Welcome to Acta Agronomica Sinica,

Acta Agronomica Sinica ›› 2020, Vol. 46 ›› Issue (10): 1496-1506.doi: 10.3724/SP.J.1006.2020.04028

• CROP GENETICS & BREEDING·GERMPLASM RESOURCES·MOLECULAR GENETICS • Previous Articles     Next Articles

An integrated high-density SSR genetic linkage map from two F2 population in Chinese pea

LIU Rong1,**(), WANG Fang1,**(), FANG Li1,**(), YANG Tao1, ZHANG Hong-Yan1, HUANG Yu-Ning1, WANG Dong1,3, JI Yi-Shan1, XU Dong-Xu2, LI Guan1, GUO Rui-Jun1, ZONG Xu-Xiao1,*()   

  1. 1 Center for Crop Germplasm Resources, Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing 100081, China
    2 Institute of Legumes Crop, Zhangjiakou Academy of Agricultural Sciences, Zhangjiakou 075000, Hebei, China
    3 Shandong Center of Crop Germplasm Resources, Jinan 250100, Shandong, China
  • Received:2020-02-08 Accepted:2020-04-15 Online:2020-10-12 Published:2020-05-09
  • Contact: Xu-Xiao ZONG E-mail:liurong@caas.cn;fwang11@huskers.unl.edu;hathor_fang@163.com;zongxuxiao@caas.cn
  • Supported by:
    National Natural Science Foundation of China(31801428);China Agriculture Research System(CARS-08);Crop Germplasm Resources Protection(2019NWB036-07);Agricultural Science and Technology Innovation Program (ASTIP) in CAAS(NICGR2019);National Infrastructure for Crop Germplasm Resources Project from the Ministry of Science and Technology of China(2017YFE0105100)

Abstract:

Pea (Pisum sativum L.) is an important food legume crop grown widely throughout the world for humans or livestock consumption. Genetic linkage map constructed with SSR markers have played a vital role in marker-assisted breeding of many crops including pea. Public available and transferable SSR markers and genetic linkage map with sufficient SSR markers based on genetically distinct Chinese pea germplasm are limited despite a long study history on genetic linkage mapping in pea. In this study, in order to obtain more transferable SSR markers and high resolution genetic linkage maps for Chinese pea, 617 polymorphic SSR markers were firstly screened from 12,491 genome-wide SSR markers and some related literatures by our laboratory, and these SSR markers were used to construct an enhanced genetic linkage map for the G0003973 × G0005527 F2 population. The enhanced genetic linkage map covered 5330.6 cM in total length containing 603 SSR markers with an average inter-marker distance of 8.8 cM, which was significantly improved both in marker number and in density compared with the previous map. 119 polymorphic SSR markers were screened based on the above results to develop a new map for a large W6-22600 × W6-15174 F2 population including 118 SSR markers with a cumulative length of 1127.1 cM assembled into seven genetic linkage groups. Furthermore, data from the above two genetic maps were combined to build an integrated map of 6592.6 cM, comprising 668 SSR markers, 509 genomic SSRs, 134 EST-SSRs and 25 anchor markers distributed in seven genetic linkage groups. These SSR markers and genetic linkage maps will provide a valuable tool for the genetic study and marker-assisted breeding in pea.

Key words: pea (Pisum sativum L.), SSR, genetic linkage map, integrated map, marker-assisted breeding

Table 1

Distribution of the screened 25 anchor markers on previous genetic linkage map in pea"

连锁群
Linkage group
锚定标记的数目
Number of anchor markers
锚定标记的名称
Name of anchor markers
I 5 AA67, AD147, AF016458, D21, PsAS2
II 3 AA332, AD83, D23
III 4 AA355, AD270, PSAJ3318, PSBLOX13.2
IV 4 AA430942, AA122, AA285, AA315
V 1 PSGAPA1
VI 5 AA335, AB71, AD160, AD60, PSGSR1
VII 3 AB65, AF004843, PSAB60

Fig. 1

Genetic linkage map of PSP1 population in pea The bold labels on the marker name represent anchor markers, and marker names started with “e” represent EST-SSR markers."

Table 2

Marker distribution on the two genetic linkage maps from PSP1 and PSP2 population in pea"

连锁群
Linkage group
上图标记数目
Number of mapped markers
图谱长度
Map length (cM)
平均标记密度
Average marker density
PSP1 PSP2 PSP1 PSP2 PSP1 PSP2
I 74 11 751.0 137.4 10.1 12.5
II 62 13 494.9 160.6 8.0 12.4
III 90 20 855.3 158.4 9.5 7.9
IV 97 14 904.7 119.0 9.3 8.5
I-2/V 113 19 822.5 173.3 7.3 9.1
VI 70 21 658.6 175.0 9.4 8.3
VII 97 20 843.6 203.4 8.7 10.2
平均Mean 86 17 761.5 161.0 8.9 9.8
总计Total 603 118 5330.6 1127.1 62.3 68.9

Fig. 2

Genetic linkage map of PSP2 population in pea The bold labels on the marker name represent anchor markers."

Table 3

Markers distribution on the integrated genetic linkage map in pea"

连锁群
Linkage group
共有标记数目
Number of bridge markers
上图标记数目
Number of mapped markers
图谱长度
Map length (cM)
平均标记密度
Average marker density
I 3 82 976.8 11.9
II 7 68 682.7 10.0
III 8 102 1077.2 10.6
IV 7 104 1058.9 10.2
V 7 125 1018.2 8.1
VI 7 84 801.8 9.5
VII 14 103 977.0 9.5
平均Mean 7.6 95 941.8 10.0
总计Total 53 668 6592.6 69.8

Fig. 3

Genetic linkage map integrated with PSP1 and PSP2 information in pea The bold, underlined and bold underlined labels on the marker name represent anchor markers, common markers and common anchor markers, respectively. Marker names started with “e” represent EST-SSR markers."

Supplementary table 1

Information of SSR markers used to generate the integrated genetic linkage map of pea"

