CN109371156A - Suitable for the clerodendron trichotomum fruit fluorescent quantitation reference gene and its primer of Different Provenances and application - Google Patents

Suitable for the clerodendron trichotomum fruit fluorescent quantitation reference gene and its primer of Different Provenances and application Download PDF

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CN109371156A
CN109371156A CN201811441306.5A CN201811441306A CN109371156A CN 109371156 A CN109371156 A CN 109371156A CN 201811441306 A CN201811441306 A CN 201811441306A CN 109371156 A CN109371156 A CN 109371156A
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gene
fruit
primer
clerodendron trichotomum
trichotomum
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CN109371156B (en
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施婷婷
王良桂
杨秀莲
岳远征
顾恒
华雅洁
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Nanjing Forestry University
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Abstract

The invention discloses the clerodendron trichotomum fruit fluorescent quantitation reference gene for being suitable for Different Provenances and its primer and applications, the reference gene is 18S and EF-1A gene, wherein, the gene order of 18S gene is as shown in SEQ ID NO.5, and the gene order of EF-1A gene is as shown in SEQ ID NO.11.The application selects according to existing disclosed GeneScreen and expresses relatively stable candidate gene, its stability is assessed by software, obtain the most stable of reference gene of expression for being suitable for the clerodendron trichotomum fruit of Different Provenances, and with devising real-time fluorescence quantitative PCR primer based on these genes, having filled up under the clerodendron trichotomum fruit different times of Different Provenances does not have the status of reference gene, accurate quantification for the correlation function gene of the clerodendron trichotomum fruit different times of Different Provenances provides strong support, and the stability, repeatability and reliability of research can be improved.

Description

Clerodendron trichotomum fruit fluorescent quantitation reference gene and its primer suitable for Different Provenances And application
Technical field
The invention belongs to field of plant molecular biology, and in particular to the clerodendron trichotomum fruit fluorescence suitable for Different Provenances Quantitative reference gene and its primer and application.
Technical background
Clerodendron trichotomum (Clerodendrum trichotomum Thunb.) also known as clerodendron trichotomum, Verenaceae (Verbenaceae) Clerodendron (Clerodendrum L.) machaka or dungarunga, clerodendron trichotomum spend U.S. fruit gorgeous, and calyx is purple Red, 5 split it is several up to base portion.Drupe is spherical, and bluish violet when ripe is glossy, contains in the calyx of place, and it is the autumn and winter that the autumn and winter are prolonged, which not to be fallen, Season good fruit viewing trees, be the ornamental trees of rare Ji Guan flower reward fruit.Now concerning clerodendron trichotomum fruit The research of middle molecule mechanism does not have been reported that also, shows none reference gene constant table under all experiment conditions according to the study It reaches, common reference gene can show unstable character under different plants and experiment condition, to influence target gene The accuracy of detection, so to develop gene excellent in clerodendron trichotomum, it must be determined that reliable and stable reference gene.
Summary of the invention
Goal of the invention: being directed to the deficiencies in the prior art, and it is an object of that present invention to provide be suitable for Different Provenances Clerodendron trichotomum fruit fluorescent quantitation reference gene, when which can satisfy real time fluorescent quantitative detection clerodendron trichotomum fruit difference The requirement of delayed early transcription expression improves stability, reliability and the efficiency of the research of clerodendron trichotomum gene expression analysis.This hair Bright another object is to provide a kind of primer special of above-mentioned reference gene.Further object of the present invention is to provide a kind of above-mentioned interior Join the application of gene or primer special.
Technical solution: in order to achieve the above-mentioned object of the invention, the technical solution adopted by the present invention are as follows:
It is 18S and EF-1A gene suitable for the clerodendron trichotomum fruit fluorescent quantitation reference gene of Different Provenances, wherein The gene order of 18S gene is as shown in SEQ ID NO.5, and the gene order of EF-1A gene is as shown in SEQ ID NO.11.
The primer special of the clerodendron trichotomum fruit fluorescent quantitation reference gene suitable for Different Provenances, feature exist In the primer sequence of 18S gene is as follows:
5 '-ACAATCACCGAACAAAGCAGC-3 ' of 18S forward primer
5 '-CGAGAAGTAATCTTGGAACGCC-3 ' of 18S reverse primer.
The primer special of the clerodendron trichotomum fruit fluorescent quantitation reference gene suitable for Different Provenances, feature exist In the primer sequence of EF-1A gene is as follows:
5 '-AGGATGGACAGACCCGTGAG-3 ' of EF-1A forward primer
5 '-AAAACCAGAAATGGGGACAAAT-3 ' of EF-1A reverse primer.
The clerodendron trichotomum fruit fluorescent quantitation reference gene suitable for Different Provenances it is glimmering in clerodendron trichotomum fruit Application during light is quantitative.
The application in clerodendron trichotomum fruit fluorescent quantitation of the primer sequence of the 18S gene.
The application in clerodendron trichotomum fruit fluorescent quantitation of the primer sequence of the EF-1A gene.
The application in clone's 18S gene of the primer sequence of the 18S gene.
The application in clone's EF-1A gene of the primer sequence of the EF-1A gene.
The application is steady to 17 internal references progress genes by these three softwares of GeNorm, NormFinder and BestKeeper Qualitative evaluation, integrated software analysis is as a result, the clerodendron trichotomum fruit different times for filtering out Different Provenances stablize the internal reference of expression Gene.Obtaining two altogether to stablize expression reference gene is respectively 18S and EF-1A.
The utility model has the advantages that compared with the prior art, the advantages of the present invention are as follows: the present invention is surveyed by the transcript profile of clerodendron trichotomum Sequence library, and with reference to common reference gene, it has devised in the clerodendron trichotomum fruit different times suitable for Different Provenances Join gene, while disclosing reference gene sequence, and devise real time fluorescent quantitative primer according to this, not only solves existing Haizhou There is no the status of reference gene in Changshan detection, and the Haizhou of designed real time fluorescent quantitative primer for Different Provenances is normal Primer specificity is strong when the fruit different times gene expression analysis of mountain, uses real time fluorescent quantitative so as to greatly improve Detection efficiency when clerodendron trichotomum gene is detected, and improves the confidence level of testing result.
Detailed description of the invention
Fig. 1 is the sample drawing of clerodendron trichotomum fruit acquisition;
Fig. 2 is agarose gel electrophoresis detection RNA mass glue figure;In figure, swimming lane 1,2,3 be respectively early stage of fruit development, Fruit development mid-term, fruit development advanced stage;
Fig. 3 is the Ct value result figure of 17 candidate reference genes;
Fig. 4 is that GeNorm determines the reference gene number result figure optimal for accurate quantitative analysis;
Fig. 5 is GeNorm software to 17 candidate reference gene expression stationary value (M) sequences, and stationary value is lower, gene table Show more stabilization result figure;
Fig. 6 is that filtered out reference gene result figure is verified using ClLAC.
Specific embodiment
The present invention is described further combined with specific embodiments below.
Main material to be tested used in following embodiment are as follows: test material material is using plantation in Nanjing Forestry University Baima base Tai'an provenance, Yancheng provenance clerodendron trichotomum.Randomly choose well-grown respectively in Tai'an provenance, Yancheng provenance, and high Degree and consistent 3 plant of growing way make sample acquisition, and (development is just in the fruit of four direction acquisition different development stage for every plant of tree The fruit of phase, the fruit for developing mid-term and the fruit (Fig. 1) reached maturity, are put into centrifuge tube after collection, rapidly with liquid nitrogen speed Freeze, -80 DEG C of preservations, until using.
Embodiment 1
1, the synthesis of plant tissue Total RNAs extraction and cDNA
Total serum IgE is extracted with EASYspin Plus plant RNA extraction kit (Ai Delai Bioisystech Co., Ltd), is used Spectrophotometer (METTLER TOLEDO, Switzeriand) detects RNA concentration and quality, utilizes 1.5% Ago-Gel The total integrality of electrophoresis detection.Using the full formula gold reverse transcription reagent box in Beijing (Quan Shijin Bioisystech Co., Ltd), illustratively Book carries out purifying and synthesis first chain of cDNA of RNA.
2, the selection of reference gene and the design of primer
Go out 17 internal reference bases needed for testing according to reference gene main in literature query other plant and final design Cause, respectively Actin (SEQ ID NO.1), PP2A (SEQ ID NO.2), RPL (SEQ ID NO.3), PK (SEQ ID NO.4)、18S(SEQ ID NO.5)、RAN(SEQ ID NO.6)、APT(SEQ ID NO.7)、SAND(SEQ ID NO.8)、 PROF(SEQ ID NO.9)、MDH(SEQ ID NO.10)、EF-1A(SEQ ID NO.11)、UBC-E2(SEQ ID NO.12)、 AP-2(SEQ ID NO.13)、HSP70(SEQ ID NO.14)、TUA(SEQ ID NO.15)、UBQ(SEQ ID NO.16)、H3 (SEQ ID NO.17).Each candidate gene is found in the clerodendron trichotomum transcript profile database that the applicant has obtained first Conserved sequence is analyzed according to gene conserved sequence 5.0 design primer of Primer Premier, then with Oligo7.Primer Agarose gel and gel imaging system are utilized by regular-PCR preliminary screening primer in Nanjing Jin Sirui company synthesis (table 1) Overall view examines the band of PCR product, detects product specificities.Select stripe size correct, band specificity is good, does not have primer dimerization The primer of body selects peak figure single, without miscellaneous peak, negative control further by the further detection primer specificity of RT-qPCR Primer without peak is as final primer.
