solution volume =0.8 of the bacterial solution volume).
10) Screening of transgenic plants
The collected seeds of T1 generation transgenic Arabidopsis are sterilized by alcohol and sodium hypochlorite, and the steps are as follows: placing appropriate amount of the obtained transgenic seeds in a 1.5mL centrifuge tube, and soaking for 5min with 0.8% NaClO and ethanol mixed solution (in situ, the volume ratio is 1: 1); sterilizing with 75% alcohol for 5-6 times, each time for 2 min; washing with sterile water for 3-4 times; the suspension was suspended in 0.1% agarose solution.
The sterilized transgenic Arabidopsis seeds are sown on MS solid culture medium containing antibiotics (kanamycin 50 mg/L and cefamycin 100 mg/L), wrapped by tinfoil and placed in a refrigerator at 4 ℃ for vernalization. After 2 days, the medium was removed from the refrigerator and incubated at 22 ℃ under light. After about one week, Arabidopsis thaliana which can grow normally on the medium is transplanted into soil and continues to grow. And when the plants grow to a certain degree, taking the leaves of the plants to carry out DNA detection so as to obtain positive plants.
This example clones 1 cymbidium goeringiimiR390aPrecursor gene, namedMIR390aThe nucleotide sequence is shown as SEQ ID NO.3 or SEQ ID NO.4,MIR390athe length of the gene nucleotide sequence is 150bp, the gene nucleotide sequence contains 1 stem-loop structure, and a pair of arms are arranged on the gene nucleotide sequencemiR390aA positive/negative complementary sequence, themiR390aThe mature body nucleotide sequence is shown in SEQ ID NO.1 or SEQ ID NO. 2. Then, the Chinese cymbidium already connected with the Chinese cymbidiummiR390aOf precursor genes35S:MiR390aThe over-expression recombinant vector is transferred into a model plant Arabidopsis thaliana, and positive plants of T1 generation are obtained.
Example 3 cymbidiummiR390aFunctional identification for controlling plant root development
1) Obtaining of transgenic homozygous plants: the harvested transgenic T1 generation seeds are sterilized, screened and cultured, and then transplanted into nutrient soil to be cultured at 22 ℃ for 16 h in light/8 h in darkness; after detection, retaining the preliminarily confirmed transgenic plants, harvesting seeds of T1 generations after the plants are mature, and numbering to obtain T2 generations; like the T1 generation, seeds of the T2 generation are sterilized and then coated on a screening culture medium containing antibiotics, and the culture medium is placed at 22 ℃ for continuous illumination; performing survival rate statistics on T2 generation seeds with different numbers for about 10 days, selecting plants with survival rate of 75% for transplantation, culturing in nutrient soil at 22 ℃ for 16 h in light/8 h in dark, and taking leaves for positive detection; continuously numbering positive T2 generation plants, and collecting seeds to obtain T3 generation seeds; sterilizing the seeds, screening by using a screening culture medium, and placing under the light for continuous illumination culture; around 10 days, different numbered T3 generation plants were observed, all survived and no segregating T3 homozygous plants appeared.
2) DNA detection of transgenic plants
Taking a proper amount of T3 generation arabidopsis thaliana and young leaves of transgenic plants, extracting DNA by a CTAB method, and specifically comprising the following operation steps: placing a proper amount of leaves in a sterilized 2mL centrifuge tube, adding 700 mul of CTAB solution, thoroughly grinding by using a ball mill, and standing for 10min at 65 ℃; equal volume of chloroform was added: inverting isoamyl alcohol several times to mix uniformly, and centrifuging at 14000rpm for 10 min; transferring the supernatant to a new sterile centrifuge tube, adding isopropanol with the same volume, reversing and mixing uniformly for several timesStanding at room temperature for 2min, centrifuging at 14000rpm for 10min, and pouring off the supernatant; adding 70% anhydrous ethanol, blowing and washing twice by using a liquid transfer gun, centrifuging at 14000rpm for 1min, and removing the supernatant; drying surface liquid, and adding 20 mu L ddH2And dissolving the O. Taking the DNA of the above-mentioned extracted transgenic and wild type Arabidopsis thaliana, and usingmiR390aPCR detection is carried out by specific primers of the gene.
