CN107119134B - Chimonanthus chinensis EST-SSR marker and application thereof in genetic diversity analysis - Google Patents

Chimonanthus chinensis EST-SSR marker and application thereof in genetic diversity analysis Download PDF

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CN107119134B
CN107119134B CN201710363759.XA CN201710363759A CN107119134B CN 107119134 B CN107119134 B CN 107119134B CN 201710363759 A CN201710363759 A CN 201710363759A CN 107119134 B CN107119134 B CN 107119134B
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赵宏波
董彬
张超
付建新
周莉花
黄耀辉
吴静
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Zhejiang A&F University ZAFU
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Abstract

The invention provides a development method of endangered plant chimonanthus nitens EST-SSR molecular marker, which mainly comprises the following steps: the method comprises the EST sequence of calyx canthus, identification and screening of SSR sites and the sequence of EST-SSR molecular marker primers. In the invention, 200 sequences containing different repeat units are searched from Chimonanthus praecox transcriptome data, and 23 EST-SSR markers with rich polymorphism are obtained by combining software analysis and molecular marker screening. The method can be applied to genetic diversity analysis, germplasm identification, variation and evolution research, molecular marker assisted breeding and the like among different species and populations of the endangered plant Chimonanthus praecox. Good repeatability and high reliability, and is a very effective molecular marker.

Description

Chimonanthus chinensis EST-SSR marker and application thereof in genetic diversity analysis
Technical Field
The invention relates to the field of biotechnology, in particular to a molecular marker technology based on transcriptome high-throughput sequencing of the whole wintersweet.
Background
The Chimonanthus chinensis (Cheng et S.Y. Chang) belongs to Chimonanthus chinensis of Chimonadaceae, is a third-class wiggery plant, is mainly distributed in Zhejiang province (Lingan city and Tiantai county) in China, belongs to a second-class important protection frequent species in China, and has great scientific research value in plant system research. The calyx canthus is characterized by dicotyledonous plants, shrubs, stem clusters, flower tops, non-scale buds and the like, and has great ornamental value and medicinal value. The wild wintersweet resources are few, and the living environment of the wintersweet is influenced by natural disasters and human interference and is divided into a plurality of small populations, so that different populations of the wintersweet are isolated at different distances, gene exchange among the populations is reduced, the internal inbreeding rate is increased, the genetic diversity in the populations is reduced, and the genetic differentiation among the populations is increased. Therefore, the effective identification and local protection of the summer wintersweet germplasm resources are urgently needed.
Simple Sequence Repeat (SSR) is a 1-6 nucleotide tandem repeat unit widely distributed in eukaryotic and prokaryotic genomes, such as (GA)n,(AC)n,(GAA)nEtc., the same type of SSR can be distributed over different locations in the genome, forming polymorphisms at each locus due to their varying number and degree of repetition. Although various markers (e.g., isozymes, RAPD, ISSR, and AFLP) have been used for genetic diversity and mating system analysis, the polymorphic information revealed by these markers is generally low and does not reflect the genetic diversity and genetic differentiation characteristics between species well. Compared with the molecular marker technologies, the SSR marker has the advantages of abundant polymorphic information, codominant inheritance, strong specificity and the like. Therefore, it is necessary to develop a codominant SSR molecular marker primer for related researches such as genetic diversity and variety identification protection of Chimonanthus praecox.
At present, relatively few SSR primer development and related genetic research reports are reported for Chimonanthus nitens, and the related researches such as genetic diversity analysis, variety identification and protection and the like of the Chimonanthus nitens are greatly limited.
Disclosure of Invention
The invention aims to provide an effective EST-SSR molecular marker of Chimonanthus nitens and application thereof.
The prune EST-SSR marker comprises 23 microsatellite markers, and the number, nucleotide sequence, primer sequence and characteristics of the microsatellite markers are shown in the following table:
Figure BDA0001300979070000021
the sequence numbers of the nucleotide sequence and the primer sequence are the numbers in the sequence table.
A Chimonanthus nitens EST-SSR marker comprises the following steps:
(1) wintersweet transcriptome sequencing;
(2) screening and identifying SSR sequences to obtain 23 microsatellite markers;
(3) designing and synthesizing SSR primers, and randomly selecting a primer 220 pair of 2-6 nucleotide repetitive motifs;
(4) screening SSR primers to obtain 23 pairs of primers;
wherein, the 23 microsatellite markers, the numbers, the nucleotide sequences and the 23 primer sequences are adopted.
The invention relates to application of a calyx canthus EST-SSR marker in genetic diversity analysis.
The invention has the beneficial effects that:
the SSR markers can be divided into genome SSR (gSSR) and transcriptome SSR (EST-SSR), and compared with the gSSR markers, the EST-SSR markers obtained from the EST database are more economical and efficient to establish. Therefore, the invention provides an effective EST-SSR molecular marker of the Chimonanthus chinensis and utilizes the established high-efficiency SSR-PCR system of the Chimonanthus chinensis to carry out genetic diversity analysis on different levels. The invention mainly comprises the following steps: the method comprises the EST sequence of calyx canthus, identification and screening of SSR sites and the sequence of EST-SSR molecular marker primers. The invention searches 200 sequences containing different repeat units from Chimonanthus praecox transcriptome data, and obtains 23 EST-SSR markers with rich polymorphism by combining software analysis and molecular marker screening, wherein the EST-SSR markers are respectively as follows: XLM001, XLM003, XLM004, XLM007, XLM020, XLM021, XLM023, XLM035, XLM046, XLM061, XLM075, XLM076, XLM078, XLM088, XLM089, XLM091, XLM095, XLM098, XLM100, XLM112, XLM118, XLM139, XLM 199. The method can be applied to genetic diversity analysis, germplasm identification, variation and evolution research, molecular marker assisted breeding and the like among different species and populations of the endangered plant Chimonanthus praecox. Good repeatability and high reliability, and is a very effective molecular marker.
The EST-SSR molecular marker of Chimonanthus nitens and the application thereof are further explained in the following by combining the attached drawings.
Drawings
FIG. 1: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM001 site specific primers;
FIG. 2: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by using XLM003 site specific primers;
FIG. 3: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by using XLM004 site specific primers;
FIG. 4: amplifying SSR graphs of 15 prunella vulgaris samples in 5 populations by using XLM007 site specific primers;
FIG. 5: amplifying SSR graphs of 15 prunella vulgaris samples in 5 populations by using XLM020 site specific primers;
FIG. 6: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM021 site specific primers;
FIG. 7: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by using XLM023 site specific primers;
FIG. 8: amplifying SSR graphs of 15 prunella vulgaris samples in 5 populations by using XLM035 site specific primers;
FIG. 9: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM046 site specific primers;
FIG. 10: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM061 site specific primers;
FIG. 11: amplifying SSR (simple sequence repeat) graphs of 15 prunella vulgaris samples in 5 populations by using XLM075 site specific primers;
FIG. 12: amplifying SSR graphs of 15 prunella vulgaris samples in 5 populations by XLM076 site specific primers;
FIG. 13: amplifying SSR graphs of 15 prunella vulgaris samples in 5 populations by XLM078 site specific primers;
FIG. 14: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by using XLM088 site specific primers;
FIG. 15: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by using XLM089 site specific primers;
FIG. 16: amplifying SSR graphs of 15 prunella vulgaris samples in 5 populations by using XLM091 site specific primers;
FIG. 17: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM095 site specific primers;
FIG. 18: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM098 site specific primers;
FIG. 19: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM100 site specific primers;
FIG. 20: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by XLM112 site specific primers;
FIG. 21: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by using XLM118 site specific primers;
FIG. 22: amplifying SSR graphs of 15 Chimonanthus nitens samples in 5 populations by using XLM139 site specific primers;
FIG. 23: XLM199 site-specific primers were used to amplify SSR patterns of 15 Chimonanthus praecox samples in total in 5 populations.
Detailed Description
(1) Transcriptome sequencing
Collecting fresh tender leaf of wild Fraxinus chinensis 0.5g, wrapping with tinfoil paper, quickly freezing in liquid nitrogen, and storing at-80 deg.C. Total RNA of Chimonanthus praecox was extracted using RNAioso Plus (TaKaRa). Before sequencing, the concentration and quality of total RNA were determined using Nanodrop and Agilent 2100, OD260/280 and OD260/230 were between 1.8-2.2, 28S:18S>1.3,RIN>7, no degradation and no pollution. QUBIT RNA ASSAY KIT was used to accurately quantify the starting total RNA at 0.1-1. mu.g. Enriching and purifying mRNA in total RNA by using Beads with Oligod (T), adding fragmentation buffer to break the mRNA into short segments, and synthesizing a first cDNA chain by using a hexabasic random primer (randomhexamers) by using the mRNA as a template; then adding buffer solution, dNTPs, RNase H and DNA polymerase I to synthesize a second cDNA chain; purifying by a kit, adding EB buffer solution for elution, performing end repair, adding A and connecting a sequencing joint, performing fragment size selection by agarose gel electrophoresis, performing PCR amplification, and accurately quantifying a PCR product by QUBIT DNA HS ASSAY KIT; constructed sequencing library Illumina HiSeqTM2000 in-silico sequencing was performed with three biological replicates.
(2) Screening and identification of SSR sequences
A script MISA (MicrosAtellite identification tool, http:// pgrc. ipk-gatesleben. de/missa /) written in perl language and capable of identifying simple Repeat sequences (SSR) from fasta sequences can effectively identify and identify SSR sequences and loci, and the parameter setting standard is as follows: the number of times of mononucleotide repeat is 15, the number of times of dinucleotide repeat is 6, and the number of times of three to six nucleotide repeat is 5; the length of the SSR locus flanking sequence is more than or equal to 150 bp. In this example, 23 microsatellite markers were selected and assigned the respective numbers XLM001, XLM003, XLM004, XLM007, XLM020, XLM021, XLM023, XLM035, XLM046, XLM061, XLM075, XLM076, XLM078, XLM088, XLM089, XLM091, XLM095, XLM098, XLM100, XLM112, XLM118, XLM139, XLM199, and the respective nucleotide sequences shown in SEQ ID NO 1-SEQ ID NO 23 of the sequence Listing.
(3) Design and synthesis of SSR primers
SSR primers were designed in batches using primer3(https:// sourceforce. net/targets/primer 3/) based on the sequences and sites detected in (2). The design criteria of the primers are as follows: there is no SSR in the primer sequences; the sequence is in a DNA conserved sequence region; the length is between 15 and 30 bp; the upstream and downstream primers do not have complementary sequences; the primers themselves do not have complementary sequences; the primer annealing temperature (Tm) is between 53 and 63 ℃; the difference of the Tm values of the upstream primer and the downstream primer is less than or equal to 5 ℃; the GC content is between 40% and 60%; the size of the product is 100-400 bp. Primer 220 pairs (No.: XLM001-XLM220) of 2-6 nucleotide repeat motifs were randomly selected, synthesized by Shanghai Sangon bioengineering, Inc., and used for SSR primer screening.
(4) Screening of SSR primers
Selecting 5 wild populations of chimonanthus salicifolius wild materials: the method comprises the steps of preparing 3 samples from a Zhejiang balcony through plateau (JGP) and Zhejiang mortar hole (DJK), Yuntangshan mountain (LTS) of Zhejiang Linan, Zhejiang West pit (XK), Zhejiang front pit (QK) and Longxushan (LXS) of Anhui, wherein each population is randomly selected, collecting fresh leaves, drying silica gel and storing at low temperature. Extracting genome DNA by CTAB method, detecting its quality by 0.8% agarose gel electrophoresis, and diluting DNA concentration to 75 ng. mu.L-1Then storing at-20 ℃ for later use.
SSR-PCR reaction system adopts 20 mu L reaction system which comprises 75ng of templateDNA、250μmol·L- 1dNTPs、1.5mmol·L-1Mg2+0.6U TaqDNA polymerase, 0.2. mu. mol. L-1Primers and 10 × PCR buffer. The SSR reaction program is as follows: pre-denaturation at 94 ℃ for 3 min; 30 cycles (denaturation at 94 ℃ for 30s, renaturation at 55-60 ℃ for 30s, extension at 72 ℃ for 1min) and extension at 72 ℃ for 10 min.
After the reaction is finished, 2 mu L of loading buffer is added into the product, 100bp DNA ladder is used as DNA molecular weight standard, 8% non-denatured polyacrylamide is adopted for electrophoresis, the electrophoresis buffer solution is 0.5 xTBE, 160V voltage stabilization electrophoresis is carried out for 90min, and a blue band is preferably used for running to a position which is about 1/3 away from the bottom of the polypropylene gel. After electrophoresis, the gel is dyed by a silver staining method, and finally the gel is placed on a gel imaging system for photographing. A primer for stably amplifying a clear target band according to the band amplification condition statistics; and counting the primers with different bands in the target range according to the band migration condition. In this example, 23 pairs of primers were obtained by screening, and the sequences of the primers are shown in SEQ ID NO. 24-SEQ ID NO. 69 of the sequence Listing.
(5) Application of SSR primers in different populations of Chimonanthus praecox and genetic diversity analysis
Selecting 5 wild populations of chimonanthus salicifolius wild materials: the method comprises the steps of selecting 3 samples from each population of Zhejiang sky terrace through plateau (JGP), Zhejiang mortar hole (DJK), Zhejiang Lin Anlongtang (LTS), Zhejiang West pit (XK) and Zhejiang forepit (QK), extracting genome DNA by a CTAB method, performing SSR amplification on 23 pairs of primers obtained by screening in the step (4), marking different classification band types of the bands of the sizes of the bands as A, B, C, D …, marking homozygote bands as AA, BB, CC and DD …, marking heterozygote bands as AB, BD, CD and BD … according to the band types, and using band type data for subsequent genetic analysis such as genetic diversity. SSR-PCR amplification is carried out on the 23 pairs of primers with the inter-population polymorphism, and the result shows that 12 pairs of primers amplify polymorphic bands: namely XLM003, XLM007, XLM021, XLM035, XLM046, XLM061, XLM078, XLM089, XLM095, XLM098, XLM100, XLM 139; the bands of amplification products of XLM007, XLM078, XLM098 and XLM139 in the population are rich, and the allelic variation is more. The test results are shown in FIGS. 1 to 23. Therefore, the method can be applied to genetic diversity analysis, germplasm identification, mutation and evolution research, molecular marker assisted breeding and the like among different species and populations of the endangered plant Chimonanthus praecox. Good repeatability and high reliability, and is a very effective molecular marker.
TABLE 1 primer characterization sequence Listing
Figure BDA0001300979070000061
Figure BDA0001300979070000071
The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.
