CN1318579C - Gene engineering method for raising plant useful secondary substance content - Google Patents

Abstract

The present invention discloses a gene engineering method for increasing the content of plant useful secondary substances, the synthesis of plant lignin can be effectively restrained by using the method, the flow direction of a substrate of the plant lignin is changed, and the purpose of content increase of secondary substances, containing isoflavone, polyphenol, taxol, and the like is realized. The gene engineering method is realized by the following technical scheme: 1 chimeric genes comprising a nucleic acid segment of a promoter, a nucleic acid segment coding all or partial plant lignin synthesis key enzyme, and a transcription termination region is constructed; 2 the chimeric genes are inducted into plant cells to generate transgenic plant cells; 3 the transgenic plant cells are grown under the condition suitable for expression; 4 the transgenic plant cells are filtered and identified; 5 the transgenic plant cells are further derived and cultivated into transgenic plants or transgenic callus or transgenic cell lines.

Description

A kind of gene engineering method that improves the useful secondary substance content of plant

Technical field

The present invention relates to field of plant variety breeding technology, especially about a kind of method of utilizing genetic engineering technique to improve the useful secondary metabolite of plant.

Background technology

Secondary Metabolism of Plant produces many natural products with practical value, is a lot of medicines, makeup, spices, the raw material of pigment etc.The effective ingredient major part that the tradition medicinal material contains is a secondary metabolite, but in natural phant, the content of these useful secondary substances is just very low usually, cultivates in the thing lower in cultivation and group.Therefore improving the medicinal plant effective component content, is effectively to utilize plant resources, guarantees the problem of traditional Chinese medicine quality and natural resources of Chinese medicinal materials solution that sustainable use presses for.Xylogen is that total amount is only second to cellulosic second largest organic substance in the plant materials, account for (the Anterola A more than 95% of plant secondary substance total amount, Lewis N.Trends in Ligninmodification:a comprehensive analysis of the effects of geneticmanipulations/mutations on lignification and vascular integrity.Phytochemistry.2002,61 (3): 221～294).The important composition flavonoid of xylogen and other many important secondary substances such as plant amedica, lignanoid, phenols, alkaloid, cyanidin(e) etc. by phenylpropyl alcohol alkane approach (Phenylpropanoid Pathway) synthetic ( Http:// www.genome.ad.jp/kegg/pathway/map/map00940.html), they exist the competitive relation of utilizing to common precursor (substrate).Though xylogen has certain physiological function in plant materials, it is synthetic too much both to have consumed a large amount of carbon skeleton structure and energy, also was the source of pollution of paper industry, and increased its production energy consumption; Content of lignin is too high in forage grass can reduce its digestibility.So people pay attention to the content of lignin regulation and control in recent years, become an important directions of plant genetic engineering research.

Hydroxyl cinnyl CoA-reductase (cinnamoyl CoA reductase, CCR) the COA ester of reducible 3 kinds of hydroxycinnamic acids, generate corresponding phenylacrolein (Pichon M, courbou I, Beckert M et al.Cloning and characterization of two maize cDNAsencoding cinnamoyl-CoA reductase (CCR) and differential expression ofthe corresponding genes.Plant Mol.Bio.1998,38 (4): 671～676).Therefore first special step of this enzyme catalysis lignin monomer biosynthetic pathway has regulating and controlling effect to the carbon stream that enters the xylogen route of synthesis.(Abbott JC such as Abbott, Barakate A, PinconG et al.Simultaneous suppression of multipe genes by singletransgenes.Down-regulation of three unrelated lignin biosynthetic genesin tobacco.Plant Physiol.2002,128:844～853) the inhibition CCR genetic expression that studies have shown that on tobacco can reduce the plant content of lignin significantly.These results of study have shown the possibility of genetic engineering technique regulation and control CCR genetic expression change plant lignin content.In addition, on various plants such as Arabidopis thaliana, tobacco, Yang Shu, obtained the transfer-gen plant that content of lignin or composition change at present.Proved that the key gene that content of lignin is had a control action kou comprises: PAL (L-phenylalanine ammonia-lyase, phenylalanine ammonia lyase) (Bate N, Orr J, Ni W.et a; .Quantitytive relationship betweenphenylalanine ammonia-lyase levels and phenylpropanoid accumulationin transgenic tobacoo identifies a rate-determining step in natural productsynthesis.1994, PNAS, 91:7608-7612), C4H (cinnamate 4-hydroxylase, styracin-4-hydroxylase) (Blee K, Choi JW, O ' Connell AP et al.Antisense andsense expression of cDNA coding for CYP73A15, a class II cinnamate4-hydroxylase, leads to a delayed and reduced production of lignin intobacco.Phytochemistry 2001,57 (7): 1159-66), 4CL (4-coumarate:coenzyme A ligase, hydroxycinnamic acid: (Kajia S CoA ligase), KatayamaY, Omori S.Alteration in the biosynthesis of ligninin transgenic plants with chimeric genes for 4-coumarate:coenzyme Aligase.Plant Cell Physiol.1996,37:957-965), COMT (caffeic acidO-methyltransferase, the coffic acid methyltransgerase) (Atanassova R, Favet N, Martz F, Chabbert b, Tollier M-T, Monties B, Fritig B, Legrand M (1995) Altered lignin composition in transgenic tobacco expressingO-methyltransferase sequences in sense and antisense orientation.Plant J8:465-477), CCoAOMT (caffeoyl-CoA 3-O-methyltransferase, 5-adenosine-methionine(Met): (ZhongR caffeoyl coenzyme A/5-hydroxyl asafoetide acyl coenzyme A-O-Methyl transporters acyl), Morrison WH, Himmelsbach DS et al.Essential role of caffeoylcoenzyme A O-methyltransferase in lignin biosynthesis in woody poplarplants.Plant Physiol.2000,124:563-577), CCR (cinnamony-CoAreductase, hydroxyl cinnyl coenzyme reductase enzyme).By suppressing these enzyme expression of gene, all can reduce plant lignin content.