Chinese cymbidiummiR390aThe arabidopsis thaliana is transformed to T3 generations by the gene, and 3 overexpression is obtained in totalmiR390aA transgenic Arabidopsis line. The PCR results are shown in FIG. 4A, using the recombinant plasmid as a positive control, the wild type as a negative control, and water as a blank control.
3) Fluorescent quantitative PCR detection of transgenic plants
Overexpressing cymbidium from the 3 abovemiR390aTotal Small RNA was extracted from young shoots of a transgenic Arabidopsis line, and reverse transcription and fluorescence quantitative primers, methods and procedures were the same as in example 1. U6 was used as an internal reference gene, and the fluorescence quantitative primer was as follows, and the reverse transcription primer was as follows U6-R.
U6-F:5’-GGTGCTAAGAAGAGGAAGAAT-3’
U6-R:5’-CTCCTTCTTTCTGGTAAACGT-3’
After the reaction, the data were analyzed in the same manner as in example 1 using 2 for the CT value-ΔΔCqThe relative quantitative method was used to calculate the relative expression, and the final data analysis results are shown in FIG. 4B.
4) T3 generation pure and transgenic plant phenotype observation
The transgenic plants with obvious phenotype are selected for observation, and the result is shown in figure 5, compared with the wild type, the transgenic arabidopsis plants grow faster in the seedling stage, the root system length is about 1cm in the 2 nd week of the seed poking into the screening culture medium, and the root system of the wild type is about 0.2 cm. In addition, the growth speed of the overground part of the transgenic plant in the seedling stage is obviously higher than that of the wild type, the number of true leaves is already more than 4 at week 2, and the number of the wild type true leaves is only 2.
This example will turn to cymbidium35S:MIR390aAnd (4) screening and culturing Arabidopsis plants to obtain T3 generation homozygous plants, and carrying out phenotype observation. As can be seen from the results, overexpression35S:MIR390aThe arabidopsis T3 generation homozygous plant has the phenotype of accelerated root growth speed, accelerated true leaf formation speed and the like in the seedling stage.
Sequence listing
<110> Nanjing university of forestry
Application of <120> cymbidium goeringii miR390a in control of plant root system development
<160>14
<170>SIPOSequenceListing 1.0
<210>1
<211>22
<212>RNA
<213> Cymbidium goeringii
<400>1
aagcucagga gggauagcgc ca 22
<210>2
<211>22
<212>DNA
<213> Cymbidium goeringii
<400>2
aagctcagga gggatagcgc ca 22
<210>3
<211>150
<212>RNA
<213> Cymbidium goeringii
<400>3
aauguauggg agaaccauua aagcucagga gggauagcgc caugaaugau uaugcaugua 60
aaaccuggug augagcuugc ucucuuuauc agguuuuuug uuucauucug ugacgcuauc 120
uauccugagu ucuauugguu cuuccugcuu 150
<210>4
<211>150
<212>DNA
<213> Cymbidium goeringii
<400>4
aatgtatggg agaaccatta aagctcagga gggatagcgc catgaatgat tatgcatgta 60
aaacctggtg atgagcttgc tctctttatc aggttttttg tttcattctg tgacgctatc 120
tatcctgagt tctattggtt cttcctgctt 150
<210>5
<211>20
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>5
cgcgaagctc aggagggata 20
<210>6
<211>20
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>6
agtgcagggt ccgaggtatt 20
<210>7
<211>18
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>7
ggtcctattg tgttggct 18
<210>8
<211>18
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>8
tcgcagtggt tcgtcttt 18
<210>9
<211>46
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>9
gagaacacgg gggactctag aaatgtatgg gagaaccatt aaagct 46
<210>10
<211>47
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>10
ataagggact gaccacccgg gagagcagga agaaccaata gaactca 47
<210>11
<211>20
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>11
gatagtggaa aaggaaggtg 20
<210>12
<211>47
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>12
ataagggact gaccacccgg gagagcagga agaaccaata gaactca 47
<210>13
<211>21
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>13
ggtgctaaga agaggaagaa t 21
<210>14
<211>21
<212>DNA
<213> Artificial sequence (artiartiartifical sequence)
<400>14
ctccttcttt ctggtaaacg t 21