SEQUENCE LISTING
<110> Zhejiang agriculture and forestry university
<120> summer wax plum EST-SSR marker and application thereof in genetic diversity analysis
<130>N171176
<160>69
<170>PatentIn version 3.5
<210>1
<211>1174
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>1
acatccaaca catgtcttat tctcatcata aatccattca catgctatag ctatgtcatc 60
aataagtttc aagcatcatg ttcaatgtcc attagtctga taaaaaattt tcatttaatc 120
gcatataatt gacatgagtg cactcgaacg gatcccttgc cacagattta ttcaacaatt 180
cccttatcga gtggcttaat aaacgaaggg ccccactcga gtcactccat gtccaaggtt 240
agggttaaat agatgcgaat acatgctaaa acagtgataa gtcccctcac ctggtgtgca 300
tttctgaaat ccaagcaatg aaaacagatc gaaggattgg aggaaatgat gcacgggcta 360
gccgggtatg ggaagttggg gcgagttgga aaaccgggac gctccggcaa aactgggacg 420
atccctcaag ttcagttgga aacgggcttg caaaaggatc cagaaacggt ccaagaacgc 480
ttcaagaacg atcccaaagc gggccacgaa taggcccaaa atgagcctgg atcaagcctg 540
aactgggcct aaaatggact tggaatgggc ctgggtcggg cctgaaaccg gctgggcctg 600
actggatctg ttgaattggg cttggatcag attgggccta aggctgctag gcccaagtgc 660
tggccaggga tcaaggttga cgagttgggc atggattgga cgggtaaggc ttagagctgg 720
gtccgaacgg gtcactctct tcctcccacg attcggctca gtgactcgac ttagtcaact 780
cgatgactca gttgagtcgc tcagtgaatc aaatgagtcg agtcgaagac tcaaaagaga 840
gggaaaagag agggaaaaga agatatcaag ggggaggaaa atggcagtgg agaggaagaa 900
gatgagggcg atgaccaatg cttgggcgga caacccaaag tgaaaggacc gagagggatt 960
tggaggagaa aggcgagaag gtaccgagag agagagatga aacaaggcgg tgacggctgg 1020
gaggggagga gaggagacgg cggcagcggc agcggcacaa gagatttagg gttttggtta 1080
gggttgagaa gggaggagaa gaaagagaaa gagaaagaga ggtgtggcgt cggagagggg 1140
gaaagagaaa aggggcgcgg cttggaggct tagg 1174
<210>2
<211>3272
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>2
ctataatgag tttagaatgt ggtacaaact atatagagct tttcacccaa aacatgacat 60
cttagattat ttccatgtag gagatactag agaatgatgc gacaaatgtt ttttttgtta 120
agtgtatgtt tagctttttc ccttactgat ggtccttgga tctttggata agttaaggaa 180
tcatggtgta aatgaaataa aagtaaatcc cattaatcca ttgttccatt agcaattttg 240
ttttacgaaa aaaatacttg caattacaag gggaagtatt gattatcaag tggcccaagg 300
atcagaatat gagatattag gggccttcat agcgtacgta ggtcaaatgt cttgcaagaa 360
atatgcagaa aattattgaa aatgtaaatt gaacttttac atatttaaga gagagagaga 420
gagacggaat accaaatcaa ttataccacg gctctcaaca tcttcaaatg accagacaac 480
atttgcgaga gagacaataa caaatcaatt gataccactt ctttcatatc ttcaaatgat 540
taggcaatat ttgagtctta cgatggtttt tctgcagtag cccaattaag ataaagtggc 600
accacaactt gatttgtagt ggatagttga cttcatcatc catatccaaa taatgtccat 660
attttccaga caccaattcc tgctaccaag gatcattgtc ctccatatga tcaaacatta 720
taagtgcaag tcaaaaacaa atgacccagc gactcaagca actcagaaac tataatcacc 780
actgtactcc aatgtaaaaa gtggatttga agctctaagc tagaaattgt atacactgtc 840
atttgtcata accatgacgt ctatgttaaa aaatacttca aatttccaag cgaagagttt 900
caaagtagac atgcatatcc ttgtcatttc tcaccaataa tccccacaag aacagaaccc 960
atcattgaaa tggtgaaacc gattggtatc tctaacaaat atctctctcc cttcaaattt 1020
ggatataaat tttatcactg catgacagtc accacagatt cggaggttct taataactcg 1080
gagtggggtt ccaggtggag tgttcagaag gccaaggcca attgccaatt tctcactgtg 1140
cccacccaag atatgctcct tctcttgctc ctcaacatcc tgcaggacaa agttggtact 1200
aggaaggaat ccagatcttt tcatctcaat gttcaatctc tccaatctta aaagaatttg 1260
ggtcatcata ggatgtgatt tgtcccctgc tagaagcatg tgaaccttgt tattaatctc 1320
aatccaactg cagccagggt tttttctcaa ttgcatgctc ttcatcgtat ccctcaccct 1380
atcaacttca tcccacattc ctttagaagc atatatatta gaaagaagaa catagttccc 1440
agcatttcct ggctctaact gaaaaagttt ctctgcagct acttcaccca agcttacatt 1500
tccatgaact ctgcaagaac taagcaaagc tccccaaaca caagcatctg gctctgaagg 1560
catctcctta atcatagcat atgcctcttc tagccttcct gcacgactaa gtagactaac 1620
catgcatgca taatgctcca ttctagcatc aaccccatgc tcatgagaca tgctatgaaa 1680
atagtaccat ccttcttctg ttaggcctgc ttggctgcaa gcagatagca gacaagtgaa 1740
actgatgaaa tcaggcttct gtccattcct ctgcatcaga agaaacagat ctatggcttc 1800
cttagccctc ccatgcattg catatccacc tataattgca ttccatgaaa cgagattttt 1860
taatggcatt acatcaaaaa cattctgggc atctctgatt cttccacatt tggaatacat 1920
atcagtcaat gcactaccta caaatacatc ctcacaaaag cccctcctaa gtgaaaaaca 1980
gtggattgcc tttccatgca tcaaggctgc aatatttcca catactggta gcaagcatgg 2040
aattgtcact gaattgggct taacaccgac aacctgcatc tctctgaaaa gctccaaggc 2100
ttcgatatcc tttccatttt ccacacaaca ggcaactact gatgtccaag atataacatt 2160
cagttcaatt ccttgatttt taaactgtct aaacattctc aatgcgtcat caacaaaacc 2220
attacgtgag agaccagcaa tcaaagcatt acaagaacct acatctcttt cgtcaatatc 2280
attaaacact tccaaaatct ctgttgtgca ccggcacttc ccatacatat caataagtgc 2340
acttacaaca caggcataag atccaaatcc ttgcttaata gtgtacccat gaatctgttt 2400
tccagtcgcc aggtcctcta actccccaac tgaaggaaga acactagaaa tgctagtccc 2460
atcaggctta aacccttgca ggtgcatctt atgcaacatg gagactgcttcaaaagagta 2520
gccattatgg ttcaacccag caatcaatcc attccatgat acagaattgg gttccacccc 2580
tgactctctc atctgattaa aaagttccat tgcctcatca acatagccca tacgggcata 2640
gcccgcaacc atggcactcc agccaaccac attatgttgg gaaattctgt cgaacaccaa 2700
gcgggcatca cacatttcac cgcatttgat gtacatgtgg acaagggagg actggataaa 2760
gggatcgaaa gcaaacccac aaacagatgc aaggcagtgg agttggcgtc caattgagac 2820
tgctgacagg ccggcacagg ccttgaagac gctagggaat atgaagttat ctggcaagat 2880
gttttgggaa agcatgattg agagaagatg gagggcagag gagaagcggc catctttgct 2940
gtaggtggaa atgagggttg agaaggaacc aatgttggga atcgagtgga gggaagcatc 3000
agaagagttg aaatgagtgg catagcggga gatttgattg gtaattaggc gagtgtggtt 3060
ggataagctg gtcattgatt tttcatggtc cctaattaaa agacttgacc caacttttgt 3120
tttgattggg cacctatcct cagttggatt gatcttcgta tactgaaaac aacatgtaat 3180
gatttaccat ccctactccc caagtcgtgg aatgattgtt accaaatcag aacctgcaaa 3240
tgaaggcact gtactacacg gtggtagaga gg 3272
<210>3
<211>364
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>3
ggcttttagg ctgatctcaa cactttattt tgcctgagtt cactctctat cttcaagaaa 60
gaagaagaag agatgtcctc gccacctcgt tttcctcgtt tctgaacttt ttcattacag 120
caagattctg cttggagagc attttcaaga aaggtcacta tttcttaaaa tattctaacc 180
attctggcaa agtaattgtt gttgttgttg ttgggctgcg tttggatgga tggtaacttt 240
gttcacccta tgtggtggtg atagtaagag ctctagtaaa aaaggaatgg tttatcgtaa 300
cagcttttta aattcttcga agcacttatc ttttcttttt cctttcagat ttctggatca 360
cttc 364
<210>4
<211>2131
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>4
atgatatgaa aaaaaaaaaa agagagactt gatagactac agaataagtt tgtgtaaaat 60
ggatggattt gatactcaat tttggatggg tttgggttag gtaaatgtgt caacctattt 120
ggttcaatgg ataaatgggt ttggatagag ctggaccaat tatttttaag ggggggtgtt 180
tacccattta ctaatataag taatgggttg ggggttcatg accctatccc gaattagatc 240
tgatctgatc tgaactgact tattgccatg cctagttagt tatgttatta ttattacttt 300
aattggttaa ttttttatag ttaatagaca ttctacacag ttttatggat ggaaatatgg 360
aaagggaaca tctatttcta aaaagaagta ggtttaaata ggtcatgttg gattcgcaca 420
ataaatgttt aatgggttta ttaggtcaaa ccattcattt aagtgtgggt tggattttaa 480
ggaaggggtg ggggcgtctc aatacccttg taatctttgt ttgtttgtga cttttcaaaa 540
aaaaatcttt ttttgtttgt atgagattac atattcaagc tagaccatga ttggactgaa 600
gaatgataaa attgcaccca cagatactgt tgattcttgg gtcctgtaaa accatatcta 660
gtgtcattaa aatttggcca agtaatagag ttatatggat gttcatattc tatttaaatt 720
gcttgttgtt ttcatgatct tttgatgata tcagaaagtt tggtgaaaga gcttgttcaa 780
atgtttacct tggagctaag tttgaagcgg ttgcttgtta ttgagctact ctccatcaat 840
tacaaagagt atccacaagg acaaaagcat agattacatt ggtcagatga gatctatcta 900
ggcgagtttg atgatttaag taaaagtgac atgtattcca gtgaacaatg ccagtcaact 960
cctccaagga taattggctg cgagtttgat aacactaatt ccaaacaaac tgactgtcgt 1020
catgaccgtg agattttgca ggtctattta acgacatggc tagtggaagt gaatgtcgat 1080
tggtacaggg ttgatgaaat ctttgccatg gtgggggagg aaatgcatgt cagtctttca 1140
tgagataccc ttctaagtga aatcttgaag attgcagtgt cttgtgcctt gggagtgcat 1200
gcttttattg agctatttca tacatgtgag tgcatgtgct ctcatgtttg cgatcatgag 1260
aatttaaaat atgcagcaac tgtatatttt gagatgccca aaagacttga tcaatgagtg 1320
agagattaaa gatacgtctt ttctgccttt tcaattgaac agttcacttt gtctttgttt 1380
aattgtaggc tgccaataaa tgggttgcta tatggttggg acatcatata tctaaaatac 1440
caaaaatgta ctttctctta attcaaataa tatttataaa aagggaaatg atagagacca 1500
gtgttttgat aacaagggac ttcaggcttg tctttttgtc cacttgtcat catttaagtg 1560
gtgaaaatgt tcgatggtgt ctattgatat gaaaaacacc ggtgtgacca tcatttccct 1620
tgtagaaaag gcaaaactgt attgattatc atgtaaaaga aatgatactt ttggtgtttt 1680
ggaaatatgg tatttcaata aatgaaacaa tggttttcca attgatggcc tgtcatcatc 1740
atcatcaacc attttctcat ttatttggga gcgacctttt gggtattgca tttccatttg 1800
ttctgattga agatcatatc ctaggtctat ctaggatcaa ttgctctatt aattactaaa 1860
accaaagtat gaattttact atcgtacttt tttttttcca atttcttgta gaaatgtatt 1920
tgctggtttt agttctatga ggctgtaaga tgtattttgc tttttgaatc agtttttccc 1980
agtgggggtc tgttttcagt cttctttaag actgttttga gtctgtaatg gtggagtcta 2040
gtttgggttt gttgctgtct gtatggagtt gccttgtttc ttgtattgtc cccacttttg 2100
ggtctgtaat gtaatgttga gaggtttccc c 2131
<210>5
<211>2139
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>5
ctttggtagc cggattggcc atgtttttgc ataataaata aataaaatca ttgctacata 60
catttccaga taaaaatcac aaataccata gcttctaatg tgggatagag atacatatga 120
caatcacccc cctcccctgt caggtttgtg gagcctgatt gtcaaatatt taatggaggg 180
caattttgta atttttgcat aacatatgtt gtagccctaa ttagggcagt atataatgtc 240
tcttttcatg agagaggagt gagagagcaa aaattgtaac aggcacggcc gtatcttctt 300
cgtctttttt caccttcgag catagtggat ctggtttgaa cgttattgtg agggcgttca 360
aggtctttcc tttctgttga tatcataaag cacacacaca tccgctgctg ttttcatctg 420
tatgacattg atcacttgct tgattgccca tccaaacagt gaaaaaacag ctggaataga 480
aagaagaaaa ccctgtttca ctgcattcac aaaaacatca atcacacttt gtgattggtc 540
cccagcaagg aggaaaagca tgatgtaaag aacctctgat gctgcacagc aataacacat 600
gaataaccga tttccataat atgcctttaa aagccaattg gtactgtctt ttacatcttt 660
gtgactagcc ttccctgcaa ggaaagtact gtacatttga aaccagtggc tggtaatatc 720
cagtgcaagc aaagacaaga aaatcaagcc aggtctgtaa atttgtgaga ggataaccaa 780
tagacaagca gtgctaaccc tgtctgttac catatccaaa actgctccaa aagtagacac 840
tgaatcagca aatgagagag ataagtcaaa tgctaaaggc taaagcaaaa ttgattttta 900
ctctgattca ctagaggatc tttgcttccc atctctgaca ttggtaccag atgttcatct 960
caccacagtg ttcaaatcaa ccaagagatt tcctccttga tttttggtta ttagtgtaga 1020