1 reference gene of table and its corresponding primer
3, the foundation of reference gene primer standard curve
Respective standard curve is made to the primer of each pair of reference gene, calculates the amplification efficiency of corresponding primer.It will be anti- After the cDNA mixing of transcription, 5 gradients (1,1/5,1/25,1/125,1/625) is diluted to for multiple with 5, as establishing standard The template of curve.Meanwhile with dd H2O carrys out the reagent or artificial pollution during test experience as negative control template. All samples do 3 repetitions, to ensure the confidence level of experimental data.With Applied Biosystems StepOne (Thermo Fisher Scientific, USA) carries out RT-q PCR, acquires each candidate gene using obtained data result Amplification efficiency and slope, the amplification efficiency of primer selected by fluorescent quantitative PCR efficiency requirements is between 90%-110%.
4, fluorescence real-time quantitative
RT-q is carried out using Applied Biosystems StepOne (Thermo Fisher Scientific, USA) PCR carries out quantitative analysis by template of the first chain of fruit sample, template is diluted 10 times first.It utilizesPremix Ex TaqTM(TakaRa, Japan) carries out real time fluorescent quantitative, and reaction system is that total volume is 10uL, forward and reverse primer 0.4uL, SYBR5uL, cDNA1 uL, correcting fluid 0.2uL, ultrapure water 3uL.Amplification program is 95 DEG C of initial denaturation 30s, 95 DEG C of denaturation 5s, 60 DEG C annealing 30s, 72 DEG C of extensions 45s, 40 recycle, 95 DEG C of 15s in solubility curve stage of reruning, 60 DEG C of lmin, and 95 DEG C The analysis of 15s, each sample sets 3 repetitions, and sets negative control.
5, data processing
Reference gene stability analysis, using software GeNorm, NormFinder, BestKeeper and on-line analysis software The expression of RefFinder (http: // 150.216.56.64/referencegene.php) comprehensive analysis reference gene is stablized Property.Filter out stable reference gene.
6, result
1) RNA extracts quality and primer specificity detection
The OD of each sample260/OD280、OD260/OD230Meet the requirements, agarose gel electrophoresis figure detection display 28S and 18S band is clear, and gray scale is more darker than being about the brightness of 2: 1,5S band, and no signs of degradation meets the requirements (Fig. 2).17 pairs of primers Melting curve only has apparent simple spike in fluorescence real-time quantitative, and electrophoresis detection also only has single histogram, illustrates institute With primer can each reference gene of specific amplified corresponding product, primer free dimer, and the weight of each sample to be tested amplification curve Renaturation is good, and template energy specific amplification, real time fluorescent quantitative result is accurately credible.
2) reference gene Ct value is analyzed
The expression quantity of Ct value and gene is in inverse ratio, and Ct value is bigger, and the expression quantity of gene is lower, conversely, Ct value is smaller, is represented The expression quantity of gene is higher.17 reference gene Ct average values are between 19.07-28.59, wherein Actin and HSP70 expression quantity Higher, PROF expression quantity is lower (Fig. 3).
3) software is analyzed
The analysis of GeNorm software: GeNorm software is the stability that gene is measured according to average variation degree M value, and software is silent The choice value recognized is 1.5, and the gene higher than 1.5 is not suitable as internal reference use, and M value is lower, and expression gene is more stable.Furthermore GeNorm software determines suitable reference gene number also according to the pairing difference value Vn/Vn+1 of candidate reference gene, works as Vn/ When Vn+1 < 1.5, using n reference gene number.According to software, V2/V3=0.148 < 1.5 is calculated, so should be in fruit Real different development stage should select two reference genes (Fig. 4), be UBC-E2 and MDH (Fig. 5).
The analysis of NormFinder software: NormFinder software is commented according to the stationary value for calculating candidate reference gene Valence, stationary value more high stability is poorer, and having the gene of minimum stationary value is most stable of gene.The value of 18S is 0.198, is Most stable of gene, H3 stationary value are 2.46, are the worst gene (table 2) of stability.
Table 2NormFinder software analyzes result
Ranking 1 2 3 4 5 6 7 8 9
Gene 18S EF-1A MDH RPL UBC-E2 Actin AP-2 UBQ HSP70
Stationary value 0.198 0.305 0.339 0.369 0.506 0.509 0.583 0.595 0.77
Ranking 10 11 12 13 14 15 16 17
Gene PK RAN TUA PP2A PROF APT SAND H3
Stationary value 0.809 0.89 1.056 1.089 1.102 1.261 1.348 2.46
The analysis of BestKeeper software: BestKeeper software is standard deviation (SD) and adjusting based on reference gene Ct value Factor standard difference SD (± x-fold) judges the expression stability of gene, directly analyzes gene expression Ct value.SD value Smaller, expression is more stable, and program program default threshold value is 1, when SD value is greater than 1, it is believed that the gene expression is unstable.Analysis The stability of gene is AP-2 > Actin > EF-1A > 18S > HSP70 > RAN > MDH > PK > RPL > UBC- as the result is shown E2 > PROF > UBQ > SAND > PP2A > APT > TUA > H3, expressing most stable of is AP-2, most unstable for H3 (table 3)。
Table 3BestKeeper software analyzes result
Ranking 1 2 3 4 5 6 7 8 9
Gene AP-2 Actin EF-1A 18S HSP70 RAN MDH PK RPL
SD 0.25 0.26 0.49 0.5 0.62 0.66 0.68 0.71 0.78
CV 1.06 1.34 2.16 1.91 3.24 2.51 3.07 2.77 3.42
Ranking 10 11 12 13 14 15 16 17
Gene UBC-E2 PROF UBQ SAND PP2A APT TUA H3
SD 0.8 0.87 0.91 0.94 1.12 1.2 1.2 2.01
CV 3.77 3.05 3.61 3.58 4.95 4.61 5.61 9.05
4) reference gene stability is verified
The analysis result for comprehensively considering Ct value and Best Keeper, Ge Norm and 3 softwares of Normfinder obtains, 18S and EF-1A is suitable for the reference gene (table 4) being applicable in clerodendron trichotomum Fruit Development Process.
4 overall ranking of table
ClLAC (SEQ ID NO.18) is selected to verify screened reference gene, and with the H3 gene of unstable expression It compares, discovery has a similar variation tendency with filtered out reference gene as ClLAC when internal reference, but with H3 base Because illustrating that the reference gene filtered out is accurately and reliably (Fig. 6) come when doing internal reference, ClLAC expression conditions are different.
Sequence table
<110>Nanjing Forestry University
<120>suitable for the clerodendron trichotomum fruit fluorescent quantitation reference gene of Different Provenances and its primer and application