序号
No.
标记名称
Marker name
标记类型
Marker type
正向引物序列
Forward primer sequence
(5°-3°)
反向引物序列
Reverse primer sequence
(5°-3°)
退火温度Tm (℃) 片段大小Band size
(bp)
连锁群Linkage group
整合图谱Integrated map PSP1
G0003973× G0005527
PSP2
W6-22600×W6-15174)
1 27256 基因组SSR CATTCCATTCCATACATCCATTT TGAAGTTGAAGCAGCCATTG 60 153 I I
2 26075 基因组SSR CTATGGCACCATCTCTTGGAC AACACAATGTATGTGGTGCAAAT 59 186 I I
3 28142 基因组SSR TGCAAGCATATTGCCTTTTC TCAGTGGTTGCTAGCTGTTGA 59 176 I I
4 26020 基因组SSR CTCTCAAATTTGGGGTCCTC TCATTGCGTCTCAACCTCAG 59 129 I I
5 25334 基因组SSR TGAAGATGTGACAAACAACAGAAA TCCTTCTCTGTTCCCACCAC 60 140 I I I
6 23971 基因组SSR GCGTGTTGATGCTGAAAGAA TCAAAATTGGGGTGTGACAA 60 131 I I
7 25922 基因组SSR CCAAGGGAAAACCCCTTCTA GTGTGAAAGCTTATTGTATATGTATCG 58 176 I I
8 AD147 锚定标记 AGCCCAAGTTTCTTCTGAATCC AAATTCGCAGAGCGTTTGTTAC 61 330 I I-2 I
9 AA67 锚定标记 CCCATGTGAAATTCTCTTGAAGA GCATTTCACTTGATGAAATTTCG 51 370 I I
10 20229 基因组SSR GCGAAGACTTCCGACCATTA CACGGTCAAGGCCTACATTT 60 181 I I I
11 18339 基因组SSR TGGTTGAACTGGAACGAGTG TGAAATTGCAATGTAAGCATGA 59 137 I I
12 e1154 EST-SSR GCCATGCGACCATATTTACC ATGGCCACAGAAACGAAAAC I I
13 e1111 EST-SSR TTCTTCGTCGGAGGATGAGT TTGAGAGGAGATTGGAGAAAAA I I
14 28832 基因组SSR CTCACGCGTTGAAGATACCA CACCGCCATTGTAGTACAGC I I
15 27227 基因组SSR GCATTCCATGAATTGCATCT TTGCTGATTTCTTACTTGTTGTCA 59 167 I I
16 e734 EST-SSR AGGCAGTGACTGAATCATCGT AATGGCTTTGAGGCAGAGAG I I
17 18591 基因组SSR AGGGCCGAATGCTAAGTGAT TTTTGAACCCTGGAGGGAGT 61 155 I I
18 21662 基因组SSR GAACATTATCGGAATCAACAGC CCACACAAAAATGAACAACACA 59 158 I I
19 17158 基因组SSR CTCCCGAGTCTTGGCTAATG AGGCGCTCATAAACAGTTCC 59 175 I I
20 e1171 EST-SSR AGTCCCATCCCACGAAAAAT CTCTTTCAAATCCCCCAACA I I
21 PEACPLHPPS 基因组SSR GTGGCTGATCCTGTCAACAA CAACAACCAAGAGCAAAGAAAA 52 120 I I
22 e613 EST-SSR CAATAATTTCACACACACCAAGAA TCCAAAGAATCCTAAGAAACATGA I I
23 24312 基因组SSR TGCCATATGCATTTCATGGT AAGCCCCTTTTCATCTTCAA 59 210 I I
24 e1013 EST-SSR ACACCAACGATGACCCATTT CCGATCCACAAACCGTTATT I I
25 29847 基因组SSR TTGTTCCTACCGTGCTTTCA TCTTATTGGCCTGCACATCTT I I
26 29428 基因组SSR CCATCCACATCCTTCCAAGT CACTCAACCCACGGAAAAGT I I
27 e700 EST-SSR GGTTTCGGTTGATCATGGTA GGAACTTTCTCTCGGGATCA I I
28 e1189 EST-SSR TGGCAATTGCGATGATTAGA TTCATCCGTTTCATGATGTTG I I
29 25805 基因组SSR CCAACTTACTTTTGCTTATCTGGT TGGGTCCATGACAAAGACAA 58 124 I I
30 25096 基因组SSR CAACATTGTTATCATCAAAACTCAA GGCGACAATCGATCTCAAGT 58 192 I I
31 28733 基因组SSR TGGCCTAGGTTTTTGTGTCC GCATCTCAAAAGGGCATTATTT 59 116 I I
32 23546 基因组SSR TCCACCTTGTTGCCCTAATC TGAATGCTTCTCAGATACAAAATGA 60 155 I I
33 22611 基因组SSR TGCAAATGTGCAATGAATGA GGCGGACATGAGAAGGAATA 60 187 I I
34 27835 基因组SSR CATCACTTGGGATTTCTTGAGAG AGGGCAATGGTAATCAGCAC 60 138 I I
35 27301 基因组SSR TGTCGGAAATTAAGAGGTGGA TGGAAAAGTAAGCGGTGAACA 60 119 I I
36 e1226 EST-SSR CACACCAGGTATCAATCTGTGAA CGTTCCGCTTTTCACTCTCT I I
37 16881 基因组SSR ATGGGCTTTAGGGGAAGAAA AAAAGCAGCACATGGAGGAC 60 133 I I
38 21678 基因组SSR CCCTTCAGCAACAATCACTG TGCCTCAGATTTGGAATGGT 59 151 I I
39 20646 基因组SSR TCTCACATGTTGTTATTTCTTTCTCA TGATGTTCCCCAGATTTTCA 59 120 I I
40 PsAS2 锚定标记 CTAATCACACGTTTAGGACCGG CGAAATCCAAACCGAACCTAATCC 52 300 I I
41 e888 EST-SSR GGCTTCTCCATTTGTGGTTC GCCAATGGAGGTTCTACAGC I I
42 18011 基因组SSR GACCAACGACTTGGACATCA GGTGAGTTCCTAAGATGAATCAGA 59 197 I I
43 e811 EST-SSR TTTTGTGGGTCTCTCTTCACC CACCACACATGCAACACTCA I I
44 27246 基因组SSR CCAGGTTAAAACGATGATTTTTG ACTTTTCCCCTTGGTTGGAC 60 180 I I
45 3023 基因组SSR GGTGCAAAATTTGAGGTGCT CACACACGACTACACACACTACG 59 153 I I
46 27167 基因组SSR GGCACAACTACAACCCACAA GGTTCAGGAATGGGTTCAGA 59 194 I I
47 e799 EST-SSR TGCAGGCTTTAGAAGTTGTTCA CTCAGCAGCCACAATTACACA I I
48 5897 基因组SSR GGCAATAACTTAAGAGTACTAAGGAAA AGGGTGTCGTCGTGTGTGTA 57 282 I I
49 27361 基因组SSR CTGAAACGGTTTGCATTGTG TCCAACCACTTCTTAACAACCT 58 113 I I
50 22209 基因组SSR AATCCACAACCCCGTCAATA CAAAAGAGACCTTCTTCCTCTCA 59 164 I I
51 22259 基因组SSR CATCATGGCTCAATCTCAACA TTCCCAAATTCCTTCGTTCA 60 110 I I
52 22406 基因组SSR GGAAAGAGTTATGGCAATGGAC TGGTGGTGGAGCTAAGTGTG 60 174 I I
53 24555 基因组SSR CGCTTATGTAGCCCCTTTTG GGCCAAAGGAGATTTGTGTC 60 123 I I
54 24499 基因组SSR AAAACAAACAAAACCGCAATG TAGCCATCACCAAAGCAACA 60 169 I I
55 e624 EST-SSR CCTTAGCAAGTTTGTCTTTGAGTG TGCAATGACATGATGGAAGAA I I
56 29029 基因组SSR TAGGAGAGCGAGGAGCAAAG CCACCAAAAGCAAGAATGTG I I
57 e884 EST-SSR TTCTTTCCGCCATGAGATTC GAGAGCAAGGGTTTGGAACA I I
58 28438 基因组SSR GGAATGACGAAGTAACCACCT GATGCAAGTGCAACCTTTGA 58 185 I I
59 17628 基因组SSR GGTTTTGTTTGCCGTTGATT CCACCCCCAAACTTCCTTAT 60 153 I I
60 17605 基因组SSR CGCCCTTCATCATCATCTTC AGAGTCGGTCCCTCCAACAT 61 150 I I
61 1356 基因组SSR CACGTGCACATACACACTCTT TGTGTCAGAGCATGTGTTCG 57 106 I I
62 171 基因组SSR CAAACACACACGCACACAAA CGTGTGAGCGTGCATAAGT 58 70 I I
63 28654 基因组SSR AGCGACGTGAATATCACAATG GTTATCGCGGCGTGTAAATC 59 134 I I
64 e658 EST-SSR TGGTTTCTCTGCCAAAACAG TGATGAGTGGTGACGCAAAT I I
65 e562 EST-SSR CAAGATGCTTCTGATTCAGTGTC AGGATTTGAGCTTGGGAGGT I I
66 17989 基因组SSR CAGAGCCGGAGTTCTGGATA TTTGGTTGACATTAGCACATGA 59 195 I I
67 26333 基因组SSR AAACACACGACATGTTTCCTTTT TCACTGCAATTCGTCGATGT 60 116 I I
68 D21 锚定标记 TATTCTCCTCCAAAATTTCCTT GTCAAAATTAGCCAAATTCCTC 51 200 I I
69 18928 基因组SSR TGAATGTGGAAAGGAGGAATG AGGGTCACCACTTTGGAGAG 59 178 I I
70 18529 基因组SSR GAATGTGCGTCCAACATCCT AGATTTTGATGCGGAAGAGC 59 151 I I
71 1863 基因组SSR GCACACGAATACAGTCACGC GTGTGTTGACGTGCGAGTTT 60 118 I I
72 e997 EST-SSR GCCTGGAGTGTTGAAGAGGA CCATCACAATTTCCCACACA I I
73 1752 基因组SSR GCACGCACACGAATACAGTC GACGTCGTGAGTTTGCATGT 60 115 I I
74 AF016458 锚定标记 CACTCATAACATCAACTATCTTTC CGAATCTTGGCCATGAGAGTTGC 54 I I
75 23261 基因组SSR CTGCTTTTGGGGTTTGGTTA GCAATGCAACTCCTCAACAA 60 156 I I I
76 22699 基因组SSR CAACATGCCATTCTGGCTAA GCCGAAACCCCATGTAGAC 60 157 I I
77 24895 基因组SSR AAGAAAGTTGCGTTGGATGTG GTTTTGTACCGCCCAACACT 60 148 I I
78 24731 基因组SSR AGAAAATGGCCCACGAATTA TGCATTGCATTGTGTTTGTG 59 204 I I
79 25106 基因组SSR AAGGCCAAACAGAAAGGAGA CAATGTCCAAGAAAGATCCAGTT 59 178 I I
80 4083 基因组SSR TGCAAACTCACACGTCAACA GTGCGTGTGCGAAGTACG 60 191 I I
81 1753 基因组SSR GCACGCACACGAATACAGTC TCGTAGTTTGCATTGTGCGT 60 115 I I
82 25341 基因组SSR AATGCTTCTTCCACGGTCAC TTCGCTCGAGTTCGATTCTT 60 184 I I
83 25454 基因组SSR TTCCAAGCAAGCGTTGAAGT TCAAGAGAGACTTTTCAAGAGGTT 58 204 II II
84 29797 基因组SSR TGTGATCAGGTGCTCCCATA GCGACAAATTATGGCTATGC II II
85 26436 基因组SSR TTGCCTTGCCAACTTTTAGG CTTGCTTCTGCGCCATAAAT 60 195 II II
86 e581 EST-SSR CCTTGATGCCACAAATGAGA TTGCCACTTTCTCAAAAACTCA II II
87 S217 基因组SSR CACTCAACTCACCGACCTCA GACGGATGGAAATTGGTGTC 52 1035 II II
88 e956 EST-SSR CGAGCGTGAGACTGTGATGT TCCACCGGTTCAACTTCAAT II II
89 e344 EST-SSR ATGCAACCGGCGCAGTAT CCACCTTTTCCTCGCTTTTT 61 159 II II
90 e967 EST-SSR TGACACTTTCGTGTACTGTGTTTTT TTCCAAAAGCCTCTCTTTCATC II II
91 20922 基因组SSR AAAAGGAGAACACATTTTATAATAGCA TGCTCTTAAAGGCGACAATG 58 146 II II
92 29141 基因组SSR TTCTTTCTGCTAGGAGCCACT CAAAGCCATCACCCTACACA II II
93 24959 基因组SSR ATCCTCACCGGTTTGATGAC TGGAGAGTGATAGAGAAAAATTGTG 59 115 II II
94 25059 基因组SSR ATGGATTGCGGATAGCTCAA CAGCAGTTGTTCGCAGGTAA 60 189 II II
95 24301 基因组SSR TTGTGTTTTCCGGAGAGGTC TCCCTCCCAACCTTGAATTT 60 142 II II II
96 AA332 锚定标记 TGAAAATAAAGGCATGCAAATA TGATTAGTCAACTTGTTGTGGA 51 255 II II
97 29220 基因组SSR GGGGCAGATTTGTGGTATTG TTCTTCTTCCTCACGTCTTTCTTT II II
98 AD83 锚定标记 CACATGAGCGTGTGTATGGTAA GGGATAAGAAGAGGGAGCAAAT 61 270 II II
99 18272 基因组SSR CCCCAACATTTCTCTAGGTAACA TTCTTCGCAGCTCGGTAAGT 59 131 II II II
100 S42 基因组SSR AGTTTCGGGTTCCTTGGAGT GTTGGCGTAGAACGATCCAT 53 211 II II
101 e198 EST-SSR ACCATCACCACCAACAACAC CTGCATCTGGAGAGGGAGAG 59 188 II II
102 e14 EST-SSR TCCGCAATGTTCTCTCGAAT GGAGGTCTCCGCATTATCAA 60 188 II II
103 21776 基因组SSR AACGGATATGCATGGAGAGG AAAACACGACCATCCTTTGTG 60 172 II II
104 21939 基因组SSR GGTCCTCAAGCACCACCTAA TGGGCGTCACTACTTAACTTTT 58 114 II II
105 28257 基因组SSR AAGGGCTGACGGTCTAACTG GAACTGACGGACGCTAGAGG 59 161 II II II
106 16237 基因组SSR GCAAACGAAGCAGGCTTATC TTGGCTGATCCTGAAACTGA 59 152 II II
107 18260 基因组SSR AACCTTGAAATGGAGGTACATGA GACCATGATCGGATGTTGTG 60 129 II II
108 21641 基因组SSR CGATTTACCGTCCTTCATCA ACGGTCTCCCATGTGTTTGT 59 166 II II
109 3015 基因组SSR ACACATGCACACCCCCTTC TGCGTGTGTACGTGTGTACG 60 153 II II
110 D23 锚定标记 ATGGTTGTCCCAGGATAGATAA GAAAACATTGGAGAGTGGAGTA 51 170 II II
111 e1031 EST-SSR CAACACAAGAACTTTGCACCT TTGATCCACCTGCATCATTG II II
112 e1215 EST-SSR GAGACAGAAGACGGCGAAAG TGCCAAGAGTCAGGAGATTG II II