But relevant lignin-base mainly concentrates on the reduction of plant lignin content and the change of its component at present because of engineering research, and does not see the systematic study report of the regulation and control of content of lignin to the synthetic influence of other secondary metabolism approach product as yet; In addition, in cell and tissue culture, adopt inhibitor reduction competition approach metabolism stream to improve target product content and have successfully, but come not appear in the newspapers as yet for required secondary metabolite route of synthesis provides the research of more substrates by suppressing competition pathway key enzyme gene expression.The present invention utilizes " substrate competition " mechanism, adopting genetic engineering technique to regulate the synthetic specific enzymes of relevant xylogen is CCR genetic expression, reduce xylogen biosynthesizing amount, more substrates are provided for useful secondary substances such as medicinal plant activeconstituents are synthetic, thereby improve the useful secondary substance content of plant.

Summary of the invention

The purpose of this invention is to provide a kind of gene engineering method that improves the useful secondary substance content of plant, it is using gene engineering technique, regulating the synthetic key gene of CCR xylogen expresses, reduce the biological content of xylogen, for the synthetic of other useful secondary substance provides more substrates, thereby improve the content of the useful secondary substance of plant.

The present invention improves the gene engineering method of the useful secondary substance content of plant, may further comprise the steps:

1, chimeric genetic construct comprises the nucleic acid fragment that is coded in the promotor that works in the vegetable cell, with promotor for oppositely to be connected, the nucleic acid fragment of the synthetic key enzyme CCR of coded plant xylogen, and transcription termination region;

2, mosaic gene is imported when it be non-conversion plant, can in its organ or tissue, produce in the vegetable cell that is selected from soybean or Ramulus et folium taxi cuspidatae that accumulates useful secondary substance the generation transgenic plant cells;

3, transgenic plant cells is grown under the condition of suitable mosaic gene expression;

4, screening and discriminating transgenic plant cells are compared with similar non-transgenic plant cell, and synthetic key enzyme CCR of its xylogen and content of lignin are reduced, and have at least a kind of content of useful secondary substance to be enhanced;

5, the further cultivation of transgenic plant cells become transfer-gen plant, or transgenic calli, or transgenic cell line.

The mosaic gene of structure of the present invention is inverted defined gene structure (antisenseconstructs).

Chimeric genetic construct of the present invention, wherein promotor is composition type expression promoter or organ specific expression promoter, and wherein composition type expression promoter is CaMV 35S, and the organ specific expression promoter is the xylem specific expression promoter.

The synthetic key enzyme of plant lignin of the present invention be hydroxyl cinnyl CoA-reductase (cinnamoyl CoA reductase, CCR).

When plant of the present invention is unconverted plant when it, just can accumulate useful secondary substance in its organ or tissue, such plant is optional from soybean or Ramulus et folium taxi cuspidatae.

Mosaic gene of the present invention is by agriculture bacillus mediated approach, electric shocking method, and the micropellet bombardment method, microinjection or liposome technology import described vegetable cell.

Useful secondary substance of the present invention comprises the effective ingredient of medicinal plant for the product of precursor (substrate) is provided by phenylpropyl alcohol alkane approach (Phenylpropanoidpathway), can be specially isoflavones or taxol.

Transgenic plant cells of the present invention contains constructed mosaic gene, and this cell can further be cultivated becomes transfer-gen plant, transgenic calli or transgenic cell line.

The transgenic plant cells that a kind of useful secondary substance content that is obtained by the method for the invention is enhanced contains the mosaic gene of described structure.

The transgenic plant cells that a kind of useful secondary substance content that is obtained by the method for the invention is enhanced is further cultivated and is formed transgenic cell line or transgenic calli or transfer-gen plant.

The invention has the beneficial effects as follows the employing gene engineering method, the mosaic gene that makes up is imported vegetable cell, and further cultivation forms transfer-gen plant, callus or clone, it is the expression of CCR that their offspring can stably suppress the synthetic specific enzymes of xylogen, reduces its biosynthesizing amount, and makes the biosynthetic substrate of xylogen----die aromatischen Aminosaeuren, phenylpropyl alcohol alkane approach product flows into the route of synthesis of secondary substances such as isoflavones or taxol more, improves its output.This provides a new technological approaches for improving the content of useful secondary metabolites such as medicinal plant effective ingredient.