<130> 100
<160> 52
<170> SIPOSequenceListing 1.0
<210> 1
<211> 1283
<212> DNA
<213>the Actin gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 1
ggaaagcaat tgcaataaat ccattccatt caaaacacaa tagcagaaca acgatgtaaa 60
aacgttcagc gcagtccaaa atactacagc gttaaggaca cgtctagaaa accataaacg 120
attttttttt ttagaaaagc aaatataaat agtacctagg cataccaacc aaaacaaaag 180
accatataaa ataacttcat gcactcaaaa ctgcaatcga actcacacgg actccaatag 240
aagcatgaat aaatgatacc attttcgccg ccttagaagc actttctgtg aacaatagca 300
ggacctgatt catcgtactc tccttttgca atccacatct gttggaaagt actgagggaa 360
gcaagaatcg accctccaat ccagacacta tacttccttt caggtggggc aaccaccttt 420
atcttcatac tactcggagc aagagccgta atttccttac tcatacgatc agcaataccc 480
gggaacatag ttgaaccacc actgagcaca atgttcccat acagatcctt cctaatatcc 540
acatcacatt tcattataga attgtaagtt gtttcatgaa ttccggcagc ttccattcca 600
atcagtgatg gctggaacaa cacttccgga caacggaacc tctcagcgcc gatggtgatg 660
acctgtccat ccggaagctc gtagctcttc tccaccgcag agctgttctt cgccgtctct 720
gtttcctgct cgaaatcaag tgccacataa gcgagcttct cctttacatc gcggacaatt 780
tcccgctcag cggttgttgt aaacatgtaa cctctttcag tcagaatctt catgaggtaa 840
tcggtgaggt cacgaccagc gagatccaat ctcagaatag cgtggggaag ggcgtaccct 900
tcataaatag ggacagtatg gctcacaccg tcaccagaat caagcactat acctgttgta 960
cgaccactag cataaagaga gaggacagcc tggatggcaa catacatggc cggcacattg 1020
aaggtctcga acatgatttg agtcattttt tctctgttcg ctttagggtt gagaggggcc 1080
tctgtgagga ggacagggtg ctcttcagga gcgacacgca gctcattgta aaatgtatgg 1140
tgccaaatct tctccatatc atcccagttg ctcactattc catgctcaat tgggtacttc 1200
aatgtgagga tacctctttt ggattgggct tcatcaccta cataagcatc tttttggccc 1260
attccaacca tgacacctgt atg 1283
<210> 2
<211> 1437
<212> DNA
<213>the PP2A gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 2
attcccagaa actgtcatgc aagagattgt aaaaatggtg tccataaatt tgtttcgtac 60
actctcgtcg cagcctcgtg aaaacaaagt cttggaagct tttgatgtgg atgaagagga 120
acccttgatg gatcctgcct ggccccattt gcaagttgtg tatgagtttc ttctaaggtt 180
tgtggcttca ccagagacag atgcaaagtt agcaaaacgt tacattgatc actcctttgt 240
tttgaggtta ttagatcttt tcgactctga agatcccaga gaaagggact acctaaagac 300
tgtccttcac cgcatatatg gaaagttcat ggttcatcgt cccttcatca ggaaatcgat 360
caataatata ttctaccact tcatatttga aacagagaag cataatggga tcgctgaact 420
gttagaaatt ctgggtagca ttataaatgg ttttgcattg cctttgaaag aagaacataa 480
acttttcctt gttcgggcac tcattccgct tcacaagcca aagtgcatcc ctatgtacca 540
tcaacaacta tcgtattgca taacacaatt tgtggagaag gactgcaaac ttgctgatac 600
tgtcataaga ggcttactca ggtattggcc gatcacaaac agttcaaagg aggtaatgtt 660
cttgggtgag ctagaggaag tgttggaagc aactcagcct ccagagtttc agcgttgtat 720
ggttcctttg ttccgccaga ttgctcgttg cctgagcagt tcgcattttc aggttgcaga 780
aagggctctc tttttatgga acaacgatca catcgagaac ctgatcaaac aaaaccgtag 840
agtgatccta ccggttatac tccctgcatt ggagaagaac tcaagaaccc attggaacca 900
ggcggtacag agtttgacca tgaatgtccg taaaatcttc tccgatgctg atcctgagct 960
ctttgaggaa tgtttgatca aattccaaga agacgaagca agggaagaag aaaccaaaaa 1020
gaaacgggaa gcaacatgga aacgtctaga agaaatagcc gcaatgaaag cttctagtaa 1080
tgaaccggtc cttgtttctc ccaggacaag caccaagacg ccctccggct aaacatggaa 1140
ggcttcgttt gagtcgcttg aattgtggaa ttatgtattt gcccctactc atgcttctgg 1200
ttttttttgt ccggttgggt cgagcagggt gaaggaaact aatatctttt tgggggttat 1260
gatgaagcgt tgtttttgat tgtaagaaat agtgggtgta catatagaat tgtgggggcc 1320
agatactgat gcggttttag aagtgctgat gttctatggg ggaatatttg ctggcaaatt 1380
tgccctactt tcatctttag ctctttagaa tgatgttaaa attttaagtt atatttt 1437
<210> 3
<211> 1554
<212> DNA
<213>the RPL gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 3
ttaaagcgaa gtctcactag atctgggtcg ttgtctaact gagtgataat cttatataat 60
taaccaaagc ctgcatatag aatagggttt tgagcctctg gaattttact ttgcggcggt 120
cagagtaatt aggcccaaga aactatgtct cacagaaagt ttgagcaccc aagacacgga 180
tctttggggt ttctaccaag aaagagggcc tctcgtcaca gaggaaaagt gaaggccttt 240
cccaaggatg atccaacaaa accttgcagg ttgactgctt ttcttggata caaagcaggg 300
atgacacata ttgttcgtga ggttgaaaaa cctgggtcca aactccacaa gaaggagaca 360
tgtgaagctg taactattgt tgaaacccca ccaatgattg ttgttggtgt tgttgggtat 420
gtcaaaacac cacgaggcct ccgttgcttg aatactgttt gggctcaaca tcttagtgaa 480
gacctcaaga ggaggttcta caaaaactgg tgcaagtcca aaaagaaggc tttctcaaag 540
tattcaaaga agttcgacag tgaagaagga aagaaggata tccaagccca gttggagaaa 600
atgaaaaagt actgcactgt tgttcgtgtt cttgctcata cccagattcg aaagatgaaa 660
gggcttaagc agaagaaagc ccacttgatg gagatccaag tcaatggtgg cgatgtagct 720
aagaaggttg actatgcata cagctttttc gaaaaacagg tccccattga tgctgttttt 780
gggaaagatg agatgatcga cattatcgga gtgaccaagg ggaagggtta cgagggcgtg 840
gtgacccgtt ggggtgtgac tcgactccca cgcaagaccc accgtgggct tcgcaaggtt 900
gcctgtattg gcgcatggca tcctgctagg gtttcattca ctgttgctag ggctggacaa 960
aatggttacc atcacagaac tgagttgaac aagaagatct acaaattggg caaggctggt 1020
caagagtctc actctgccat gacagagttt gataggaccg ataaagatat tacaccaatg 1080
ggagggttcc cacactatgg tgtggtgaag gatgactatc tgttgataaa gggctgctgt 1140
gtgggaccca agaagcgcgt cgtcacattg aggcagtctt tgttgaacca gacgtctagg 1200
gttgcgttgg aggagatcaa actcaagttc attgatacgt cttctaaatt cggccatggc 1260
cgcttccaga ctatggacga gaaagctaag ttttttggca agctcaaggc ttaaaatgac 1320
gtcgattggg tggggatata atggaatcgg tttttatcgt tcattttcct ttataacttt 1380
gttggtttgc cttttttccc ttgtaagctg caggtcttga aatcgtccaa agaactttaa 1440
atagattttg catttgtgtt aaacctgtac cctgcacaat tacaatcatc tacatgttct 1500
catttgcgtt cataagatgc atgtactggt aaatggctat acttaattaa gatg 1554
<210> 4
<211> 1758
<212> DNA
<213>the PK gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 4
agtgataaca gtaatctcct aaagtctcaa tcccatacca caagtaccca ccacttccaa 60
tctctctcct ccaattacac tctctcttcc acacatactc acgcactttt ctgagcgagg 120
cgcccacaca ttgaacacag tgagaatggc gtccacagct gcatcatcag ccttctgcgg 180
catccgcaag gcatcgaccg ccgctgccgc caaggcttct ctcaatgccc ctaccaccta 240
cttcctcccc aaaacccccc tccgccgcct cggattcgcc gccggagccg ccgaaccgat 300
cctatctcac catgtcgcca ctaagatgcg atcatttggg aattccggca aaccaattag 360
aggcgtggcc tccatggcga agaagagcat cggagacctt ggtgctgctg acctcaaggg 420
caagaaagtc tttgttaggg ctgacctcaa tgtgcctctt gatgacaacc agaatattac 480
tgatgatact aggattagag ctgctgtccc gacaattaag catctgatta acaatggtgc 540
taaagtcatt ctttctagtc atttgggacg accgaaaggc gtcacgccaa aatacagtct 600
ttcacctctt gttcccaggc tatctgaact tctgggcatt caggttgtga aggccgatga 660
ctgcattggt ccagaggttg aaaaattggt cgcttcactg cctgaaggtg gtgtactcct 720
gctcgagaat gtaaggtttt ataaagagga agagaagaac gagcctgagt ttgcaaagaa 780
acttgcctcg ttggctgatc tttacgttaa cgatgcattt ggtaccgcac acagagcaca 840
tgcctcgact gagggagtca caaagttctt gaagccctct gttgctggtt tcctattaca 900
aaaggagctt gactatcttg ttggggcagt ttcgaaccca aaaagaccat ttgctgccat 960
tgttggtggt tctaaggtct cctccaagat cggagtaatt gaatcacttc tagagaagtg 1020