113 16433 基因组SSR CACCGCAAACATAGCAAAAA TCTCATAGCTGCGAGGTTCA 60 127 II II
114 e617 EST-SSR GCCAAACGGCTTTAAAACTTC TCGCTGTTGGAAAGAGAAGAA II II
115 20723 基因组SSR CTCACTTCACGTGCGCTATC GCAGGAGCAGCTTGATTTTC 60 152 II II
116 16437 基因组SSR TTGTTTTTGTTGTTCTTGTTGTTG TTTTCGGGTTTTGCTTATGG 59 128 II II
117 17531 基因组SSR TGCAGGGGTGTGTGTTACAT TGAACATGGTGAAATGGATTG 59 140 II II
118 18237 基因组SSR GGGATATGAGAAGGCGATACC TGGTTGTAGGATGTGGGATTT 59 127 II II
119 17754 基因组SSR AGCAACGGGCAACCTTATAG CCTTTTGTTTGGAAGCTCAA 58 169 II II II
120 e850 EST-SSR TTTCTTCTCCCAAACTACCTCAT ATGCATGAACCAACCCATCT II II
121 17713 基因组SSR AAAAAGGGGAAAGCAGGAGA TTGACTGTGAGGCTGGTTTG 60 164 II II
122 21945 基因组SSR TTCACGCTCATCGCTAAGAC TTCGAATCCTCCCTTCTTGA 59 113 II II
123 e478 EST-SSR GCCACCAACCAATTCAACTT TGGGTATTGGGAATGGAAAA II II
124 e36 EST-SSR GCAGGGTGGGTATATCTGTGA GTGGTCCAATTCCTTTTTGC 59 219 II II
125 e26 EST-SSR TTTTGTCCCCGCGTTTAATA CATTCATGCCACAAAAATGG 60 155 II II
126 C24 基因组SSR GCTACTGGAGGAGGCTTTCA GCCTTCTACACAACGGCTTC 52 162 II II
127 28383 基因组SSR TCGATTGTTATTGTGTTTCCTCTC TGAGATCAAGTGGGGGAAAA 60 150 II II
128 e770 EST-SSR GGTTTGAAAGGACCCCTAGC GTTACCGATGGCCATGAATC II II
129 143 基因组SSR ACATGCACACGTACACGCA AGTTGGCGTGCAGTAGAGGT 60 69 II II II
130 16534 基因组SSR TTGCAAATATACCAATTCCAAAA ATTGGAGCCTGGTGAAGACC 58 139 II II
131 28055 基因组SSR GCCAGCAATTTTAGCATTACG TTAGCTCAGCCCGGTAAAAA 60 163 II II
132 25792 基因组SSR GACGGAAACGAAATCGAAGA TCAAAATTCACGCACACGAT 60 110 II II II
133 30024 基因组SSR AGAGTGCCATCCCTTCAATG GAACGTTTGGTTGGAGGAGA II II
134 25769 基因组SSR GCAGCAAGATGGTTGGTAGTT GACGTCGTAGTCGCCATCTC 59 144 II II II
135 e929 EST-SSR TGAGGAGGGAGATGGAGAAA GAAGGCAAACCTACCAACCTC II II
136 30218 基因组SSR GGACGTGTCCCACTCCTATG GGAAGGATAAAAACGTTGCAATA II II
137 30416 基因组SSR GACACATGGAGCCACAAAAA GAATGGAGGGGAGAGATGAA II II
138 e577 EST-SSR TGTCATTTCTTTTTAGTTCCTTTCAA CCTTCGCTTGATTCTTCACC II II
139 16570 基因组SSR CAAACACCAACCACCACAGT AAGGGGAGACGAAGTGGAGT 59 143 II II
140 27099 基因组SSR GGTACACCCACCGATACACC TCTAGACGCGGAGAGGGTAA 60 140 II II
141 27112 基因组SSR GCAACAAGATTTTGACGTTTTT GACGCTACCAACCGCTTTAG 58 129 II II
142 28687 基因组SSR CACGGAAGGCCCTACTTACA GTGGCGAGTAGAGCGTAAGG 60 189 II II
143 28704 基因组SSR TTCTGCAGTCAGCTTCAACTTC TAGTCACGGAAGCGATTCAA 59 147 II II
144 22690 基因组SSR GGTTCATCTGCACCCAAGTT GGCAACTCTCTCACACACACA 60 138 II II
145 24812 基因组SSR GACCAAACCACCTCACAGATG TGGCTCCTTTCTCATTTCTAACA 60 140 II II
146 23154 基因组SSR AAGACGAGGTGGCATGGTAG GAGAATGCATGCTTCAATCAA 59 183 II II
147 28785 基因组SSR GATCCACCCAATTCCCTTTT TGTATTGCAGCCGCTTTATG 60 208 II II
148 19680 基因组SSR GCCAACCCAACAATCTCAAC CATTGGAACCAGATCGAACC 60 148 II II
149 22052 基因组SSR GTTACCGATGGCCATGAATC AGCGAGTGAAGAGGGAAGTG 60 147 II II
150 1078 基因组SSR CACACGCACAGACACACGTA GTGTGCGTATGCGTTACTGC 60 99 II II
151 29138 基因组SSR GCAGATTGAAACCAAAACGAC TCGCAACCTGCACTTTCTTA III III
152 e763 EST-SSR ATGCTTTGATGGGCTCAACT TCCCAAACATGCTAGCAAAA III III
153 19532 基因组SSR CCATGTTTGAATTCGGAGGA GCGCGATGATTCAAGGTTTA 61 165 III III
154 19656 基因组SSR CCAACGTTGTTGTTTTAGTGG CCAGAGTCGTGGAGCCCTAT 58 169 III III
155 27876 基因组SSR TGTTGTTGCCCATCAATCAT AATCACACGAGGGATTGGAC 60 149 III III
156 18323 基因组SSR CAGACAATGGCAATTATTTGGTAA CTGCTGTTGCTTCGATTTCA 60 136 III III
157 21881 基因组SSR CCATTCCCAACAATTTCCAC GTGAGGTCCGGTTCTACAGG 60 119 III III
158 30088 基因组SSR TACTGGATCCGGATGAGGAC TCGCATCAAAGCAAAAACCT III III
159 e605 EST-SSR AGCACTTGCTACGGCAATTT AAACCTAGAAATAACGATGCAAAA III III
160 24265 基因组SSR GTTTGCGGCCAAACAATATC TTTGCATGAGTGCACCTCTC 60 181 III III
161 29627 基因组SSR AGAAGACAACGACCGAGTGG AACCGCATAACCGCAATTTA III III
162 27019 基因组SSR GCAGTTTCCACACTTTAAGTCCA TGGGTGTGTTAACAGGGTGA 60 155 III III
163 e1208 EST-SSR AACCATTGCGCGTCTTTTAC AGACCACCGCCATAACATTC III III
164 28130 基因组SSR CGAATTTGGTTGCGACGAC TCGCGCCTCTTTAGGAATAA 60 208 III III
165 27378 基因组SSR GCCAATTATTCCCTCCAGGT TTCGAAGGTTCTCCATCACC 60 147 III III
166 28180 基因组SSR TCGTTCATTTAACTTCGTGAGGTA AGAGAGTTCTCCGCCAAACA 60 201 III III
167 24903 基因组SSR TGGTGTCAACTTTTTGATGTTCA GACAAGTTGCTTTTGCTCCAC 60 147 III III
168 26850 基因组SSR TCACAGACAGTACACAAAGTTTTCTT GCGAGGGAGAACAGAAACAG 59 160 III III III
169 24521 基因组SSR AGGGAACCCCCAATTGACTA CCAGAAACTGGGGTTGTGTT 60 208 III III
170 23311 基因组SSR TTTCAGAATGGTGCAGGGTAT AGGATCTCAGTATACATGCGTAAA 57 168 III III
171 24540 基因组SSR CTCCCTCATGAGTCGTGACC ATCAAAGGGGGAAGGTGAAG 60 143 III III
172 26575 基因组SSR GAAAATAAACAGTTGGCAACAAAA CCACTCCAAACCCTTCAGGT 59 205 III III
173 21726 基因组SSR GGTGATGGAGAAAAGGGTGA TGCATGCAGTCAAATCAAAA 59 157 III III III
174 23518 基因组SSR CAAGGACGACGACAACAACA GTGCCGACGTTCAAGAAAAT 60 202 III III
175 e632 EST-SSR AAACCTCTCTACAGCACCAACAC GGGAGAGATTGTTTGAAGTATAGAA III III
176 28406 基因组SSR CCGATTGTGCAGCAAGAGTA ACGATGCACATGCAGAATTT 59 129 III III
177 27038 基因组SSR CGTCTACCTCCGACGATAGC TTCGCCAGATATATACAATAAAAAGA 58 187 III III
178 25151 基因组SSR GCCTTCGAGGCATCCTAAT TGGAACCATAAGATTGGTGAA 58 157 III III III
179 27270 基因组SSR GGACCATTACCCTCCCATTT TTCCTTCCGTTTTGCAGTCT 60 194 III III
180 28194 基因组SSR TGGGGTCTTAAAGTTGTGACTTC CCGAAGGTGGGATGAAACTA 60 148 III III
181 28645 基因组SSR CTGAAATCGGAGTGGTCACA GGTGAAGCCCTTAGCTACCA 59 188 III III
182 17193 基因组SSR CACAGCCATACCCAAGTTACAA GGTTGCGAGGGATGAGAATA 60 178 III III
183 e814 EST-SSR GGTTGGTCCAATCCAACATC AGAACGAACACACACGAAACA III III
184 e494 EST-SSR GACCCGTCTGGACTGGTAAA TTGAAAGATGCGGAGTGATG III III
185 29436 基因组SSR TCTAGCAGCATTGGGGAAAC TAATGAGGGGAAGGGGATTT III III
186 27710 基因组SSR AACCACAGAAAACTGCCAAGT TGAGAACCAAAAGCAGGTCA 59 110 III III
187 29074 基因组SSR TCGTCGAATGGTTGAAGAGA TTCGCAAGTGAAGGAAAAAGA III III
188 29307 基因组SSR GCGATTCCAGATGTCAGGTT CGTCTCCCTACCAGCAAAAA III III
189 24534 基因组SSR GTGGTGTGAAAGGGGTTTTG CTTGCATTGGATTCCCTTTG 60 206 III III
190 22543 基因组SSR TTTCACGTACGTTCCCAACTC CCAGATCAACCACCTAACTTCA 59 160 III III
191 23262 基因组SSR GGTGACGGAGGTGATAGAGG TAGCAAATGCAAACCCAACA 60 183 III III III
192 24701 基因组SSR TATGCTGGAGTGTGGAGTGG TCAATCAATTCAACGGTACAGA 58 111 III III
193 24784 基因组SSR TTTAGACGGCCTTCGTTAGTG CTGAGCCTAAAGGGCTGAAA 59 115 III III
194 27254 基因组SSR GAAGGCCTCTAACGGTGAAA AATCAAACAGAGGCCACCAG 59 122 III III
195 22754 基因组SSR GGAACGACAACACGAACCTC GACACGTTATGCGCACACTC 60 161 III III III
196 26131 基因组SSR GGAAACGGTGGAAGATGAAA TTGGCAAAAGGGATGAGAAG 60 175 III III
197 24805 基因组SSR TGCAGCAGATCAACCAAAAC TTTTGAACTAAGGTGGTCTCAATC 59 144 III III
198 18135 基因组SSR CTTCAACCAACTGCGAGTGA TCATTTGAGTTTTGCCATGTTC 60 120 III III III
199 PSAJ3318 锚定标记 CAGTGGTGACAGCAGGGCCAAG CCTACATGGTGTACGTAGACAC 58 III III
200 29634 基因组SSR CAATTAACAAACGCAGCCTTA TTAGCCCGTGGATTTTCAAC III III
201 26866 基因组SSR CGATACATTAAGGGCGGAAC TGACTCATTCGCATTTGGAGT 59 186 III III
202 23757 基因组SSR TGAAAGAGGGGAATTGAGAGA TCAGGTTACAAGCCCGAGAT 59 187 III III
203 AA355 锚定标记 AGAAAAATTCTAGCATGATACTG GGAAATATAACCTCAATAACACA 51 180 III III III
204 23899 基因组SSR CCCCATCCTTGTGAACAAAT ACGGTGTTTTGGTGGTGAAT 60 151 III III
205 AD270 锚定标记 CTCATCTGATGCGTTGGATTAG AGGTTGGATTTGTTGTTTGTTG 51 290 III III
206 20075 基因组SSR GCCAGTCCCTTGAGTTAGGA TGTTTCACGTGTTCCCCATA 59 122 III III III
207 e696 EST-SSR CGCTATCACTCTCTCTTTCTCTTTT ATCGGAGGACGAGGTCTTTT III III
208 e1021 EST-SSR AAAAAGCTGAAACATTCAGACC GGTCCATTCATTCTGCAGTG III III
209 e673 EST-SSR GGAAGACGGAGTGGTGGTAA GTCGTCGTGGTGCTTCTCTC III III
210 16524 基因组SSR CCAGAGGATGTGAACCAGGTA TTCAACCAAGCTGAACCCTTA 60 138 III III
211 4826 基因组SSR AACATGCGTCTGTCGTGTCT TAGTGGGTGTGCGTGTGAGT 59 220 III III
212 27093 基因组SSR TCGTCATTCTCCCTCCAATC TATGATGTCCACGCGTTTTT 59 128 III III
213 19688 基因组SSR GAATCGGGTCGCTGAGATAG ACCTCCACCGTACCATTCAA 60 133 III III
214 e998 EST-SSR GGCAGACTGGTCTCAACTCC ATCATCGTTGGTGGAATCGT III III
215 2875 基因组SSR TATTAGCACCCCTCACGTCC TTTCCCCTTCCTTCCAATCT 60 148 III III
216 30442 基因组SSR CCCACTCCATCAGTCTCTCC AGAGGACCGGTGATGTGTTC III III
217 e446 EST-SSR AACCAGAGATGAGTGGAAAAATG GCCAACACCAGAGTTTGAATC III III
218 27160 基因组SSR CTGCAGTTGCGTGTAGAGGA TTGAATGATGATATAAATGCAATGAC 59 135 III III
219 e472 EST-SSR TCCATCACCAGGCATAGGTC GCCGGTAGTGAGAAGGATTG III III
220 864 基因组SSR CACATACATGCAATCAAGCG GTGTGTTACGTGCGTGTGTG 59 92 III III
221 24861 基因组SSR TTCACAACCCCTCTCACTACA TGGAGGGATGGTTTACAATGA 58 183 III III
222 30382 基因组SSR TTGGTGAGGCCTTGATTTTT GCCAGTGGGGATTAGAGACC III III