Description of drawings

Fig. 1: the structure of CCR antisense plant expression vector;

Fig. 2: the PCR of recombinant plasmid pUCm-T-CCR identifies

The P:PCR molecular weight standard; 1: plasmid pUCm-T-CCR amplified production

Fig. 3: recombinant plasmid: pUCm-T-CCR PstI enzyme is cut evaluation

M：λDNA/Hind?III；

E: plasmid: pUCm-T-CCR cuts the result with the PstI enzyme

Fig. 4: the PCR of plasmid pACCR identifies

4-a plasmid pACCR is the amplified production of primer with CCPF+CCRR

The P:PCR molecular weight marker;

1: plasmid pUCm-T-CCR amplified production;

2: plasmid pIG121 amplified production;

3: plasmid pACCR amplified production;

4-b plasmid PACCR is with P _35S+ CCRF is the amplified production of primer.

The P:PCR molecular weight marker;

1: plasmid pIG121 amplified production; 2---3: plasmid pACCR amplified production.

Fig. 5: plasmid pACCR enzyme is cut evaluation

M：λDNA/Hind?III；L：DNA?Ladder

5a:pACCR plasmid SacI enzyme is cut the result.

1: plasmid pACCR;

2:pACCR plasmid SacI enzyme is cut;

5b:pACCR plasmid BamHI enzyme is cut the result.

M：λDNA/HindIII

1:pIG121 plasmid BamHI enzyme is cut;

2:pACCR plasmid BamHI enzyme is cut.

Embodiment

Below describe in detail for example and utilize embodiment of the present invention, but the qualification of protection scope of the present invention formation not being gone up is in all senses below described in the application that the invention is not restricted to provide below.

The clone of the synthetic key gene CCR of embodiment 1. xylogen and the structure of antisense expression vector thereof

1) vegetable material: for examination Arabidopis thaliana (Arabidopsis thaliana L.Heynh) is the Columbia ecotype, is permitted political affairs Mr. Kai by Chinese Academy of Sciences's plant physiology and ecological Studies and is so kind as to give.Arabidopsis thaliana genomic dna adopts the CTAB method to extract from blade.

2) bacterial strain and plasmid: cloning vector pUCm-T carrier is company limited of a lottery industry biotechnology company product.Expression of plants binary vector pIG121, helper plasmid pRK2013, intestinal bacteria (Escherichia coli) DH5 α, HB101, agrobacterium tumefaciens (Agrobacteriumtumefacious) EHA105 are preserved by Zhejiang Academy of Agricultural Science crop quality improvement genetically engineered laboratory.

3) enzyme and chemical reagent: restriction enzyme, T4 dna ligase, calf intestine alkaline phosphatase toolenzyme, λ DNA/HindIII such as (CIAP) are available from MBI company, dna molecular amount mark PCR Marker is available from magnificent biotech company, and DNA Ladder is available from ancient cooking vessel state biotech development center.Taq archaeal dna polymerase, agarose and other biochemical reagents are that worker bio-engineering corporation product is given birth in Shanghai; The PCR primer is given birth to worker bio-engineering corporation by Shanghai and is synthesized.

4) amplification of CCR gene and clone: according to CCR gene order among the Genbank, the synthetic a pair of special primer of design is that template is carried out pcr amplification with the arabidopsis thaliana genomic dna.

5 ' end primer:

Primer?CCRF：5′-GCTGGTGGATACATCGCTTCT-3′

3 ' end primer:

Primer?CCRR：5′-AGGAGAAGCCGTGTGAAAGAC-3′

The pcr amplification program: amplification condition is 94 ℃ of pre-sex change 5min; 94 ℃, 30s, 55 ℃, 1min, 72 ℃, 30 circulations of 1.5min.Last circulates back 72 ℃ and extends 10min.

Pcr amplification product obtains an amplified band (Fig. 2) that is about 343bp through 2% agarose gel electrophoresis, and is consistent with the expection size.

With the PCR product of single A and pUCm-T carrier after the T4 dna ligase is connected, transformed into escherichia coli DH5 α competence bacteria.With the X-Gal/IPTG/LB plate screening that contains 100 μ g/mL penbritins.Extract the plasmid DNA of positive colony in a small amount, the PstI enzyme is cut the back and is obtained two DNA electrophoresis bands, article one, with big or small close (about 2.8 kb) of carrier pUCm-T, another close with the pcr amplified fragment size (about 343 bp) (Fig. 3), proof PCR product has been cloned in the pUCm-T carrier, with this clone's called after pUCm-T-CCR.

5) sequencing and analysis: utilize the T7 promoter sequence that is positioned at cloning vector pUCm-T Vector multiple clone site upstream, positive recombinant plasmid is carried out automatic sequencing.Examining order is finished by Bo Ya biotech company.Through sequencing, cloned sequence is made up of 343 Nucleotide, and its sequence is as follows:

GCTGGTGGAT?ACATCGCTTC?TTGGATTGTT?AAGATACTTC

TCGAGAGAGG?TTACACAGTC?AAAGGAACCG?TACGGAATCC

AGGTACTTGT?CCATTTTTAT?ATATACTTTT?TTGGTCACTT

GTGATAATTA?TCTGAAGTTG?TTGAGGTTAT?TTTTATTGTT

TTGATTGACA?ATTTGGATTT?CTTTATAATT?ATTTTTCTTG

CAGATGATCC?GAAGAACACA?CATTTGAGAG?AACTAGAAGG

AGGAAAGGAG?AGACTGATTC?TGTGCAAAGC?AGATCTTCAG

GACTACGAGG?CTCTTAAGGC?GGCGATTGAT?GGTTGCGACG

GCGTCTTTCA?CACGGCTTCT?CCT

Carry out the nucleotide sequence homology comparison with blast program in GenBank+EMBL+DDBJ+PDB, the result shows that the homology of the CCR Gene Partial sequence on this fragment and No. 1 karyomit(e) of Arabidopis thaliana is 100%.

