应用SSR分子标记鉴定非洲菊F1代杂种的真实性

曹奕鸯; 夏朝水; 陈玮婷; 甘玮欣; 林辉锋; 林发壮; 周辉明

doi:10.19303/j.issn.1008-0384.2023.07.010

应用SSR分子标记鉴定非洲菊F1代杂种的真实性

doi: 10.19303/j.issn.1008-0384.2023.07.010

曹奕鸯^{1, 2,},
夏朝水^{1, 2, ,},
陈玮婷^{1, 2},
甘玮欣^{1, 2},
林辉锋^{1, 2},
林发壮^{1, 2},
周辉明¹

1.
三明市农业科学研究院花卉研究所，福建三明 365051
2.
福建省（山区）作物遗传改良与创新利用重点实验室，福建三明 365051

基金项目: 福建省科技计划农业引导性项目（2021N0042）；福建省科技计划星火项目（2022S2023）

详细信息

作者简介:
曹奕鸯（1984 —），男，硕士，助理研究员，主要从事花卉遗传育种研究，E-mail：caoyiyang@yeah.net

通讯作者:
夏朝水（1982 —），男，硕士，助理研究员，主要从事花卉遗传育种研究，E-mail：86837432@qq.com

中图分类号: S682.1
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出版历程
- 收稿日期: 2023-02-03
- 修回日期: 2023-06-02
- 网络出版日期: 2023-07-16
- 刊出日期: 2023-07-28

Authentication of F1 Gerbera jamesonii Hybrids Using SSR Molecular Markers

CAO Yiyang^{1, 2
,},
XIA Chaoshui^{1, 2
, ,},
CHEN Weiting^{1, 2},
GAN Weixin^{1, 2},
LIN Huifeng^{1, 2},
LIN Fazhuang^{1, 2},
ZHOU Huiming¹

1.
Flower Research Institute, Institute of Sanming Agricultural Sciences, Sanming, Fujian　365051, China
2.
Fujian Key Laboratory of Crop Genetic Improvement and Innovative Utilization for Mountain Area, Sanming Academy of Agricultural Sciences, Sanming, Fujian　365051, China

摘要

摘要: 目的应用SSR分子标记技术鉴定非洲菊（Gerbera jamesonii Bolus）F1代杂种的真实性，以期为非洲菊新品种（系）杂种的真实性鉴定提供方法。方法选用非洲菊罗德里、热带草原及其65个正反交F1代杂种，部分自主选育非洲菊新品种（系）及其亲本为材料，从非洲菊转录组中发掘的65对SSR引物中筛选条带清晰、重复性好、亲本间无相同等位基因位点的引物，运用于非洲菊F1代杂种的真实性鉴定。结果 65对SSR引物中，有26对引物在非洲菊亲本罗德里、热带草原间具有多态性，多态性比例达40%，其中，g24、g32、g38、g64这4对引物扩增非洲菊亲本间无相同等位基因位点，条带清晰可辨，扩增正反交后代都包含双亲的各一条带，都能将65个正反交后代鉴定为真杂种。引物g24、g04、g44、g39扩增非洲菊新品种（系）均包含双亲的各一条带，可分别将非洲菊新品种（系）明卉粉黛、明卉红颜、魅粉、幻彩鉴定为真杂种。结论 SSR分子标记在非洲菊亲本中多态性丰富，可应用于非洲菊杂交后代真实性鉴定，能够有效辅助非洲菊新品种鉴定和选育。
- 非洲菊 /
- SSR分子标记 /
- 杂种真实性鉴定
Abstract: Objective SSR molecular markers were used to verify the authenticity of F1 hybrids of Gerbera jamesonii Bolus. [Methods] From Rodrigo, Savannah, and their progenies, 65 reciprocal F1 hybrids of gerbera, primers with clear bands, high repeatability, and free of identical allele between parents were selected. Based on the transcriptomes, applicable means of species authentication were investigated. Results Of the 65 selected pairs of SSR primers, 26 were polymorphic at a rate of 40%. No identical alleles between the parents were found on the g24, g32, g38, and g64 primers with clear and distinct bands. They all contained a band of each parent in their amplified positive and negative F1 progenies and could correctly distinguish true from false hybrids. Meanwhile, the primer g24, g04, g44, and g39 could amplify new gerbera varieties/strains and also contained a band of each parent. However, they were limited to positively identifying genuine hybrids of Minghuifendai, Minghuihongyan, Meifen, and Huancai. Conclusion The SSR molecular markers selected could satisfactorily be used to authenticate the F1 hybrids of G. jamesonii Bolus for plant selection and commercial identification.
- Gerbera jamesonii Bolus /
- SSR molecular markers /
- species authentication