223 17773 基因组SSR TTCCACACGAGGCTATTTTC TGCAAAAGCGACATCTTGAC 58 170 III III
224 18363 基因组SSR CATGCATGGAGTTGGAAGAG GTCCCAAAATGCAGCCAATA 59 139 III III
225 29125 基因组SSR TCAGAGGTGTCATCGGTCTG TTTCAAATAAGTTTTGAACAAAGTGT III III
226 e999 EST-SSR GTTTAGGAGCCTTGGGGTGT TCCAAACTCCGGCTTCTCTA III III
227 3647 基因组SSR GGGGTCTTACAACACACGCT AGGCAGAGGTGTGAGCATCT 60 176 III III
228 6144 基因组SSR CAGAAAAGGAAGCAAGGTGC GTCGCCCTCGATTCTCATAC 60 297 III III
229 4535 基因组SSR CAGAAAAGGAAGCAAGGTGC TGTGTGTACGTGTTCACCCTT 59 206 III III
230 3374 基因组SSR GGGGTCTTACAACACACGCT TGAGCTAATCTCTCCGGGAA 60 165 III III
231 2169 基因组SSR GTTGTGTGTGTGCGTGTTCA GGGGTCTTACAACACACGCT 60 126 III III
232 1935 基因组SSR GGGGTCTTACAACACACGCT TGTGTGCGTGTTCACCTTTT 60 120 III III
233 2303 基因组SSR GGGGTCTTACAACACACGCT TGTTGTGTGTGTGCGTGTTC 60 130 III III
234 4653 基因组SSR CAGAAAAGGAAGCAAGGTGC TGTGTGCGTGTTCTACCCTT 59 211 III III
235 5347 基因组SSR CAGAAAAGGAAGCAAGGTGC AGCATCTCTCCGGTAACCCT 60 248 III III
236 2008 基因组SSR GGGGTCTTACAACACACGCT TGTGTGTGCGTGTTCTACCTT 59 122 III III
237 5412 基因组SSR CAGAAAAGGAAGCAAGGTGC GTGAGCAATCTCTCCGGGTA 60 252 III III
238 2051 基因组SSR GGGGTCTTACAACACACGCT TGTGTGTGTCGTGTTCTACCTTT 60 123 III III
239 5400 基因组SSR CAGAAAAGGAAGCAAGGTGC GTGAGCAATCTCTCCGGAAC 60 251 III III
240 5348 基因组SSR CAGAAAAGGAAGCAAGGTGC AGCAATCTCTCCGGTACCCT 60 248 III III
241 4670 基因组SSR CAGAAAAGGAAGCAAGGTGC TGTGTGTGTCGTGTTCTACCC 60 212 III III
242 5540 基因组SSR CAGAAAAGGAAGCAAGGTGC AGGCAGAGGTTGTGAGCAAT 60 260 III III
243 21506 基因组SSR ATAGGGGGAGCAGGACCTAA TTTGACTTGTGGAAAGGAAGTT 58 151 III III
244 25416 基因组SSR CGCCCAATTGGATTATGATT TGCTCAATGCACACTTACTAGC 58 145 III III
245 e1197 EST-SSR TCCAACCGTTAAACACTCTTCA GCATGAAGGGCTCTGAGTTC III III
246 PSBLOX13.2 锚定标记 CTGCTATGCTATGTTTCACATC CTTTGCTTGCAACTTAGTAACAG 56 III III
247 18562 基因组SSR TTCTTCTGCTGCTGCTCAAA AAAACAAAAACCACAACCAAAAA 60 154 III III
248 21610 基因组SSR CGATTGATGCCGTGTCTAAG TTTCAAGTTTCTTCTAGATTTTGTCA 58 114 III III
249 27991 基因组SSR AATACAGCTGGACCCCACAC GCAGGCCATTTCATTTCATT 60 121 III III
250 22724 基因组SSR CCCAAGAAGAAGGATGGTGA GAGCATTCTGGTGCTGTTGA 60 152 III III
251 26028 基因组SSR CGGCGAGATTTATTGACGAT CAACGTGGCAAGCAAGTAGA 60 186 III III
252 4397 基因组SSR TAATCTCTCCGGGAACCCTT TGATATGATGCCATGAGGGA 60 201 III III
253 20084 基因组SSR CTCCCTCCCGAATGTAATCA CGGGACGATCAACTTTGTCT 60 111 IV IV
254 16758 基因组SSR CCCTTCAACAAAGCCTAACG AGGGTGCGAAGGAGGTTAGT 60 115 IV IV
255 21712 基因组SSR CGGCGGGTTTGATAGAGTTA CTTCACCCTTGCAACAAACA 60 166 IV IV
256 21774 基因组SSR GCAAGTTCCCAATCGTCCTA TCAAAAGCAAGGTCCCATTC 60 123 IV IV
257 e671 EST-SSR TTGCCTCATTTATCATTCTCTTATG CAAAAGGTTATCTAGCTACGACTTGA IV IV
258 29964 基因组SSR CAATTCATGACGAAATTGACAAA CATGGAGATGGAGAGTTCAAAA IV IV
259 e996 EST-SSR GCCGGTAAACGATCCATCTA TGCAGCCACACTCCTTTACA IV IV
260 19632 基因组SSR AATGTAATTAACCCACGAAGTTG TGCCAAAGCTCTCTCATCCT 57 201 IV IV
261 21547 基因组SSR TGAAAGCCTCAAAGCAACAA CCATGGCATGTGCTAGTGTAG 59 156 IV IV
262 21250 基因组SSR GTGCAATTTTCACACAGTGG ACGAAGGTTGGAGCATGATT 58 144 IV IV
263 22067 基因组SSR TATGCTCAGAGGGGCATAGG TTACGACGATGAGCGACTTG 60 158 IV IV
264 18533 基因组SSR TCCAAAATGCGTGTCATCAT TGACCGACACATTCATCTTCA 60 151 IV IV
265 26592 基因组SSR TCCGATCCTGGTAAAGTGGT TCCAAAATGCGTGTCATCAT 59 174 IV IV
266 26369 基因组SSR GCTGAAACGTGGGAAACATT TGGTTAGTGTTTGAAGGGTCTG 59 206 IV IV
267 25046 基因组SSR TCCTTTGTCAGTGGGAATTTTT AGGATCATGGTTGTCGAGTTG 60 173 IV IV
268 24606 基因组SSR CCGAACAAGATGAACCACCT AACAACATCGTGTGTGTTTGTCT 59 208 IV IV
269 23750 基因组SSR CTCGTTGTACAATCCAGATGAA CACCGTCCACCTTCTCATTT 58 209 IV IV
270 22599 基因组SSR GGGTGTGAGGCAGTTGAAAT AAATACCGAACCGAACCACTT 60 141 IV IV
271 24038 基因组SSR GCCCCCACTTTTTCAACA CTCCTGACACAAGGCCCTAC 59 145 IV IV
272 18438 基因组SSR GATTGAGCCGTGCCAATATC GATCCCACCCTAGAGGAAAAA 59 145 IV IV
273 22352 基因组SSR CCAACATCTTCCTCATCACCT TGAGAGTCGCAGTCGGATAA 59 129 IV IV
274 16512 基因组SSR TAAGCCCGACGCTTCTATTC GTGCCTCAGTTTCCGTTTGT 59 136 IV IV
275 AA430942 锚定标记 CTGGAATTCTTGCGGTTTAAC CGTTTTGGTTACGATCGAGCTA 54 IV IV
276 17219 基因组SSR TCATGTGCATGTGATGAAGAAA GGTGTACCCATGTGCCATTT 60 181 IV IV
277 28178 基因组SSR TCAACCCATACTCTTGGAATCA CCGGAGATTCCACAAATAACA 59 139 IV IV
278 28085 基因组SSR TGCTTGCAACGTTTCTTTCTT ACCCCTCCCTGAAAGGAGTA 60 142 IV IV
279 e538 EST-SSR CTTCCCTTTCTTCCCTTTCA GTTCGGAAGGATCGATTTGA IV IV
280 28374 基因组SSR TCCACGGTCTTGCTATGTGT CTGGTTGCACATCAGGGTAG 59 187 IV IV
281 e578 EST-SSR AGCAGCTCATATTCTCTGTCCA GCAGAAGCAGGATCTAGGGTAG IV IV
282 e656 EST-SSR AGCAGCTCATATTCTCTGTCCA AGCAGAAGCAGAAGCAGGAT IV IV
283 e650 EST-SSR GCAGCTCATATTCTCTGTCCA AGCAGAAGCAGAAGCAGGAT IV IV
284 29955 基因组SSR TCAAGTGCATTGGGAGAGACT AAAAACCGACCCATAATCAATTT IV IV
285 e1073 EST-SSR CTTGTTTCGCTCGGTACCTC CTATTGCAGGCAGTCCTGGT IV IV
286 24844 基因组SSR TTTCGTTTTCCCATTCTGGT CCCCCTTACACACGAATCTG 59 121 IV IV
287 26018 基因组SSR TTGAGCTGCTCGCTGTAAGA CACCAAACTGTTTCTTCACACA 59 146 IV IV
288 26179 基因组SSR GGAAGGTGAAATTCCGTTGA AGCAAGTTGGTTCGGAAAAA 60 166 IV IV
289 24485 基因组SSR GTGTCAAAGCTCGCCCTAAT ATTGGTACACTTGCCGAGAA 58 127 IV IV
290 e1130 EST-SSR GCTGCTACCGTGGATTGTCT TTGAAGAGGTGTGGTGTGGA IV IV
291 e1027 EST-SSR GTCTCGGTCCGAACCATTTA TCTTCTGATCAACAAAAGTAACAACA IV IV
292 S5 基因组SSR TGTGGGGCTTGTTACACTGA AGCTACCATAACAGACAAAACC 54 205 IV IV
293 22276 基因组SSR ATGCGGCATTTTGCTTTATC TTGGTCTGCAAATCGAAACA 60 127 IV IV
294 29630 基因组SSR CCTACCTTAAGTCGCCCATGT TCCAAACATAGGCTTCGTCTC IV IV IV
295 AA285 锚定标记 TCGCCTAATCTAGATGAGAATA CTTAACATTTTAGGTCTTGGAG 51 248 IV IV
296 28304 基因组SSR TTTTCAGCTGATCGGATATCTACA GGCAGCATCTTGAAAATCGT 60 132 IV IV IV
297 e535 EST-SSR AAAAACCAAGCACACCCATAA GCAAGACACAGCACAAAAACA IV IV
298 27384 基因组SSR TTGTGCCAACAAAAATCACAA CAGAATGCCGTTCACTTTTCT 59 115 IV IV
299 e561 EST-SSR TCCGATCTTGCTTCTGAATCT TTCATCAACCCAGACGCATA IV IV
300 B83 基因组SSR CCCTCTCCCATCTCATCTCA AAAGAAAGTAGAGATCCAGCACTGA 54 205 IV IV
301 24635 基因组SSR CCCTCTCCCATCTCATCTCA AGAGATCCCAGCACTGATTG 58 152 IV IV
302 23788 基因组SSR TGGAGAAATTATGAGAATGTTCAATG GCACGTCGACACACACAAAC 61 184 IV IV
303 24392 基因组SSR GCGGAAACAGGAGAGAGAGA GCACGTGCTCCATCATAGAC 59 121 IV IV
304 e828 EST-SSR AACCCCATTTTCAATATTTTTCA GGATTGTTCTCCGCATCTTC IV IV
305 18358 基因组SSR CCTGAACCGATTTTGGTGAT ATTCCGCCCTCTTTCACTTC 60 138 IV IV
306 27275 基因组SSR TGCTCACATTAACCAAAAGCAC TGGATGGGTATGTCCCATTT 60 147 IV IV IV
307 27252 基因组SSR TAATGCCGACTGTGTGCTGT GCAATTCAGCAAAAAGGAGAA 59 111 IV IV
308 AA122 锚定标记 GGGTCTGCATAAGTAGAAGCCA AAGGTGTTTCCCCTAGACATCA 61 190 IV IV
309 28244 基因组SSR TGGGAGAGGGGATAACTGAA CATGTTGTTTGGTGCGTTTC 59 182 IV IV
310 19487 基因组SSR CCACCTGCTCAATTCCAAAT GGCGAAGCGAATCTAACATC 60 178 IV IV IV
311 22506 基因组SSR CGAAACATGCACAACCATTT TGAACGTTCTGACCCAGATG 59 208 IV IV
312 22693 基因组SSR CGACAACAACAACCACATCA CTCCATCGAACGAAAGGAAC 59 148 IV IV
313 24465 基因组SSR TCAAGCAGAAGAGTCGACCA TAGCTATGTTCCCGCCAAAT 60 161 IV IV
314 25164 基因组SSR CCAAATACAAGCATTAATAGGGAGA TGGTCGACTCTTCTGCTTGA 60 110 IV IV
315 25419 基因组SSR TGCAAGTCCTGATGCAAGTC GCGATTCAGGATTGGCTTAC 60 140 IV IV
316 27605 基因组SSR AAATGAACGGAAACAGAAAGAA ACATAGCACACGCAGCAAAC 58 155 IV IV
317 29578 基因组SSR CAAGTCATGAACGTCTCAAAAGA TGGACGCGTTTTAAAGTTCC IV IV
318 27854 基因组SSR TCCTTCATCAAAACGCAACA ATTGACGTTCAAGCGGGTAG 60 138 IV IV
319 e155 EST-SSR TTTCTCGTTGCACTCATCCA TCGGTTGTCGTTTCTTGTTG 60 174 IV IV
320 21866 基因组SSR GCAGCCTTCAAATCCTCTTC AAAACGCGCTTACGCTTCTA 59 139 IV IV
321 29760 基因组SSR TGTGCCTCAGAGATGTTCAAA AGAGGTGGTGCGGTGACTAT IV IV
322 18049 基因组SSR ACCCCTCTTTGCTAGGGTGA ACCACACATCTCGCACACAT 60 202 IV IV
323 e342 EST-SSR CACAACAACCCCTCCAAAAC TTTGGATTTTCGCTTGGGTA 60 189 IV IV
324 e546 EST-SSR TGACAGTGAGTGAGTGGCTTCT TTGCGGGTGAAAAGAAAAAG IV IV
325 21805 基因组SSR TGGGAATGTGAAGTGGTGAA TGTGGTGTGGTTGGTTTCTG 60 128 IV IV
326 21622 基因组SSR ACAGCATGAAATGCGTGAAA TCGTCATCCCAACTTCATCA 60 139 IV IV IV
327 AA315 锚定标记 AGTGGGAAGTAAAAGGTGTAG TTTCACTAGATGATATTTCGTT 51 IV IV
328 79 基因组SSR GCTCAGTCAGCCCGTCATA GTGCGTGTGTGCGTGTGT 60 66 IV IV
329 17066 基因组SSR CTCTCCCCCACACCTGATAA GAGGACCCAGTAGGGATCGT 60 159 IV IV
330 24036 基因组SSR GAAGGACCAAATCAATTCTCTAAA ACCGACGTCAACGACTGATA 58 196 IV IV IV
331 24423 基因组SSR CATCCCACTCTAACCGCACT GCATAATCGGCTCTCTCTCC 59 184 IV IV
332 25717 基因组SSR CGTGCATGCATGTGTATGTT TCACCGATCAACACCAATTT 59 192 IV IV
333 28434 基因组SSR GTTTTCAATCGATCCGTCCA TTCCACCGTCTTCTTCAACA 59 164 IV IV