6) antisense CCR gene plant is expressed the structure and the evaluation of binary vector: antisense CCR gene plant expression structure as shown in Figure 1.For ease of gene clone, utilize PCR method to introduce Sac I site at purpose fragment two ends.With the pUCm-T-CCR plasmid DNA is that template is carried out pcr amplification, and amplified production is cut with Sac I enzyme, reclaims about 343 bp fragments; Expression vector pIG121 is cut the CIAP dephosphorization with Sac I enzyme.Carrier: the purpose fragment connects with the T4 dna ligase with 1: 3 mixed.Transformed into escherichia coli HB101 competent cell is coated on the LB flat board that contains 100 μ g/mL kantlex and screens recon.With CCRF, CCRR primer PCR screening and cloning, the amplified fragments of positive colony is consistent with the clip size that pUCm-T-CCR amplification is obtained, and (Fig. 4 a).For determining that target fragment is connected with the reverse of CaMV 35S promoter, adopt 5 ' primer CCRF of target gene and classify primer (P as corresponding to one section nucleotides sequence of CaMV 35S promoter _35S: 5 '-CGTAAGGGATGACGCACAAT-3 '), carrying out the PCR screening, part clone has amplified fragments, and its length is slightly larger than with P _35SWith gus gene 3 ' primer (P _GUS: 5 '-CGCAAGACCGGCAACAGG-3 ') fragment (Fig. 4 b) that amplifies.This positive colony plasmid DNA is carried out enzyme cut evaluation, cut the fragment that obtains about 349 bp with Sac I enzyme, conforming to insertion fragment length after the CCR gene adds Sac I site, (Fig. 5 a); Cut with Bam HI enzyme and to obtain the fragment (Fig. 5 b) about about 4.1kb, i.e. a gus gene fragment+CCR gene fragment+NOS terminator fragment+35S promoter fragment+HPT II gene fragment.PCR and enzyme are cut presentation of results CCR gene fragment and have been inserted in the expression vector after the gus gene, and with 35S closure be antisense orientation, with this antisense CCR plant expression carrier plasmid called after pACCR.

7) antisense CCR expression of plants binary vector transforms Agrobacterium: adopting the triparental mating method, is the power-assist plasmid with pRK2013, and antisense CCR plant expression vector pACCR is imported agrobacterium tumefaciens EHA105.On the YEB substratum that contains Rif (25 μ g/mL) and Km (100 μ g/mL), screen transformant, with CCRF, CCRR primer and P _35S, CCRF is that primer carries out pcr amplification to the triparental cross positive colony, and extract plasmid with alkaline process and carry out enzyme and cut evaluation.Enzyme is cut the result and is shown in conjunction with the PCR qualification result, and antisense CCR plant expression vector has successfully transformed agrobacterium tumefaciens.

Embodiment 2. antisense CCR gene transformation Arabidopis thalianas

1) Arabidopis thaliana transforms

Adopt the inflorescence spray method.Choose full Arabidopis thaliana (the Columbia ecotype) seed, sow after 2～3 days,,, cut off the above main floral axis of lotus throne leaf behind the bolting, to promote secondary floral axis bolting in 22～24 ℃ of cultivations with the photoperiod of 16h illumination/8h dark in 4 ℃ of vernalization.When extremely secondary floral axis 2～10cm is long, be used for transforming.

The cultivation of Agrobacterium: the single colony inoculation of picking Agrobacterium EHA105 (containing plasmid pACCR) contains the YEB nutrient solution of 25mg/mL Rif+100mg/mL Km in 5mL, 200rpm, and 25-28 ℃ of overnight incubation activates in advance.Get 50 μ L bacterium liquid and be inoculated in the same nutrient solution of 50mL, be cultured to logarithmic phase.Bacterium liquid is in the centrifugal 20min of room temperature 5500g.Thalline is diluted to OD with conversion fluid (1/2MS, pH5.7 contains: 5% sucrose, 0.02～0.05%Silwet L-77,44mMbenzylamino purine) ₆₀₀～0.80.Bacterium liquid evenly is sprayed on the Arabidopis thaliana plant, with inflorescence complete moistening exceeding.Collect the transformed plant seed, screen containing on the 1/2MS flat board of 50mg/mL Km, the resistance seedling is transplanted in the soil, carries out Molecular Detection.The transfer-gen plant of empirical tests carries out xylogen and secondary metabolite content analysis.

2) evaluation of transgenic plant

The PCR of transgenic plant detects: PCR method can be measured the integration of foreign gene in transformed plant or callus apace.Because plant itself has endogenous CCR gene, therefore, when detecting transfer-gen plant, can not design primer or probe with the sequence of CCR gene itself with PCR or Southern method.P is adopted in this research _35S, the CCRF primer carries out pcr amplification.