acatttcacg tatgaaggag caggtgaaaa aatggataaa aagagatgag gtttaaggtt 1080
atgaacaaag aaaatgtaga aacaaatgta agaggttaaa ttagagacta acacaaagat 1140
ttggagtata aaggtgtaaa ggagttcaac cacgaaaata tcaatactcc aagagttgat 1200
agtccacatc agtaaccaga tgctcaatcc cctgtaattt gttaaacaac caaagagatc 1260
acctccttga gttttgtttt tagtaataga cctcttcatg tatataggag tagatgaaag 1320
gaaaagaggg ggggagagag agagagattt gaggttattg acaaagaaaa tgtagaaaga 1380
aaggtgagtg gttaaattag aggtcgacac agataggact ataacgtgta tgttagtctg 1440
atacagtacc ctataattgg acatggaact tgacagcaaa aagacggatg attatgggtt 1500
tatagcagcc atcccaaggt caaggccaac acaggctaga tctgttgagt ccaagcccag 1560
acttggattg acatttgaaa ggctgaagtt ggcccattaa aatgtgggcc ccacattggt 1620
aggaggttgt gttagcacat ggatgggggg tgagtgaagt ttagccccca tccaactatc 1680
ttaggcatgt gaatttggtt cttcaaaata aatggtttgc aataaacatt tccaaagcca 1740
tgatcacatg gctgagatga ttaaataggg atgaagcttc actcataccc gcttcatgag 1800
gtaccctacc cataccttct ggacacatcg aggctaatct acagctgata gacaatctcc 1860
ttcaaagagt ccctatcact gctcaaggga agagaagcaa aaaaatggga taggaaggca 1920
taaaatgata acaatgaaga gaggcatgga taaattcaat gcagttagac acaccgtggg 1980
aggaaatcct atgcaattaa aacagtaagg caataaacca aaggtgcaga aaagaatgat 2040
agtagatgaa ttaaatcaaa tttgcagtta taggcaatga atatcatggg agatcagttc 2100
tttcatctta aatgtctaaa atatgttatc actagttaa 2139
<210>6
<211>760
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>6
actgaatgtc atgttaaaca ggtccattta tctataaaag aaataagaag caagaaatta 60
taacttcacc aaccatttca gtctaatcaa gctcctcttc aatttcaata aaagatgttg 120
aattccaata actacattca cccaatcctt catcgtgcca acgaaccagt acatcatctt 180
tccttaagaa tggaatgatg cagaggtatt cgaaaactcc agctatatct gatttcttct 240
atctttatcg atgaaaacag ataagaagct gaacatggta gatttcatgg gaaggtaaat 300
ttgagatggg atcacatgca aacctacaaa catctcttgc gtcaagtcac gtaaagagtt 360
gatgtcccca cttaacccac tctctctgca aagtgcaaag tgccaagtgg aaagtgcaaa 420
gagcaaatgg ttgttttctg tgacacggga aagccctcaa ttccattttt atcggggggc 480
atactcttca ttagattcca tgctaaagat gagaagtgat tgccctcaat tgtgaaaggt 540
ttgtctgcta ctctactcct actcctactc ctactctctc ttcctatgcc tgtaacaact 600
cctcattgtt gttgagttct ctgcttaaca gctcttcaac aaataattct aaagagaatc 660
ttgaggagaa ttttaaatgg taaagtcaaa tttcaagtgg atctcatagt cctactttaa 720
gctttctcat tcaaatatac ccataaacga gcccttttta 760
<210>7
<211>5539
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>7
gaagggttca gcgttcactg tgttctctaa gtattttata tgggagactc gtcctcctcg 60
acaagaatat aaaagtataa aacccttcca ccaaatctaa aaccaaacct ctgcactcca 120
actctctctt tcaatggctt ttcctctctg caactcccct ctgctgctct tctctttcgt 180
cgtcttcttc ttcttcttct tctttacgaa ataattgcat ttttcatgtt tccatagatt 240
cattcctctc atcttttctt tgattttgga ggatgtcaaa ttaccttttc ttcctcttcc 300
aaatgtttga ttctctgtaa tttcttctag caaaccccgt tattttacaa tccctttctt 360
cttgacctgc ttttctgcca cttcgatggt ggcctgatct cgtctcttct aatttctacg 420
gttttgaaca atatttcact cttttactgg tgaaaagggg gagcattttt accctatcag 480
gtttccgatc ggtggggctc tccaattgct tgtcaaaagg ttctgttttt tttttctgct 540
gcatttcctt ctttatgtgg aaaactattg ctttcatggc attttatttt cttaagaagg 600
tctagaacgg gtcctttttt taccctctct ctctctctct gcatcttctt ctttccaagg 660
aaaataatac agttttcact gcatatggtt ttcttgtgca cgcccacgcc caaaaattgt 720
ttttcccccc actctcattc tgcttattct tctttccgac aaagttacag ctttcaccgc 780
ttttagtttt gatagaaaac cgtgtttttt ctgcaccttt gttcttttcc atgaaaacta 840
cagtttttaa cgctctcttc gaaatggggt cctagaaact tgtatttatt tttttcctct 900
gaattttctt ctttctatgg aaacggtagc tttcttggct tttgcatttg atatgttggc 960
ctagaaagtt ccttgtctct cctagagggt agttcctact tgggtttctc gttacacctg 1020
ataagatatg gattcgtcta agaggaaaag ggtatccaca gaaaatggag atggaagtcg 1080
ggtttctgcc ttcccggatg aggttctgga gcgggttctc ggctttgtga aatcgcgaaa 1140
ggacaggagc gctgtctctc tggtttgcaa ggactggtac aatgcggatc ggtggagccg 1200
gatcgatgtg ttcatcggca actgctatgc agtttctccg gctatccttg tcctgagatt 1260
tcccaacatt cgtagtgtta cactgaaagg gaagccccgg ttctcagatt ttgaccttgt 1320
gccaccgaat tggggcgctg atattcattc ctggctcatt gcattcgcat ccgcttaccc 1380
atttcttgaa gagcttaggt tgaagagaat gactgtcaca gatgagagct tggagtttct 1440
ggcacgatca tttccgaact tccgagcatt aacgcttgtc agctgtgatg gattcagcac 1500
tgatggactt gccagtattg cagctaattg caggaacttg actaagctgg acatacagga 1560
aagtgggatt catgatcttg ggggcagctg gttgagttac ttccctgaaa gtttttcatc 1620
tttggaagta ctcaactttt caaacctgag cagtgaagtg aaatttgacg ccttggagag 1680
gcttgtggcc aggtgcaagt cactgaaggt ccttaaagtt aataagaatg ttactttgga 1740
acagttacag aggttacttg tgaaatctcc tcaattaaca gagcttggaa ctggctcttt 1800
tttgcaagag ctaactgttc ggcagtatgc agaattggaa aatgcatttg gcaactgcaa 1860
gaatctacac acactttctg gtttatggga agtcacatcc ctgtatcttc cagcactcta 1920
tccagcctgc ataaatttga cattcttgaa tttgagctat gctactcttc aaagtagtga 1980
gctagctaaa cttttgccaa gctgtccaaa tcttcgacgc ctttgggttc ttgatacagt 2040
cgaggacaaa gggctggagg ctgtgtcaac tagctgccct ttgcttgaag agttacgggt 2100
ctttccagcg gacccctttg atcaggacat tgccattgaa gggggtggtg gggtgacaga 2160
atctggcttt gttgccatct ctcaaggttg tcgcaacctc cattacgttc tgtatttctg 2220
ccgtcagatg actaatgctg cagttgagac agttgtccgc aactgtccaa acttcactca 2280
cttccgcctc tgcatcatga acccttgcca gcctgactac ctgaccaaca agcccatgga 2340
tggtgccttt ggtgctgttg tcaagacctg caccaagctc cagagactct ctgtatcggg 2400
ccttttaaca gaccagacat ttgagtatat tggaaagtat gccaagaacc ttgagatgct 2460
gtcagttgct tttgcaggca gaactgacag ggggatgcag tgtgtgttgg agggctgtcc 2520
aaagctgcgt aagctggaga taagggactg cccctttggg aatgaagctt tgctttcagg 2580
gctggagaag tatgaatcaa tgaggtcact ctggatgtca gcatgtaatg taacaataaa 2640
tggatgtaga tttcttgcga gggagatgcc gaggttaaat gtggaggtca tcaaggaaga 2700
tgagagtgat gaaactcagg ctgagaaggt ttatgtatac aggtcggtag ctggaccaag 2760
aaaagatgca ccacattttg tcctcaccct ctgagaattg gaaggccagg taaccataac 2820
aattaaaggg ttctacaccc cgttgtaata taggtgcatg taggctaatg cttcgatttt 2880
atacaatgcg gataaggctt gtgacctgta ctatcaaatc taatgtgcct cacagttaat 2940
taggggtacc caataaattt cactagttca aatattgtag ctatcgagtg aaatagcccc 3000
ctttcttttc aaatttctgc tgcaaatatc ttcttattgt caatttgtag atacaatatt 3060
atatggttgg gaccttctaa tgtgggtcat tggatgccca gcatctacct tggggtatgt 3120
gattagcctt ttggacaggc tacttttttt gaatgactgg tcttggggct tcctccttgt 3180
acactgaggc atgaggtcaa aacctacgtg tacccctatt atttggatca tctggatgca 3240
aacacttatt ggttatgaac caagtttctg gattccatgc ttctagttat gctgcagatg 3300
ttcaatgcct tgatggaagt tctgcttttc catctgcatt ttcctttaac ccaatacaac 3360
agagtgaaag agtttaggct cttcaaattc aaagaataca tgattgctgt atcagtgata 3420
tagagcatgg actacacatg cttaacagtg gattgctatt cctttccatg tgattgcttt 3480
tcgctgttga tggcttttga gaaccttgac cttatcgtga aacccagagt tgatctggag 3540
gacaatggtg gccaaatcct ttttctgtta cctgacaagt gattttaaac taataaattt 3600
ttgtcttttt tacatattca ttttgcatac aggacaatca ggcgtttgaa aatctacagt 3660
atcaggccca gttcttgtta agcagaccat cagatgaatc tttactgttg gaaaattgca 3720
aatatccgaa tatcagttag attgtacaga aaatatttac cctggtggtt taaatccatc 3780
gtttgcatgt ggtgatctcc catatcatat tagaaggaag aaaatgactt agatctatga 3840
ctcactatgt tattagtagt tgcaaggcat tggggttgtg atttgttgat tattgttcct 3900
atggtattac ttgagaatcg ggtcccactt gcctgtctac tgaagagttc cagcaagatg 3960
atgctgaagt aattgtttct tattttcaaa aagtgcaggt ttcgtggagt aaggtctaac 4020
atgggaagaa ctggagaccc agaatgtaat gaatgctggc aatctaaaag agagaagcaa 4080
aaaggaaaaa ttagctctgc ggaacatgaa agacattctc tcctttacaa agcagaaaac 4140
actgggggaa acaggggcat aaaaaaaaca acaaaacaaa gcagcagtat tttgaagaag 4200
aaaagagaaa tcaagccttt acagtgccta tggtgaatgg agctgcatca gtctcagcac 4260
ccaatgctgt acccctggag catgatcatg agactgccaa tacagaagta gatgaagcat 4320
ccatagcagt gggttacaaa tgacccaaaa tcgatcccca caatgcattg ccaccctgga 4380
ccatactccc tatcaaattc ctgcaaagaa agaagcctca gataaaatgc agttctccac 4440
aaacgtatgt attgcatcac acatactcaa attgcaagga gatatgaaaa tgaagtggga 4500
aggccatagt acccattcaa caccccctgc tgaaagtaac caatttggta attttagaga 4560
aactctgcaa tggcgacact tagccacata attaatttgt tcagtttgag agaatgattt 4620
tgtaccgtcc tctttagtag tggggaaaaa ctctcactac tttctattga gaattttctg 4680
ctactaaata gatagttggt atgatgaatt tcgtcgagtc caaatgtagc ctatgcacct 4740
tcttgatata gcatgcaatc tctatgcagt cagtgacatc gaaggaatcg agagccttgg 4800
aggcgagcct gagcgcatcc tgctgcatgt tctgcagcat gtctgtctcg ccaatgacgg 4860
ccttcccttc caacatggtg ggaagaatat gaatgaatga agagttgaaa agggggaaag 4920
aaaggtgaga aggtgagaaa cacggaagac tgcaagagta ggagatggat aagaggatta 4980
tatattgggt ttggaattag aaagtggata agtgctgttg ggcaagccac gtatatttgg 5040
aataatggat gatgtgtagc tgctggtggt tgtcaagatg ctctggaata tacaaattgg 5100
gcggtggata tggacaatat gtggggccta caaagtgggt gtgcctcaaa tcctggagat 5160
gcagcatttg gaagtaggga gggaatagct tggggtctgt tcatttcata ttgaaggtga 5220
atctaattcc acggataaag aaactattcc tatggtgtat aggttagtat ccatgcttaa 5280
catagttagt aaattccatt cacatgctaa attgcctata ggttttgttt tttctcttgg 5340
tggtcagtat tctgtccttg taggaagagg ttgatggttc tactaataaa tgataggcag 5400
gaagcagatg tagttaggaa gattttgaaa aataggaggt aagctgagaa atggaggtga 5460
tttagaggga cttgaatttt atttatccca caaggctatg gaatttggat gtggccattt 5520
cgcttatcaa tctccaaag 5539
<210>8
<211>2001
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>8
gaagcgcgtt actcctcaaa tacagactac agagcagagc tccagaaacc ccgcggaaag 60
ccctagaaag atatctagct gcatttttta cggcgcattt ccgacgagtg ccagtgtgga 120
atctcctcat cggtggagaa aaggaggggg atgggaagaa aatgaggatc tccgggcggc 180
ggcggcggcg gcgacgatgt cgtacacctg cctcgattgc ttctccgacc tactttgcgg 240
cgaggacgct ggaaccctcg ctgaagatgt ggaggattgt tcgccggatc ttgagttccc 300
ggccgatatc gaggattcga ttgccggatt tgtagagggg gagggagact acttgccggc 360
tttcgactat ccggcaagat tccggtcccg gtctctcgac gcctccgccc gggaggaggc 420
ggtggcttgg attctcaagg tgcatgcgta ctaccgtttc cagccgttaa cggcgtatct 480
ttccgttaac tacatggacc gcttcctctc ttctcatcgt ttgccgcaag cgaatggatg 540
gccattacag ctattgtgcg ttgcttgctt atccttggct gctaagatgg aggaaaccct 600
tgttccttct cttctcgatc tgcagattga ggggacccgg ttcatctttg aacctcgaac 660
cattagaagg atggagcttc tggtcctcac tgctttgaac tggagacttc gatcgataac 720
accctttagc ttcatcgatt tcttcgcgta taaggtcgat tcaagtggaa cctctatcag 780
gttcttgatt tcacgcgcca cccaactcat cttagccacc attcaagtga ttgattttct 840