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图 1 10个非洲菊杂交亲本及4个非洲菊新品种（系）

A：罗德里；B：热带草原；C：玲珑；D：水粉；E：红胜利；F：云南红；G：拉丝6号；H：拉丝4号；I：晨光；J：菲比；k：明卉粉黛；L：明卉红颜；M：魅粉；N：幻彩。

Figure 1. Ten parents and 4 new cultivars/strains of gerbera

A: Rodrigo; B: Savannah; C: Rosalin; D: Ellymay; E: Hongshengli; F: Yunnanhong; G: Spider No. 6; H: Spider No.4; I: Chenguang; J: Febe; K: Minghuifendai; L: Minghuihongyan; M: Meifen; N: Huancai.

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图 2 部分SSR引物扩增图谱

M：DNA Marker；L：罗德里；R：热带草原；红色框部分所示为SSR位点处的差异条带。

Figure 2. Partial SSR primer amplification map

M: DNA marker；L: Rodrigo; R: Savannah; Red box shows different band at SSR position.

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图 3 g24引物（A）、g32引物（B）、g38引物（C）、g64引物（D）对非洲菊亲本罗德里、热带草原及65个正反交后代DNA的PCR扩增结果

M：DNA Marker；L：罗德里；R：热带草原；1～33：非洲菊正交后代单株，34～65：非洲菊反交后代单株。

Figure 3. PCR amplification results of primers g24 (A), g32 (B), g38 (C), and g64 (D) on DNA of G. jamesonii parents Rodrigo, Savannah, and 65 positive and negative progenies

M: DNA marker; L: Rodrigo; R: Savannah; 1-33：Positive cross gerbera plants; 34-65：Negative cross gerbera plants.

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图 4 基于SSR标记的非洲菊新品种（系）杂种真实性鉴定结果

M：DNA marker，♀为母本，♂为父本，F1为杂交后代新品种（系），红色框部分所示为SSR位点处的差异条带；A：g24引物扩增电泳图，母本为玲珑，父本为水粉；B：g04引物扩增电泳图，母本为红胜利，父本为云南红；C：g44引物扩增电泳图，母本为拉丝6号，父本为拉丝4号；D：g39引物扩增电泳图，母本为晨光，父本为菲比

Figure 4. Identification results of SSR markers in new gerbera cultivars/strains

M: DNA marker; ♀: Female parent; ♂: Male parent; F1: New cultivars/strains of hybrids; Red box shows different band at SSR position; A: Amplification electrophoresis on g24 of Rosalin as female parent and Ellymay as male parent; B: Amplification electrophoresis on g04 of Hongshengli as female parent and Yunnanhong as male parent; C: Amplification electrophoresis on g44 of Spider NO.6 as female parent and Spider NO.4 as male parent; D: Amplification electrophoresis on g39 of Chenguang as female parent and Febe as male parent.