334 e1213 EST-SSR TTGGTTTCCGGTTAAAATGA CAATCCCATTCACACCACAA IV IV
335 e782 EST-SSR CATTGAGTTTGAGGATGAGGA CCCATAACCATATCTCACAGTTCA IV IV
336 e336 EST-SSR CCCCAAACCATATCCCTACA TTCCATTCCCAAACTCACTTG 60 170 IV IV
337 21227 基因组SSR CGGATTCAACAAGCAGAACA CGAGAATGGAGGAAGAAGTTG 60 153 IV IV
338 S236 基因组SSR AAATGGCCGTTTTATGATCG CGGAGCTGAACCTTCTGGTA 53 604 IV IV
339 e182 EST-SSR TGGTAACCCTAGCAATCATCA CTCTTTGGCAACAACATCTCA 58 241 IV IV
340 28173 基因组SSR TGCATTGCTAATAACATTAGAACCAT TTCCTTTTAAGCAAGGTGAGGT 59 197 IV IV
341 29016 基因组SSR TTTCAAAGGCAAGGCAAAAC CACCTCGCAAAATTGGACTT IV IV
342 e273 EST-SSR CAACAACTTCTACAGCAGCAA GCAGTAGCATCTGGCTGTGA 57 152 IV IV
343 e1121 EST-SSR AACAACGGCAACAACAACAA GTGGCCTTAGTCCCAAGAAA IV IV
344 e908 EST-SSR TGCAGTGATGAAGTGGTTGA CACTGCTCCATATCCCACAA IV IV
345 27057 基因组SSR TGACCCTAGCAATTAGGATTTGA ACCATGCCTCCAAAAACTTG 60 160 IV IV
346 24907 基因组SSR AAGCAATCCTAATCCATGTGTG CATCCTTTCCGCCTTTGTTA 59 134 IV IV IV
347 22155 基因组SSR ACCCGAGTCAGTCGCTTATG AACACGGCTTCAATTTACGA 58 135 IV IV
348 e878 EST-SSR CGCATTTTCACTCCACACAC CGTTCGGAACATCCAAGGT IV IV
349 o79 基因组SSR TTGTCTTCACCACCTTAC GATCATCAGCCAATAGTT 52 300 IV IV
350 27068 基因组SSR TTTCGGGCGTCAAATAATTC GCCACACCTCCAAATGAGTT 60 152 IV IV
351 20339 基因组SSR CCTTCCGTGACCAAGAGAAA GGTGGATGAGATGGATGAATG 60 146 IV IV
352 e307 EST-SSR CTTGTCAGCTTGGCATTCAA GCGAGTTTCCATTCATCACA 60 177 IV IV
353 e360 EST-SSR CTTGCCCAAATTCAAGCTGT CTCTATTACACAAATGCCAGTG 55 239 IV IV
354 B110 基因组SSR CCTCTTCAACGGTACGAGGA TTGCAGAGAGACGAGAGAGAAA 56 208 IV IV
355 27300 基因组SSR CGGCAGTATTTGCAACAAGA CCTCAAGGCCAGATGATTTT 59 159 IV IV
356 e1029 EST-SSR TCATTGCATGCCATTCTTTC CGAAATAGAGAAAAGATAGAACCAG IV IV
357 29971 基因组SSR CGAAATTGAATGCAGGAATG CAACCTCCAAACTCCAAACAA V V
358 28387 基因组SSR GGCTCCATATCATGTTTCTATGC AAAAGGAGGGAACATGGAAGA 60 201 V I-2 V
359 22059 基因组SSR ATCTTCCGCAACAACACACA ACGTGAAACGGCACAGTATT 58 203 V I-2
360 27937 基因组SSR ACAAGGCATGGTATGGTGGA TGAACACAAATTGCAGCCTAA 59 124 V I-2
361 S220 基因组SSR AGCTCTTTCTTCCACCACCA CAGGTTCCAGCTGAGAGGAG 55 1001 V I-2
362 e59 EST-SSR GAGGGTTTCCCGACTTCATT TAAAGGTTTTCGCCACCATC 60 154 V I-2
363 e723 EST-SSR GGGGGTGTCTTACGTTGATG CCCCAAAACCAGCTGAACTA V I-2
364 29094 基因组SSR CCCCAAAACCAGCTGAACTA GGGGGTGTCTTACGTTGATG V I-2
365 18391 基因组SSR CCATCCTCCACGTGTCTCTT TCGCATATCCAAATGCAAAC 60 142 V I-2
366 e121 EST-SSR AGCTCCATTTTGGAGTTTGT CCTGAACCTGATTATAGCCAAGA 56 211 V I-2
367 e619 EST-SSR AAGTCTCTCATACCTAACCAACCAC GCAGCCAAATTTGAGGAAGA V I-2
368 20702 基因组SSR GTTCTCCATCGCCTTCTTTC TGTGTTATGCCGAGCTTTTG 59 151 V I-2
369 e611 EST-SSR CCACAACCCCCTCTCTCTC CTGCGAATTCGGAAAGAAAC V I-2
370 e1060 EST-SSR AGAAGTTTTGTTGGTGCAAAGA TGCTCATTTCTTTACCTTTCTTGA V I-2
371 e1233 EST-SSR CGTTCCTTGTCTCTCCTCAAA ATTCCCAACATGCACCATTT V I-2
372 22184 基因组SSR GGGCGAAAACAACTTCCATA CCTGGATGCTCCCAAAATAA 60 149 V I-2
373 26117 基因组SSR CATCGGGCGAGATAACAAAT TTCCAAGCCTCACTTTCTCC 59 202 V I-2
374 26857 基因组SSR TGCTACAAGTCTAAATACAACACTCTT CGGGAAGAGAATGATGAGGA 57 133 V I-2
375 24882 基因组SSR TTTCTGGAACCTCGCAAAAC TTGCCTCAATTTGGAGACCT 60 173 V I-2
376 23829 基因组SSR CGCTCGGCCATGTAACTTAT GGAAATGGGACTGAAACTGG 59 199 V I-2 V
377 24112 基因组SSR TTGATCATCCTCTCGCTTTT TGTTGTCGTCATCAAAACACAG 57 187 V I-2
378 23525 基因组SSR TGTGCTTTTCTCTTGGCTTCT CCAGAGGAACCACAAGGTGT 59 125 V I-2
379 24512 基因组SSR AAGCGTACGTGGCAAGAAAT TCCCTGGGAGAGATGAAAGA 60 171 V I-2
380 24236 基因组SSR CAAACCTTCTTTATTTCCATTTCA ACTTCTGGTCCACGCAAAAC 59 152 V I-2
381 e738 EST-SSR CCAATGGACTAGGTGGTGGA TGATGGATGGGGTGATCATA V I-2
382 25394 基因组SSR AATGGGTTTTGCTACGTGGT GGGTGAGTGGAGAAAGCACT 59 142 V I-2
383 25076 基因组SSR GCTTGCAAGTGTGCGTGTAT CCAGCCAAATGCACAATAAA 60 181 V I-2
384 25618 基因组SSR TTCCATCGTGAACCTTCCTC CACACGACTTGCAATGTTCC 60 204 V I-2 V
385 e122 EST-SSR TCCACCGACATCTCTTCTCA AGGTGGTGGTTGTTGTTGGT 59 180 V I-2
386 19657 基因组SSR TCCAAACCCTAGTTAGAGAAAGAA AGCACCATCATCGTTCATCA 58 188 V I-2
387 28929 基因组SSR GGACTTTTGCGGGTATGAAA TGTCTCTTTAGATTCGTTCCAAAA V I-2
388 e5 EST-SSR ATTAGGGCCGGATAATTTGG TCCTCAGCAGCTGTCTCAAA 60 162 V I-2
389 25089 基因组SSR ATTCTTGTTGGCGAAACACC TTGCATTACCCAAAGCTCCT 60 185 V I-2
390 24228 基因组SSR GCAAATTTTCGTTAAATGGATGT GACAACCTGGAGACGCATTC 59 134 V I-2
391 26521 基因组SSR TGTCTAAGGGTGACAAAAGATCA TGAACCCGCTCTTCCTTACT 59 159 V I-2
392 25851 基因组SSR AGGCAACACGAGGACGAATA CGACGGAATTGAAAAACAAAA 60 152 V I-2
393 25986 基因组SSR CAATAGGCCGCGTAAGAAAA TTGCCATCGATTTGATTTGA 60 158 V I-2 V
394 22848 基因组SSR GTGGTGGAAGAGCGTTTGAT CATGGTGCGTTAACCCAGTT 60 190 V I-2
395 22829 基因组SSR TAGAAGGTTGCCTTGGGTGT GCCCACCAAAGAAATCAAAA 60 114 V I-2
396 24850 基因组SSR TGGCACACATCTTCAATACAAA GCACAACCGTTTTTGGTTCT 59 137 V I-2
397 26012 基因组SSR TGGCCCTCAACCTTGTATGT GCAACACAGAACAAAGCACAA 60 138 V I-2
398 29460 基因组SSR TTCCTGACGCGGACATTAAC GGAAATTCGGCAAGGACTTA V I-2
399 e599 EST-SSR GCAATTTTCTCACTCCATCTCC AAAGGAAAGCAACTCGGTGA V I-2
400 29839 基因组SSR GAACCTCGTTTTTGCATCCT AATGATAGGGGTTGCCACAT V I-2
401 21936 基因组SSR TGTTGTTTGTTTGGTTGAGGA CGTTGGCAAACATCATTATCA 59 187 V I-2
402 22325 基因组SSR TGCGAGGGATGAGTTTCTTT TGTGTGGCCAAATCGAAGTA 60 187 V I-2 V
403 25721 基因组SSR AAAAGGAAGCAACTCGGTGA GCAATTTTCTCACTCCATCTCC 60 168 V V
404 16452 基因组SSR CGATGGTTGCTGTTGTGAGA ACCCCAAACAAACACCAATG 61 129 V V
405 24388 基因组SSR GGTCTGGGTCTTTGGCCTAT AGCATTGCAACGAAGGTTTC 60 126 V V
406 23759 基因组SSR GGGGTGACAGTGTAGGGTTTT TAGGCACACGCTTTCATGTT 60 157 V I-2 V
407 23282 基因组SSR TGGTGATGCATGATCATTTAGA TACAACCCCACCCTGATTGT 59 152 V V
408 25755 基因组SSR TTTTCCAACTAAGGTTGTTTCTTTC CAAAAGGAGGAGGCTGAAGA 59 150 V V
409 28889 基因组SSR ATTTGTGGTGCAAGCCTTCT AAAATTGTACATGGACTCCTTTCTC V V
410 27456 基因组SSR GCACATCCCATTTTTCCAGT TTCATTACTTTGATAGTGTTCACAAA 57 120 V V
411 27661 基因组SSR ATTCATCTCTTTTCCTAAACAAAAAT CACACCTCCACGTTCATCTC 57 152 V V
412 29062 基因组SSR TCACCATCGTGAGCAAGTTC GGATGTTACGCCCACAATG V V
413 29741 基因组SSR GCAAAAAGCATTGTCCATTTC GCCTAATCTACAAACGGCTGAG V V
414 PSGAPA1 锚定标记 GACATTGTTGCCAATAACTGG GGTTCTGTTCTCAATACAAG 51 V V
415 16914 基因组SSR AACCTCGAGCAACAACAGGT TTAGGTTGGCGTTTTTGGTC 60 149 V I-2 V
416 e691 EST-SSR GATTTAATGCGCGGTTGATG TGAGTGAAATCATGGGTGGA V I-2
417 28482 基因组SSR CCGACACACTCCTCAACAAA TCATCAGGATGAGGACACTCC 60 155 V I-2
418 29694 基因组SSR GAGTGCCTGATCCAAGAGGA CTCTAAAGGGTGGCAACGAC V I-2
419 28277 基因组SSR AACACAAGCGCGTTAGTTGA GACCAGAGTCGAAGCGAAAC 60 183 V I-2
420 29430 基因组SSR TGCGATTTTTCAGTGAGGTG AACGCAGGTGATGAGCCTAT V I-2
421 27008 基因组SSR CGAGCAACAGACTGCAAAAA GCCAACTTTCAATGTTTGACATA 59 132 V I-2
422 16549 基因组SSR CAATGAGATGCTGGCGATAA GTTCGGTGTTGTGGGTTTTT 60 140 V I-2
423 e506 EST-SSR CCCCTTTATCCCCCTATTTC CCTCAACACCAATGAACCAC V I-2
424 e938 EST-SSR CTCCTCCTCTGATCCCTTCA AAATTTCGATCAGGGGTTCC V I-2
425 e625 EST-SSR GCTCCAATGGCTTCCTAACA AACAAGGGGCAATCACAATC V I-2
426 e800 EST-SSR AATCGCCAAAGGGTTTGTTT CGCTTTGGTTCTAGCAGGAT V I-2
427 e1095 EST-SSR TATCCATTGCCAGCAGCATA AATCGCCAAAGGGTTTGTTT V I-2
428 157 基因组SSR CACATCGACAGAGACATACGA GTGTGTGTGATGTGTGTGGTG 57 70 V I-2
429 21491 基因组SSR ACACGGGATCGAGCTTTAGA TCCTTTCCTCTAACTTCTTCCTTCT 59 175 V I-2
430 3644 基因组SSR CACACGCAGAATCACACGTA CGTGTGTGTGCATGTAATCG 59 176 V I-2
431 3790 基因组SSR GCGTGTGTACATGTGTGTGC GCGACTTGCACAAGCAGA 60 182 V I-2
432 4696 基因组SSR TGCATGTGCATGTAATCGTG TCACACGCACGTACAAATCA 60 213 V I-2
433 5849 基因组SSR ACATTCACACACACACGCAA AAGCTGTGTGCACGTGAGTT 60 278 V I-2
434 3919 基因组SSR GCACACGCAAACTCACAAGT TGCGTGTGTGCATTTGTTTA 60 186 V I-2
435 919 基因组SSR GCACACGCAAACTCACACTT GCGCATGTGCATTCGTGT 60 94 V I-2
436 4190 基因组SSR ACACGCATGCACGATTACAT TGTCCGTGTACGAGCTTTTG 60 194 V I-2
437 4013 基因组SSR ACACGCATGCACGATTACAT GTACGAGCTTTTGTCACGCA 60 189 V I-2
438 3772 基因组SSR CATGCACGATTACATGCACA CGTAGCTTTGTCACGCATGT 60 181 V I-2
439 4156 基因组SSR ACACGCATGCACGATTACAT GTGTCGTGTACGAGCTTTGC 60 193 V I-2
440 3835 基因组SSR ACACGCATGCACGATTACAT GCTTTGTCACGCGATGTGTA 60 183 V I-2
441 4427 基因组SSR ACACGCATGCACGATTACAT CGTACGTGTCCGTGTACGAG 60 202 V I-2
442 3955 基因组SSR ACACGCATGCACGATTACAT ACGTAGCTTTTGTCACGCAT 58 187 V I-2
443 4014 基因组SSR ACACGCATGCACGATTACAT GTGTACGAGCTTTGTCACGC 60 189 V I-2
444 3567 基因组SSR TGCATATGTGTGTGTCTGCG ATACACATGCGTGCAAAAGC 60 173 V I-2
445 4274 基因组SSR CACACAGAAGCACACGCC GCATGTGTGTGTGCGATGTA 60 197 V I-2
446 4043 基因组SSR ACACGCATGCACGATTACAT CGTGTACGTAGCTTTGCACG 60 190 V I-2