tgatattttg ctattgggag gaggaatgat atttacattt tacaaagcac aaggactttc 1080
agtggggtcg tctctagtag aagaagacaa gctaaatcta gcaacatcgc tccttgagaa 1140
ggcaaaggcc aagggggtga gcctcttgct gcccactgat ttggttatag ctgacaagtt 1200
cgctcctgat gctaatagca agattgtggc agcatctgct attccagaag gatggatggg 1260
attggatatt ggcccggatt ctataaagac attcagtgat gcactgggga ctacacaaac 1320
tgttatttgg aatggaccga tgggagtgtt tgaatttgac aagtttgctg ttggcacaga 1380
ggcgattgca aacaagctag cagaacttag tgggaaggga gtgacaacaa ttattggtgg 1440
aggagattca gtagcggcag tggagaaagt tggagttgct aatgtgatga gccacatatc 1500
gactggtggt ggtgccagtt tggagctctt ggaaggcaaa gaactgccag gtgttcttgc 1560
ccttgatgaa gccacgcctg ttgccgtgta gtgtgtaaaa aacaccattc ttctcgatta 1620
ttttaacacc catctctaat aatgtctcat tactagcttg taaacgagaa atttcttggt 1680
atacgtggtc atgctataga tgttttacct tgcctccttt tcttgtcatg ttaatatcac 1740
accatggaat ggatccgt 1758
<210> 5
<211> 1308
<212> DNA
<213>the 18S gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 5
cgaatgctgt taaatttgaa tggtttaaat aaaaacatat taagagagat tacgcaagct 60
taaatctctg gcaacaatca actttcctcg aataattgta aagggtgaag aagaaaaaaa 120
aatcaaaaag caaaggccaa aatttggtat gaatagcaag tagcaacaca agcaaatttg 180
cttgtgtgga cctaacatct tctgtgccac aatttccata attggatcgc ttgcgcgact 240
atagagattc ttattagaac cgagcttttc ttttccgagc agtgtatttt gaatctggtg 300
gcactatatt cccctttctg cgcatttgtt ccttcttacg cagaacccat tctttcccct 360
tcaccttctt gtttagtttt tgccttttcc ttgctctctg ccggtctgat acaaaaactg 420
tctgttcttc atcatcactg ctatcttcat cagaactctc tccatcttca cctttcgcct 480
ttggagtcgc actactcaga gatggtgggc cacaagtgag cacgaggtat tctttcctcg 540
atttcgtact gttaccaaga agaagtatta cagttaacgt gacaacttat cagaactcca 600
gtgcagggaa gttgattcaa acctccaagg aatttacaag aataaaaccc tatgcggata 660
atcaactact acaccaccag aaaacccagc acgcatagca aatcccaaga tcagctcacg 720
ttgagccaaa ttttcaggat atacctgtag cactgcccta gctcctcgtg ctaaacatct 780
gtataatgac ccaaagaagg ccttcagtct caagcgtggc tcatgagaag atttgtcagc 840
attgcataac cactgaacag ctgagatact tattgcgcca tcaataactc cagggcgaag 900
ccctaagccc tgacccatgt caccaagtat aaggtcaccc tcagcttcac gctccaatgc 960
aatatctagc attgatcctg atatatctaa accgatccat tggtgcccat ttccagccaa 1020
tgtctcccca ctaagtccag atccacaacc gatatcgaga agtaatcttg gaacgccatc 1080
atcaggcaaa gcgagaagct ccaatgccct ctcggaaagt ttagcctgaa tttcgatgat 1140
acgagaagaa gaggtgtact tacgagcttc ctcgtcgtta taaaatatct caggcggtgc 1200
ttgtagctct ggtcgagagg ccattgtttc tttccttgtt cttcgaaaca gtactcagag 1260
ggtggctgaa ggctgctttg ttcggtgatt gtccggtttt gtctgatg 1308
<210> 6
<211> 2008
<212> DNA
<213>the RAN gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 6
ccccaacatg tgggacccat aaattagaat atgcatacga agtaacagtg aattaccaaa 60
agtaccctca gctgatacat aatgcaaaat aatcaaaagt agagagatca agggcaaaaa 120
tgtcacataa aatcaaacac agcacacttt tggcaagcag ttggcttcag gcttaaacag 180
cgccatctcc tgctcaaatc tagcagaccc accaaagaca tcaaactaaa acctaatgat 240
ctaaatgaca aaactatctt aatctttgtc ttcttcattg acatcaagat tcttgagctt 300
cttttccaat tcatcctgac taccttcgtc ttcatccccc ttgtcgtcaa aatcgtttcc 360
ttcagggtcg ttctcatcca acggcccaag tttctcagga caatctttaa agattatcct 420
caactcatcg agatcttcct cagaaatgaa gttcccgttt acatccaata gcttgaaacc 480
aggcaaacga accaaagcca gagccaactt cttaaccgag gtagttagtg agttctggct 540
catatcaact tccctcaatt gctcttgccc atcttcaaat gctttgctta tctgaatcgc 600
accttcatcc ttaaggtcat tctctgagag gttcaacttg acaatagttt tctttctaga 660
gatgcaggcc gccaagctag gagcagcttc agcagttata tcatttccag ccatctccaa 720
tactgcaagt gatggtgctg actccttgag agcgtcggct attgctattg ctccatcatc 780
ttcaagattc gagtagctta aataaatctc agttagattc ccatgtttgg agagagcgtc 840
gcttagcttc aaaccagcct ccactccaaa catattgtcc cgaagatcga ttttcttcag 900
attcttacat aattccaggg cttcagtcaa cgcaacgcct ccttcagaac caatacgggt 960
agatgagcat cggaaatcct ccaataaagg gcaacgtttc agtatctcgg aaatggcaat 1020
agcgccttca tctcctgtca tattgttatg aaaatggagg attctaagcg aatctgtaga 1080
aggaaccaac tcacaaacag cttgtgcggc ttccttcgat atcccatcat tcatcagata 1140
aagttcctct aagctagtct gagatttcaa gagcttcccg aatgctctga ctcccttctc 1200
acctaaggca ttatcggaga tattgagata tttcaaatga gaaccttcta gagcttcaga 1260
gaagatcttc atgacatcaa gagcttctgc ttctggtcgc cccgcaacaa aatcagacag 1320
atcgacttcc ttcagttggt tcttgattga cgccaagata ggtccagcaa cattggctgc 1380
cccaagacca aagcttcgat tgctaaagca aatcttggtg taagaattcc caggttcttt 1440
caaggggctt aaaagtgttt gagcctcatc tgcttcaata aatgctcgct gacccttgga 1500
aatatcgaaa aatgtctcct gcaaaaccga attgacctca gatttcagta cctgcttttc 1560
ctctgtccca gagcctccct tgagaacatc cagtattagc ttgctgcatt ccttggcata 1620
ccattgtaca gcagaactgc catcaccatc gggttcttgt tcataatgct gatttgccga 1680
agaaaatgct gattcttcaa tttgtttggc atgttttgaa gcctcagctt gactaagagt 1740
gccatacttg cgggtgaaaa ctgttggcgt cgagagattg tttgtcattc gctctacaag 1800
catcaacctc gtgttctggc tagggggcca cagtttaatg gttatgtgcc ggcgttctcc 1860
atttggtgtt ttagcatcca tcgcacccaa actgtcgtct ccttcctgac gaatttttca 1920
atttgcagct cttcggactt cgactgtgta ctgcctgtgt atgtataggc aagaggggag 1980
aagtgaagga aaactaaaat gaaatgag 2008
<210> 7
<211> 1149
<212> DNA
<213>the APT gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 7
aaaatctaga gatttaggca aatccattag aaaacaagca tcctgtcttc aattgattct 60
aaaaatccca ctaatgtacg ctgtatctgt atctaagcca tctctctccc tatcaagtga 120
tgtcattgat taaacaaatc ttgagtttta ggcaaatcca ttagaaaaca agcaccctca 180
tggacttcaa aaatcccact aatgtatgct gcatctgtat ctaagctatc cctcaaactc 240
ctcaaggcta gagttgtctc accaaagtac ttgcgcagtg ttaatttctg cttacctcac 300
accgtagcga acactccgct gacctacgtc ggatcaattg gtggcgcagc cgtaccgaaa 360
cgtcggccgg tgttcgtttc aaacatggca tcctcaaatg ctgaaagcat tgatgagcgc 420
atccggcgga ttgcctccac gattcgggtc atacccgact ttccaaaacc tgggatcatg 480
tttcaagata taacgacgtt gttgcttgat cctaaggcgt ttaaggatac gattgatttg 540
tttgttgaga gatataaatg ccaaaacatc aatgttattg ctggtgttga ggcaaggggt 600
tttatattcg gtcctcctat tgcattggct attggtgcaa aatttgttcc tatgaggaag 660
cccaaaaagt tacctgggga agtaatatca gaagagtact ctttggagta tggaactgac 720
ataatggaga tgcatgttgg agccgtacaa cctggggaac gtgcagttgt tgtagatgat 780
cttatcgcaa cagggggtac cttgaatgct gctattcgcc tacttgaacg cgttggagtc 840
catgtggttg agtgtgcttg tgttattgaa ctggagggac tgaagggtcg ggacaagtta 900
ggggagaatc cactgtttgt tcttgtgagc tcaccttgaa gaaaagagta tctacaacaa 960
caataaattg ctgttaacat ctgtatgagt tgatagcatg tgcttgttcc tttctatggg 1020
atatacacat ttcaaatgga tgatggtgtg ttgtatgttg agtgaaattg cttttctttt 1080
ttttttggat gagtcatgtt caggccaccc tctcctgctt gcggattgtt actcaacctg 1140
tcaaataag 1149
<210> 8
<211> 2473
<212> DNA
<213>the SAND gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 8
gtaatttgtt tctgtctccg ccatccgtga ctggcagatg cgagtgcgac accatcactg 60
aacttcaaat gttttccttt aaactctaat ttcttagcga ttatccaatc caattctcgt 120