Extract transfer-gen plant or the total DNA of callus,, carry out PCR as template.Transfer-gen plant has amplified the band with the recombinant plasmid pACCR amplified fragments same molecular amount that contains the Anti-CCR gene, and adjoining tree does not amplify respective strap.

The Southern hybridization analysis of transfer-gen plant or callus: the total DNA of regeneration plant carries out Southern hybridization behind the complete enzymolysis of restriction enzyme.Dna probe is the fragment of the mould plain gene of zonal tide among the super binary vector pIG121.Carry out mark by TaKaRa company random primer labelling test kit specification sheets.Southern hybridization is undertaken by the described scheme in " molecular cloning " (SambrookT, TanaKa K, Monma T.Molecular Cloning:A Laboratory Manual.ColdSpring Harbor Laboratory apres, New York, 1989).

3) content of lignin is measured: reference wave Qin Nuoke method (Bo Qinnuoke XH.The plant biochemistry analytical procedure.1983, Beijing: Science Press.165-166，178-180。) take by weighing vegetable material (green wood material) 0.2～0.5 gram, handle with 1% acetic acid and isolate sugar, organic acid and other soluble compound.Use acetone treatment then, isolate chlorophyll, fat and other fat-soluble cpds, use 72% (proportion 1 again.63) sulfuric acid is isolated fiber and half fiber.Centrifugal (2500rpm) abandons supernatant.To precipitate with behind the distilled water wash, in the presence of sulfuric acid,, use the excessive potassium bichromate of iodometric determination again with the xylogen in the potassium dichromate oxidation hydrolysate.Before terminal point, add the 1mL Starch Indicator, be titrated to green then.The calculation formula of content of lignin:

$x=\frac{0.433\×K(a-b)}{\mathrm{DW}}$

X: content of lignin (%); K:NaS ₂SO ₃Concentration; DW: sample heavy (g);

A: the 0.5mol/L NaS that contrast liquid spends ₂SO ₃Volume (mL);

B: the 0.5mol/L NaS that the titration sample is spent ₂SO ₃Volume (mL).

4) plant phenols assay: with reference to Zhu Guanglian (Zhu Guanglian. plant physiology experiment. BJ University Press, 1990:229～231) Folin-phenol reagent development process, content is in (μ g/g fresh weight.

The influence of table 1. antisense CCR gene pairs Arabidopis thaliana plant xylogen, phenols content

Sample	Content of lignin (% dry weight)	Phenols content (μ g/ g, FW)	Phenols content improvement value (%)
				Contrast (unconverted plant)	9.2	?118.20
Transfer-gen plant 1	?8.3	?142.36	?20.4
				Transfer-gen plant 2	?6.9	?254.78	?115.5
Transfer-gen plant 3	?7.5	?201.78	?70.7

5) the isozygoty acquisition of antisense CCR transgenic arabidopsis plant: above-mentioned antisense CCR transfer-gen plant is followed the tracks of through Southern, PCR equimolecular through selfing, offspring and is detected, but seed selection obtains the transfer-gen plant of antisense CCR gene pure.

Embodiment 3. utilizes antisense CCR gene to improve isoflavone content

1) plant transforms: adopting agrobacterium-mediated transformation, is explant with the soybean cotyledon node, carries out the genetic transformation of soybean, and conversion process is with reference to methods such as Zhou Sijun (Zhou Sijun, Li Xichen, Liu Zhaojun etc.By agrobacterium-mediated transformation Bt (cryIA) gene is imported soybean.(soybean science, 2001,20 (1): 157～163).

Bacterium liquid is prepared: picking list bacterium colony from fresh flat board, and be inoculated into and contain in the corresponding antibiotic YEP substratum, 27 ℃ of shaking culture are to logarithmic phase (OD ₆₀₀≈ 0.5).Bacterium liquid is resuspended in bacterium (OD in 1/10 B5 medium (Gamborg etc., 1968) then 4000rpm, 4 ℃ centrifugal 10 minutes down ₆₀₀≈ 0.5).Resuspended medium supplemented has the sucrose of 1.7mg/LBA, 0.25mg/LGA3,100 μ M AS (Syringylethanone) and 3%, and AS adds behind autoclaving.The pH of substratum transfers to 5.4 before autoclaving, and adds 20mMMES as the pH buffer reagent.

Explant is prepared: select for use anosis, full soybean seeds to carry out disinfection; 15 minutes → aseptic water washing of 1 minute → 0.1-0.2%HgCl of 70% alcohol 4-5 time, at least 5 minutes at every turn → sterilized water soaks more than 2 hours.Seed after the sterilization is seeded in B5 medium (containing 2mg/L BA) and goes up germination.Aseptic seedling with germination 5-7 days cuts the cotyledonary node explant: locate to cut hypocotyl about ion leaf segment 3mm, cut 1/3 cotyledon again, in the middle of two cotyledons, plumular axis is vertically cut then, remove terminal bud, in the scope of cotyledon and the about 3mm of plumular axis junction diameter, draw the 5-7 cutter with scalper.Through aforesaid operations, each aseptic seedling can produce 2 cotyledonary node explants that are used to transform.