ggaatactgg ccatcatctg tggctgcggc cgcgatacta tgcgcggctg attcaatccc 900
tgatctatct ttggctggtc ctgacgacgt ggtgtcttgg tgtgttggct tgagcaatga 960
gaggattgcg agttgctatc gattaatcca agatattgtc gtcgtcgacg gcggcggcgg 1020
cggtcgccgg aagcccccaa aaatcctgcc acagctcaga gtaacgatcc cggccacagt 1080
gggtgctgat tcatctccct cttcctcatc atcatcatct tctaacaaac ggagaaagct 1140
aaacaattgc ttgtgggcag atgatgacaa ggaaagagaa taataagaat aatagtaatg 1200
aaaaggaaat atggtgatat aagtaaaaga gttctttatt ttttcttttt cgagttgggg 1260
ttccgcagaa tcctcagtat tttttagagg gttttgagat tggattaaca aagtgagaga 1320
gaggcagatt agtatatttg ggagttggga gggttgatga tttgtttact ttcaccttct 1380
tctttattta tatgggtatt gcttatttgt taatgtcctg atgatgggga ttgcagattc 1440
ccaagggcgt ggaatttgtt aatttttttt ttccttcttt tcttttgttt gtgtgagaaa 1500
gcaagaggga gatgagatgc atttgtttgt ggattggaga gaagtgggta ttgaattcaa 1560
aggcagcatt gattgttgaa tgaaggaggg gaggagatgg tggggcaatg ttaagagttg 1620
ggaaaagaga catcatgtgg gttggtaaat aagtgaagaa gaaagaaatg ggagcgtctg 1680
ctactgtggc ggaagatagt caagcttctc actcagtcca ccatcattgc ttcaacttcc 1740
tcatttatta ttaaatgtag aaaaaaaaat atagctcttt aggctttggg gtctagggct 1800
atatgtgtgt atatgatgta cacgtgtcca aatcctgcgt gtacaggtat gtgtggggct 1860
tggagagttg ctaacttgac tggcctctct ccattccctt tggcctaatt ttggcctaac 1920
aaatactaaa ggcttttggg agcctttttg agtgctgtat ttgaaatcat taatgcaaat 1980
ttatcttctt tgataaaaaa a 2001
<210>9
<211>4320
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>9
gccatcatat ctgatcaaca caataagaca tgcaaatcct gtgaatatat gcatatactc 60
ggagctttac aaatattaag tcactgctta aaatgatctc aaacctagct gtcagtacaa 120
cagttagtga ggtcaaatat ggacagcacc aatcagcatc tctaaatcat atggtaaaat 180
aaggaaaaca tacaccagaa cacatttaaa gaaaattccc cacagaagaa aaacatagta 240
aatctctgca tgagcatgaa gcgtgaaatt cccaatcatc ttcaagttag cctttatgca 300
gataaaatgc cgacaaaata ttatattcac cataagagca ctgttgatga acaaaatgca 360
gagagcagta ctcaatatca gtcccagcca ctggcaacaa tagacccatg tccaagacca 420
taatcatagg aagagggatg agtgtgagaa gagggatgag cagtgccact gccaccgccg 480
gcaccataag agttatagta gtgattccct cttgaagagt tgtcccttcg gtagtcataa 540
ccaccgaatc gcccactgcc agatctgcga cttctccctc cgccattata ggagttcctc 600
tcagcatatt ggttgagcca ggacggaacc tcttgatttg attcctgcat gagttcaaca 660
agtgccttgg ccaaggactg gtttccttca ttgaaaaatg ctgttgctaa gccagtcttg 720
ccagcacgac ctgtccttcc aattcgatga acataatcgt caatgtcttt tggtaagtca 780
aaattgacta catgcgcaac atgtgggaca tccaaaccac gagcagcaac gtcagttgct 840
accataattg gagaaacacc agatttgaat gatcgcaacg cttgctcccg ctccggctgt 900
gttctgtctc catggatagc tgttgcagga aacccattca tacacaacca ctgctccaaa 960
gaatctgcac ttctctttgt ttccacaaaa actagcgtca aaactggctt cccatgggtt 1020
ccatttgctt tttgggcgtg aagaagatgc aagagatgac ttcttttctc catgtgaggg 1080
acaaaatcaa ctctctgcgc aatcaggtca gtactcgaac caacccttcc aaccgccaga 1140
aaaatgtaat ttgaaagaaa atcggaagct aatctctgta tctcattagg aaaagtggca 1200
ctgaaaagca ttgtctgcct cataccaggc tgaggcatgt ccatttgttc aacaatcttc 1260
cgtatctgtg gctcaaagcc catatccagc atcctatcag cctcatctaa agccaagtac 1320
ttgatcattt gtaaagaaac ccttgctctc tccatcaaat ccactaatcg cccaggagtg 1380
gcaactaaga tatcaactcc cctttccaac tcacgcaact gttcagaaag acatttaacc 1440
aaacatcagg aagcacatgt ccataataaa atgcaaaaat caatctccag atacatcaac 1500
agtcatctaa agcaaagggt actatagatc atacactgaa aagtgaaaaa tataggggat 1560
cgtgaaaaac aaatcaaata agatcatcaa ataagatcag agaaccaata atgagcttat 1620
ccatagaaaa ccaataatct aagcaaatca taagggggga aatttctgta aattcataaa 1680
actagaacaa gaactacaaa atatgaaaga atgaaaaaat gtgcagtcca ttaagagatc 1740
aaatctacct catcaaaact caataaatga cagtgccagt aagccactcg atttcatcat 1800
ccatttatct tttcttatca tcactgttgt cgtcgacaaa gcttgatatt tactatccgg 1860
ggctaagttt tagagaatgt ctaatccatg acagaacgca catcacaaat tttccatata 1920
cggtttcaga agaaaagaac aagcacagaa tgggctgtta tatacagaat ggatgcccat 1980
accacagatg tcatgggtgc aaacaggaac gcagcggcca tgtcaccttg aattaagaca 2040
actatgtcac aactacaaga aggtaaatta agacaacaga ctcaaggatt aaaacataaa 2100
atagacccct gcagagtatg atcattactt ctggtcaact atgcatgtgt ccaaaccatt 2160
tctacaagct tccttagttc tcttaatgga atcacccctg acctctttta caattctcac 2220
tcttagctcc accctatctt gttcatccgc atattaggct taaaatacag acatcagcca 2280
catatactat tacttctagt caattttgtg ctcgtacaac ttcatactct aatgcagtta 2340
caacaattgt gttgaaaaag tgaaccaatc gatccaactg ccccatcaac ctaagcagta 2400
catgccttca acaagagtag tttgataggt taaggcatcc caacagagac gagtcccgag 2460
aggttactac aattatcacc tgtaggggtc aattaccaaa aaagtcagta tcagtcttca 2520
ccatccccat tctattaact tgtgacccta aaattgttct tgctaccagt tttatgcatg 2580
caagccagaa ccatcttaaa tggcaataga gaccacattc aataagtcca tcttaatatg 2640
cattatgtat aaatgctttt caatcacagt ggcacacata aacagttttt gggatcaaat 2700
caaactgttg ctgcagccaa actccaacca aaaccctgtc tctccacatg cagctcacac 2760
gtatagacac aacttcgtac atactctgta atctcataac caactttaaa aacaactcaa 2820
gattgaaaac gaagtatttc gaccatctgc aagaataaat aataaataaa taaataaata 2880
aataggctca aagtgtcaca atgtgaaaca ctccaaaagc ttgtctcgat gcaacataaa 2940
ccatcgtctc ctgttcacac atggcggaaa tgcatggcat gttgatttgg tgggccagcg 3000
tgtggataag aggagatcag tgacccattt ctttttcaca caaggctgcc atcattccag 3060
taaacaatta ttaaagaaat aagtataaaa taagcacaaa acagcaaacc tgctgatgaa 3120
ttggtgcccc tccgtaagcg acagccacct tgactcccgt ctgataggag aactttttag 3180
cctcttcatg tatctggcac gaaagctccc tcgttggtga gaggatcaga gctaccggat 3240
atacagttct ggcaccgcgc tgcaaacgcg gcggccccga ccccaaccgg ttcctcatta 3300
tcccgcttat gatggggaag cagaacgctg ccgtcttccc agaacccgtc tgagcgcagg 3360
ccattaggtc ccgtccagca agcgatatag gaatagcatg ccgctggact ggggtgggct 3420
tgacatactt gcaccgccga atgttctcat tcagggcatc acccaaatca atctcagcaa 3480
atgtactgac aggaggcggc acattctcac cacttgtctc gacgggtatg tcgtcatatg 3540
catcgaatat tatcccccca gtaccaccgt cagcattctc ttcttcttcg gatatcccaa 3600
cttgggtgaa ttgatcgact acctcatcaa aagggtttgg ctcctcccgc aaacgtggag 3660
ctcgacggtt gctgcgaatg gaccgaccgg actcccgaaa actagaacgc ttcgaagaat 3720
ttgaagcaga gtttgaattc aaaggcagag gtagatccgg agaattgtca gtctggggaa 3780
taagagattg gtttcgaagg tgtggcggaa catacacaga gcgcggcagg cgggagcgag 3840
attgaggttg tggttgatct tcttcgacag aatcagacca agacgtcggc attgcgagtg 3900
gaaagagtag aaaaccaaaa ccccaagaat tcttcttttc tagaaagtag aaacctcaaa 3960
aaccctagaa atctggtaga aacctaaagc tctggaaacc cacattcgca agaaacctaa 4020
cgattcctgg aaaatgcacg ggaattcact ttccccaaat gctcaaaaca ccccgacact 4080
tttctacttc ccttccttcc ttacgaagta agctaaattt ctttaaaaaa aaaaaacaga 4140
aattcttttt ccatgggatt ccaatatcct ggaaattttc tagaagagaa attcagaaaa 4200
tcgaaaaaca ttactttttc tctttctacc cttcacccaa tttcaaaagt atttagaaaa 4260
tatcatggcg tgaaatggaa tcttatatat aggaatcttt ttctttacag gagattggaa 4320
<210>10
<211>437
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>10
gaattgtgtt tgaaagaaaa atggctactc tactttaaaa tgagttattg agtaaaactc 60
aacttggtta aagttttggt tgcgtcactt atttagtttt accatgttta tctcatcttt 120
ttgtttagaa caaacttgtt tatttattgg actaatttct ggtccaatca agtctttatc 180
tttgaaatct tgaggtggac tattaagcag tgggaccttt tgattccctt cccttccctt 240
cccaaattca ataaataata atgttaatga caaggaagtt atggtgtcat tttcatatga 300
aaaagagaaa agaagaaaag gttcgtgaac aaagggccca cttgaacctt agcaacatgg 360
catgtggttg aatgatggct catgaggacc cccactccgt gttgtttttt taatcttttg 420
tcattttttt ttaaatt 437
<210>11
<211>4433
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>11
tagaaagaag agacagaatg atctattgct tgcttaatct caaggtgaga ctaactccaa 60
aattacacag caaaaatgct actggagctt taattaaggg gttaaaacgg aaaaagttaa 120
actacaaatg taacaacatg atgaatataa ggcatggtat accacaatga tccatagctg 180
tgtatttcta cataggatca tctgaatatg ttctcaacac atcaatgtca aattccctgc 240
acaattggat cttcctctgc atgtggattc tcgagagcag taacatgctt cttgaaaaaa 300
gttgccgctt cttccctttg ttccagatat ccgagcttgt tgaagaccat agccatcaaa 360
tagaaggctt ctgcagccag ttcatgatac tctaaaattt ctagctcact agcagcttgt 420
cttaaaggat ccaacacaat ttcaggatct tcagaaacta caaaacttgg atctgataga 480
tagcattttg aaactgcaat atttgcccgt gcacgtagct ccaacccacc atggccaaga 540
atgattggaa gtgaccgatg tatgagtgat aatgcacgtt ttgcatggtt atatccgaga 600
gccagccaca attcagcaag tgtcagagtg gctgatgcct caagaagatc caggttaaat 660
gattggcaaa atgacagact tgctaacgca tatgggagac cacaaactgc attgcctgat 720
ttcttgtgga tctctgcgag taagagcaga acagtcgcat tttccacctg caggttgaat 780
ttgtaacaca tgcaaaaaag agagtgcgct actgctcctg cctggctgaa ctgattggca 840
gcaagcagtg tacgagcatg acgaacactt gcttcagttt tcagctccat atctactcct 900
gttacagagg atgccaacac tctaaattca tcacacaatt gctgcgctag tttgagatgc 960
ccccgatgta aagcacgttc atggagcatc tgcaacttta atagttgaat acgtgatttt 1020
gacacagata aaaacttctc ttctgccagc ttcagggcat tgaaggcatc tttgtaacct 1080
ttatatactg caaggtgttg aatgagtttg acataagcca atgacacatc tgctgaactt 1140
gaagcatcag caaagcaagt tacatggacc aaagcattta gtcgaacaag aggggcactt 1200
ccatacagct cccaggaagt cgctctaagc aagtatgatg caccagccag ttgtaataca 1260
gatcctggaa ttggattcgg ctgtgcacca aagtaaaatg aatcataatc acttccaaat 1320
ccactctctt gcaacaacac tgatgaagac cttgacttct gtaaattttt aagccatgca 1380
gtgctaaaag caccatcaat cgtcagcaat gccccatcag atccaaattc cctaagtaaa 1440
taggaactca gccttagttc cttggtgacg ctagttgggc atgttttcat ctttgtgggg 1500
gctttgggac caaaggatac cattggcctt ttcacatgct tgagatcaaa ttttgccaat 1560
tcaagacggt taaaggccac caagcgatta agcttcaaac tatctgccct ctttagagac 1620
cttttcaaga gtacgagtaa ttgttgttgt gtcgacaatg aagtacctaa accagtactc 1680
gccgctggtg aatgtgatga accaaccatt ccatttctgc ttggaatacc tatttcagac 1740
aagaggtcac aaatagctgc caatgtgtat gccagacaat tatcatcatt gttctgttga 1800
gatatttgaa ctgctacagc tagggcctcc aaagcttgtt tagaatgccc aaaatgacta 1860
tgcataatac ccaagcacaa taaagcagtt tgataccttc cagcaggaat caatggtgaa 1920
gaagatgaac cagtaacagt tccttccatc cctgcactgt aatcgaaata gcgatgaaga 1980
ttttccaaag cagcaggata atcttcatga taaagactat ttaggtagcg caagtaatgg 2040
acctaaagct tacacgatgt agctctggag ctagcttctg aagttgtgat agaatagctt 2100
caaatgggat caacggaaat gagagagcat gcttctcaat caaatcagcc tgctccttta 2160
agtaaccttg cacttgccag tttgtacgta ggaacaaacc tccatggtta tcatcagctt 2220
tcaatgcatc atctatagga gacaggaaat cactacctag tgtgccatca gaaccatatc 2280