tcgggattgt agattgattg acaatgtctt ccaattcaaa tatttcatct gcgagttcct 180
ctactaatgg agatgacggg aaccctaatt cgtatacaaa aaaggagccg gagaatctgc 240
cggaacccgc actcaacacg agtccggact tgatcgacca gtcgcttgat gcccttgaga 300
atcaattggc ctcaatatca atgtcctccc gttccccgac ggcgactctt gacgatgaag 360
agttcgtcga agaagaagag cagtacctgg agcatccaac aatcataaat ggatcgttga 420
gtgaagaaaa tggagccgga ggatcaagtg atgagcatat tgagtgttat ttgaagggag 480
agtcttcggg agtgataaaa gagaccttgt cctctgtgtg gaggaattat ttagaggcag 540
atgaagttga gcggccgttg agtccgacca gcagcggcta cgctggtgag atggggagca 600
ccagcggcgg tgatgaaatc aatgatgatg acgaagatat taatgaaatt aaagaggtcg 660
aaaacgactt tgtttcgggg tcccatgatc agtgggtttc aggaaaacgc cacccagatg 720
aggatgatgc ttccgtttct tggaggaaaa ggaagaaaca tttctttatc ctgagtcact 780
ctgggaaacc catatattcg agatatggag atgaacacaa gctagctgga ttctctgcaa 840
ctttgcaagc cattatttcc tttgttgaaa atgggggaga ccgggtcaaa ttggttagag 900
ctggtaaaca ccaggtgatt tttcttgtga aaggacccat atacttggtt tgcataagtt 960
gcacggaaga accttatgaa tcactaaaag accagatgga gctactctac ggtcagatga 1020
ttctcatctt gacaaagtct gtaaatcgtt gttttgagaa gaatccaaag tttgatatga 1080
catcattgct ggggggaact gatgctgtct tctcttctct catccattct ttcagttgga 1140
atcctgccac ttttctacat gcctactcat gtcttcccct tgcttatcca acacgtcaag 1200
ccgcaggtgc catcttgcaa gatgtagctg gttcgggagt cctatttgcg cttttgatgt 1260
gtaaacacaa ggttatcagt cttgttggcg cccaaaaagc atctcttcat cctgatgata 1320
tattattact gtcaaatttg ataacgtcct ctgaatcttt taggacatct gaatccttct 1380
caccggtttg cctgccaaga tacaatccca tggcatttct ttatgcttat gtgcattact 1440
ttgatattga tacatacctg atcttgctca ccacaagttc cgatgccttc tatcatttaa 1500
aagattgcag gattcgaatt gaaaacgtac ttttgcagtc aaatgtactg agtgaagttc 1560
aaagatcctt ggtggatggc ggtatgcata tagaggattt gcttgctgac cccacatctc 1620
gtcctggatc cgtttcttct catttaggtc aaccagggcc tggtacaggt tccccggggc 1680
gacttacaga tggatttgtt ggaattggtg gtccagctgg gctatggcat ttcatataca 1740
gaagtattta tcttgaccag tatgtgtcat ctgaattttt atcaccaatc agcagcttga 1800
gacagcaaaa aagattgtat agagcgtacc aaggacttta tgcatccatg catgacaaag 1860
gaattggacc tcacaaaact cagtttagaa gagatgaaaa ttatggtgac atttactaaa 1920
gcaaccaaat tcttcaatta tatgcaagac tggaactctg gaagatagtt tacatcgaga 1980
ttctatgggg tagagccata aattgaagcc atgctactct gctgggtcac acaagatttt 2040
gaactatatg cagcatttga tccactagca gacaaggcac ttgctataaa ggtgtgcaac 2100
cgggtttgtc aatgggtgag agacgttgaa aatgaaatat ttttattggg agtaagccct 2160
ttttcgtggt gattatctca agtattctgt acactggcat gtattctagt ctttccgttc 2220
gactattact taactaccgc ttcctatatg aaattttgcc ttatttttgt tgtacggcct 2280
ctatgttggt ttgcagttcg gatctctatc ctattttttc ttcaccactt gtatctaact 2340
ataaaaacga ataaattgaa gttctatagt gagcttaatt gtagttgttg taattggatg 2400
tttataaaaa ggtaacgttt taacagtgag acataagtgg tatatgggga agtatgattt 2460
tagaggatac cga 2473
<210> 9
<211> 1456
<212> DNA
<213>the PROF gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 9
actaacttga taccaatacg cttgcgatta attgttatct ccgccgagag agaagctctc 60
gcatctttct aagaaagaaa ttttcacttt agatctattt gttttcactc tccatcctca 120
cctccctatc tttccgacgt tgaagtctct tcctcacttc ttgatcctat actaactcca 180
gtttctacat ttgaaatgaa gatggaagat ctttttaggt ctagacgcaa ccagagttgt 240
gtgacagcag cagcggcaag attagggcga ctgcagaagg tggatgtagt tccaccatgg 300
cagtgaccct tgatgtgtgt atttccaaat tttctttagt gtagttttac gttgttttca 360
tgttcatcct cgatctggac tggttctcaa ggtgctagtt ttagggtgct ttatactagc 420
tagtcaagtt gggacagtga cctgaatctc tctctaccaa tgtccttgaa tagggttttg 480
gtccggtcaa gctttcttta ttttgtctcc tttagtacga gtggtttttc ttccatcttt 540
gggattgacc gttcattttg tacatttagt cagttggcta tgtattccac atgtatgtga 600
agttttgggg gaagaagata actaagggga aaaaatttca aagccaattc tgtatttgta 660
aagatgtcca taaaatttga acatctatca gagaaccaac caaaaataca taatttactc 720
acatggaatc ataaacccaa gttttcacaa cgagaaaatc aaaagacaag ccctgtttca 780
attcagatag ggacataatc taacacctct cactcaaaac accacattct ttttgccata 840
accaacaacc cacgctgcaa atcattgaca aaaaaagcag taaaggatgc cgaatttaat 900
aatattaccc aaaaaattat taatttataa ttatataatg aatattgatt attaaatgaa 960
atgatttgga agacttacca atcaatttca gacaccctgt tcaataagat agtcaccaat 1020
cttctcaaca accatgttgc actggcctgc agtcattggt tcatcataga taccgatgat 1080
caaggccaaa ttggtctttt tgacagtggc accaccagat cccttcttcc ctcggatgac 1140
agcatttggt tcaccttgaa tcaccatgta tttagtaccc ccaatgtaca atccagtagg 1200
agctaatgat cccggattat caaaatcatt cataatagct gttacttcct caggcttgaa 1260
ctgagggaag ttggaactct gtgcccaaac gctgccgtca tgaccgacaa ttgcggcgga 1320
ggtgagatgg caaccgtcga cgtcggccat caagtggtca tctatgtagg attgccacga 1380
catcgtttcg ataggcggaa ggaatcaata ccaggaaggt ttggagaatg ggtgaggact 1440
gatgatagcg tgaaaa 1456
<210> 10
<211> 1516
<212> DNA
<213>the MDH gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 10
tttataagaa ttggtaacat ccattggtat atgatattta tctgtcagca aacgggttca 60
ttacatatct agaattgcaa taaccagaac aactcacgta gcataaggta caacatacac 120
taccgcttat tccaagatgt gtgatcttga atctccaaga ttatttcctt acgaaggaga 180
cccccttatc aatgcttcca tccaactctt tctttgcctt ctccagccca accctttcgt 240
attcatttag tggaccaaga gggaagatct cctcgacccc gttacgtcca agccgtaccc 300
ttgaagcaaa gaatggaagt tccgttacct gggaagaaac aaatgcacat tcaacaacac 360
cggaatctcc cctcaagccc ttcaggcaag catcggcaaa tttcactgct gcatatgcca 420
tggaaagagt tgcagagcct gtacccgctt tggcctcaac aacttcagtc ccaccattct 480
ggatgcgaga tgtcagatac tcagtttctt ctttggtgaa agagcatgca ggtgtaatct 540
gcgagaggag aggtaaaatt gtcacaccag catggcctcc tacaactgga acattaactt 600
cccgaggatc tagccccaaa acttcagcca caaacgtatt agctctgact acatcaagca 660
tcgtgactcc aaggagtcgc cttggatcgt aggtcccagc cttcttgaaa acctctgcag 720
caattggaac tgtggagttc actggattac ttattaagtt aacaatggcc ttagggcagc 780
acttagcaac tccttcacaa agtgtcttta ctattcctgc attaatgttg aaaagatcat 840
ccctcgtcat tccaggtttc ctgggaacac cagcaggaat gattacgagg tccatgccag 900
ttagtgcatc cttcaactgg ttttgaccca gaaaaccacg taccacagca ccagtgttca 960
tatggctgat atctgctgta accccaggag tattaactac atcataaaga tgaagcaccg 1020
aaaccagtgg gttcatcttc atcagcattg ctaaaggctg gcctatgccg ccagctgccc 1080
ccaataccgc caccttgaaa cctggtgacc ctccttttgc tcggcaatcg gaaagccata 1140
aactcccctc cacctgcagc tgattagtag gaggatcgag gtgagctgaa attctggaaa 1200
ttcttcgatg aatatcccca ccctgctgca tactataact cgaacgaatt cttctccaat 1260
atcagaaagc agcaaattcc ttttggaata atgagaaatg aaatgatgga agataacttg 1320
aacggcagaa tagtggagat acccgtattt atacggtaga aaattggaat taattgtatt 1380
ttatggcaca gcacataata aaataaataa atacgtcaga ggctcataga aatgcgttaa 1440
tgtatttttg ggtgcatagc cttatcttat acgtacacgc ttcggcaaga aaattacaaa 1500
ttatcaccat aattca 1516
<210> 11
<211> 1351
<212> DNA
<213>the EF-1A gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 11
gaaattcgag accaccaaat attactgcac agtcattgat gcacctgggc atcgtgactt 60
catcaagaac atgattactg gaacctcaca ggctgactgt gccgtcctca tcattgactc 120