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表 1 亲本材料相关信息

Table 1. Information about parent materials

序号 Number	种质名称 Germplasm name	花色 Flower color	瓣型 Petal type	花型 Flower type	花心颜色 Color of inflorescence center
1	罗德里 Rodrigo	紫色 Purple	丝状 Spider	单瓣 Simple	浅色 Light
2	热带草原 Savannah	红色 Red	舌状 Ligulate	单瓣 Simple	深色 Dark
3	玲珑 Rosalin	粉色 Pink	舌状 Ligulate	半重瓣 Semidouble	深色 Dark
4	水粉 Ellymay	粉色 Pink	舌状 Ligulate	半重瓣 Semidouble	浅色 Light
5	红胜利 Hongshengli	红色 Red	舌状 Ligulate	半重瓣 Semidouble	深色 Dark
6	云南红 Yunnanhong	红色 Red	舌状 Ligulate	半重瓣 Semidouble	浅色 Light
7	拉丝6号 Spider No. 6	粉色 Pink	丝状 Spider	半重瓣 Semidouble	深色 Dark
8	拉丝4号 Spider No. 4	橙色 Orange	丝状 Spider	单瓣 Simple	深色 Dark
9	晨光 Chenguang	橙红复色 Orange and red	舌状 Ligulate	半重瓣 Semidouble	深色 Dark
10	菲比 Febe	橙黄复色 Orange and yellow	舌状 Ligulate	半重瓣 Semidouble	深色 Dark

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表 2 杂交亲本组合及其杂种F1代信息

Table 2. Information on cross combinations and F1 hybrids

序号 Number	杂交组合（♀×♂） Hybrid combination （♀×♂）	供试杂种F1代数量 Amount of tested F1 hybrids	杂种F1编号/名称 F1 Hybrids number/cultivar
1	罗德里×热带草原 Rodrigo×Savannah	33	1、2、3、4、5、6、7、8、9、10、11、12、 13、14、15、16、17、18、19、20、21、22、23、24、 25、26、27、28、29、30、31、32、33
2	热带草原×罗德里 Savannah×Rodrigo	32	34、35、36、37、38、39、40、41、42、43、44、 45、46、47、48、49、50、51、52、53、54、55、56、57、 58、59、60、61、62、63、64、65
3	玲珑×水粉 Rosalin×Ellymay	1	LA14/明卉粉黛 LA14/Minghuifendai
4	红胜利×云南红 Hongshengli×Yunnanhong	1	50-101/明卉红颜 50-101/Minghuihongyan
5	拉丝6号×拉丝4号 Spider No. 6×Spider No.4	1	F6-1/魅粉 F6-1/Meifen
6	晨光×菲比 Chenguang×Febe	1	CF-1/幻彩 CF-1/Huancai