tgttcttggc cttgacagaa acctggatat cttcaaccaa tccagaaagt gaacgaggtg 2340
tatgaatatg aaatgtagaa ctttctccaa cacttgttcc agtttctgat tcatgtctgt 2400
tccgctcaga ggcatagctt tcaaaatcca agtcatcgtc ctccaataac tctggttcat 2460
tattgaagtc atcttcttca ggcaactcat aggcaggatc attcgagacc tcgctacaat 2520
atgtccctat attggtcaaa aggtggcaca cgccctcaaa cgatagcaga ctgaaggcca 2580
acatgcaacg acggagaaac atccccaagt ggctgtttgg atccaaatag atctggtcat 2640
cttccatatt catttcaggg tttgcaagca cacctcgcaa attattaaag aagttaaaca 2700
aatcatcagg tgaagataaa gatgcaagac gactggtcaa attttgaccc aaccaatcat 2760
ggagtaaacc atcaactgcc ttcaattgac tagtcaattc atccagtggt ggctccaaaa 2820
aatcatcgca agacttggtg atggaaaaga ggaagagacc tagtcgattg tgctgaggta 2880
tggaagagaa tggaaaagga acggctgatt gagaaggggg agcatagatg gttatgagga 2940
agcagattga gactttgtgt ggagtgagag tgaatgaccc cactgttttc gagttccccg 3000
acatggcctc tctgcttact ctgctgcttt ttgatgcaac gggtaggact gggttaaaag 3060
gatgagacgg gtttgatgaa agggttagat ggagatggtg gattaaagga aaataattga 3120
tttaaggtat ggtgggtggc attaatgggt attaaagata agttggtaaa gggatctcgg 3180
gtggatggtg gctggatttg gttgagattg gagaaagggc agcaatggcg tgggttgttc 3240
ggggcgaaat tggagaatgg gagttgcaga tctgggacga ttgatgcagg caaccagcaa 3300
acggaatgga ggttgaagag aagaggccag gcagaggacg gcgacggcga cggcgacggc 3360
gacgagaacc agaagagcag gaacacgctg gaataacagg cgccctccga cttcagtctg 3420
gggatcagga actcatatct ggccgtgaga gttggcgacg tgaatcgacg acggcgttga 3480
ttcagatctg taatagagga ggaagcagga gtaggccggc gagcagaggg ggaggaagaa 3540
gagagattgg caagggatcg ggagaggcga cgctagggaa ggaaagagta aagggaaggg 3600
acgtgtctgg cggtttgatt gcagagaaag gggaaagcac ggggaaagcc aaaagggata 3660
actcttatta attctttctt gtaagaccac ccatctctaa tttataataa aacttaaatc 3720
taaaaataga aaataaatct aaaacgaaaa tagaaaaaat aaaaatagaa ataaccccta 3780
ataaatctaa tattacaaat aagacaataa aaataaataa aaaatagaaa cttcccggat 3840
ctcttcaatt ctttggccgg atttccaatt cgagcgagat tctgattttc gggtcgatac 3900
ccgtgctaca tcagtctccc ctggttgaaa aaaaaaaact cgtcatcgag ttcggatcca 3960
atgtgagaat cgccgatact tgatcacaca tttcttgaac ttcgacggtt cgatcacgca 4020
aataatatga tctggacatt catgatgaac cttgacgttt gtgatttcaa taggcgtgga 4080
ttgcgtcgac tggaacgcca gaaattcaac tgattggctc tccaacactg gtactgacag 4140
tggtgtttgc acaggttgca actgtagaaa ggatactgtc tctcggagaa ctggcatgca 4200
tcccgaggta gtagacacta attttggaag agcgggagca agttctgaag ttgtctcttg 4260
ggaaagaggc acgattcccg atgtcaactc tgattcaacc aatgtcggga cgttgtctgt 4320
gtctagtggt tcaagtgaga ggaccgggac cgatgcaagg tccgggacag tcccctgttc 4380
gagagacact acgacgtcgc ttgcttcttt aaacttttgc tcattagcag caa 4433
<210>12
<211>763
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>12
ctctagatca acaaaatcca ttcatcttcg agttcaagtt ttcaaaattc aagtttgaga 60
ggaggagaaa ggtttggatc tagagatggg gaggagaaaa atcaacatcg cgaagatcga 120
agatcgccag aagcgacatg tatctttcag caagaggcgg atggggcttt tcaagaaagc 180
ctcagagctt tcaaccctat gtgatgccca agttgctatt gttgtctact ctgcgtcggg 240
aaaaccctac atctgtagca gccctagcag tgccgaaact gtctttcacc gttacctcgc 300
cacagatgat tcttcttctt cttccaccaa caaaccccag tcgtcggatt ctgccatttc 360
caatctcgtc ttgctttcca acctcgccac ccaaattgaa gatgatgagg gtcatgtcgt 420
tcccgaggag aagaggactc aattggttga gactgggaag gggaagggga tcaatgttga 480
agccatcgac gattttgatg agttggagca actgcagaaa cttttgaata agaagaggga 540
gatgttgctg gcccaggcta aacaatcgct agatgaacca tctgcgtctg gtgcagattc 600
tgatgaattt gatattgatg acgaagaaac gatggagaga tctgctgtac cattgcttcc 660
atggtcctac aacaaagagg atccattgta ggcgatggcc attcactgct ggtatgggca 720
gattttaggg ttagctaggg gggccataag gccttatggc ccc 763
<210>13
<211>3855
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>13
ggaacggtca tagtatttaa aagtaagaca aagaaggaag atctagtgaa actctatcct 60
gtgaagaagt tcattatgca tggagctaca ttgttgtcat tgtcccacat atcaagtgga 120
tcatcaaact aaactcatct atttgaagtt ggctttctgt aagatatttt ttccactcaa 180
tcctgtcaac tctattttac atcattccac aaccaagagc ttctcctaat caaatcagca 240
gctatgtttc ttgaataaat gaattttggg aagtgttttt agccatccaa taatcccttc 300
taattgccct aaaaatggaa tcatctaatt tcctaatcaa tacatttaca tgatggacca 360
acccacctat tggatggctt agatgttgta tgtgcgtgcc acgtccgcat gtcgagtcaa 420
gcatatcgag ctgcacaagt aatctctgac tgtgtgctca tctccctggc accaacatca 480
gaagcttatt tatgcaagtg caaagaagcc atttttgccg atgctacttt cctccaaaaa 540
atattacaag tagagcaata actagagcat gatcagttcc aggatatatg gtcagccgaa 600
acttgctcct gccaacaatg actttcccaa gcatgtgcat ggcactagtc tgtgcaatta 660
tggaattccc cttgtaaatg atacatgatc tgtggaaagg actaccttgc accctaaaat 720
ctgatgttga ctcttcccag ttttcaccta cgagaaacac ttgtagctct gttctcaacc 780
aggaatgcaa ggtcctcacc actcgaaaaa tcgaatcttt caagtcacaa ctctcccctc 840
tataaccttt ccatccatca ccctgaaaga agcatcatac aagtaaaaat aaggatatca 900
tagttttgtt tttgttttta aggagacatc atagaataga atgatttgct aaagatcagg 960
tggaataaga aacagtattt tccattttat atggatcaca aggagtgaat ctactccact 1020
aatggcacag ttaaagccat tcctgccact tatttaaggt atatatggta ttatttgata 1080
acctgaacca tcaaaagttg tagttgtgct gatgacagaa cagtttaaat cttatctagt 1140
gccacatgca atttttgaca tgggagaaag tagcagcatc aatttagcag taggttcact 1200
aatgtagcgg aagcgggaga aaatcgaaat aagtcaattc cggctcgaaa tcgggactca 1260
cacccacgta cgttgttcac acgtgtgaag tggacttaag tcacacacgt gggaagttgc 1320
tgaagttagg gttgcgaatg ggttttaaac aggaaaaggg gaaagtgggt ttcgacagaa 1380
aggaaagacg aaagggctag ggagcggcgg aaaagggaga ggttgcggca atggaaacgg 1440
aagcttggag acgtaaggga agggatcgga gggaaaagga gatgaagatg gaaagagacg 1500
atggttgttc ctgggttaag gtgaggatgg cggtgaaggt atcactggga taaagccaag 1560
gtatttgttg tagcagtgac agaaaacctt cctcttggga tgaagcccaa gagtcgtggc 1620
cggagtaaac cagcagtagg ggaagacctg caacacggca gaggtgcacg gtaagagtaa 1680
actctctttg attgaacaaa tattttcgga aaatagggag tgttcttttt cttctccctt 1740
cgtttattat ttataatcaa atctatggcc gactattaca atgattcaaa gggtatttcg 1800
gccgactatc ctagaccctc ttttggaggt ttcctactta cacacaactt ctaatcctta 1860
tcaaagactc cttctataac aatctaacta taacaacgac tcttttactg atccctaagc 1920
caaaatacga aaattaaaaa ttaaataaac taaatgaata aggcttaatt cgtgatcaaa 1980
cttgcgggcc acgcttcttg ttgacccggc gtgcatattt cttcaaaaat ctgtcggcca 2040
catgttctac atcagaaggt gtggtggaga aggctgcaac aggtgcggtg cctgctctac 2100
aggggcagta gagaggaaca agagaatcaa acgaatggga atccacccga agagagagaa 2160
gagaagagaa gagaagtgaa gagaagagga ggttggcttt ggccatggca gcagcctctg 2220
cgagggctct tctcatctct cgcttcaatg acttccgtct ttccctcaaa ttccctcctc 2280
ctcatcacct taatctccac cgtccatctc atcggactca atcccagaca cccgccaaat 2340
ccctctcccc atcggttctc tgctgtctcg tctccggagt cgatggtggc ggtgttgccg 2400
acgatttcgt gcccacccag aaatccgccc ttcgccgaga attttctgtt cttgccactg 2460
tgctccggca gattgagcca ctcgacacgt ccatcattgc agagggtgtt tctggcgccg 2520
ccaagaactc catgaagcgg accatctcca ccatgcttgg cctcctcccc tctgatctct 2580
tccgtgttac catcagggtt accaaccttc ccctccatcg cctccttgtc tcttccatca 2640
tcaccgggta tacactttgg aatgcagagt accgggtttc tttgatgaga aactttggtg 2700
cttcttctgg ggagacgagg acaaatgaag tgtcatcaaa tctgtccagt gagtgtgaga 2760
caccaagcga tgagtgtgag gacagagtag gaggagatgg ggtggatggt tgttattcta 2820
gcaaaagtag tgagggcaat ttggttcaaa tgcttggtga tttacctcct gctgccttga 2880
attacataca agagctgaaa tcgcaattgg cagatgttga ggaggagctt aatactcaga 2940
agcaggaaaa ttatcatatg gaatcaaaaa aagaagagga caatgatcta ctagattact 3000
tgagatcctt ggaacctgat atggtaactg agttaagtca accgtcgtca tcagaggtgg 3060
aggaaattat tcaactactt gttcaaaaca tattgcagaa attctttaag gatgacactg 3120
ctagtttctt tgaagattca gctataggaa agacagacag ttgcactgat gataatgccg 3180
agcattgcga tgctattgaa acatctcgag attatcttgc aaaactactt ttctggtgta 3240
tgctattggg tcatcacatg agaggcttgg agtacagatt gcacctaagc tgcatagttg 3300
gtatactgta gaggggaaaa tagaaatgat gtatattatg gatcagcttc aggaaactga 3360
tttatatggg tttgtatcct ctttttctat gtattattta tcttttattt gttaaaagga 3420
gttttccttg ttaatggtgg taattttata ggatcattaa atggagtttt gtccaacatc 3480
ttgtttcttt gtgatgataa ttatgaggcg gttaaattgt gccagcatcc acaacttgtc 3540
tgactctgct tcaggcattt cttagttctc actgcccttc ctaagatcat ccctttgtgc 3600
tgtgctttta atcctgttct cattaatgct tttttttttt ttttgtgcac agaaggatca 3660
ttttccagtg tattttaggg gattttgatg agattccttg ttgttccttt tcggaagtta 3720
ctttatgttt ggagaatgac ggcaagaaat taaggaattg ctttgtgcag aactattttc 3780
ccccatcccc caatctaatg ttttggttgc tttgctgagt gtaagacata gtcactttgg 3840
ccgctttgag aagtg 3855
<210>14
<211>3259
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>14
cctagacaag gtgtcaatta cggatgtacc catgaataac agaagggtac tattcgaaag 60
atctggaagg tacatcagct gccaaagatt ctgctaatgt attagagaaa aacaagaatc 120
aaagaaagtg gcctggacct ctcctcattt caccaacttt aacacagaga actcttttat 180
tcaattcctc ccattccaaa catagaaatc agctgtacaa ttaaaaaata acttggagcc 240
attcaacttc tgcgttggat gcttcgatgc ttcactaaca cagggatgaa tgcaaagttg 300
cttgttcact aagctcgcaa agatgacccg gccaaccctc gattaagcag tcttttctag 360
ccacccaagt caataaatca tgctcacatt ctacccaata tgatagctag ttatctattg 420
tcaaaacagg tgattcagtt tctgtcctac caatcatttg ccatgcagta accaatagga 480
agtgtgatat ggatataaat taagccttcg gttagtgccc atttgtttcc tttgacaaac 540
atgagtgatc agcttccctg acaaaacgag atttggctac ttctggagat gagaatgaac 600
tccatgtaaa cattttggct tccagctgat tgttcaggaa ctcattggcc aaaatggact 660
gcaagatgca cttaattcca ggtctaagtc atcccccacc accaccaccc tcaaagccat 720
aaccatccat cacagctgag gctttgtacg ttttactttc tagtcatctc tgtttggagc 780
tactcttaaa ccttcaccac atgccatttc tattgtccca agctttcttt caaaaagtgt 840
tcacagagag agagagaggg ggttgcaacg ccagcacttc ctagttgtca acacatccta 900
gtaccatttc aagtattctc agctgcggta cttattggat ctgatggagg actactggta 960
cagtgacatg taactattgt ttcaagtgtc tcagaatgaa tatataatca gtatattcca 1020
acttttcatt gtacagcagt atctgcaagc actgaataat atcagcagtt gatgcatgct 1080
ggcaatcggt acataaagcc tacctgtagg tggttcacta aaacagatgt atctatacaa 1140
acatgaaagg ggtagttaca atgtctggaa acgcttcatt gaactgatgc ttaggttaga 1200
ttgagaacct ttaacagcat atacaattgt gaacatcagt attagcatag ataactttgc 1260
atttagtgga caatagacaa aagaagccaa agatggaagc acagaccagg acactgttct 1320
gagaaatgct cgtcagcagc agaatcttca gtatcctaaa aactggtttg atccattgac 1380
atttagatca ccgtttcgga caccctctaa tccgtcaaca ttctgacacc ttgatacatg 1440