Transform and screening: the bacterium liquid that the cotyledonary node explant for preparing is put into after resuspended soaked 5-30 minute.Outwell bacterium liquid, explant is placed in the big culture dish that all is covered with aseptic filter paper up and down, sop up unnecessary bacterium liquid.Then the explant adaxial and its surface is seeded in down on the common culture medium that is covered with one deck aseptic filter paper, culture medium is identical with the resuspended liquid culture medium of bacterium altogether, adds 0.5% agar and solidifies.Culture changes explant in the aseptic triangular flask over to cultivate 3 days altogether under 24-25 ℃, dark or the low light level after, add liquid B 5 substratum and (contain 1.7mg/L BA, 0.25mg/LGA3,3% sucrose, 500mg/L Pyocianil, 20-30mg/L Totomycin, pH5.6) shaking triangular flask washes twice, or on shaking table 150rpm shaking culture 2-3 days, change fresh culture every day.Change solid culture then over to, medium component is identical, the cotyledon adaxial and its surface up, hypocotyl inserts substratum.Per two weeks switching once cuts the aging tissue of hypocotyl base portion during switching.When treating that bud is visible (about about 4 weeks), change explant over to the bud elongation medium.Medium component is identical substantially with the adventitious bud induction culture base: BA concentration is reduced to 1.0mg/L or is used the 1.0mg/L zeatin instead, and GA3 concentration increases to 0.5mg/L, adds 0.2mg/LIBA, adds each 50mg/L of Gln and Asn.4-6 after week regrowth can grow to the 2.5-3cm height.Downcut regrowth, change 1/2 B5 medium (additional 0.5-2.0mg/L IBA or NAA, 2% sucrose, 0.8 agar) root induction over to.Culture condition is 22-26 ℃, relative humidity 70-75%, 16/8 hour photoperiod.Can take root about 2 weeks.

Regeneration plant is transplanted: regeneration plant take root and long two above compound leaves after, triangular flask is opened lid, (relative humidity 85%, intensity of illumination 3000Lux, temperature 22-26 ℃) took exercise 5-7 days in climate box.Take out plantlet then, clean the substratum of root, plant in the little basin of the sand that fills sterilization, soil (1: 1) mixture, in climate box, continue to cultivate 1-2 week.In time the last week, reduce relative humidity to 75% gradually, plantlet is progressively tamed.Plant then into big basin and grow to maturation.

2) transfer-gen plant Molecular Identification: referring to embodiment 2.

3) mensuration of isoflavone content in the soybean: adopt reversed phase high efficiency liquid phase method (Sun Meijun, white horse with a black mane refining, Shi Changying etc., flavones content mensuration and analysis and research in the Chinese soybean goods, food and fermentation industries, 2000,26 (3) 14-19) to measure.

Material: standard specimen Genistoside and daidzin are the Sigma product.HPLC is a chromatographic grade with methyl alcohol, acetate, and water is high purity water, and all the other reagent are analytical pure.

Key instrument: high performance liquid chromatograph (day island proper Tianjin LC-9A).

Chromatographic column: Shim-pack clc-ods C-18 0.15m * 6.0mm Ф; UV-detector: SPD-6AV; Moving phase: methyl alcohol: 5% acetate=30: 70; Flow velocity: 1.0mL/mim (before the 8.5min), 1.5mL/min (behind the 8.5min); Wavelength: 224nm; Detection sensitivity: 0.08AUFS; Column temperature: 50 ℃.

Soybean seeds is ground the back cross 40 mesh sieves, use the normal hexane degreasing then, extract with 80% methanol eddy, extraction liquid is got 10 μ L sample introductions behind 0.45 μ m micro-filtration, detect through UV-detector, by comparing with standard specimen, qualitative according to the retention time of standard specimen, according to the peak area quantification of standard specimen.

The influence of table 2. antisense CCR gene pairs soybean seeds isoflavone content

Sample	Isoflavone content in the seed (μ g/g)	Isoflavone content improvement value (%)
			Contrast (unconverted soybean seeds)	1890.80
Transfer-gen plant 1 soybean seeds	1955.02	?3.4
			Transfer-gen plant 2 soybean seeds	2022.30	?7.0

Transfer-gen plant 3 soybean seeds

2414.63

27.7

4) the isozygoty acquisition of antisense CCR genetically engineered soybean plant: above-mentioned antisense CCR transfer-gen plant is followed the tracks of through Southern, PCR equimolecular through selfing, offspring and is detected, but seed selection obtains the genetically engineered soybean strain of antisense CCR gene pure.

Embodiment 4. utilizes antisense CCR gene to improve the taxus callus content of taxol

1) acquisition of antisense CCR transgenosis taxus callus: adopt the particle gun conversion method.