447 3695 基因组SSR ACACGCATGCACGATTACAT TTGTCACGCATGTGTATGTGTT 60 178 V I-2
448 3771 基因组SSR ACACGCATGCACGATTACAT GCTTTGTCACGCATGTGTATG 60 181 V I-2
449 1683 基因组SSR GTGCGCATGGTGCATATAAA CATATACACACACGCACGCA 60 113 V I-2
450 3807 基因组SSR ACACGCATGCACGATTACAT GCTTTGCACGCATGTGTAGT 60 182 V I-2
451 4114 基因组SSR ATACACGCATGGCACGATTA GTACGAGCTTTTGTCACGCA 60 192 V I-2
452 3600 基因组SSR CACATGCACACGCACACTTA TGTCCGTGTACGAGCTTTTG 60 174 V I-2
453 4080 基因组SSR ACACGCATGCACGATTACAT TGTACGAGCTTTTGTCACGC 60 191 V I-2
454 3770 基因组SSR ACACGCATGCACGATTACAT AGCTTTGCACGCATGTGTAT 59 181 V I-2
455 3808 基因组SSR ACACGCATGCACGATTACAT GCTTTTGCACGCATGTGTAT 60 182 V I-2
456 3921 基因组SSR ACACGCATGCACGATTACAT TACGAGCTTTTGTCACGCAC 60 186 V I-2
457 3377 基因组SSR CACATGCACACGCACACTTA CGTAGCTTTGTCACGCATGT 60 165 V I-2
458 3597 基因组SSR CGGGTTCACGTATGTGTGTT ACGCGTATATTCACACGCAC 59 174 V I-2
459 3923 基因组SSR TACACGCATGCACGATTACA CGTAGCTTTGTCACGCATGT 60 186 V I-2
460 4825 基因组SSR GCATGTGCATTTAATCGTGC TGCACACGTACACACAAATCA 60 220 V I-2
461 3298 基因组SSR TATGCGTGTGTGTGCTTGTG CACACATACACGTGTGAACCC 60 162 V I-2
462 3181 基因组SSR CACATACACATGCGTGCAAA CGTGTGGTCATGTACGTGTG 59 158 V I-2
463 24331 基因组SSR AATGGCGCACTTCACTTTCT CCGTTAACGCCTAGCTCAAG 60 137 V I-2
464 25387 基因组SSR GGCTCATGCATCTACCACCT ATCCCGACGTTCACATTTTC 60 170 V I-2
465 24186 基因组SSR GGTGGATCCTCCTTTTGTCA TCCCAATCACCACTTCTTCA 59 167 V I-2
466 19075 基因组SSR CACGAGTACAACATGGAGTGAAG CAAGCTCAACCTCCTCATACC 59 187 V I-2
467 e531 EST-SSR CACCTCCACCCTTTCACCT CTGGAGGTGGGAGATTGTCT V I-2
468 28857 基因组SSR CCGAAATGTTCCGAAGAGAG TTTCAATTCAATGCCGAAAT V I-2
469 27046 基因组SSR AAAGAAGGGGATGCGAGAAG GCTCAAGTCAGTCGGACCAC 61 145 V I-2
470 30087 基因组SSR CGCATACACTGAGGTAACACC AATACACCGGAAGAGGACCA V I-2
471 o65 基因组SSR ACCGCAACAACAGGATAAT TGAGGTGAAATCGGAAGAC 53 143 V I-2
472 e1035 EST-SSR TTTTGCACCCCCTTATGTCT CCACAAAACTCGGGTGAAAT V I-2
473 19252 基因组SSR CAATATTGATCGGAATTTGTTTC TGCGGTTTGATTGAGTTTGA 58 199 V I-2
474 29379 基因组SSR AGGCACGTTGGTGCTAGACT CCTCAATGATCCCAAAGCAC V I-2
475 e178 EST-SSR CGAAGAAGATCAAAATCACCAC AGCTTCAGGGGTTTCTTTCC 59 195 V I-2
476 e135 EST-SSR GTTCGTTCGTTCGTTCCTTG TCTGTCTGGAAATGAAATGG 56 219 V I-2
477 AD147 锚定标记 AGCCCAAGTTTCTTCTGAATCC AAATTCGCAGAGCGTTTGTTAC 61 330 V I-2 I
478 e921 EST-SSR AAGGGGTGATCAAGCATCAA TTGAGGGAACATGAAGAAATCA V I-2
479 e915 EST-SSR GTGGACTCGGATTGGGACTA GCATCGACGACGAAGAAGAC V I-2
480 111 基因组SSR CGCACAGCAACACACACAT GCAGTTAGTGCGTGCGTG 60 68 V I-2
481 22913 基因组SSR TCCAACAAACTCAGCCACAG CAATGGTGGTGGTGCTCATA 60 175 V I-2
482 23383 基因组SSR TGGAGAAATTGGTGGTGACA TGCAACCATGTTCTTGTTCC 60 141 VI VI
483 23611 基因组SSR TGCAAATGTGCAATGAATGA GGCGGACATGAGAAGGAATA 60 187 VI VI
484 25953 基因组SSR GGCCACAACCGTGATGAG GGATCCAAGACCGAGACAAC 60 117 VI VI
485 24326 基因组SSR AAAACGAGAGGCTCGAAACA ACTAAAACCTCGCGCATCAC 60 185 VI VI VI
486 17422 基因组SSR ACCACAAATGCTTCCGCTTA GTTGTTGTTGCTGCTGCTGT 60 200 VI VI
487 22197 基因组SSR GTTGTTGTTGCTGCTGCTGT ACCACAAATGCTTCCGCTTA 60 200 VI VI
488 29622 基因组SSR AACTTCTGCAGTGGCATGTG CAAAACAACCTATAAGGATGGAAAA VI VI
489 29331 基因组SSR GGGTGGACCGAATATTTCAA CGTCACCTCTACCGAAGCTC VI VI
490 e124 EST-SSR GCTTCTGAACCAAGCACACA AACAATCCCATGTATCAGCAAC 59 235 VI VI
491 e1097 EST-SSR CCCTTCTCATGGGGAATGAT TAGTCCATGGAAGCGGAAAA VI VI
492 e1105 EST-SSR TAGTCCATGGAAGCGGAAAA CCCTTCTCATGGGGAATGAT VI VI
493 27153 基因组SSR GGGAGCGATGCACATAGTATT GCCCTACAACGAGTGACACA 59 134 VI VI
494 26929 基因组SSR CACATTCACGACGAGGACAG GCACACTGTAAGCACTTTTCTCA 60 142 VI VI
495 e853 EST-SSR CTTCCCGGGTAAGAACAACA GCTATGGTTCAGGCGTTTCT VI VI
496 23637 基因组SSR AAGAGGCTCGTGACCCAATA TGCATTGCATCCTTCAAGAG 60 192 VI VI
497 AD160 锚定标记 ACCAGTCAAATGGTTAGAAAGT GAATGGAAAAGAGAATCAAGTT 51 190 VI VI VI
498 23578 基因组SSR AAGGAAGGTGGTGTGGAATG CAATATTACTCAGCCATTAATTAACCT 58 205 VI VI
499 PSGSR1 锚定标记 TGAAACCACCATTCTCTGGA AAGACCCCACTTGAAAATTACTTC 58 VI VI
500 25075 基因组SSR CATCACTCACTCGCCAAAAA AACCATCTTTGCCAGGTACG 60 192 VI VI VI
501 e709 EST-SSR TGTGCAACCGAGATTGGTAA CGCCAAAAATACTGATTCACTTC VI VI
502 27176 基因组SSR TGCCTTCAGGTTTTCAAGGT TGATGAAAGCAATTTTCATGACTT 60 147 VI VI
503 29246 基因组SSR CCCTTGCTTGGGTAAGAAATC GTGCCGGGTATGTATCTGGT VI VI VI
504 4816 基因组SSR CGTCATCATTGTTCGTCATTCT GGTCGTAGGGTGTGTCGTCT 60 219 VI VI
505 2089 基因组SSR ACACACGTCACACACACGTC TGATGTGTATGCGTGATGGA 59 124 VI VI
506 28621 基因组SSR CGTTTTCACATTCGCTAACC TGGAGAAAGGTTTCCTGATGA 58 171 VI VI
507 27428 基因组SSR GCACGCCTGACTTCTTCTTT AAATGGATTGCGACGTGATT 60 174 VI VI
508 24560 基因组SSR GATAAAGGCAGCGACAGAGG AATGAAGTGCAAGCCCAAAT 60 202 VI VI
509 23737 基因组SSR CGTGCAACCATAGCAAGAGA AAACCGCTCAAGCTCAGGTA 60 182 VI VI
510 26025 基因组SSR ATGCACTCAAAGGCCATCAT CACTTGCAGAGCGAGAGAAA 59 113 VI VI
511 24906 基因组SSR TCGAGTCAATCGCTCAGAAC TGCCCAGATGTCATAAGGTG 59 134 VI VI
512 16445 基因组SSR TCAAACCGCTGAAAAACAAA GCGGTGGGAGGGAGATAC 59 128 VI VI
513 16397 基因组SSR AGGGCCAGGTTTATTTCCAC TTTCCCAATGGCAAGTTAGC 60 123 VI VI
514 e715 EST-SSR CGTTGAAACAGCGATTCTGA TTTCTTCAATACCTCAATGGTTC VI VI
515 28153 基因组SSR TGGGTTGTCGTGTTGTTGTT AACACTCCCAACTCCATTTTT 58 183 VI VI
516 27491 基因组SSR TCCTAACCAACCAATAACACGAT TTGAGGATTTCGGTGACCTC 60 180 VI VI
517 C58 基因组SSR TCACGTGCTTGTCGTTCTTC TAAGAAACCGCCATGGAT TT VI VI
518 B117 基因组SSR ACATCAGGGAAGAACGCATC GAGGGTGAAGACCAGCTTTG VI VI
519 30379 基因组SSR TGTTGGCAGGAAACTCTTCA AGCCACAAATTTCGTTGTGTT VI VI
520 24575 基因组SSR TTGTGAGCACATTGGAGGAG GGATTGTGTTGGTTAGAGAAAGAGA 60 161 VI VI
521 23468 基因组SSR CGGCAGCATCTACACAAGAG ACGTTGAAGACTCCGTCACC 60 171 VI VI
522 29440 基因组SSR TGTTCCCCTTTAATTTTCATCCT AAGAAGCCGTCACGAAATGT VI VI
523 30004 基因组SSR TCTTTGCGGATATGCATTTTA CGGGTGAGGACTGAAAACTC VI VI
524 2614 基因组SSR ATGTGTGTGCGTGTGTGTTG GATTGTTATGTGCTGCGTGG 60 140 VI VI
525 3494 基因组SSR GCACCGCTCTGACACTCATA TGAGAGTGGAGTGGCTGAAG 59 170 VI VI
526 3244 基因组SSR CTTCCCCTCGCAATTTATGA ATGTGTGTGCGTGTGTGTTG 60 160 VI VI
527 4583 基因组SSR ACACCATTGCACCATTCTGA TGCGTGTGTTGTGAGTGAGA 60 208 VI VI
528 4581 基因组SSR ACACCATTGCACCATTCTGA GTGCGTGTGTGTTGTGAGTG 60 208 VI VI
529 4629 基因组SSR ACACCATTGCACCATTCTGA GTGCGTGTGTGTGTGAGTGA 60 210 VI VI
530 4811 基因组SSR ATGTGTGTGCGTGTGTGTTG ACACCATTGCACCATTCTGA 60 219 VI VI
531 e93 EST-SSR ATGGCCTTTGCAATTACAGG GCTGATGTTGGCCAAGGTAT 60 203 VI VI
532 e771 EST-SSR TCCGGCAAGATATTGGAAAA CTGCAGAGGCTGTCACTCAA VI VI
533 e1109 EST-SSR TCCGGCAAGATATTGGAAAA GCTTGGATCGCAGGAAAATA VI VI
534 20896 基因组SSR TGATGACCCTGCAAATTCAA TGCACCACTGTCAGGTGATT 60 131 VI VI
535 e596 EST-SSR TCCCTCATTCTCCCTTTTCA GACGGCGCTGATGATAGACT VI VI
536 e1098 EST-SSR AGAGGACGTGTTGCTGTGTG CACAGAATTGGCAGAAACAGAG VI VI
537 27272 基因组SSR TGTAGCGGCACACTTTGAGA GATCTCTGCCACCCATCTTC 60 190 VI VI
538 28790 基因组SSR GCTGTGGGGGTTTAATCAGA CCGCAATCCTTCAAGAACTC 60 133 VI VI
539 29200 基因组SSR ATGCTGATGAAATGCGAATG CATCTGTACCCGGACCTTTG VI VI
540 27844 基因组SSR GCTTCAAGCTACCAAGTGGA CCTCACGGGCTCTACCATAC 58 118 VI VI
541 29877 基因组SSR GTCGTGGGGAAAAGGTATCA GGTACGACAACCCTACCTTTG VI VI
542 e975 EST-SSR AGCAGCTCCTACTCCTTCTCC GCGCAAATCCTATTCCAAAG VI VI
543 e940 EST-SSR GCGCAAATCCTATTCCAAAG ATTTCAGCAGCTCCTACTCCT VI VI
544 19691 基因组SSR TTGTAAGACCGACTCGTCCA CGGTCTGAGGTTGTTGTGAA 59 146 VI VI
545 16588 基因组SSR CGGTCTGAGGTTGTTGTGAA TTGTAAGACCGACTCGTCCA 59 146 VI VI
546 25488 基因组SSR TGAAGAATGAGCTTCAATTTTTGT GGGTGCAATCATGAGTGTTG 59 145 VI VI
547 26625 基因组SSR GCTCCATCACGGTGAGTTTT TCCCACTTTCACGATGTTCA 60 191 VI VI
548 25280 基因组SSR CTCTCTGCCCACTGCTCTG TCTCACGTTGGGATGCTAAA 59 122 VI VI
549 25711 基因组SSR AAGGTTTTGAAATAAATGAAGTTTG TGAAAGCCCACTTGATCTTC 57 188 VI VI
550 25888 基因组SSR AAGGGGGAGAGAGGTGGTTA TCGCCTTTTCTTTCTTCTTCA 59 164 VI VI VI
551 AA335 锚定标记 ACGCACACGCTTAGATAGAAAT ATCCACCATAAGTTTTGGCATA 61 220 VI VI
552 23568 基因组SSR TCCCTCATTCTCCCTTTTCA GACGGCGCTGATGATAGACT 60 127 VI VI VI
553 23081 基因组SSR ACCCTTGCTTTGCCACATAA TGTTGCTCTTTTGTTGAGTTGA 59 149 VI VI
554 23431 基因组SSR GCAACAACAGCAACCTCTGA TGAAGGTGGAACTTGGTTTTG 60 145 VI VI VI
555 27435 基因组SSR TTGATGCTCTTCTTCCATTCAA CATACAAAACACACAAAAAGGATTG 60 171 VI VI
556 16410 基因组SSR AAGGTCATGCTTCTTCATCTCT GGGTGAGGTGTTATGGCACT 57 125 VI VI
557 28516 基因组SSR CCAAAATTCATGCATGGTACG TCCAGTGGCTCATAGAGGAGA 60 169 VI VI
558 26140 基因组SSR TTGTGTGCAAACCACCTAGC GATTGCATCACACGGTCAAG 60 200 VI VI
559 23309 基因组SSR GAAGATGGCAACGTGTCAAA AACTCATCCTCCACCACCAC 60 128 VI VI
560 29872 基因组SSR TCCACTTCCACCCACAAAAT GCAATGGAGGTTTTGCTTTT VI VI