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表 3 SSR引物序列

Table 3. Sequence of SSR primers

引物名称 Primer name	重复单元 Repeat motif	上游引物 Forward primer	下游引物 Reverse primer	片段长度 Fragment length/bp
g01	(CT)14	GAATTCAATGAGCATCGCCT	GGCGGGCAATACAAAACTTA	188
g02	(CT)12	TTCATTTCTCCCCTCGTCAC	AATGGGTCAACATTCAGCGT	128
g03	(AC)11	GGATTTATTTGGTCTACGGTGC	TTGGGAAGGGTTTGAAATTG	148
g04	(TG)18	TGCTAGGTGCTGTGAGGAGA	TTGTGCACGCCTACTTTTTG	184
g05	(TC)11	TCCAATTCCAAGGTGTAAATCC	GGAATTCTCCATTCCTGCAA	175
g06	(TA)8	CAAACGTCAAGAACACGCAC	TCAACAGCGGTTGTGTATGAA	167
g07	(GA)15	GCGTAGGGTTTTCTGTGCAT	TCTCTCTAAGATCGCCCTGC	206
g08	(TC)12	GCCAAGAAATGGATCCAAGA	ACCCGCTCATTTTACGACC	134
g09	(AG)13	CGAACCTTCACAAGATCGGT	TCGGAGATGTTCCTTTGACC	189
g10	(GT)12	GTGCGGGTGTGAACAACATA	ATCACCTTCTCCGACACACC	159
g11	(GA)15	GTAGCGAAACACGGAGGAAA	AGTACGGCCTCCTCCATTCT	194
g12	(GT)11	AACCTGGCATACACTTTGGC	CGAACCAAACAATTACCATGAA	177
g13	(TC)12	GTTGCACGCCCTCCTATCT	GTCGGTGTCGGAGAAATGTT	226
g14	(GA)9	TGCAATTGGATGTGAGTCGT	GCAACGAGAGCAAACTACCC	179
g15	(TC)13	ACGGTTCAATTTCGAGAACG	AAATTTTAGCGCAAAACAAGC	202
g16	(CT)9	GCTCTCAACCTGTCAAAGGC	GCTTCCCTCGATTGTAGCTG	173
g17	(AG)10	TCCAACGTCAATTCCAATCA	AACTCTGTCGTGGTGTCGGT	156
g18	(TA)12	CAATCATGGCTGCATTTCAC	TTTTCCACGTCAAACCATCA	220
g19	(TA)10	GTGAGGTGCAAGAGGAAAGC	TACCAGCAGAAGCAGACGAA	221
g20	(AG)10	ATTGCACCCTCGTTTTATGC	TCTGCTGCATCTTCATGCTT	185
g21	(ATG)7	TGCCTTGAAAGTGACGATGA	GCGTAAGATTCTCCACAGGG	223
g22	(TCT)12	CTCCATTTTGTAGCCAAGAGTG	GCCACCACTACTGAGGCATT	163
g23	(CGG)8	CATCCCTTACGTTGGCACTT	CACCCTTGAAACCCTCTCTG	167
g24	(GAT)8	AGTGGGAGAAGCTATGCCAA	GGGTCGCCATAGCAAATAGA	187
g25	(TTA)8	GATTGGATGCTAGCTTTGCC	GGGCATTTTGGACATTTGAT	162
g26	(GAA)5	AGAAGAGTCCGTGGTGGCTA	GGTGACTTCGTCTTGAGGGA	185
g27	(AAG)13	AATCCTCAATGCCACCTTTG	GAGGCAGGAATTGACTGGAA	160
g28	(TAA)7	CGTTTTACATGCAGCCTCAA	CTTTGCTTCCTCTGCCTGAC	167
g29	(ACT)6	AACAATAGGATCAAACGCGG	TCGGATTGAAGGTGAGAAGG	152
g30	(GAC)5	CACAAACCCTTGTAGCGGAT	ACATTCTTCACCGGAGCAAC	150
g31	(AAG)9	ATCGGCTCAAGGTAAGGGAT	GCTCAATGGCTTCAGACACA	186