cacaacaggt ggttttgaag ctggtatttc caaggatgga cagacccgtg agcatgctct 180
gctggctttc actcttggtg tcaagcaaat gatctgttgt tgtaacaaga tggatgccac 240
tacaccaaaa tactccaaag caaggtatga tgaaattgtg aaggaagtgt cctcttacct 300
caagaaggtt ggatacaacc cggacaagat accatttgtc cccatttctg gttttgaggg 360
agataacatg attgagaggt ctaccaacct agattggtac aagggcccca cgctactcga 420
tgcacttgac cagattaacg agcccaagag gccaacagac aagccactcc gtctcccact 480
tcaggacgtt tacaagattg gtggcattgg tactgttcca gtaggccgtg tggagactgg 540
tgttctaaag cctggtatgg tggtcacctt tggcccgtct ggtctcacca ctgaagttaa 600
atcagttgag atgcaccacg aagccttgca ggaggctctt ccgggtgaca atgtcgggtt 660
caacgtcaag aatgttgctg tcaaggatct aaagcgtggc tttgtggcct ccaactcaaa 720
ggacgaccct gctaaggaag ctgcgaactt cacctctcag gtcatcatca tgaaccaccc 780
tggccagatc ggaagtggct atgcacctgt tctcgactgc cacacctccc acatcgctgt 840
taagtttgct gagttagtca ccaagattga taggcgttcg ggtaaggaga ttgagaagga 900
gccaaaattc ttgaaaaatg gtgatgctgg attcgtgaag atggttccga ctaagcctat 960
ggttgtcgag actttctctg agtacccacc tctgggtcgt tttgctgtac gagacatgcg 1020
acagactgtt gctgttggcg ttattaagag cgtggagaag aaggacccga gtggtgctaa 1080
ggtgaccaaa gctgctgcta agaagggtgc taagtgaacg ctggtgactc cgttttatca 1140
ataaattttg tttttataat gcagtttatg attaatgatt attgctttta ctgctgtatc 1200
tctagcctct tgtaagagga tattggagag tggagcaact tggttttgat tcttgttgct 1260
tcatgtgcag tgatgaaagc agctctgttt ggatattgtc aaatttttat tttccttgtg 1320
gattttgttt tcttgaaatt gttacttagt g 1351
<210> 12
<211> 1214
<212> DNA
<213>the UBC-E2 gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 12
aaattgtttt gcaaaaacct cgattttcat agtactcgtt cgtcggtgtg cgatctgagg 60
agatggcgga agataagtat aacaggaaga accctgctgt gaagaggatt ttgcaggagg 120
tgaaagagat gcaatccaat ccttccgatg atttcatgag ccttcctctc gaggagaaca 180
tatttgaatg gcagttcgca ataagagggc caagagactc ggagttcgag ggaggaatat 240
atcatggaag aattcagttg cctgctgaat acccctttaa gccaccttca tttatgttat 300
tgacgccaaa tggtagattt gaaacccaaa ccaagatatg cttgagcatt tcaaatcatc 360
accctgaaca ctggcaacca tcctggagtg ttcgaactgc gctggttgca ttgattgcat 420
ttatgcctac tagcccaaat ggtgcgctag gatctttgga ttacacaaaa gaagagaggc 480
gagctcttgc agtaaaatct cgcgaagcag ctccaaaatt tggatcacct gaaaggcaaa 540
ggctgattga tgagattcat gagtatatgc tcagcaaagc gctgcctgtg cctcaaggca 600
acctcacctc tgaagcacac actgggagtg aaaaaatcca gcagaccacc caagacaatg 660
ttgaggaagt tacagaagca cctccccaca cagctgaaga cgacgggatc atacaagaac 720
caagtgaagc agtagcacct tctactaata caaatgttgc tcagacatcg cagcctgttc 780
ctcccgggcc gacgacgagc cagcagcagc tgttgcataa gcccgaacca agggttccta 840
aaccagcaga tgatcgtctc ttcacatggg ctgctttcgg gctcaccata gctatagtag 900
ttcttctgtt gaagaagttc ttgaaggcta atgggcacgg tgctgtcttt atgaatgagt 960
cgtaagtggg acctggtatg ttgtttatgc tgatgcagaa ggtgaatgag gggaaaacct 1020
gctttctgta atggagtgcc ttaaatttta aggggaacat atctatatat atattatacg 1080
tatacttatc tttctactta tggagtatat tgtatagttt aaataattgt taggggtaat 1140
gttctgaagc tttttaagaa gctgaactat tttaatagaa gcagttctgt aattattgct 1200
tgcatttgtg agag 1214
<210> 13
<211> 2673
<212> DNA
<213>the AP-2 gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 13
ttaatcaccg atgtcttcag aaccaatacg caactaattg acaaacagat gctgtaattg 60
ttacaaaggg tgcagttttc attatgtcac ttgcattaca gaaaccaatg aagaagggtg 120
tatttggcaa gcgctaaata aagaggaaaa aaaatctcac caaggcacaa tctgattgtg 180
cgaaagaatt atcaaaactt caaatccaaa ttctaacact atgccgatta catacaaaat 240
tacaaattca ccctccgact cccccagctc ttgcaccata ttagcgggga tccctccagt 300
acatacgagc aggtgctata tgaacattgg ttaaacaatt ttgaacagcc ttgggtttgt 360
tttatcactc aaagcaaacc agcaagaata gctccaggat ctgatgtaga tgtaggtgga 420
ggcgttagtt gtggttgtgg ttgaggttga ggttgaggtt gaggttgagg tggcgtaggt 480
gcaggtgctc gagaagggat gggaatggtg attaattgtt ctttaatgaa ttctttcaat 540
tcgtatgtta gttttggatc tccagatgcg atggtcatcc gtaattgcgt tctatctgct 600
gggtctgtct cgattcttat caaacataac atggctcgtg tactttcaga gtagaaagtt 660
gtgctcgcaa ccaaattatt agcatttgga tcaagcccag ggcaaaccat caggtgcaaa 720
ctgctaaata agtttgccat ctctgctagc agcattggtc ttacacctct aaccacttct 780
tgcagtttca atggaggtcc tgatagtgat ctccattgtg ggaaaaattc ttcagcagaa 840
actgtaattg actgaagaaa tttgttcaaa acagcaggaa ggcgaagttt tacattgacc 900
aaatgggttc caaacttgta cgagaagtcc agtactgcta aatctctgct cggttggagg 960
atgattactt caagtgggca ttgaacctgt gcccttggag gaatagtctc aggtactaaa 1020
gatagttcca tctttagatg tgatggaggc aatattaaag cttgaactga aacgagtgga 1080
gcagtatttt tatttcccaa gaagagaaca actcgcccat gatgggttcg ccattcagct 1140
tttatgccaa tctggatata ggcatcttca tatagcacac cactatcctt caggcacaaa 1200
acacgaaatc tttccactat atcaccaatc ggctggaccg tattaacttg ctcttcaaca 1260
ggtgctatgg ctaatgcatc tgtttccaaa ccggaagcaa cccttggatc agtttgggga 1320
gcaatgcctg gtgggccctc aatagccagt ggccctaaaa gatctccaag gagatcagga 1380
gaaggtgcac tgtgtggttg aggatccact acactcaggg caccattagc acgagtcaac 1440
ccttgctcag cagtgctctg atccgcatta ctcatactag gcaccttgac aagaccaagc 1500
tgggtcccag atggtgttcc atttgcaggg cgttgatgat cggtaagtac caaagcatta 1560
gaattctgct gctgtgcccg taattttatt gcactttgct cagcagtatc agcttcagca 1620
tcttccgctt tttttatcaa tgatgactgt ctctcaggga atttcggcat ttcagcaagt 1680
atatccacta gagcagcacc tttcatgctc agagcaagat actcaacagc tcgttgctgt 1740
atttcagcat caatgcaact ttcatacttt ttgaatatca cccatatttg cttctgtagc 1800
tcctggctgg gtggttgagt gtgcatcaaa atttttgcat atgtggaaag aaggatagga 1860
attgttgatg tcgagacagt gggaagcttc tcatgtatca agttgaaaat ttcctttgga 1920
ctgcacccag gtcgcctagc tagaagatga ctgtattctc caaggatata tgcactcacc 1980
ttcaccatgg tctcgtgaat cgcaggctta tcaagatact ctttggcttt cagagctgca 2040
taaggctgta aatcctcgtt gtttgtaacg aactgcacga ctcgaaacca aatgtcatca 2100
ccgacaaaat cccctgcctt gtcaattagc tgaagaatca catccacata ccatgacagg 2160
tcgggggcaa acttctctgc gagaatagca gctttaagtg acaattcttc ccgcatagca 2220
aagtcagctg agctcagata ctgtaataat tcttcaacta tgtcctttgc atttgaaaca 2280
tcacacattc catatagcaa atcaagggca cgccttctga tactgatatc aggatccttc 2340
agggaagtaa tgatctgagc ttgatgtctt ttgataattt catgcacatc ggcgaccatc 2400
aacattcgag tcatgttctc caagccaagg tatcgtatat taggttcacg aacagcaata 2460
aattttccca gcaaagcaac acactgagac atcatttctt tctctgcatc aagatgcatg 2520
acaagagcaa gagcttcaaa aagaacagca tgtgatgcat tattcttgtt cacatttttc 2580
accacatcag ttcccatgag tatccgttgc agaacctcaa acaatgatct tcttgtattt 2640
ggatcctcaa ctgttggaaa atactggaga gcc 2673
<210> 14
<211> 2071
<212> DNA
<213>the HSP70 gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 14
tgttagtttt atttcattat tgttctttga cttgagcaaa attctctggt cgatttagat 60
ctgcgattag ttttgcgagc aatggccgga aaaggagaag gtccagcgat cgggattgat 120
ctcggaacga cgtactcttg tgttggcgtt tggcaacacg accgtgttga aatcatcgcg 180
aatgaccagg gtaacagaac gacgccgtct tatgttggct tcaccgattc agagaggctt 240
attggtgatg ccgctaaaaa tcaggtcgcc atgaacccga cgaacactgt ttttgatgcc 300