561 26514 基因组SSR TGGGCACAAGTCTGTGAGAA TTGGGTTGAGGTGTTTAGGTG 60 153 VI VI
562 AD60 锚定标记 CTGAAGCACTTTTGACAACTAC ATCATATAGCGACGAATACACC 51 216 VI VI
563 AB71 锚定标记 CCAACCATTTGTGAGTTCCCTT TTCGTCGAACCACGAGAATAGA 61 145 VI VI
564 23949 基因组SSR TCGGTCAATTTTCACGTAGC GCAGAGAATGAAAGAAATATAAAGAAA 58 142 VI VI
565 22903 基因组SSR TGCTTGCCAGAATAAAAGTCC CCTCTAGGGTTTCGGGTCTC 59 181 VI VI
566 27055 基因组SSR TCTGCAAACTCCCAACACTG GGTGGTTTGGTTGCAATCTT 60 206 VII VII
567 e282 EST-SSR GGCAAGCATAAAAGGGACAC TTCATCCAAGAACCCTCGAC 60 185 VII VII
568 e144 EST-SSR TCCATTTCCCGAGTTTATCG AACACGAATATGCAACAAGC 56 151 VII VII
569 S244 基因组SSR TTTAGCACAGAACAGCGTAGT TAACGCCCTTGAGAATTTCG 53 606 VII VII
570 21399 基因组SSR TGATTCTAGTTCATTTCACAAACACA CGTCCTGCACCTAGCTTCTT 60 153 VII VII VII
571 26099 基因组SSR GCTCTTCGTAACGCTCACAA TGACGACGGAGACTGAGTTG 59 201 VII VII
572 19979 基因组SSR CACCAGAAAATTTGTTATCAAAAAGA GCACCCTGGGAAATTACAAA 60 161 VII VII VII
573 24547 基因组SSR CGGCAGAATTAGGGTTTTGA TCAATTCCGAACCACCTTTC 60 198 VII VII
574 e968 EST-SSR ACCGCTTGAACTCCAAACAA GAAGGTAACAACGCCGAGAA VII VII
575 18013 基因组SSR TCAATTCCGAACCACCTTTC CGGCAGAATTAGGGTTTTGA 60 198 VII VII
576 S144 基因组SSR TTTTCTCACCGCGCTTATTT AACAACCACCGAAGACGAAG 54 235 VII VII
577 20828 基因组SSR CATGGATCCCAACAGAAACA TGGTTTTTACCCGAGACTGG 59 144 VII VII
578 e876 EST-SSR GCAGATTGACTGCTCATGATGT AGCTGATTATTGGGCACCTG VII VII
579 21405 基因组SSR TCCACCATCTAATCCCCTCTT AGCTGATTATTGGGCACCTG 60 147 VII VII VII
580 18103 基因组SSR CATGTGCATGTGCAAGTACG CTTTAAAATGCCCGGACAAA 60 209 VII VII
581 17431 基因组SSR TTCACAATTCACCACCAATCA CCAACGTCAGGTACGATTCA 60 201 VII VII VII
582 17666 基因组SSR GTGCATTGGCTCGTACTCAA TCCACAATATAGCCCAGACCA 60 158 VII VII VII
583 S85 基因组SSR TTCCAACCATGGAAGCTTTT TTCTTCGTCGGGTACAGTGA 54 188 VII VII
584 e255 EST-SSR TGGAGAAGGGCAAAATATCG TCTCAACACCACATCAAGGAA 59 249 VII VII
585 25965 基因组SSR TGATTCGTAGACCCCACACA AAGGTTAATGTCTTCTTTTTGAAGTT 57 150 VII VII VII
586 17384 基因组SSR AGTAGCGGTGTGTGGTTGTG GGGAAGAAAAAGGTTGGAAGA 60 197 VII VII VII
587 30253 基因组SSR CTACGTTTGGCCCTTGTGTT GGCCCTAAATCTAAAATGAACAA VII VII
588 B179 基因组SSR ACCGACGCTTCAATGGTATT TTCATCTCCGACCCTACACC 55 267 VII VII
589 e499 EST-SSR GACTCCACGCACAGAACTGA GGAGAGGGGAGTGAATGTGA VII VII
590 e544 EST-SSR CACTACACAAGAAGCAAAGAAAAA ATTCCTTTCCGGTCCATTTC VII VII
591 e1002 EST-SSR CCACGCGTGACAAGTAAAGA ATTCCTTTCCGGTCCATTTC VII VII
592 21420 基因组SSR GGTGGTCGACGTATCGAAGT TCAATGTTGTTGCGCTTACAT 59 142 VII VII
593 18255 基因组SSR TGTCAAATCCAATAAAAACACACA TTTGTGCACACCGTCAATTT 59 129 VII VII
594 e643 EST-SSR CACCACCACTCTCACACCAT TGCATTGCGAGAGTAAGACAA VII VII
595 e825 EST-SSR AGTTTCCGCCATCAACATTT CCTACCTGCATTCACAACCAT VII VII
596 17225 基因组SSR GTTGCAAGCTGCTACCATCA AGACGGATCCAACAATCTCC 59 182 VII VII
597 17593 基因组SSR CATCCTCCTCCTCCATACCA TCATCATCAATGCAAAGGACA 60 148 VII VII
598 24407 基因组SSR GGGATCAAAGCAACCCTTTT CATGGCAAGGAAGACCGTAG 60 208 VII VII
599 24810 基因组SSR TGAGCGAGGTAGGAAGAACC CCTCTACAGTGGCCCTCTCA 59 132 VII VII
600 25354 基因组SSR ACCCTTGGGGCTTACAATTC GACGTGGCTGGACATAACAA 60 184 VII VII
601 25799 基因组SSR CTGCAGAAGGCCCTGTTCTA GATTCTTCATTCTCAACACACATTG 60 137 VII VII
602 25430 基因组SSR GCACTTGACGATGCATTTGA GGGAAAGGGAACGATTTCAT 60 210 VII VII
603 23294 基因组SSR GGAGGAGGATGACGATGAAA AGGGCTACCGGACTGAAACT 60 172 VII VII
604 24142 基因组SSR GCAGCCATGGTTGATTGATT TCAAGAACATTACTTTTTCCCTCT 58 194 VII VII
605 27051 基因组SSR TGGTGGTGGAGAGTGATTGA TCTGGTGGTACTTCCTCCAAAT 60 208 VII VII
606 e1114 EST-SSR GTGCGGCTTCATTTTCAACT TTCTCAACTGGTTGGTTCCATA VII VII
607 e1209 EST-SSR AGTGCGGCTTCATTTTCAAC TCAATTTGATCCATGCAGTAGG VII VII
608 AF004843 锚定标记 CCATTTCTGGTTATGAAACCG CTGTTCCTCATTTTCAGTGGG 54 VII VII
609 23606 基因组SSR GGGTTTGCCTCTTTTTCTCTC ATCGTCAAAACTGCCCAAAC 59 113 VII VII
610 21345 基因组SSR TGCAATGCATGTTGATACGTC GCAAAAACTCAAACTCAAACTCAA 60 152 VII VII
611 27583 基因组SSR TGCACAGAGGATGGTTCTCA TGGATTGAGCCTCTTGTCCT 60 110 VII VII
612 25610 基因组SSR TTTGGTCGTTGCCAAACTAA AGGACATACCGAGCCAGATG 59 133 VII VII
613 26656 基因组SSR AGAAGAGCGTCGGGAAGAGT CCATGACGGAAAACAACCTT 60 188 VII VII
614 25728 基因组SSR TGGACAAATCTCGTGCAAAG CCAACTTCCCATCTCCAACA 60 164 VII VII
615 24471 基因组SSR CAACACAACCTCCTCCAGGT TAAGCCATTCCCACCTTCTG 60 121 VII VII
616 24734 基因组SSR CGCATGAGAGGATAATGATGAA CCATAGCTTTCCCGAATCAG 60 183 VII VII
617 24588 基因组SSR AAATAGATGAGAAAGAGAGAGATTACG CGCACTTCCATTCACATGAT 57 137 VII VII
618 24602 基因组SSR TGAGTGGGCGTGTGATTTAG TTGCACTGTCGCATTTGAGT 60 118 VII VII
619 24503 基因组SSR AAAGGAGATCACCTATGAGAGAGAA AATTGATTTGGGATCTTGGATA 57 154 VII VII VII
620 28097 基因组SSR CAAAATCGGCAGGATTTACAA TTTGCCTATGAACCTAAAACCAT 59 124 VII VII
621 24814 基因组SSR GTGCAACCAGAGCATGTTTC CATCGACTGTGGAGACATTGA 59 152 VII VII
622 AB65 锚定标记 CTCGTATCCAAAGATTCGTAGA AGGGTTAATCGGAGTTTTATGA 51 VII VII
623 29468 基因组SSR AGTACTCTCGCCGCATCAGT CACCCCACTTGAGCATATCA VII VII VII
624 28967 基因组SSR CTCGTCCTCATCGAAAAGCTA GTGAACAACGCAAGGGTTTC VII VII
625 29500 基因组SSR TGGGAATTGACGAAGAGTGTT ATGGAGAGGGTTGCTGACAT VII VII
626 e46 EST-SSR AGGAGGGAGTGGTGGAGATT CATCACGTGCTTGTGCTTCT 60 227 VII VII
627 e1173 EST-SSR TGATTCCGAATGGGAAACTT AATCCGCAAACACATCAACA VII VII
628 e1276 EST-SSR TGAAACAATAGTGCTTTGTTGAAACT TTTTCTCGTCTGCGTGTGAC VII VII
629 22060 基因组SSR CCGCCTTAGGAAGCCTAACT CGGCTTGATAATTTGGTGCT 60 181 VII VII
630 e628 EST-SSR GCCACCCTGTTTCTGCTAAC CTTGTGGATCGGTTCGTGAT VII VII
631 e524 EST-SSR TCACACCATAGAGAATAACAACAACA TCTGAAGCCATCTCCATTCTC VII VII
632 28608 基因组SSR TCATGATTTCAAATTTCTTTCACAA CGCCGTTGGGTAATTGTAAC 60 136 VII VII
633 22101 基因组SSR ACCAATCCAGACGCAAATTC GGGGACAGTGACGAGAACAT 60 156 VII VII
634 19460 基因组SSR CAATCCAAACGCAAATCTAACA AATTGCAAGCCCTACACACA 59 187 VII VII
635 17910 基因组SSR CATGCCTGCTTCCTTCTGTT TTGCAATTTCAAGCCTTCAC 59 187 VII VII VII
636 27398 基因组SSR GAACCACATTGGGGATTCTG AACCTGCAAAAGCCATAAGC 59 180 VII VII
637 30165 基因组SSR CCTTTTTACCCCTCCCTCAG TCAAATGCAAAGGGAAACAA VII VII
638 27755 基因组SSR TGCATTTGAGCTAGTGACATTCT AAAAACCAACCCAACCACTT 58 163 VII VII
639 e1193 EST-SSR GTTGGCGAGGAATGATTGTT TCACACACTCTGCCATTTCA VII VII
640 PSAB60 基因组SSR AATTAATGCCAATCCTAAGGTATT GGTTGCACTATTTTCGTTCTC 59 VII VII
641 28054 基因组SSR AGCAAAGTCACCAGCTGTTTT TCCTGTTCTAAAACAAAAACAAGAGA 59 113 VII VII
642 30124 基因组SSR GACTATGTGTGTGCATGAATTTGA GGCCATCTCGTTTCAGTACC VII VII
643 30304 基因组SSR CACGCACAGACAGATCATCA GAAGTTGGGGATGGGAAGAT VII VII
644 28108 基因组SSR CGACAATGTTGCCAGCTATC TTTTAGGATTTTATCGACGTTTTTC 59 119 VII VII
645 e291 EST-SSR CAAGCGTCGAAGATGAACAA GCTGGCTGCAAAAGTTTACC 60 205 VII VII
646 e292 EST-SSR GCACATGAAAAATGCCAAAG CTGTTGCTGTTGGTGGTGAG 59 220 VII VII
647 PS11824 基因组SSR ACCACCACCACCGAGAAGAT TTTGTGGCAATGGAGAAACA 52 210 VII VII
648 e527 EST-SSR TTGAAGCAGTGGCAGAGTTG TCTCAATGAAACATAAGAATGACCTT VII VII
649 e1202 EST-SSR TGCATGGTTATGATGCTTGA TCACACACCCCTTCAATTATTC VII VII
650 23521 基因组SSR CGCCAATTCCTTTTCCCTAC AGAACTCACAGGCGATGGTC 60 112 VII VII
651 24652 基因组SSR GAGAAAGCGGCTGCTTAGAA GCTGTCACCGAGAATGATGA 60 190 VII VII
652 25241 基因组SSR TGCAAGCAAGCAAAATTGAA TGCATGCCCTTTATTTCTTTG 60 142 VII VII
653 24944 基因组SSR TCAACCGGAATCTGGAAAAC ATGGCGCAATCCTAGTGAAC 60 193 VII VII
654 22896 基因组SSR ATGTACGCCATGCAGTCAAA ACAAGATGGGCGTCGAATAC 60 151 VII VII
655 24398 基因组SSR TTCGATGCATGAATGACAAA ATCGGCGGAGACTAAGATCA 59 142 VII VII
656 20817 基因组SSR GGCGTAGAGGGCTAAACCTT TTCCCGAGTCCTAACTTTCTTG 60 135 VII VII
657 19526 基因组SSR ACTCCTGGACACCCTGAGAA CTGACCAAGGGGACCTGTAA 60 198 VII VII
658 29620 基因组SSR CCACTGAAGGCTCCTGAACT AGCGATCACCGATAGTGTCC VII VII VII
659 e1220 EST-SSR ATGGTGGTGGAGGTGTGATT CATCGCCAAATGGATCTTCT VII VII
660 17980 基因组SSR CAATTCACAACGTTCCACTCA TTTTCGTGAAATTGAAATGACC 59 194 VII VII VII
661 29248 基因组SSR CAACAATGTGCATGGAAAAA CTCGCATTGCGTAACGATAA VII VII VII
662 28595 基因组SSR CCGGTTCATCGATAAATGTGA TCTCAAACCCACCAACAACA 60 199 VII VII
663 2629 基因组SSR CAAAACACATACGCACACACA CCCGTCATGATGTCATGTAAA 59 141 VII VII
664 e123 EST-SSR GAGCACAACTTTGCAAGCAG ACACGTCATTTCAAACCACT 55 198 VII VII
665 e1249 EST-SSR CCCGTTTCAAATTAGAACGATAA CACGGTTCGGCATTTATTTC VII VII
666 23536 基因组SSR GACGTTGATTGGCCTGTTTT TGACCATGACATGCCTGTTT 60 180 VII VII
667 21796 基因组SSR TCTTCGCTGGGAAGTTGAGT GGAAGCGATGTCGTTTCATT 60 210 VII VII VII
668 28261 基因组SSR CTCTCCCCATGGAGAACAAC AACAGCTGAAATTGGCGTAGA 60 131 VII VII