The sterilization of explant: select life in 1～2 year to have southerm yew spray that shagreen is in dark position as for the examination material, branch is cut into segment after cleaning, and uses 70% ethanol and 0.1%HgCl respectively ₂Sterilization 2min and 20min.After rinsed with sterile water 6 times, the stem section is cut into the segment that is about 1.5-2.0cm, oblique cutting is on inducing culture.Callus inducing medium is B ₅The inorganic salt of substratum add 100.0mg/l inositol, 1.25mg/L nicotinic acid, 1.0mg/L vitamins B ₁, the 0.5mg/L vitamins B ₆, 20.0g/L sucrose, 1.0g/L lactoalbumin hydrolysate, 0.1mg/L BAP, 2.0mg/L 2,4-D, agar 8.0g/L, the medium pH value is 5.8.In the dark culturing chamber, cultivate.Culture temperature is 22 ± 2 ℃.Callus appearred in about about 20 days.Induce when finishing, the relatively large callus (more than the diameter 0.5cm) that forms on the explant is stripped down, be seeded in succeeding transfer culture on the proliferated culture medium.Callus proliferated culture medium isogeneous induction substratum, but do not have the hydrolysis milk-protein, 2,4-D concentration is 1.0mg/L.Cultivate in the illumination cultivation chamber, culture temperature is 22 ± 2 ℃, and intensity of illumination is about 1500 lx, and the photoperiod is 14h.

Callus through 1-2 subculture is used for the particle gun conversion.Callus is 24h before bombardment, shifts on high glucose medium (to contain sucrose 5%, the same proliferated culture medium of all the other compositions).Little bullet DNA preparation: plasmid pCCRA adopts alkaline process to extract, and the concentration determination of plasmid DNA is by its OD ₂₆₀Value estimates that adjusting to concentration with TE is 1 μ g/ μ L.Used bronze particle diameter is 1.6 μ m.Aseptic condition is the ethanolic soln of preparation bronze down, concentration 60 μ g/ μ L.Get 50 μ L suspension and be sub-packed in the Eppendorf pipe, each pipe adds 50 μ g plasmids, 50 μ L2.5 μ gCaCl ₂With 20 μ L 1.0M spermidine solution.Abundant vibration 3min, the centrifugal 10min of 10000rpm abandons supernatant, and precipitation is suspended in the 50 μ L dehydrated alcohols again.The each bombardment with 10 μ L.

Particle gun bombardment: use the PDS-1000/He type pneumatic type particle gun of Bio-Rad company to transform, operate by product description.The vacuum tightness 26-30 inch of mercury, bombardment are pressed and are 1100psi, and every ware bombards a rifle.

Bombardment back callus material is after overnight incubation on the high glucose medium, transfer on the solid multiplication substratum of antibiotic-free, behind cultivation 4～6d, be transferred on the resistance proliferated culture medium that contains Totomycin (20mg/L), per 4 weeks shift 1 time, select the normal resistance tissue of growth.

2) transgenic calli Molecular Identification: referring to embodiment 2.

3) mensuration of taxus callus content of taxol: adopt high performance liquid chromatography (grandson's Jun, Hu Zhenghai.The cultivation of taxus callus and paclitaxel production.Northwest University's journal.2000,30 (1) 55 ~ 59) detect Ramulus et folium taxi cuspidatae culture content of taxol.

Instrument and reagent: day island proper Tianjin LC-9A of company type high performance liquid chromatograph; Shim PackCLC-ODS chromatographic column; CR-9A machine record, calculating.Methyl alcohol, trichloromethane are analytical pure.HPLC is the liquid chromatography eluent with methyl alcohol, acetonitrile; Water is high purity water; Taxol and harringtonine standard substance are Sigma company product; Moving phase is methyl alcohol-acetonitrile-water (25: 24: 41); Flow velocity 1mL/min; The detection wavelength is 227nm.

The making of typical curve: accurately take by weighing the taxol standard substance, be made into the methanol solution of 1mg/mL.Accurately draw standard solution 2.00,4.00 again, 6.00,8.00,10.00 μ L inject liquid chromatograph, write down its color atlas, measure peak area A respectively, repeat 3 times, get its mean value.With peak area A is X-coordinate, sample size m be ordinate zou map a straight line, be typical curve.Can draw regression equation: m=bA+c from this curve, b wherein, c is a constant, the linearly dependent coefficient of equation should be r=0.999 ~ 1.000.

Sample preparation and content of taxol are measured: the callus that will cultivate behind the 30d is dried to constant weight under 60 ℃, grinds to 0.25mm.With chloroform: methyl alcohol=6: 4 refluxing extraction 3 times, concentrate, sherwood oil takes off ester, the reduced vacuum cryodrying is to constant weight then.

It is an amount of accurately to take by weighing testing sample, adds the moving phase dissolving, and being made into concentration is the solution to be measured of 0.3mg/mL, accurate sample introduction analysis.Repeat 3 times, record peak area A _i, get its mean value, the substitution regression equation is obtained m _iPercentage composition P _i% is calculated as follows:

Pi-＝m _i/m _w×100％，

M wherein _wBe sample quality.

The influence of table 3. antisense CCR gene pairs taxus callus content of taxol

Sample	Content of taxol in the callus (% dry weight)	Content of taxol improvement value (%)
			Contrast (unconverted taxus callus)	0.019
Transgenosis taxus callus 1	0.042	121.7
			Transgenosis Ramulus et folium taxi cuspidatae callus group	0.036	89.5

Knit 2
			Transgenosis taxus callus 3	0.063	231.6

It is content of taxol that embodiment 5. utilizes antisense CCR gene to improve yew cell

1) inducing of taxus callus: referring to embodiment 4.

2) acquisition of Ramulus et folium taxi cuspidatae suspension cell line: the taxus callus culture of inducing generation is compared, selects, content of taxol in the Preliminary detection culture.Obtain the clone tissue that growth is very fast, content of taxol is high and be used as follow-up study.