g32	(GAT)11	ATTTTGAAGGGATTGGTGGG	TCATGCCATATTCCCTCGAT	174
g33	(AAG)11	CAGGGGCAGTTAGGTTCAAA	TAGAATTGGACCCGCTATGG	186
g34	(CAA)7	TGGCAATCGTGCTTGTTAAA	CCCCAATTCTATTTGGGACT	158
g35	(TAC)7	GTCACACGTGGTCGCATATC	ACAAATCGAACTTTGACCCG	194
g36	(AAC)9	AGCAAGATCAAAAGACCCGA	CCTTTGTCGTCATAGCAATCAA	167
g37	(TCG)9	CGCCATTAAAGCCTTCTTTC	GGAAGGCTTGTGTTGGTTGT	151
g38	(GCG)7	AATGGCAGCTACTGCGTCTT	TCACCATTAACGGCTGATGA	158
g39	(AAT)12	ACAAAGAATCCGTCCACCAG	GACCGTATTGGGCAGGTCTA	164
g40	(GAA)10	GAGGCGTTATCGGACTTTGA	TTCTTCTTGGGACGTAACCG	168
g41	(TCTT)5	CGGTCACTGGGAAACTTCAT	CGTCCTCAATAATTGCCGTT	199
g42	(TTGT)5	ACCCACTTGGCTTGGGTATT	CTGCTGAGGCTTTCATCTCC	142
g43	(TACA)5	CGCAAAGTGTAAACTGAAGTGG	CCCAGCTTGACTCATGGTTT	150
g44	(CTAT)8	TTAGGAGTGGAGTCGCTGCT	CGAAAAGCTAGCAAATGGACA	200
g45	(AGGA)6	GGCGTCTTGTTTCTTTTTCG	AGCTGGGACCTGGGAATACT	144
g46	(TTTA)6	TGTCCATAAAATGCGGTCAA	TAAAAGCCCACCCTCAATCA	232
g47	(TGTT)5	GAAATCCGTGAAAGGTCGAA	TGTACAAACCCACCTCCCTT	193
g48	(TCGA)5	AAGAAGCTCGGCCTCTGATT	TACCTTCGCGGATTGTTTTC	204
g49	(TGTA)5	TACAACGGGTTATCCAAGCC	GGTGCAAATACAAGGTTCGTG	190
g50	(TATG)5	TGGTTGGAAAAGTCATTCACTC	TCAACACCGAACCGACAATA	143
g51	(TATT)8	AAATCTTTGATGAATGCGGC	GAAGAATCCCAATTGAGCCA	186
g52	(TATG)5	GCCTCACCTGAAGACGGTAG	TACATATGCGATTGGGCCTT	155
g53	(TCAA)5	CCGGTCACTCTCACATGCTA	CCATCACAGACGACGAAAGA	148
g54	(ATTT)5	ATTAAAGAGTGTGCAGGCGG	AAGCAACAACGTCGGAAAAT	153
g55	(TAAAA)5	AACGACTAGCGATTCCATGA	TGTGGGATGTAACAAGGCAA	182
g56	(AAAAG)5	GAGTATTTGGAGCGAAAGCG	TGAACACTTGTATCCGTCGC	119
g57	(ACCAA)5	CTCTTTCCTTTTCACCGCAC	TTCGTCTAGATCTTCGCCGT	173
g58	(TAAAA)5	GGGTTCGTTTTGCATTTAACTC	CAGGACCTTTGATTTTGGTCA	183
g59	(ACCCG)5	CTGCCGGAATCAAAATGAAT	CTTTAATGGTGGCAATGGCT	166
g60	(CACCC)5	TGCTTACACTTCCGTGCAAC	ATGTTAGCTCCAGTTGGGCA	189
g61	(AAAAG)5	CATGGATAAACCCGTTTTGG	TTTTCTCTTTCTGTTTCGCCA	170
g62	(GTCAAA)6	GTCGCAAGAACTTCCAAAGC	TCCACCGACTTTGACTTTCA	237
g63	(CGTCTT)6	TTGCAAATGCAAATCCAATC	AAACAGCAGTGGTGGTTTCC	175
g64	(AATGGG)6	CGCTTCCTCCTACAACAAGC	GTGTCCCCACCATTCAAGTT	163
g65	(TGCTCC)6	AGCTTGCCATGGTTATGGTC	GGCTTAAAAGATCCCCAAGG	231