Supplementary Fig. 1

Comparison of the common markers among the integrated map and the two individual maps as well as the physical map of the reference genome (A–G) Numbers on the left of the map and labels on the right of the map represent the position and name of markers, respectively. The map distance unit of genetic maps including PSP1, PSP2 and integrated map is cM, while the map distance unit of physical map of the reference genome is MB. The red and underline labels represent anchor markers and common markers, respectively. Marker names that start with “e” represent EST-SSR markers."

Supplementary table 2

BLAST results of common markers on genetic linkage maps of pea"

标记名称Marker name 连锁群Linkage group 染色体/连锁群 Chromosome/LG 比对条数 Number of blast results 最小E-value
The minimal of E-value
最高比对率
The maximal identifies (%)
起始位置
Start position
终止为止
End position
比对长度Mapped length
整合图谱 Integrated map PSP1
G0003973 × G0005527
PSP2
W6-22600×W6-15174)
20229 I I I chr2LG1 20 6.7E-94 100 21,564,671 21,564,851 180
25334 I I I chr2LG1 4 2.7E-70 100 329,941,758 329,941,897 139
23261 I I I chr2LG1 1 1.7E-79 100 410,201,631 410,201,786 155
24301 II II II chr6LG2 1 3.9E-58 96 44,747,008 44,747,143 135
28257 II II II chr6LG2 1 3.5E-55 93 89,359,789 89,359,941 152
17754 II II II chr6LG2 1 3.0E-85 99 284,992,981 284,993,149 168
25769 II II II chr6LG2 17 3.9E-58 95 379,342,213 379,342,360 147
25792 II II II chr6LG2 3 6.5E-121 93 430,274,319 430,274,608 289
26850 III III III chr5LG3 1 4.5E-80 99 95,945,216 95,945,375 159
21726 III III III chr5LG3 2 4.4E-80 100 105,392,839 105,392,995 156
25151 III III III chr5LG3 31 4.4E-80 100 128,426,677 128,426,833 156
18135 III III III chr5LG3 1 8.3E-59 100 157,545,697 157,545,816 119
22754 III III III chr5LG3 3 2.2E-82 100 178,517,012 178,517,172 160
20075 III III III chr5LG3 1 6.6E-45 95 255,763,443 255,763,559 116
29630 IV IV IV chr4LG4 1 2.3E-97 100 77,755,735 77,755,921 186
28304 IV IV IV chr4LG4 4 5.8E-64 99 77,763,197 77,763,328 131
27275 IV IV IV chr4LG4 5 1.1E-58 94 144,374,211 144,374,362 151
24036 IV IV IV chr4LG4 1 1.5E-102 100 298,729,278 298,729,473 195
19487 IV IV IV chr4LG4 2 3.6E-92 100 329,433,230 329,433,407 177
21622 IV IV IV chr4LG4 1 1.0E-69 100 411,138,053 411,138,191 138
24907 IV IV IV chr4LG4 1 7.5E-67 100 441,578,306 441,578,439 133
23829 V V V chr3LG5 4 2.8E-104 100 40,897,218 40,897,416 198
25618 V V V chr3LG5 10 8.7E-101 99 91,875,171 91,875,372 201
25986 V V V chr3LG5 1 9.0E-56 91 181,332,864 181,333,028 164
16914 V V V chr3LG5 1 2.2E-45 89 191,073,596 191,073,747 151
22325 V V V chr3LG5 1 5.4E-91 98 221,771,656 221,771,845 189
23759 V V V chr3LG5 1 4.4E-80 100 276,140,552 276,140,708 156
24326 VI VI VI chr1LG6 1 3.3E-96 100 30,662,379 30,662,563 184
25075 VI VI VI chr1LG6 1 1.0E-92 98 46,237,147 46,237,342 195
29246 VI VI VI chr1LG6 2 5.0E-72 100 63,898,496 63,898,638 142
23568 VI VI VI chr1LG6 1 7.9E-63 100 339,601,745 339,601,871 126
25888 VI VI VI chr1LG6 1 4.1E-84 100 342,366,936 342,367,099 163
23431 VI VI VI chr1LG6 1 3.5E-73 100 359,154,849 359,154,993 144
21405 VII VII VII chr7LG7 1 4.0E-47 90 23,151,033 23,151,166 133
17431 VII VII VII chr7LG7 2 7.5E-94 98 28,469,955 28,470,153 198
19979 VII VII VII chr7LG7 1 8.3E-71 97 33,247,383 33,247,539 156
17666 VII VII VII chr7LG7 1 8.1E-71 97 33,247,466 33,247,619 153
25965 VII VII VII chr7LG7 1 7.5E-49 89 79,270,351 79,270,512 161
17384 VII VII VII chr7LG7 1 4.0E-103 100 86,051,350 86,051,546 196
29468 VII VII VII chr7LG7 1 3.9E-58 95 196,186,432 196,186,576 144
24503 VII VII VII chr7LG7 4 2.6E-52 91 201,461,481 201,461,642 161
17910 VII VII VII chr7LG7 1 2.0E-68 97 329,043,834 329,043,990 156
17980 VII VII VII chr7LG7 1 1.9E-94 98 474,504,396 474,504,591 195
29248 VII VII VII chr7LG7 1 7.2E-75 99 481,640,880 481,641,037 157
21796 VII VII VII chr7LG7 1 2.7E-97 97 488,671,955 488,672,158 203
18272 II II II scaffold00024 1 9.2E-59 98 43,943 44,076 133
23262 III III III scaffold03071 1 4.7E-95 100 151,557 151,739 182
28387 V V V scaffold03509 2 2.0E-105 100 40,828 41,028 200
21399 VII VII VII scaffold00916 1 8.8E-67 96 9,846 10,002 156
29620 VII VII VII scaffold01087 12 1.1E-54 96 47,702 47,832 130
[1] Zong X X, Redden R J, Liu Q C, Wang S M, Guan J P, Liu J, Xu Y H, Liu X J, Gu J, Yan L, Ades P, Ford R. Analysis of a diverse global Pisum sp collection and comparison to a Chinese local P. sativum collection with microsatellite markers. Theor Appl Genet, 2009,118:193-204.
doi: 10.1007/s00122-008-0887-z
[2] Smýkal P, Aubert G, Burstin J, Coyne C J, Ellis N T H, Flavell A J, Ford R, Hýbl M, Macas J, Neumann P, McPhee K E, Redden R J, Rubiales D, Weller J L, Warkentin T D. Pea (Pisum sativum L.) in the genomic era. Agronomy, 2012,2:74-115.
doi: 10.3390/agronomy2020074
[3] Tian S J, Kyle W S A, Small D M. Pilot scale isolation of proteins from field peas (Pisum sativum L.) for use as food ingredients. Int J Food Sci Technol, 1999,34:33-39.
doi: 10.1046/j.1365-2621.1999.00236.x
[4] Santalla M, Amurrio J M, De Ron A M. Food and feed potential breeding value of green, dry and vegetable pea germplasm. Can J Plant Sci, 2001,81:601-610.
doi: 10.4141/P00-114
[5] FAOSTAT. [2020-03-14]. http://www.fao.org/faostat/en/#data.
[6] MacWilliam S, Wismer M, Kulshreshtha S. Life cycle and economic assessment of Western Canadian pulse systems: The inclusion of pulses in crop rotations. Agric Syst, 2014,123:43-53.
doi: 10.1016/j.agsy.2013.08.009
[7] Semagn K, Bjornstad A, Ndjiondjop M N. Principles, requirements and prospects of genetic mapping in plants. Afr J Biotechnol, 2006,5:2569-2587.
[8] Dirlewanger E, Isaac P G, Ranade S, Belajouza M, Cousin R, de Vienne D. Restriction fragment length polymorphism analysis of loci associated with disease resistance genes and developmental traits in Pisum sativum L. Theor Appl Genet, 1994,88:17-27.
doi: 10.1007/BF00222388 pmid: 24185876
[9] Laucou V, Haurogne K, Ellis N, Rameau C. Genetic mapping in pea. 1. RAPD-based genetic linkage map of Pisum sativum. Theor Appl Genet, 1998,97:905-915.
doi: 10.1007/s001220050971
[10] Loridon K, McPhee K, Morin J, Dubreuil P, Pilet Nayel M L, Aubert G, Rameau C, Baranger A, Coyne C, Lejeune Henaut I, Burstin J. Microsatellite marker polymorphism and mapping in pea (Pisum sativum L.). Theor Appl Genet, 2005,111:1022-1031.
doi: 10.1007/s00122-005-0014-3
[11] DeCaire J, Coyne C J, Brumett S, Shultz J L. Additional pea EST-SSR markers for comparative mapping in pea (Pisum sativum L.). Plant Breed, 2012,131:222-226.
doi: 10.1111/pbr.2011.131.issue-1
[12] Mishra R K, Gangadhar B H, Nookaraju A, Kumar S, Park S W. Development of EST-derived SSR markers in pea (Pisum sativum) and their potential utility for genetic mapping and transferability. Plant Breed, 2012,131:118-124.
doi: 10.1111/pbr.2011.131.issue-1
[13] Leonforte A, Sudheesh S, Cogan N O I, Salisbury P A, Nicolas M E, Materne M, Forster J W, Kaur S. SNP marker discovery, linkage map construction and identification of QTLs for enhanced salinity tolerance in field pea (Pisum sativum L.). BMC Plant Biol, 2013,13:161.
doi: 10.1186/1471-2229-13-161 pmid: 24134188
[14] Sindhu A, Ramsay L, Sanderson L A, Stonehouse R, Li R, Condie J, Shunmugam A S K, Liu Y, Jha A B, Diapari M, Burstin J, Aubert G, Tar’an B, Bett K E, Warkentin T D, Sharpe A G. Gene-based SNP discovery and genetic mapping in pea. Theor Appl Genet, 2014,127:2225-2241.
doi: 10.1007/s00122-014-2375-y
[15] Sun X L, Yang T, Hao J J, Zhang X Y, Ford R, Jiang J Y, Wang F, Guan J P, Zong X X. SSR genetic linkage map construction of pea (Pisum sativum L.) based on Chinese native varieties. Crop J, 2014,2:170-174.
doi: 10.1016/j.cj.2014.03.004
[16] Tayeh N, Aluome C, Falque M, Jacquin F, Klein A, Chauveau A, Berard A, Houtin H, Rond C, Kreplak J, Boucherot K, Martin C, Baranger A, Pilet-Nayel M L, Warkentin T D, Brunel D, Marget P, Le Paslier M C, Aubert G, Burstin J. Development of two major resources for pea genomics: the GenoPea 13.2K SNP Array and a high-density, high-resolution consensus genetic map. Plant J, 2015,84:1257-1273.
doi: 10.1111/tpj.13070 pmid: 26590015
[17] Boutet G, Carvalho S A, Falque M, Peterlongo P, Lhuillier E, Bouchez O, Lavaud C, Pilet-Nayel M L, Riviere N, Baranger A. SNP discovery and genetic mapping using genotyping by sequencing of whole genome genomic DNA from a pea RIL population. BMC Genomics, 2016,17:121.
doi: 10.1186/s12864-016-2447-2 pmid: 26892170
[18] Ma Y, Coyne C J, Grusak M A, Mazourek M, Cheng P, Main D, McGee R J. Genome-wide SNP identification, linkage map construction and QTL mapping for seed mineral concentrations and contents in pea (Pisum sativum L.). BMC Plant Biol, 2017,17:43.
doi: 10.1186/s12870-016-0956-4 pmid: 28193168
[19] Barilli E, Cobos M J, Carrillo E, Kilian A, Carling J, Rubiales D. A high-density integrated DArTseq SNP-based genetic map of Pisum fulvum and identification of QTLs controlling rust resistance. Front Plant Sci, 2018,9:167.
doi: 10.3389/fpls.2018.00167 pmid: 29497430
[20] Kreplak J, Madoui M A, Capal P, Novak P, Labadie K, Aubert G, Bayer P E, Gali K K, Syme R A, Main D, Klein A, Berard A, Vrbova I, Fournier C, d’Agata L, Belser C, Berrabah W, Toegelova H, Milec Z, Vrana J, Lee H, Kougbeadjo A, Terezol M, Huneau C, Turo C J, Mohellibi N, Neumann P, Falque M, Gallardo K, McGee R, Tar’an B, Bendahmane A, Aury J M, Batley J, Le Paslier M C, Ellis N, Warkentin T D, Coyne C J, Salse J, Edwards D, Lichtenzveig J, Macas J, Dolezel J, Wincker P, Burstin J. A reference genome for pea provides insight into legume genome evolution. Nat Genet, 2019,51:1411-1422.
doi: 10.1038/s41588-019-0480-1 pmid: 31477930
[21] Kalia R K, Rai M K, Kalia S, Singh R, Dhawan A K. Microsatellite markers: an overview of the recent progress in plants. Euphytica, 2011,177:309-334.
doi: 10.1007/s10681-010-0286-9
[22] Vieira M L C, Santini L, Diniz A L, Munhoz C D. Microsatellite markers: what they mean and why they are so useful. Genet Mol Biol, 2016,39:312-328.
doi: 10.1590/1678-4685-GMB-2016-0027 pmid: 27561112
[23] Ali A, Pan Y B, Wang Q N, Wang J D, Chen J L, Gao S J. Genetic diversity and population structure analysis of Saccharum and Erianthus genera using microsatellite (SSR) markers. Sci Rep, 2019,9:10.
doi: 10.1038/s41598-018-36877-0 pmid: 30626881
[24] Hao L, Zhang G S, Lu D Y, Hu J J, Jia H X. Analysis of the genetic diversity and population structure of Salix psammophila based on phenotypic traits and simple sequence repeat markers. PeerJ, 2019,7:e6419.
doi: 10.7717/peerj.6419 pmid: 30805247
[25] Choi J K, Sa K J, Park D H, Lim S E, Ryu S H, Park J Y, Park K J, Rhee H I, Lee M, Lee J K. Construction of genetic linkage map and identification of QTLs related to agronomic traits in DH population of maize (Zea mays L.) using SSR markers. Genes Genomics, 2019,41:667-678.
doi: 10.1007/s13258-019-00813-x pmid: 30953340
[26] Yang T, Jiang J Y, Zhang H Y, Liu R, Strelkov S, Hwang S F, Chang K F, Yang F, Miao Y M, He Y H, Zong X X. Density enhancement of a faba bean genetic linkage map (Vicia faba) based on simple sequence repeats markers. Plant Breed, 2019,138:207-215.
doi: 10.1111/pbr.2019.138.issue-2
[27] Anjani K, Ponukumatla B, Mishra D, Ravulapalli D P. Identification of simple-sequence-repeat markers linked to Fusarium wilt (Fusarium oxysporum f. sp carthami) resistance and marker- assisted selection for wilt resistance in safflower (Carthamus tinctorius L.) interspecific offsprings. Plant Breed, 2018,137:895-902.
doi: 10.1111/pbr.2018.137.issue-6
[28] Swathi G, Rani C V D, Md J, Madhav M S, Vanisree S, Anuradha C, Kumar N R, Kumar N A P, Kumari K A, Bhogadhi C, Ramprasad E, Sravanthi P, Raju S K, Bhuvaneswari V, Rajan C P D, Jagadeeswar R. Marker-assisted introgression of the major bacterial blight resistance genes, Xa21 and xa13, and blast resistance gene, Pi54, into the popular rice variety, JGL1798. Mol Breed, 2019,39:12.
doi: 10.1007/s11032-018-0919-6
[29] Kumar N, Shikha D, Kumari S, Choudhary B K, Kumar L, Singh I S. SSR-based DNA Fingerprinting and diversity assessment among Indian germplasm of Euryale ferox: an aquatic underutilized and neglected food crop. Appl Biochem Biotechnol, 2018,185:34-41.
doi: 10.1007/s12010-017-2643-9 pmid: 29082475
[30] Siew G Y, Ng W L, Tan S W, Alitheen N B, Tan S G, Yeap S K. Genetic variation and DNA fingerprinting of durian types in Malaysia using simple sequence repeat (SSR) markers. PeerJ, 2018,6:e4266.
doi: 10.7717/peerj.4266 pmid: 29511604
[31] Tayeh N, Aubert G, Pilet Nayel M L, Lejeune Henaut I, Warkentin T D, Burstin J. Genomic tools in pea breeding programs: Status and perspectives. Front Plant Sci, 2015,6:1037.
doi: 10.3389/fpls.2015.01037 pmid: 26640470
[32] Liu R, Fang L, Yang T, Zhang X Y, Hu J G, Zhang H Y, Han W L, Hua Z K, Hao J J, Zong X X. Marker-trait association analysis of frost tolerance of 672 worldwide pea (Pisum sativum L.) collections. Sci Rep, 2017,7:5919.
doi: 10.1038/s41598-017-06222-y pmid: 28724947
[33] Wu X B, Li N N, Hao J J, Hu J G, Zhang X Y, Blair M W. Genetic diversity of Chinese and global pea (Pisum sativum L.) collections. Crop Sci, 2017,57:1-11.
doi: 10.2135/cropsci2015.07.0415
[34] Milczarski P, Bolibok Brągoszewska H, Myśków B, Stojałowski S, Heller Uszyńska K, Góralska M, Brągoszewski P, Uszyński G, Kilian A, Rakoczy Trojanowska M. A high density consensus map of rye (Secale cereale L.) based on DArT markers. PLoS One, 2011,6:e28495.
doi: 10.1371/journal.pone.0028495 pmid: 22163026
[35] Blenda A, Fang D D, Rami J F, Garsmeur O, Luo F, Lacape J M. A high density consensus genetic map of tetraploid cotton that integrates multiple component maps through molecular marker redundancy check. PLoS One, 2012,7:e45739.
doi: 10.1371/journal.pone.0045739 pmid: 23029214
[36] Sudheesh S, Lombardi M, Leonforte A, Cogan N O I, Materne M, Forster J W, Kaur S. Consensus genetic map construction for field pea (Pisum sativum L.), trait dissection of biotic and abiotic stress tolerance and development of a diagnostic marker for the er1 powdery mildew resistance gene. Plant Mol Biol Rep, 2015,33:1391-1403.
doi: 10.1007/s11105-014-0837-7
[37] Sudheesh S, Rodda M, Kennedy P, Verma P, Leonforte A, Cogan N O I, Materne M, Forster J W, Kaur S. Construction of an integrated linkage map and trait dissection for bacterial blight resistance in field pea (Pisum sativum L.). Mol Breed, 2015,35:185.
doi: 10.1007/s11032-015-0376-4
[38] Yang T, Fang L, Zhang X Y, Hu J G, Bao S Y, Hao J J, Li L, He Y H, Jiang J Y, Wang F, Tian S, Zong X X. High-throughput development of SSR markers from pea (Pisum sativum L.) based on next generation sequencing of a purified Chinese commercial variety. PLoS One, 2015,10:e0139775.
doi: 10.1371/journal.pone.0139775 pmid: 26440522
[39] Kwon S J, Brown A F, Hu J, McGee R, Watt C, Kisha T, Timmerman-Vaughan G, Grusak M, McPhee K E, Coyne C J. Genetic diversity, population structure and genome-wide marker-trait association analysis emphasizing seed nutrients of the USDA pea (Pisum sativum L.) core collection. Genes Genomics, 2012,34:305-320.
doi: 10.1007/s13258-011-0213-z
[40] Kaur S J, Pembleton L W, Cogan N O, Savin K W, Leonforte T, Paull J, Materne M, Forster J W. Transcriptome sequencing of field pea and faba bean for discovery and validation of SSR genetic markers. BMC Genomics, 2012,13:104.
doi: 10.1186/1471-2164-13-104 pmid: 22433453
[41] Xu S C, Gong Y M, Mao W H, Hu Q Z, Zhang G W, Fu W, Xian Q Q. Development and characterization of 41 novel EST-SSR markers for Pisum sativum (Leguminosae). Am J Bot, 2012,99:E149-E153.
doi: 10.3732/ajb.1100445
[42] Bordat A, Savois V, Nicolas M, Salse J, Chauveau A, Bourgeois M, Potier J, Houtin H, Rond C, Murat F, Marget P, Aubert G, Burstin J. Translational genomics in legumes allowed placing in silico 5460 unigenes on the pea functional map and identified candidate genes in Pisum sativum L. G3: Genes Genom Genet 2011,1:93-103.
[43] 顾竟, 李玲, 宗绪晓, 王海飞, 关建平, 杨涛. 豌豆种质表型性状SSR标记关联分析. 植物遗传资源学报, 2011,12:833-839.
Gu J, Li L, Zong X X, Wang H F, Guan J P, Yang T. Association analysis between morphological traits of pea and its polymorphic SSR markers. J Plant Genet Resour, 2011,12:833-839 (in Chinese with English abstract).
[44] Burstin J, Deniot G, Potier J, Weinachter C, Aubert G, Barranger A. Microsatellite polymorphism in Pisum sativum. Plant Breed, 2001,120:311.
doi: 10.1046/j.1439-0523.2001.00608.x
[45] Dellaporta S L, Wood J, Hicks J B. A plant DNA minipreparation: version II. Plant Mol Biol Rep, 1983,1:19-21.
doi: 10.1007/BF02712670
[46] Meng L, Li H H, Zhang L Y, Wang J K. QTL IciMapping: integrated software for genetic linkage map construction and quantitative trait locus mapping in biparental populations. Crop J, 2015,3:269-283.
doi: 10.1016/j.cj.2015.01.001
[47] Voorrips R E. MapChart: software for the graphical presentation of linkage maps and QTLs. J Hered, 2002,93:77-78.
doi: 10.1093/jhered/93.1.77 pmid: 12011185
[48] Parida S K, Kalia S K, Kaul S, Dalal V, Hemaprabha G, Selvi A, Pandit A, Singh A, Gaikwad K, Sharma T R, Srivastava P S, Singh N K, Mohapatra T. Informative genomic microsatellite markers for efficient genotyping applications in sugarcane. Theor Appl Genet, 2009,118:327-338.
doi: 10.1007/s00122-008-0902-4
[49] Kamaluddin , Khan M A, Kiran U, Ali A, Abdin M Z, Zargar M Y, Ahmad S, Sofi P A, Gulzar S. Molecular markers and marker-assisted selection in crop plants. In: Abdin M Z, Kiran U, Kamaluddin, Ali A, eds. Plant Biotechnology: Principles and Applications. Singapore: Springer Singapore, 2017. pp 295-328.
[50] Nadeem M A, Nawaz M A, Shahid M Q, Doğan Y, Comertpay G, Yıldız M, Hatipoğlu R, Ahmad F, Alsaleh A, Labhane N, Özkan H, Chung G, Baloch F S. DNA molecular markers in plant breeding: current status and recent advancements in genomic selection and genome editing. Biotechnol Biotechnol Equip, 2018,32:261-285.
doi: 10.1080/13102818.2017.1400401
[51] Varshney R K, Graner A, Sorrells M E. Genic microsatellite markers in plants: features and applications. Trends Biotechnol, 2005,23:48-55.
doi: 10.1016/j.tibtech.2004.11.005 pmid: 15629858
[52] Smýkal P, Hybl M, Corander J, Jarkovsky J, Flavell A J, Griga M. Genetic diversity and population structure of pea (Pisum sativum L.) varieties derived from combined retrotransposon, microsatellite and morphological marker analysis. Theor Appl Genet, 2008,117:413-424.
doi: 10.1007/s00122-008-0785-4
[53] 宗绪晓, 关建平, 王述民, 刘庆昌. 中国豌豆地方品种SSR标记遗传多样性分析. 作物学报, 2008,34:1330-1338.
doi: 10.3724/SP.J.1006.2008.01330
Zong X X, Guan J P, Wang S M, Liu Q C. Genetic diversity among Chinese pea (Pisum sativum L.) landraces revealed by SSR markers. Acta Agron Sin, 2008,34:1330-1338 (in Chinese with English abstract).
[54] Zong X X, Ford R, Redden R R, Guan J P, Wang S M. Identification and analysis of genetic diversity structure within Pisum genus based on microsatellite markers. Agric Sci China, 2009,8:257-267.
doi: 10.1016/S1671-2927(08)60208-4
[55] 宗绪晓, 关建平, 王述民, 刘庆昌, Redden R R, Ford R. 国外栽培豌豆遗传多样性分析及核心种质构建. 作物学报, 2008,34:1518-1528.
doi: 10.3724/SP.J.1006.2008.01518
Zong X X, Guan J P, Wang S M, Liu Q C, Redden R R, Ford R. Genetic diversity and core collection of alien Pisum sativum L. germplasm. Acta Agron Sin, 2008,34:1518-1528 (in Chinese with English abstract).
[56] Prakash N, Kumar R, Choudhary V K, Singh C M. Molecular assessment of genetic divergence in pea genotypes using microsatellite markers. Legume Res, 2016,39:183-188.
[57] Duarte J, Riviere N, Baranger A, Aubert G, Burstin J, Cornet L, Lavaud C, Lejeune Henaut I, Martinant J P, Pichon J P, Pilet Nayel M L, Boutet G. Transcriptome sequencing for high throughput SNP development and genetic mapping in pea. BMC Genom, 2014,15:126.
doi: 10.1186/1471-2164-15-126
[58] Guindon M F, Martin E, Cravero V, Gali K K, Warkentin T D, Cointry E. Linkage map development by GBS, SSR, and SRAP techniques and yield-related QTLs in pea. Mol Breed, 2019,39:54.
doi: 10.1007/s11032-019-0949-8
[59] Aubert G, Morin J, Jacquin F, Loridon K, Quillet M C, Petit A, Rameau C, Lejeune Henaut I, Huguet T, Burstin J. Functional mapping in pea, as an aid to the candidate gene selection and for investigating synteny with the model legume Medicago truncatula. Theor Appl Genet, 2006,112:1024-1041.
doi: 10.1007/s00122-005-0205-y
[60] Duarte J, Riviere N, Baranger A, Aubert G, Burstin J, Cornet L, Lavaud C, Lejeune Henaut I, Martinant J P, Pichon J P, Pilet Nayel M L, Boutet G. Transcriptome sequencing for high throughput SNP development and genetic mapping in pea. BMC Genom, 2014,15:126.
doi: 10.1186/1471-2164-15-126
[61] Sindhu A, Ramsay L, Sanderson L A, Stonehouse R, Li R, Condie J, Shunmugam A S K, Liu Y, Jha A B, Diapari M, Burstin J, Aubert G, Tar’an B, Bett K E, Warkentin T D, Sharpe A G. Gene-based SNP discovery and genetic mapping in pea. Theor Appl Genet, 2014,127:2225-2241.
doi: 10.1007/s00122-014-2375-y
[62] Sybenga J. Recombination and chiasmata: few but intriguing discrepancies. Genome, 1996,39:473-484.
doi: 10.1139/g96-061 pmid: 18469909
[63] Knox M R, Ellis T H N. Excess heterozygosity contributes to genetic map expansion in pea recombinant inbred populations. Genetics, 2002,162:861-873.
pmid: 12399396
[64] Truong S K, McCormick R F, Morishige D T, Mullet J E. Resolution of genetic map expansion caused by excess heterozygosity in plant recombinant inbred populations. G3: Genes Genom Genet, 2014,4:1963-1969.
[65] Ellis T H, Turner L, Hellens R P, Lee D, Harker C L, Enard C, Domoney C, Davies D R. Linkage maps in pea. Genetics, 1992,130:649-663.
pmid: 1551583
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