aagaggttga ttggaaggcg atttagcgat gcttctgttc aaagcgacat caaactatgg 360
cccttcaagg tcattgccgg acctggtgag aaacccatga ttgttgtcaa ctataagggt 420
gaagacaagc agtttgcagc tgaggagatt tcatctatgg tcctgatgaa aatgaaggaa 480
atagcagagg cctaccttgg ttccacaata aagaatgctg tcgtcaccgt tcctgcatac 540
ttcaacgact cccagcgtca agccaccaaa gacgctggcg taatttcagg tctcaatgtt 600
atgcgtatca tcaacgaacc tacagctgcc gccattgctt atggtcttga caagaaggcc 660
tcgagtgtag gtgagaagaa tgtcttgatt tttgatcttg gtgggggcac ttttgacgtc 720
tctctgttga cgatcgagga gggtattttc gaagtgaagg ccactgctgg cgacacccat 780
cttggaggtg aggactttga caacagaatg gtgaaccact ttgttcagga attcaagagg 840
aagagcaaga aggatatcac cggtaacgct agagctctac gaaggctgag aactgcttgt 900
gagagagcaa agagaaccct ttcatccaca gcccaaacaa caatcgagat agactctcta 960
tacgaaggaa tcgatttcta ctccaccatc acccgtgcaa ggttcgagga gcttaacatg 1020
gatctgttcc gcaagtgtat ggaaccagtt gagaagtgcc tgcgcgatgc caagatggac 1080
aagagcacgg tgcatgacgt tgtgctcgtc ggtgggtcca cccgtatccc caaggtgcaa 1140
cagctgcttc aggacttctt caacgggaag gagctttgca agagcatcaa cccggatgaa 1200
gccgtggcct acggcgccgc cgtccaagcc gccattttga gtggtgaggg taacgagaag 1260
gttcaagacc tattgcttct cgatgtcact cccctctccc ttggtttgga aactgccgga 1320
ggtgtaatga ctgttttgat tcccaggaac accaccattc ctactaagaa agagcaggtg 1380
ttctctacct actcggacaa ccaacccggc gtcttgatcc aggtctacga gggtgagcgt 1440
acgaggacga gggacaacaa cctgctcggg aagtttgagc tctccggcat tccccccgcc 1500
cctcgtgggg tcccgcagat cactgtgtgc ttcgacatcg atgctaacgg cattctaaac 1560
gtgtcggccg aggacaagac gacgggccaa aagagcaaga tcacaattac aaacgacaag 1620
gggaggctgt caaaagacga gatagagaag atggtacagg aggcggagaa gtacaagtcg 1680
gaggacgagg agcataagaa gaaggtggaa gcgaagaatg cgctggagaa ctatgcgtac 1740
aacatgagga acacggttaa ggatgaaaag atcgggtcga agctgcccgg tgctgataag 1800
aagaagattg aggatgcggt tgagtcgacg attcaatggc tcgatgggaa ccagctcgcg 1860
gagtcggatg agtttgagga taagatgaag gagttggagg gcatttgtaa cccgattatt 1920
gccaagatgt atcagggtgc ggggggtgcg gcggctatgg atgacgatga cggtctggcg 1980
gcggcgcctg gtggtgctgg tcctaagatt gaagaggttg actaagttgt ggcccctttt 2040
ttggtggttt tttttttttt tttttttttt g 2071
<210> 15
<211> 1802
<212> DNA
<213>the TUA gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 15
atctgagccc tagagagaga aagtgaaatt acaccttcat tttctaccaa ctgctcttat 60
aaaatcccct ttcaccacga attaagaact acctattttc atccagagac gtcttcgtat 120
acgccctggt atttctctcc tttgatctcc gatcgaaatc catttcagat tttaatcttt 180
caaacaaaaa gcgaaaatga gagagtgcat ttcgatccac attggacaag ccggaatcca 240
ggtcggcaat gcctgttggg agctgtactg ccttgaacat ggcatccagc ctgatggaca 300
aatgcctggt gatcacactg tcggaggagg tgatgatgcc ttcaacacat tcttcagcga 360
aactggcgcc gggaagcatg ttccccgtgc agtgttcgtc gatctggagc ctactgtgat 420
tgatgaggtg cgcactggta cataccgtca gctattccac cctgaacaac taatcagcgg 480
caaagaagac gctgccaaca actttgccag aggtcattac actattggca aagaaatcgt 540
ggatctgtgc cttgatagga tccgcaaact cgctgacaac tgtactgggt tgcaaggctt 600
cctcgttttc catgctgtgg gtggtggtac cggatctggc ctcggatctc tgttgctcga 660
gaggctctcc gtcgattatg gtaaaaagtc gaagctgggt ttcactatct acccttcccc 720
tcaagtctca actgccgttg ttgagcctta taactctgtg ctttcaactc attcccttct 780
tgaacacact gatgttgctg ttcttcttga taatgaggcc atctatgata tttgccgcaa 840
atctctggac atcgagaggc ctacatacac caatttgaac aggctcattt ctcaggtgat 900
ttcctcctta actgcatccc tgagatttga cggagcattg aacgtcgatg taaacgaatt 960
ccaaaccaac ctcgtcccat acccaagaat ccacttcatg ctttcatcat acgcccccgt 1020
aatctcagct gagaaagcct accacgagca gctctccgtc gctgagatca ccaacaccgc 1080
ctttgagcca tcttccatga tggtgaagtg cgatccgcgc cacggcaagt acatggcgtg 1140
ctgcctcatg tacagaggcg atgttgtccc caaagatgtg aacgcggccg ttgccacaat 1200
caagacaaag aggacgatcc agtttgtcga ctggtgccca actggcttca agtgtggcat 1260
caactaccag ccgccgactg tggtccctgg tggtgatctt gctaaggtgc agagggcagt 1320
ttgcatgatt tcaaactcga ctagtgttgc tgaggtgttc tcgaggatcg atcataagtt 1380
tgatttgatg tatgctaaga gggctttcgt gcattggtat gtgggtgagg gtatggagga 1440
aggggagttc tcggaggcga gggaggattt ggctgctttg gagaaggatt atgaggaagt 1500
tggggctgaa tctgctgaag gtgaagatga tgagaatgaa gagtactaga gtagggacca 1560
attggctcgt tggtttagtg ctgaactttt ttccttatgg ttgaacttct tgtctggtgt 1620
tgaactgctt atggattctc tgtgtgtagt tcgtattgat tatggtatgt gttgaaaagg 1680
ggctttatgt tcatttcgta ttgattatgc ttgtgtaatt cgtatgtgtt gattattagt 1740
tattccctag gtcatactcg tattttatat gtttaaaatg ccaagataat tttttttttt 1800
tt 1802
<210> 16
<211> 1670
<212> DNA
<213>the UBQ gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 16
gaattgttct cataaatttt cagttttttc gtctctcaat cgtcaagatg caaatcttcg 60
tgaaaactct caccggcaag accatcaccc ttgaggttga aagctccgat accattgaca 120
acgtcaaggc taagatccag gacaaggaag gtatcccccc agaccagcaa aggctgatct 180
tcgcaggaaa acagcttgag gatggccgta ccctcgccga ctacaatatt cagaaggaat 240
caactctcca cctggtcctc cgtctccgtg gaggtatgca gatattcgtg aagaccctaa 300
cgggcaagac catcaccctc gaggttgaaa gctccgacac gatcgataac gtgaaggcca 360
agatccagga caaggagggt attcccccag accagcagag gctgatcttc gccggcaagc 420
agctcgagga cggacgtacc ctcgccgact acaatatcca gaaggagtcc accctccatt 480
tggtcctccg tctccgtggt ggtatgcaga tctttgtcaa gaccctcacc ggcaagacca 540
tcaccctcga ggttgaaagc tccgacacga tcgataacgt gaaggccaag atccaggaca 600
aggagggtat tcccccagac cagcagaggc tgatcttcgc tgggaagcaa ctcgaggatg 660
gacgcacgct tgctgattac aacatacaaa aggaaagcac acttcatttg gttctgaggt 720
tgagaggtgg aatgcaaatc tttgtcaaga ctctcacggg gaagaccatc accttggagg 780
ttgagagttc cgacaccatt gataatgtga aagccaagat acaagacaag gaaggtatcc 840
caccagacca gcagaggctc atatttgcag ggaagcagct ggaggatgga cgcaccttgg 900
ctgattacaa cattcagaag gagtctactc ttcatttggt gttgaggttg aggggaggga 960
tgcagatatt tgtcaagaca ttgactggga agaccatcac tttggaggtg gagagttcag 1020
acactattga taatgtgaag gccaagatcc aggataagga gggcatccca cccgaccagc 1080
agaggttgat cttcgccggg aaacagctgg aggatgggag gactctcgct gattacaata 1140
tccagaagga atccaccctt caccttgtcc tcaggctccg tggtggtttc tagagcttct 1200
ggttttcttg ttgtttgaat gttctggttt tatgttctgt ttgttgattt tacatgattc 1260
ctgttttccc gtgtgtgtgt gcgtgtgttg aaacttaagt atggtactgt tatgttgtcg 1320
tcttgctgac attctcagtt gtcattggaa taaaattggg attttatccc ccctataata 1380
aatttccggt gagtgcataa ttggctgtaa tagttttttc aatattgttg ctgttgagaa 1440
ggtgctacgt aatgttctac cttcttcatc ggttgctttt ctggagattc ttgtatgcct 1500
cggtaatgtt tggtgattat atttatcttc tttaattact gaaagaagtt ggatccgatg 1560
cactatccca ggagaggtcg aagcgatgta ttcctaggtg tttttctgtt agtggagttt 1620
acttcgttgc atgttgtccc gtcaaccatt ttcgtaaggg attaatgttt 1670
<210> 17
<211> 588
<212> DNA
<213>the H3 gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 17
actgatcagt tttactacaa aacagacaaa ggttaaacat tcaaagccac aagtgacacc 60
tcgaaacaac cacatattta ccatcggaaa aaactatccc ttagacccaa atcatccaga 120
ttacaagtta agccctttca cccctaattc tcctcgcaag ctggatatct ttgggcataa 180
ttgtaaccct cttagcatga atggcacaga ggttagtatc ctcaaacaat ccaacaagat 240