gcaccaggac ggaggtcatc catagtatct acatttctga agccacttaa ctctctcaga 1500
ccaagccacc cacgtcgcga gaggaaatca cggaagtcat cttcagtgta cagcgtcttt 1560
tcttcggtat ggacaggaat gcggtcagat tcatcataga ggcaaacttt tattgtcagc 1620
ccctcatcga gatgaagggt gtaggtaccc aacggcatgt ccctgtcaag gctgcgaaca 1680
actgcatctt catcctcaag ccaaaatgcc cttttcgttc tcagtccaaa ggctgattta 1740
attgcctcct tgattgcatc tgcagtgcca tcgatgccaa tccttctggt gtactcaccc 1800
cacttgacta aaataaccct tcccccataa gaagaatgat catctccacc atttgcaggg 1860
gtgtctctcc aattccatgg tggaacgccg ttggcagcat cagctgcagt gatggcaaga 1920
ggatgtccat catgatccaa acgccgttcc aaattgagag ttgatctatt gccttctaca 1980
gttccatagg aaatgccagc ctcttcaaga cctttatctg agaattgcag gtaggaatca 2040
accttggatg gggtggggct cttataagct gaagtcttag tcctctccct gattaattcc 2100
tcgagttcct tgtaatatga catctttgcc gatccactcc ctctatcttg attcctaacc 2160
ttcttgtact ccttcaacag attcctccat ttatcagtgc acattgttgg agaccgatca 2220
aaccccttct ctctcatctt tgacgaaatc tgctcccaga gatgcttgtt tgactttgat 2280
gtattgaaaa gcccgtccat ttctcgccgg agactgatga ggcttcgtgt ctcctcctgc 2340
acccacgtct cggcacgttt ctttggcgcc ttcatctcat ggtcttctcc actgctctca 2400
gcaagtatca tctgctgctg ctgttggggc tgcaagctac cattgtccac aacttccatc 2460
atcatctctc ttcccccctc cttgtagaaa tcaattggtt gcggcttcac agataagtac 2520
atatcgtgcc ctcccttctt ctctcaaaca cttggccaaa aggaatatga gttattctag 2580
ggggtgaagg aaacggaaac gggggaaaag gcaaataggg ttttgaggag aataaagaga 2640
gaaagagaac ccatgtcttg gattgaaatt cagcagactg gaaatagaag aaaagggtaa 2700
cgagtgtagg agagaaaccg ttctagctcg agaagggaat ggagatacgc catccgaaga 2760
catcgatttc aaagagcata aagtgagatc gaaaacccat ttcctagatt ttgaaattga 2820
gttagtttag aaatggaaga aaaagggcaa cgcctgaggt agagaaacac gttatggctt 2880
gagatgggaa cagagataga caaaagaagg acatggtgtt gtaaaaggag agatggagaa 2940
caacccaagt cttgaattag gaaattgatg caagaatgga aaggagaagc tgttctagtt 3000
agaaaatgaa agagaaaaat gcaaaagaaa gaaaagggat ttgtgggaaa agcaaacccg 3060
aggaattttg agatagaaga agacaaagaa agaagcaacg gcagaaagaa cttcttcttc 3120
gatttttgga ggggacgtaa gaggaaagaa aggctgattt gcaggaaatc gaagataaac 3180
ggaggagaga agaagaaggg aagggaagta gaagcgaagt ggaccctttt gctgtattgt 3240
gtcacccagt ggcagattt 3259
<210>15
<211>4605
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>15
agagaaaaaa agggccaaga aaaagaaaaa aagaagaaga gaaaacaata gaaaaaaaag 60
gaaaagaaaa aacaagtggc cgaaaaaaaa aggagagaaa aaattcaaaa aaaaagtcac 120
aaaaaaataa attcatggct ttttactctt acggctcgag caaagctgat aaggatgaat 180
tctacatgcg gcgtacatgt agacgtgcaa atcaaggcta ccgtagcaag gtagaattgc 240
ctcctttcaa tggtcaattg tacgacgaag atttcattga ctggctttta gaagttgaaa 300
tctttttcga tttcatggaa atcgacgagg cgaagaaagt gaagcttgtt gcttaccgat 360
tcaatggtta tgcttctgct tggtgggaac agctacaagc cacctgttac tgacaaggca 420
agcttcctat caagtcatga ccacgaatga aaatgttgct acggactcat ttccttgatg 480
ccgactatga gcaattcttg tttgagcaat atcagacttg tcggcaagta gatcgcacgg 540
ttcgtgacta tgcagctgag ttctaccatc tctccgcgat aaacgtctta gtcgagactg 600
agtctcaaca agtcttcaga ttcatcgtag gactccgtac tacaattttt gcctgcattg 660
aattccactc tatcttcact ttgagagatg cagtacgaat gaccagaaga gcagatggtc 720
aattagagct actcaaggaa aaaaatgctc ctatgactgt tgctaatgaa ccagagtcaa 780
tagagacaag cgaagccttt gtgtctattg aacaagagat agtcccgaac attgcattgg 840
tcccggatct cgcacctgaa ctatcacaga caaacaagat acaaacattg gtcgaatcga 900
agttgacctc gggaatcgtg catgatcaat caaagtttgt gcctatgcct ctagagtcaa 960
ccttggaatg tgtgtcagtt tcctcagaat ttattccatt ccactaaaga cattctcatc 1020
tccgcacttg caatcagtgc aagcactaca gtcggtgcta gtgcataatg tggagtcaac 1080
tcacctacca ttggtgttcc aactaccaca cacacgtgga gtactactca acatgttcaa 1140
gcctttgaag cgcaaaatag caaccatcaa atatcgaagg ttttcccttt ggttacgaac 1200
tcgaggacga gttcctttca accatagggg actgatgtag ggagcttcct ctttaaattt 1260
tcttggatct atcatgcgtt tgaaattaaa tttttgaaat caaatagcat gttaagatcg 1320
tttgaaatta agatgtaata ggatggaagt tgttttttaa atcaaaattt gaaaatcaga 1380
tttgatttca aattttgata attagatagt atttttattt tatctttatt ttatttcttt 1440
gcattttcct cttgtattaa tacccccttg ggctgtaaat gaaataggac aagagtatta 1500
caatgaattg aaactcagtt ttgtttgggt tctacccatt tctatcttct cgtggattcg 1560
agatctttcc tgtccgacgg tgatcgaacg aagttatccc ttcctccttg ggtacctgct 1620
accaatcacg tttggagcat cccgggagtc tcaccggtcc tttctttgga agaaggacga 1680
cactttctcg gatcagcaaa gtgccatcga ccaaggcttg gctattgttg ctgctgccgt 1740
gactcttctg accacaacct gtcagcccct ttgctgctgt ctaaacacca ttcctgcctg 1800
agaggactgc cctctctctg ttccatgtat tccctccaat cattaatcca cttttacccg 1860
atccccgctg cgtcagaagg gaatggaaaa aggaatgggt cggaacaagg gttggcttac 1920
gtgttttagc tggaggatgt tactagagaa gaataagaat aggagaaaga ttagacgtgc 1980
cctgaggagc attatggtat ggtgcaaaaa gaataagaag aagaagagat tgaaatagga 2040
ccttctaaaa tcattgaggg gattagaaca aagaggtatt atttggtggg aagggtatta 2100
gagaacaagg ggtggcttgt gtgtattggc tggaggaagc taggaagtga atgatgagag 2160
gcgttcaaac gaagtcaaaa taccctaact taaagaagta cgagtaatat aaaactaggt 2220
gggagcttaa ttacctaatg cctgctttag gttgggtgag gcaaataaga tcttgacatt 2280
tcaagcacac caactatgcc tttgactaat attctagatg atcctctcca tggatgttga 2340
atttggaacc ccatgtctca aactctattt ttggtagatg gaagtacatc atcatcaggg 2400
ccatttattc cttctccctc tttttttttt taaagaaaaa atttgttcct tctatttggg 2460
cgtgtcactt gctacttgta aatagatttg gcaagccttt tcttctgact gacttagttg 2520
cctatgtgat gctcatagac aagaacttgc attcttatga ttgcaacgat gagcacttaa 2580
tcaactgtct tacaagctct taccctttag atgggagtac atacaaattg tgtatgtgat 2640
caaactaccc ttgcaagtgg acagtgaatg aggagctagt ccagtgacta ctatttctag 2700
catagaatgc cagggaatgt tccatagtac ctatctgacc tttttgtttt cacgagttcg 2760
tttttctttc taattactac taggtagctg agaatttgtt tagaagctat cctataattt 2820
ttgctgggaa agtagcaatc tctagccact aaagtctctg tgatactgtg acgttcatat 2880
tagaaataaa atgataatcg tcgacaacca tgttccaaaa catacacctt ttttgtgtgt 2940
gtgtgtggat tagggacatt tttctattct gcattggata ttctggaaag ttccttgttt 3000
ggtgattctg attgtggaag gctttaatag aaacttctta cggggacaag tttccttatt 3060
tatcattact tgatatttct tgtcgagtgg gatgtactta atgttcccat ggacctgaat 3120
aacatttggt cttgtttatg cagattatta aactgaaaag agaccctaaa gaatacatgg 3180
attagtaaag attaaggaga aaagagacat acccaaaagt gactgactac ttgttacttt 3240
gaaagctatt tgagaagtat tcactagtga tcatcttcat caacttttaa atgtacaaat 3300
gacttgtatg ttccagtttt tggacttttg gcttgtaacg ttccccacta actggaactg 3360
tcaaaaccat cttttcatgg tttggaaatt gttctgcatg ttttcattta catttgtagt 3420
ttgatacctt ggttttgcat actatccagt caacaaagaa tctagagcat atagttgcca 3480
aaagagaaag gatccttttc tccagagtat gggagcccat caaagtcctt acagctaaag 3540
taaagagaat cttctacatg gggttactat tgttgaatgt aaagataaaa tcgagtttaa 3600
gaaagatggg gcaaagagca aagtgattgg accaaagttc ataattttgt tcagaaatct 3660
gtgaaactgg tgcaggtaaa agtcatgatt ttgacgttta gattctagtc agaagatatt 3720
tggggatgtt aaaagcatgt ttctcccttt ggcacgtgaa accaatttga tttatcacat 3780
ttatatcttc tatcatttca atgacacgat aattgttctg ttagtttgaa ctcggttcta 3840
ttcaaacatc tacactgttc tgatggtaga tgggttaaga cttaaactat aatgatatat 3900
tactatgctg aagctataaa atggttgtca gtctggccag gagatggtag ggcataactt 3960
tgtcttgatc aaggttgcat caacatctta cttgaatccg atgcaccatc ctcttattct 4020
ttacatcttc atggggtgat atttatataa acgttgtgta ttcacatgtc gttgtaaatg 4080
cagagacagg tacaaaagtt cacgggatga tcatgactca cttcggaggt ctatctccat 4140
ctcaccctct ccacgtagca gaagggatta caggtcacct caaaggtctt tgagtccgag 4200
ggagaattat catagtccct cgaggtctcg ttcctacagc cgctgatgag agaatatgtt 4260
cgaagaatgc tggctccagt cagtcatgat ggtatcggta ttattgatag gttttcagta 4320
tgttgaccag cctggtgaat ttaagttgaa gggagtttga atctgcagtt tctggtatgt 4380
ggactcgtag atcaagttaa gatggtggct tgctcttgga tttatgggtt ttgatatgcc 4440
tctcttgcca gcttcttgaa aagaacttgt agttgtaatt atcgactgta gtgtgagact 4500
ctttccatat ttacgaagtt atctattggg tttatactat gaaaagttaa acttgaaact 4560
tcaggtgagt ctagcagtta aaatttcagt ggatgcccct tatac 4605
<210>16
<211>1507
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>16
aagctaaact gaaatcactt gaggtatgtt tctccaaatt tcttttgtca gcatttgtgc 60
attatgtata gtcattttat acaaaatgtg tttttgaatt gaatgagtaa atgtatttac 120
caaaatattt aagggataaa cgtatgtggc catgcgccaa cacactccta tagacaaata 180
aattgtgtat tgtaatccta aatgttctaa tacgtgtgat gaatgcatat tagacttgtt 240
actagcagga aagaattcta tatgtattcc gtatacgtgc acctacttta ttctatagga 300
cagattagta acaaaacaat gaaaatagaa tcagacacgc ttgcatgaac attccaaaga 360
aatttcagtt caaaaggcag cccaaaattt tcattcatta tatgccctat gtacagatgc 420
cccaacagta cagtggtgat cccagctgat gtttggcctg tttcttccca ttgaatttct 480
cctgttgttt ggaccttttc tttttaagat gccctcatat aattcccatt agttcagttt 540
ctctattgaa taataaggaa attataaata aaaggaaaga aaagccaata taatctttgg 600
agtatcctat tcaaagtagc tcaagcattt gtcatctaca tcaacattgt agatggttcc 660
aactaataac aaataaagtt tcctctctct ctctcataga ctataaaaaa aaaaagaaga 720
atacagaatt ttgaatcgca tgaccaactc tcgtcaggat gctttgcaac ttgtcacacc 780
tctctaagtt taaggaactg attacaaagt tcttaatcac atgactaact cttttgaggt 840
tacttgacaa cgggatctgc tgcttttcta gttttgcatt taagctttga atctatggca 900
atgataacaa agatccttct aacacctgca aaagatgaga acaacttaat gtgccaactt 960
attgaacagg aacaattgga aaagaaaaag gctgagtatg cagagaaaat gaagaatcag 1020
attgctatca tccacaagga agcagaagag aagagggcaa tggttgcagc gaagcgtggc 1080
gaggagattc tcaaggctga ggagatggct gctaagtatc gtgccaccgg gcttgcccca 1140
aagaagctcc ttggatgttt tggtgcttgaagttatcaga catgcacaag gggggcttga 1200
aaaagaagaa aattaaaaac tgataaaaaa aaggaaggaa aaaagtgtgt tttttctgta 1260
attttcttat tgtggttgct gtttgcaagg gtttagtgtt ttaggtaggc ttctgctgtt 1320
ttatgtgtat agtgtgatct gtttattgtt tatatttttt tatatctgca tataagattg 1380
atgacaatta agtttcaaaa tattctttag tttgaattat tagattctta tgtttatctt 1440
gtagctattt ctgatctggt aaatattaga caaagagtgc agttaattga aaaacaagtt 1500
tgtcaaa 1507
<210>17
<211>958
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>17
cttccgatca cagaagcatc aagaaatctg aaggttggac ttactgcact caagaggaaa 60
tgcagagaat ttggtattcc tcgctggcca cacaggaaga tgaaatctct tgacactctc 120
atacatgatc ttcaggaaga ggcagtgcgg caggagaggg agaacaaagc agctgccatg 180
gcagtgacaa agaggcaaag aatcctggag agtgaaaagg caagcattaa gaggaagccc 240
ttcatggaca tacaaagcga aacaaagaga ttcaggcagg atgttttcaa gcgaagacat 300