Choiceness callus material is inoculated into B ₅Carry out suspension culture in (containing 2,4-D1.0mg/L, IAA1.0mg/L, KT 0.1mg/L) substratum, the liquid medium about every 250mL triangular flask packing 60mL, the about 150mg of each triangular flask inoculum size (dry weight).Shaking speed 120r/min, the same solid culture of other culture condition.After two weeks, under aseptic condition, use screen cloth elimination larger particles, the tiny cell mass of leaching more earlier.Choose the small cell cluster of 3-5 cell aggregation, cultivate on the nutrient agar that is inoculated into culture dish that scatters.About 20d, treat that small cell cluster is grown up after, select the different cell mass of color and luster, form and growth conditions, cut respectively and be inoculated in the little triangular flask of 50ml and cultivate.Select well-grown cell mass to do further observation and selection.It is two that the cell mass of electing further observation comparison as is divided equally: a part continues to cultivate also material alternatively; Another part enlarged culturing is also done content detection.Through observing and selecting, growth is slow, that content of taxol is low cell mass is rejected from the material of selecting to cultivate; The cell mass of remainder is divided into fritter again, and is inoculated on the new substratum, do observation, comparison, the detection of a new round.Select through many wheels, finally select content of taxol height, well-grown clone material, it is carried out expanding propagation and succeeding transfer culture, and do further impurity elimination and protect pure, after treating that its cultivated material proterties is stable, be used for culture experiment and enlarged culturing as good clone.

3) antisense CCR gene transformation Ramulus et folium taxi cuspidatae suspension cell: adopt particle gun to transform, little bullet DNA preparation, particle gun bombarding conditions are referring to embodiment 4.Transform back Ramulus et folium taxi cuspidatae suspension cell and be transferred to the liquid nutrient medium screening that contains to containing Totomycin (20mg/L), cultivate unconverted Ramulus et folium taxi cuspidatae suspension cell with method and do contrast.To screening the cell enlarged culturing of back survival, the performing PCR of going forward side by side detects.

4) mensuration of Ramulus et folium taxi cuspidatae suspension cell content of taxol: gather in the crops culture to be measured, dry to constant weight under 60 ℃, porphyrize is crossed 40 mesh sieves.Adopt high-pressure liquid phase method to measure its content of taxol, method is referring to embodiment 4.

The influence of table 4. antisense CCR gene pairs Ramulus et folium taxi cuspidatae suspension cell line content of taxol

Sample	Content of taxol in the Ramulus et folium taxi cuspidatae suspension cell line (% dry weight)	Content of taxol improvement value (%)
			Contrast (unconverted Ramulus et folium taxi cuspidatae suspension cell line)	?0.096
Transgenosis Ramulus et folium taxi cuspidatae suspension cell line 1	?0.135	?40.6
			Transgenosis Ramulus et folium taxi cuspidatae suspension cell line 2	?0.126	?31.3
Transgenosis Ramulus et folium taxi cuspidatae suspension cell line 3	?0.168	?75.0

More than describe implementation process of the present invention in detail with way of example, but to those skilled in the art, it is evident that, in implementation process, can carry out the modification and the replacement of many equivalences.Therefore, scope of the present invention only is as the criterion with the qualification of claims.

Claims (7)

1, a kind of gene engineering method that improves the useful secondary substance content of plant is characterized in that comprising step:

A) chimeric genetic construct comprises the nucleic acid fragment that is coded in the promotor that works in the vegetable cell, with promotor for oppositely to be connected, the nucleic acid fragment of the synthetic key enzyme hydroxyl cinnyl CoA-reductase CCR of coded plant xylogen, and transcription termination region;

B) mosaic gene is imported when it be non-conversion plant, can in its organ or tissue, produce in the vegetable cell that is selected from soybean or Ramulus et folium taxi cuspidatae that accumulates useful secondary substance the generation transgenic plant cells;

C) transgenic plant cells is grown under the condition of suitable mosaic gene expression;

D) screening and discriminating transgenic plant cells are compared with similar non-transgenic plant cell, and synthetic key enzyme CCR of its xylogen and content of lignin are reduced, and have at least a kind of content of useful secondary substance to be enhanced;

E) the further cultivation of transgenic plant cells become transfer-gen plant, or transgenic calli, or transgenic cell line.

2, method according to claim 1 is characterized in that described useful secondary substance is for being provided the product of precursor by phenylpropyl alcohol alkane approach.

3, method according to claim 1 is characterized in that described useful secondary substance is the medicinal plant effective ingredient.

4, method according to claim 1 is characterized in that described useful secondary substance is isoflavones or taxol.

5, the transgenic plant cells that is enhanced of a kind of useful secondary substance content that is obtained by the described method of claim 1 is characterized in that containing the mosaic gene of described structure.

6, the transgenic plant cells system that is enhanced of a kind of useful secondary substance content that is obtained by the described method of claim 1 is characterized in that further being cultivated by described transgenic plant cells and forms.

7, the transgenic plant callus that is enhanced of a kind of useful secondary substance content that is obtained by the described method of claim 1 is characterized in that further being cultivated by described transgenic plant cells and forms.

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