aggcctccgc tgcctcttga agagccgcca cagcagagct ctggaacctc agatccgtct 300
tgaaatcctg agcaatctca cggacaagcc tctggaaagg aagttttcgg atcaaaagct 360
cagtggattt ctggtacttg cgaatttcac ggagagcgac ggttcccggg cgaaaacggt 420
gaggcttctt cactccgccg gtggcggggg ctgatttcct agcggctttg gtggccaact 480
gcttccgcgg tgccttgcct ccggtggatt tgcgggcggt ttgcttagtg cgagccattt 540
ctagggtatc gatagaaagt atggaaaaaa agtgctaatt tggaattg 588
<210> 18
<211> 514
<212> DNA
<213>the ClLAC gene (Clerodendrum trichotomum Thunb) of clerodendron trichotomum
<400> 18
gccaataatt tctcagcaat ggagggctta ttttaccgtc ttctccttct tacagttcca 60
ttaatggcca tgcaagtgct tccttcttct tcatcatcca atacaaagat gtttcagttt 120
aatgttgaat ggaagagtat aacaagactt tgcaatagaa agacagtatt gacagtaaat 180
gggaagtacc cagggccaac cattgctgtg aatgaaggtg acagtgttca agtaacggtc 240
actaattggg ttgcaagaaa caccaccatc cattggcatg gagtaaggca gatgagaagg 300
ggttgggcag atggggcagc atacataaca caatgcccga ttggaggagg caaaagctat 360
agatacaact ttagtgtaga ggatcagagg ggtacactgt ggtggcatgc tcatatcggc 420
tggcaacgtg cttcggttta tggcgctttt atcatttacc ctcgcacgcc ttttccattc 480
tctctccaac tccacccact tcagattcct ctca 514
<210> 19
<211> 21
<212> DNA
<213>Actin primer sequence (Artificial)
<400> 19
cgattcttgc ttccctcagt a 21
<210> 20
<211> 18
<212> DNA
<213>Actin downstream primer sequence (Artificial)
<400> 20
accattttcg ccgcctta 18
<210> 21
<211> 19
<212> DNA
<213>PP2A upstream primer sequence (Artificial)
<400> 21
ggacaagcac caagacgcc 19
<210> 22
<211> 22
<212> DNA
<213>PP2A downstream primer sequence (Artificial)
<400> 22
tcagcacttc taaaaccgca tc 22
<210> 23
<211> 21
<212> DNA
<213>RPL upstream primer sequence (Artificial)
<400> 23
agtcaatggt ggcgatgtag c 21
<210> 24
<211> 22
<212> DNA
<213>RPL downstream primer sequence (Artificial)
<400> 24
cccttggtca ctccgataat gt 22
<210> 25
<211> 23
<212> DNA
<213>PK upstream primer sequence (Artificial)
<400> 25
ctgaaggtgg tgtactcctg ctc 23
<210> 26
<211> 21
<212> DNA
<213>PK downstream primer sequence (Artificial)
<400> 26
cgaaactgcc ccaacaagat a 21
<210> 27
<211> 21
<212> DNA
<213>18S upstream primer sequence (Artificial)
<400> 27
acaatcaccg aacaaagcag c 21
<210> 28
<211> 22
<212> DNA
<213>18S downstream primer sequence (Artificial)
<400> 28
cgagaagtaa tcttggaacg cc 22
<210> 29
<211> 20
<212> DNA
<213>RAN upstream primer sequence (Artificial)
<400> 29
ggagacgaca gtttgggtgc 20
<210> 30
<211> 19
<212> DNA
<213>RAN downstream primer sequence (Artificial)
<400> 30
tgccatactt gcgggtgaa 19
<210> 31
<211> 19
<212> DNA
<213>APT upstream primer sequence (Artificial)
<400> 31
ccacgcattc aagccattc 19
<210> 32
<211> 20
<212> DNA
<213>APT downstream primer sequence (Artificial)
<400> 32
gagcctctat cccagcaacg 20
<210> 33
<211> 19
<212> DNA
<213>SAND upstream primer sequence (Artificial)
<400> 33
gaccagtcgc ttgatgccc 19
<210> 34
<211> 22
<212> DNA
<213>SAND downstream primer sequence (Artificial)
<400> 34
ggatgctcca ggtactgctc tt 22
<210> 35
<211> 24
<212> DNA
<213>PROF upstream primer sequence (Artificial)
<400> 35
gaatgtggtg ttttgagtga gagg 24
<210> 36
<211> 18
<212> DNA
<213>PROF downstream primer sequence (Artificial)
<400> 36
atgtgaagtt ttggggga 18
<210> 37
<211> 20
<212> DNA
<213>MDH upstream primer sequence (Artificial)
<400> 37
acctggaatg acgagggatg 20
<210> 38
<211> 24
<212> DNA
<213>MDH downstream primer sequence (Artificial)
<400> 38
gccacaaacg tattagctct gact 24
<210> 39
<211> 20
<212> DNA
<213>EF-1A upstream primer sequence (Artificial)
<400> 39
aggatggaca gacccgtgag 20
<210> 40
<211> 22
<212> DNA
<213>EF-1A downstream primer sequence (Artificial)
<400> 40
aaaaccagaa atggggacaa at 22
<210> 41
<211> 23
<212> DNA
<213>UBC-E2 upstream primer sequence (Artificial)
<400> 41
gcaaaggctg attgatgaga ttc 23
<210> 42
<211> 21
<212> DNA
<213>UBC-E2 downstream primer sequence (Artificial)
<400> 42
cctcaacatt gtcttgggtg g 21
<210> 43
<211> 20
<212> DNA
<213>AP-2 upstream primer sequence (Artificial)
<400> 43
ccacaactaa cgcctccacc 20
<210> 44
<211> 20
<212> DNA
<213>AP-2 downstream primer sequence (Artificial)
<400> 44
aaattcaccc tccgactccc 20
<210> 45
<211> 20
<212> DNA
<213>HSP70 upstream primer sequence (Artificial)
<400> 45
gccattttga gtggtgaggg 20
<210> 46
<211> 23
<212> DNA
<213>HSP70 downstream primer sequence (Artificial)
<400> 46
ggttggttgt ccgagtaggt aga 23
<210> 47
<211> 20
<212> DNA
<213>TUA upstream primer sequence (Artificial)
<400> 47
gtccccaaag atgtgaacgc 20
<210> 48
<211> 20
<212> DNA
<213>TUA downstream primer sequence (Artificial)
<400> 48
aagcagccaa atcctccctc 20
<210> 49
<211> 21
<212> DNA
<213>UBQ upstream primer sequence (Artificial)
<400> 49
tgctgttgag aaggtgctac g 21
<210> 50
<211> 19
<212> DNA
<213>UBQ downstream primer sequence (Artificial)
<400> 50
cgaaaatggt tgacgggac 19
<210> 51
<211> 21
<212> DNA
<213>H3 upstream primer sequence (Artificial)
<400> 51
caagttaagc cctttcaccc c 21
<210> 52
<211> 21
<212> DNA
<213>H3 downstream primer sequence (Artificial)
<400> 52
tgctcaggat ttcaagacgg a 21

Claims (8)

1. being suitable for the clerodendron trichotomum fruit fluorescent quantitation reference gene of Different Provenances, which is characterized in that be 18S and EF-1A base Cause, wherein the gene order of 18S gene is as shown in SEQ ID NO.5, the gene order of EF-1A gene such as SEQ ID NO.11 It is shown.
2. the primer special of the clerodendron trichotomum fruit fluorescent quantitation reference gene described in claim 1 suitable for Different Provenances, It is characterized in that, the primer sequence of 18S gene is as follows:
5 '-ACAATCACCGAACAAAGCAGC-3 ' of 18S forward primer
5 '-CGAGAAGTAATCTTGGAACGCC-3 ' of 18S reverse primer.
3. the primer special of the clerodendron trichotomum fruit fluorescent quantitation reference gene described in claim 1 suitable for Different Provenances, It is characterized in that, the primer sequence of EF-1A gene is as follows:
5 '-AGGATGGACAGACCCGTGAG-3 ' of EF-1A forward primer
5 '-AAAACCAGAAATGGGGACAAAT-3 ' of EF-1A reverse primer.
4. the clerodendron trichotomum fruit fluorescent quantitation reference gene described in claim 1 suitable for Different Provenances in clerodendron trichotomum Application in fruit fluorescent quantitation.
5. the application in clerodendron trichotomum fruit fluorescent quantitation of the primer sequence of 18S gene as claimed in claim 2.
6. the application in clerodendron trichotomum fruit fluorescent quantitation of the primer sequence of EF-1A gene as claimed in claim 3.
7. the application in clone's 18S gene of the primer sequence of 18S gene as claimed in claim 2.
8. the application in clone's EF-1A gene of the primer sequence of EF-1A gene as claimed in claim 3.
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