agagcgaaag ctctgaacgg tagcagcagc agcagcttct gcgacaacat gtacccatct 360
gaagaaacag catcactaaa catatgatta agaaataaat acaaataaca atgttaagaa 420
atcttgtgac agaaataact cagcaattca caacatgaag gtgatgtcaa caacaacaaa 480
accaaaattg actctgtttg ttttctggtt gactgagtgc tatttttaag agctgcaatc 540
ctaattccat tcctccagaa gaactctcga gtttatgaag ttttttactc aatgtggtga 600
cagcagcagt ggtgttaatg ttaatgatgg tggcagctgt gatgaagact gtgatccttg 660
taattataga aattattagg gactagagat ttttgaaatt ggctgttact ggatcatcca 720
caattttgtg ggtgaattat gctgtgtaat gtggatatat atatatatat atataagtat 780
acattagcta gttgaacaat attattatct caaaactttc ttcctttgga gttaagatga 840
aaataccatt gaataacgct ggggactggt ttttacaagg tctttcactt ccagagttgc 900
acaagaggaa tgtggcttta aatgaagcac ataagatctt tgttcacctg tcgcatat 958
<210>18
<211>1672
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>18
gaacgaatgc agcaggaaaa agaagaaaga gattaattta ttgatcaacc attcaactac 60
attctctaat aacagggaag caaagttcaa actctcttcc catcaacata ttttctttcc 120
ttctctctta ttccaaactt aagctgtcac agatgtctcg atcgcaacct tgcccgagta 180
cctaacgcct tcagacttgt cggcgtcttc ccagagctcc ggcaacgctt ctctcatgtt 240
gtggatgctt tctagtgcaa agtcagcacc tttagttctt tgagaagttc caactagcac 300
tgtgtggaga ccgacgcgct tccctgattg gatgttacga acactgtcct cgaagaaaat 360
tgttttttga gggttgatgt ttgcaattct catagcttct tcaattgcac tttcagatgg 420
tttgcagaga actggtgtct taggaagggc cgtgccggca ttcggtcgag aaaaatgctc 480
aagaatgtca aaaatacgag agccttcaat cttgaatttt tcatcatcat catcatcatc 540
atcaacaaca taagtcttgt tgggattcaa tgtctcaaag caaataattc cttcaaaaca 600
atcttccagc ccgagtcggc ttagggcttt agcagcatga atcttatccg catttgtaaa 660
tataagtttt cgaagaggca gactcattag gaggcttctc agaatcgggt ctggttttag 720
cttttcataa ggtaaccttc cgtgaacaaa actatggtaa tcgtcgtagt caaattcata 780
cccaactgcc cttaggccag ccattgttgt cccatagttc ttgtagagta gattgcacat 840
atcagggatc ttgctctcat ctattccaag cttctcgacc atatagtctc caatgttctt 900
gcggcattct gtcgccaaac cagaactgag gggatagaga gtgtcatcta gatcaaaaag 960
aaggcaatca tacttaggtc tgtgtgtttg gtgatatcca tattccatct cgatttaaga 1020
agcagatttg gcagaaacag agagagagag actatgggag aattggagac gaggatgggg 1080
aggaggagaa gagtcgggta gagcggttta aatagaaaag gattgcaagt gttaaacgtg 1140
attagagatg aagattactt tattagtgtt tgattggagt ttttaaagga atttagtggt 1200
tctgaacttc tgatgtaaaa ttagagagag cttcccatat cgaaagcatt agattcctga 1260
attcggacat gatccacagt acaggcagta gctttttcaa tcagaaccgt agatcctttt 1320
gtcgccgaca acataaacat cacgaattag aatcattttg tcgcaagcaa ttttgaataa 1380
acgggggaag cgctctttca agagtctatc acctaaccat aagtcctctc aaaagaaagt 1440
gtgatcaccc ttaaccacta gaaatctaag gcgctccttg aaaaacttat caacttcagt 1500
cctcgcctga cacacctttc accaaacttt aagcatccta gaactcacct tgtccacctc 1560
cttctccaaa gaccacttgt tcaaatcgga agtaccatac ttggcacaca aaacacgaat 1620
ccgtaagaca ttaagttcac gaccgaaacg ccaactccat ttacataata ag 1672
<210>19
<211>3046
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>19
catcaacaaa tacgctatac caaaatccgt gcgtaggtgc gctagcgatt gcaactcttg 60
cgcgcttcct cacctcaagc ctctagcttt agtgggaaat ccttcacttc ggcccttcaa 120
gctcctcttc ttcttgtttt ctccttcttc ttctttgttt ctttgcttcc tagggttcta 180
agtcttagag tggaagatag agtggagatg gagaaaaggt gaaaatgaaa tgcaagagag 240
caagggtcgg ctatgcatgg ttcttctcct tgggttttat ttcaaatgca accctaggcc 300
aaccactttt acctcatttg tttagaccat ttcctcccaa ccccaaaaga tcttttctct 360
ctttcatcca ttcagccatg atgaggtcgg cattgcatca taaagcttgg gttccattta 420
aaatcttttc tccattttgg gttatgtttc tcccaccctt tgaacctact tttctactag 480
cacaagaaag gcaaaaagcc tttgcttttc caagattcaa tcacaacctt tggtttaaag 540
caagatctaa tcttagccat ggattttaaa tttgatcaaa tcctagccac tagttcaagc 600
tagattaaat cctatccact ccctcatctc tttgttttcc ctccttaagt ccaaacccta 660
gaatttaaat ttgagtttgg ttgaccatgg gtcaacccat gcttaggtgg atgccatgtc 720
atcaatccac taagtccatg tggggtccac attgccactt agtaatgcca catcatccaa 780
tttattaatt aattagtaaa ttgctaatcg gagaaataat tcattaaaca agctactaat 840
tttatttatg ctaagtaatt tattctccaa taccatgacc aaatttaatt taatatttta 900
atcatattgt cactttcaat ttatttgata atataatcca tcataaacaa tttaattcac 960
ccaatataat attactttaa tcacttatga cccattgggt caaaattggt caattggcca 1020
aattgaccca tccaattcca tttccaactt agactttaaa tccagtgcat ccataattga 1080
ataatataat catcaaagtg gggtccaacc cttgatttaa ttagcggata aaatttcggg 1140
gtgttacatt tttcatctaa atttatcaac ttattttatt taaaaaaaaa ttagtctaaa 1200
taatgaatta ctgaacccta ccggatttga acacgcgccc tgtgtattaa aggacagaca 1260
cactaccact gcgctacaaa ttcacttgct ataaaagtaa acattaaaat aaatttataa 1320
cataatattt ggtgcagaaa cttaacaatt gaacccaact tggaggccct aactatttgg 1380
gggccctagg cgaaggccta gttcgcgtaa ggccagggcc gagccaggga gggagggagg 1440
gagggaacag accagttact ttctctgtct acttgttcaa actcaatgct tctatcaacc 1500
gtcaagttct tgcttctgcc tgcttggaaa cgtgcaaagc taatccacat ctggtggtga 1560
atgcctctcc acataatcaa aggaaagatg agaaaatacg ccatatcagt gtctcttcct 1620
ttcaccacaa atgtatacaa actgtgtgta acccatgggg ccacaatcac atacttaaag 1680
tttcgaagct ttttccatgg ccattcagtg aagattcctg ggtcagaagc cattttctat 1740
tgctttctct tctctgctta atgcctctat ttctacccat tttctaatgg ctacctttct 1800
actcagaagc ttagaagacc gtataaattt tggttgggaa ggcctacatt aaatgctaat 1860
atatctattt ctctactctc acccattaat tcatgtcagt tatacttgca ctaaaggaat 1920
tcaatttttc acgcccattt gcctaacata gtgaattgtt tctaggaacc aaaatagatc 1980
atctaattct cttctaacac ccacctatct ctcatgaatt tggtgatata ctcatttgaa 2040
atattaattt ttaaggatta ctaaaataaa tttcaaccaa actaaatttt ttttattaaa 2100
tttaatattt cggtgttttt caccgtcctt aaggtatagg gtataccagg tgaggtcatg 2160
ggggctcgaa ccttacacct ctcgctctat gagacgagag attaccggtt gaattataca 2220
gatgtgttct tttagtgcat ttgcttatca tattttaatt tggactcctc tattttacag 2280
tgattcacgt gtctcgcagg attgagtagt gaagtggcca caactgttct ttcaattaaa 2340
acaatcaggt gccaccacta aagcactcct ccttttcttc tgcttgtttt ctggtgattt 2400
ccattcatag cttcctctaa tgccctcttt tctctcttct tttaatactt gccattctca 2460
gcattgctca agtcttcgta tgctcctttc ctcctttctc ttgtttcatt tcacaacccc 2520
atgtgattca tacatgtaag acctgttatg ctttcttagg aattgatggt acaagaatca 2580
aagaaattgt atttggtggg ttagctaaaa ctaggaccct cctgtgtgct tttctaatgc 2640
tagtattggg atatgtagct caacagaatt gggatctgta gctcaactga ttgtattccg 2700
tctcaaaaaa cgggaggtcg cggattcgag ccctcgacct aactttggtg tgccctaggt 2760
gtagtgggct cacccatgag gattttacgc gcggtatccg atgtttccca cacgtaaatt 2820
cagaaagaaa aaagtaattt caattgttta ttttttagag ttgcaacttg ggtttggtca 2880
atctacactc gattaattga tctaaaaata tgggtgaact aattcaatat atataaaata 2940
taggttggtt tgagtttaga aaattttgac atgtttttaa tttgaattgg gttagaaaat 3000
atatactcac tgtgttcttt tggcttgcaa tttggacttg ccttca 3046
<210>20
<211>3523
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>20
attcctactt cctaatccca aaccagcccc tctgccagct gacgccatgg ctcacatgct 60
ccatcacacg caactgcaag tgctccgcca cctaaatctc cctttcctcc tcccatggcc 120
acctttctgg tacctaaata ccgcttgcgc ttttctttct aattcatcct tcacttctta 180
gatctatcta tctatctatc tatctttctt gttataacat ctctcaattt ctatctgtct 240
ctgcctcttt cgaagtgttc cattgcattc attgacactg aagattttcg aggatgagca 300
tgagggcgag gggttcttcc ccttttgctt gctttggctt ctgtaaggca tttcaggtgg 360
gactatggtc agtttggcta tctgggtttc tcttgatatg tctatccctt tataccactc 420
agagcttgcc ttcatttaga gaccatatca agagacccaa gctgaccctc agaggatttg 480
gacattctga gcaacccaac ataaccatct tctcggcacc aagtctcttt gagggtttgg 540
tgggggcaag gcagctcctg gcagtccaat catggcttgc attatcaccg tctatcatgg 600
tgattttgtt tgcacagcac ccatcatcta tcctccacat tgcagcttcc cttggtcctc 660
gagttttggt tgaagcttcc attgatttca cgtttcttgg taccccttta tttcattcca 720
tggttgcaag agcacaagca tctacttcag acatttctat tttgattgat cctgagattg 780
ttctcttgcc tgacttcatc tccaccatgc attatgtcca caagctgaag gatgattggc 840
tccttgttgg catgtcgcct aacatttctc acttcccatt tcatttggac aacactatgc 900
agcattggct tcaggaagat ggtgaacgag tagaaaacag gaagttgtgg gagtttctag 960
ttcagcaacg gcagtggagt gattgtggtg gcaaggtgct aatggcatgg aatacagggg 1020
agctgccctt gcatgcaggg gtccttcctc ctttcttata cagaaaaggg tttcacaacc 1080
aatgggttgt taatgaggca ttgtcatctg gttttaggtt tgtgtttgat gccagtgagg 1140
ccatttcaag cttctaccca gaaaatattg gtccttggcc aaaccggttc tttagaggtt 1200
ccaacaacag agatgttaaa gagagagagt gggaatttgg gggtaatttc catcttgcgt 1260
tttcatatgg atcgttctat ttaaacctgg ccaatttttc taacagacta gtaaggcttc 1320
tcaagtgtga tgggcaatat ttgttcttta acatggctga agagaatgct aacacttcta 1380
ttggacaaga tttccacaca tccatcaagc tgcagcaagc atcacgtcaa gagctgggga 1440
ggtccagttt aaggactgga aagatcttgc aattgaggaa agagaagaaa tggatgtctt 1500
gtgcggagga tagtttctcg ctcgacagaa aaatggactg ctcagccatg gagccatccg 1560
agaattcttt taatctgtca gggcaattag ttcttccatt ttcccttgag tcacttctac 1620
aacaaattgc tgatgacaat aggtctgttg tgcttgcagt tgctgggaac aattataggg 1680
acatgcttat gagttgggtt tgccggttac accacctctc tgtcacaaat ttcatcatct 1740
gtgcccttga tcctgaaatt tatcagttct ctgtactgca gggattgcct gttttcatag 1800
acccattagc tccaaccaac atcagcttca atgactgcca cttcggcaca aagtgctttc 1860
agagggtgac caaggtgaag tctcggttag tattgcagat actgaagcta ggatacaatg 1920
tcctcctgag tgatgttgat gtcttctggt tcggcaatcc tttgccatttcttctttcct 1980
ttggccctgc tgttttagta gcacagtcag atgaatacaa agagacagga cctataaact 2040
tacctcgacg attaaactct ggtttctatt ttggacgttc tgatcatact actattgctg 2100
caatggacaa ggttgtaagg cacgcattgg cttcggacct atctgaacag ccaagcttct 2160
atgatgtatt atgtggagaa ggtggtgcca accgccttgg agatgagaaa tgtcttgagc 2220
cagaaacaaa cctgacagta catttcttag acaggaatca ctttccaaat ggagcttatc 2280
aaggcctttg ggagaaggat gatgtaaaat atgcctgcat gttgcagggc tgcctcattc 2340
ttcataacaa ttggataagt gggcggaaga agaagcttga acgccagatg ctttcaggcc 2400
tgtgggagta tgatgccggc agtaggatgt gtttacagga ttggcatggg acaaagttaa 2460
tcagttttgg ttaatgaatt ctgatttgta attactcagc tttgtttttc acgatgagat 2520
gaatacaaca agtggtatct cacccttctc tgtgtttgta catagcattg gtatctatga 2580
ttattccttc aaaagctatt aaaatatgga tctagcacta cagaacaaaa gcacagaaag 2640
gcagaaaagc cttgacaaag tgagtcttaa ttgttgaatt atgttgaagc aagcactgag 2700
gctctcttcc ttccctatca actgatcatt gattacatat tccctgttct ggagatgctg 2760
aagggatacg tatgtgtgtt tggggtcacg cgatattgct gcagaaaacc gagaaggaat 2820
aaggaacttg aggaaggttc aatgtcaatt aatgtaagct cacaacaaga cttcactgta 2880
agaatcatcc atgccggtgg gatcatagaa aggtatgaag gtgtggttcg tgctagtcgt 2940
ttgatggaga agtacccgaa gatgtgtatt gcaaagcctg aagttttcaa gaagccacat 3000
gagtccatca tcagggcaga tgagtacctg ttgccgggtc aaaaatttta cttggtccct 3060
cagtctacaa tgaagaaact gaagcgtaag caccctgaaa agtttcaagt aggcaatgac 3120
aagcagagca acacattgga atatatggat aggaagaaaa tgcttgattc ggaaagcggt 3180
gaggactctg atgaatctgt ttgttctgca aaggattttt atgtttctag agagaggtgg 3240
tctagatgtg ttcaaggatc caataagccc ttcactccac ccattaagaa ggtaaaaatg 3300
tggaagccaa tagaatggca acctagcctt gattctgtag aagaggtctc tccatgactt 3360
ccaaccttcg tttgcatgat ttattttccc atgtttattt ttgtattctg ggcttcctcc 3420
caataacttc acaaattgtg atgagctaat aatgtttcag tacactgaga aagtatatga 3480
tgtattgcat ttgtcgattg gccccctgaa ggcataccat tga 3523
<210>21
<211>930
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>21
accaatagta gagacaccca agaggtatgg cgactgtttg ctttatcagt aaacactatt 60
atgtgtgcag ctaaatttca ggtgcattaa tttctaaaca taaaagcatg cagatgagtg 120
gcaccgatat gtacacagtg aatatgtgca ttaatttaat ttttggtttt gataatcaat 180
taccatgttc atgtggcatt ctttttagtg gttttgctga agcttgtgaa tgtttcattt 240
ctaaggactt tttttttgtt gaacactttt tgtataactc attacaattc ttgatatatt 300
ttttttaaaa tagcagtagg gagtgcattc tttttatatc tatgacgagg acctaatgta 360
gtctgcttat gtcgtcgtcg tcgtcgtcat catcagccta tatcccatca aagtagtcta 420
cttatgtcct gagctctttt agtttttctt tgcctgtcaa ggatgttgat gcttttccct 480
tgcaaaattc tgctgacaat tttagtactc ctttttcttc atgcttctgc aatggcctga 540
gacttgacct tgattttatt gatgccctca tctaatttat gattggagtt ctgttaattt 600
tgttgttgtc tcccccacca ccccaaaccc ccaacccaca aaaaaaaaag gagcattgct 660
tagcttctct agtcataact ctgcctcata tctttgtgct catcatcctt ttttttttgg 720
ttgtccatgt gactgcataa ctacaagcat ggcggaccca atttagagaa tctagaatgg 780
ccaagtttga atctttgtgg tcatagatgt tcttttaact tggaactttt gtgttgttat 840
ctgcagaaca atctttagga cttgattctg aaatctacat ggtctttgac atctttgttc 900
acctgcagat accatacatg caaggtatgg 930
<210>22
<211>970
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>22
gccgagccac catttgggtt catgcctttg cattgagaaa aagtctccgg agtttggatc 60
aagaaaatag ttgttgacta ttccatggta agacggatag aggccagtgg caatcgagta 120
gtggttgggg aatgtgaggg tcgggaagac ggggatgaga ccggtttcgg cttcagttcc 180
attcgcaata aggcgggcaa tgttgggggt tggggtcttg aattggtaac cgaaacggaa 240
cccatcagtg gagatgagta gaacaatggg tcgccggagt ttggtaagag ggcgggcagt 300
caattgagga gaattttggg aggattggct tgaatgggat tcagaagagg aggagaagaa 360
taggaaagca aaagcgatgg aggtggcgag agctaggcag gtggtgatgc caagagaggt 420
gagcagaagg gtgttatttg aggttttagg agaggtgatg ggagggtcat tgttgggaga 480
taagagaaga gcagtagagg ggttttgcgg gtcttcctct tctggggctg gcgttggttt 540
agaaggggct aggatggaaa aagaagcact acccatgaat ggatctttac ccctctctct 600
ctctctgaaa ggggaggtaa gagatgaagg attggagatg cgagaatttc agaaattgaa 660
aggtttgctg tctctgtgta tttatttttt cccccgtccc tcgaggattt ggggaaggaa 720
agagaaggga gagttggaaa aaggtaagaa agggtattgt gggtgctgtt aggaagaaag 780
tttggtgtag agtcgtgatt gagtaaattc aaagaaagaa ggggatgtgc tctgcttgga 840
tctctttctt tccgctgctg ttacctgtat cattcgcttg tttcgagaga ttcacttgga 900
agaagaggag gagaagcgtt tggattggtc ttcttgatgt aagattccag cgctttggtc 960
ccactagaga 970
<210>23
<211>1829
<212>DNA
<213> calyx canthus Sinocalycanthus chinensis (Cheng et S.Y. Chang)
<400>23
gatttggtca gcaaaggatc ctgattcgtt gagatcttta ctcgtactaa attactgggg 60
cccacacaaa cacacgtcac ctgccccagt gcccccacat aaaatgggtc cgttcacaat 120
tgggtagtca cgcggagtgt ccaacagttt ttgcttttcg tgtacatctc ttttccgcac 180
ttcggcctct tcacaatttc accgccaaca gataataagc gttcttcctt cccatttcac 240
ccacaaatcc ccaccacctc cttaagatcc ccactctcag tctctcctct cccactccca 300
ctcccactcc cattccccttttcttctttg ttcttttgcc ttcaatggat tcccttctcc 360
tcttcttcac cacggccatt ttgggctcag ccctgtactg gttcgtctgc gtgcttggct 420
cagcagagca gaaaggcaag cgggcgatca acctaaccag cggctccatc tctagagaga 480
aagttcatga caaatacaag cagtactggt ccttcttccg tcgccccaag gagatcgaga 540
ctgcagagat agtgccccaa ttcgtagata ccttctacaa tctcgtcact gacatatacg 600
aatggggctg ggggcagagc ttccacttct ccccttccat tcccggaaag tcccacaagg 660
acgccacccg tctccacgaa cagatggccg tagatcttct ccgcgtcggc cccggcaacc 720
gaatcgtgga cgtcggatgc ggagtagggg gccccatgcg cgcaatcgcc gcccactcta 780
aggcccatgt caccggcatc accatcaacg agtatcaagt aaagagggcc aaggcccaca 840
acaagaaggc gggcctgggc gacctctgcg acgtcgtctg cggcaacttc ctccagatgc 900
cgttcccaga ctcatccttc gatggggcct attccatcga ggcgacgtgt cacgctccaa 960
gcctcgaaga tgtctacgcc gagatcttcc gtgtcctccg ccccggggcc ctctacgtct 1020
cctacgagtg ggtcaccacc gacaagtacc aatccgacaa ccccgtgcac atcgagaccg 1080
tgcaggggat cgagcggggc gatgcgctgc cgggcctccg gcgatacgac cagatctccc 1140
aaattgcgaa gaaggtcggg tttgaagttg tcgaggagcg ggatctggcc cggcctccag 1200
ccggagagtg gtggaagagg ctcaaaatgg gtcgaatcgc ctactggagg aaccatgttg 1260
tggtcaccgt gctcacattg ctcggagttg cccctaaagg tgtggtggac gttcacgaga 1320
tgctgttcaa gaccgccgga tacctgaccc acggcggcga gaccggaatt tttactccga 1380
tgcatatgat tctctgcaga aagcccgcaa actaggttct ctcctttttt ttattactct 1440
cggtagtttt ttttgttaaa cctttctttc taagttattt tgattatgtt tttatgttat 1500
ttttgttctg tttggtgatt ggaactttgg aagaagggat tggagatggg tttttaattt 1560
tattttttaa ttttattttg gaatgtggtg tggtggactg ggggagatgt ttaatgtgtg 1620
gaagaggaga aagatggtaa tttttttgga aatctgcact aatttttatt ctacctttta 1680
gtttctactg ctgccttttt acttgctttt catgacaatg atgattcttg gtaacttata 1740
acgaatcttc tttattcttt ttaacctttc taacattaga aattgagatg tggagatgct 1800
tggaatgttt aagatttgta gcgtacggg 1829
<210>24
<211>21
<212>DNA
<213> Artificial sequence
<400>24
gaggagaaag gcgagaaggt a 21
<210>25
<211>23
<212>DNA
<213> Artificial sequence
<400>25
caaccctaac caaaacccta aat 23
<210>26
<211>23
<212>DNA
<213> Artificial sequence
<400>26
atattagggg ccttcatagc gta 23
<210>27
<211>23
<212>DNA
<213> Artificial sequence
<400>27
gccgtggtat aattgatttg gta 23
<210>28
<211>23
<212>DNA
<213> Artificial sequence
<400>28
gagagcattt tcaagaaagg tca 23
<210>29
<211>23
<212>DNA
<213> Artificial sequence
<400>29
gtgaacaaag ttaccatcca tcc 23
<210>30
<211>23
<212>DNA
<213> Artificial sequence
<400>30
cttttggtgt tttggaaata tgg 23
<210>31
<211>23
<212>DNA
<213> Artificial sequence
<400>31
tcagaacaaa tggaaatgca ata 23
<210>32
<211>23
<212>DNA
<213> Artificial sequence
<400>32
tcacctcctt gagttttgtt ttt 23
<210>33
<211>23
<212>DNA
<213> Artificial sequence
<400>33
tgtgtcgacc tctaatttaa cca 23
<210>34
<211>23
<212>DNA
<213> Artificial sequence
<400>34
aagccctcaa ttccattttt atc 23
<210>35
<211>23
<212>DNA
<213> Artificial sequence
<400>35
caatgaggag ttgttacagg cat 23
<210>36
<211>23
<212>DNA
<213> Artificial sequence
<400>36
gtggaaaact attgctttca tgg 23
<210>37
<211>23
<212>DNA
<213> Artificial sequence
<400>37
cacaagaaaa ccatatgcag tga 23
<210>38
<211>21
<212>DNA
<213> Artificial sequence
<400>38
ggaagaaaat gaggatctcc g 21
<210>39
<211>22
<212>DNA
<213> Artificial sequence
<400>39
aacaatcctc cacatcttca gc 22
<210>40
<211>23
<212>DNA
<213> Artificial sequence
<400>40
atttcgacca tctgcaagaa taa 23
<210>41
<211>23
<212>DNA
<213> Artificial sequence
<400>41
agacaagctt ttggagtgtt tca 23
<210>42
<211>23
<212>DNA
<213> Artificial sequence
<400>42
tattaagcag tgggaccttt tga 23
<210>43
<211>23
<212>DNA
<213> Artificial sequence
<400>43
ctttgttcac gaaccttttc ttc 23
<210>44
<211>23
<212>DNA
<213> Artificial sequence
<400>44
gaatggaggt tgaagagaag agg 23
<210>45
<211>23
<212>DNA
<213> Artificial sequence
<400>45
agatatgagt tcctgatccc cag 23
<210>46
<211>23
<212>DNA
<213> Artificial sequence
<400>46
gaaactgtct ttcaccgtta cct 23
<210>47
<211>23
<212>DNA
<213> Artificial sequence
<400>47
acatgaccct catcatcttc aat 23
<210>48
<211>23
<212>DNA
<213> Artificial sequence
<400>48
aagagaatca aacgaatggg aat 23
<210>49
<211>23
<212>DNA
<213> Artificial sequence
<400>49
aagtcattga agcgagagat gag 23
<210>50
<211>23
<212>DNA
<213> Artificial sequence
<400>50
tattgtccca agctttcttt caa 23
<210>51
<211>23
<212>DNA
<213> Artificial sequence
<400>51
tccatcagat ccaataagta ccg 23
<210>52
<211>23
<212>DNA
<213> Artificial sequence
<400>52
ccatgttcca aaacatacac ctt 23
<210>53
<211>23
<212>DNA
<213> Artificial sequence
<400>53
aataaggaaa cttgtccccg taa 23
<210>54
<211>24
<212>DNA
<213> Artificial sequence
<400>54
ttcaaagtag ctcaagcatt tgtc 24
<210>55
<211>22
<212>DNA
<213> Artificial sequence
<400>55
agttggtcat gcgattcaaa at 22
<210>56
<211>23
<212>DNA
<213> Artificial sequence
<400>56
tgggtgaatt atgctgtgta atg 23
<210>57
<211>23
<212>DNA
<213> Artificial sequence
<400>57
aagaccttgt aaaaaccagt ccc 23
<210>58
<211>23
<212>DNA
<213> Artificial sequence
<400>58
gcagagaact ggtgtcttag gaa 23
<210>59
<211>23
<212>DNA
<213> Artificial sequence
<400>59
gagacattga atcccaacaa gac 23
<210>60
<211>23
<212>DNA
<213> Artificial sequence
<400>60
aacttggagg ccctaactat ttg 23
<210>61
<211>23
<212>DNA
<213> Artificial sequence
<400>61
agcaagaact tgacggttga tag 23
<210>62
<211>23
<212>DNA
<213> Artificial sequence
<400>62
cttgcgcttt tctttctaat tca 23
<210>63
<211>23
<212>DNA
<213> Artificial sequence
<400>63
atcctcgaaa atcttcagtg tca 23
<210>64
<211>23
<212>DNA
<213> Artificial sequence
<400>64
gacgaggacc taatgtagtc tgc 23
<210>65
<211>23
<212>DNA
<213> Artificial sequence
<400>65
aaaagcatca acatccttga cag 23
<210>66
<211>23
<212>DNA
<213> Artificial sequence
<400>66
aggatggaaa aagaagcact acc 23
<210>67
<211>23
<212>DNA
<213> Artificial sequence
<400>67
caatccttca tctcttacct ccc 23
<210>68
<211>23
<212>DNA
<213> Artificial sequence
<400>68
taataagcgt tcttccttcc cat 23
<210>69
<211>23
<212>DNA
<213> Artificial sequence
<400>69
ttgaaggcaa aagaacaaag aag 23

Claims (2)

1. A Chimonanthus nitens EST-SSR marker is characterized in that: includes 23 microsatellite markers whose numbering, nucleotide sequence, primer sequence and characteristics are shown in the following table:
Figure FDA0002446009370000011
the sequence numbers of the nucleotide sequence and the primer sequence are the numbers in the sequence table.
2. Use of the prune EST-SSR marker of claim 1 in the analysis of prune genetic diversity.
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