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表 4 非洲菊新品种（系）及鉴定引物

Table 4. SSR primers for identifying new gerbera cultivars/strains

品种（系）名称 Cultivar/Strain	材料 Material	母本 Female parent	父本 Male parent	鉴定引物 Primer for identification
明卉粉黛 Minghuifendai	粉色花瓣、浅色花心非洲菊新品种 New cultivar with pink petal, light color in the center of inflorescence	玲珑 Rosalin	水粉 Ellymay	g24
明卉红颜 Minghuihongyan	红色花瓣、深色花心非洲菊新品系 New strains with red petal, dark color in the center of inflorescence	红胜利 Hongshengli	云南红 Yunnanhong	g04
魅粉 Meifen	粉色花瓣、深色花心、拉丝非洲菊新品系 New spider strains with pink petal, dark color in the center of inflorescence	拉丝6号 Spider NO. 6	拉丝4号 Spider NO. 4	g44
幻彩 Huancai	橙黄复色花瓣、深色花心非洲菊新品系 New strains with orange and yellow petal, dark color in the center of inflorescence	晨光 Chenguang	菲比 Febe	g39

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参考文献(27)

[1]	陆继亮. 云南自主选育的非洲菊新品种受宠 [J]. 中国花卉园艺, 2016(5):48. LU J L. New Gerbera jamesonii varieties independently bred in Yunnan are favored [J]. China Flowers & Horticulture, 2016(5): 48.(in Chinese)
[2]	夏朝水. 福建主栽非洲菊品种资源的综合评价与应用[D]. 福州: 福建农林大学, 2014. XIA C S. Comprehensive evaluation and application of Fujian main cultivated varieties of Gerbera jamesonii resources[D]. Fuzhou: Fujian Agriculture and Forestry University, 2014. (in Chinese)
[3]	李绅崇. 非洲菊单倍体种质创制及重组抑制基因TOP3α的克隆与表达分析[D]. 西南大学, 2020. LI S C. Haploid germplasm creation and cloning and expression analysis of recombinant suppressor gene TOP3α in Gerbera hybrida[D]. Southwest University, 2020. (in Chinese)
[4]	李金泽, 熊丽, 桂敏, 等. 非洲菊品种杂交与自交结籽的研究 [J]. 西南农业大学学报(自然科学版), 2005, 27(4):537−540. LI J Z, XIONG L, GUI M, et al. Fruitification of cross- and self-pollination for Gerbera jamesonii bolus [J]. Journal of Southwest Agricultural University, 2005, 27(4): 537−540.(in Chinese)
[5]	MAURER J. Ergebnisse genetisch-züchterischer Untersuchungen bei Gerbera[J]. 1967.
[6]	李永清, 江金兰, 叶炜, 等. SSR分子标记鉴定铁皮石斛与霍山石斛的正反交后代 [J]. 福建农业学报, 2017, 32(8):870−873. doi: 10.19303/j.issn.1008-0384.2017.08.012 LI Y Q, JIANG J L, YE W, et al. Differentiation between reciprocal-crossed hybrids of Dendrobium officinale andD. huoshanense using SSR markers [J]. Fujian Journal of Agricultural Sciences, 2017, 32(8): 870−873.(in Chinese) doi: 10.19303/j.issn.1008-0384.2017.08.012
[7]	李长青, 于肖夏, 鞠天华, 等. 马铃薯杂种F₁的SSR鉴定 [J]. 西北植物学报, 2012, 32(7):1355−1360. doi: 10.3969/j.issn.1000-4025.2012.07.011 LI C Q, YU X X, JU T H, et al. Identification of Solanum tuberosum hybrids by SSR molecular markers [J]. Acta Botanica Boreali-Occidentalia Sinica, 2012, 32(7): 1355−1360.(in Chinese) doi: 10.3969/j.issn.1000-4025.2012.07.011
[8]	丁力, 申方群, 黄红梅, 等. 芒种内F₁杂交种的配制及杂种真实性的分子鉴定 [J]. 中国草地学报, 2015, 37(2):53−57,80. DING L, SHEN F Q, HUANG H M, et al. Making up intraspecific F1 hybrids among Miscanthus sinensis and identification of hybrid realness by SSR markers [J]. Chinese Journal of Grassland, 2015, 37(2): 53−57,80.(in Chinese)
[9]	王继华, 瞿素萍, 唐开学, 等. 非洲菊ESTs-SSR标记的频率和分布特点 [J]. 园艺学报, 2006, 33(5):1140. doi: 10.3321/j.issn:0513-353X.2006.05.053 WANG J H, QU S P, TANG K X, et al. Analysis of the frequency and distribution of microsatelllites in ESTs of Gerbera hybrida (Asteraceae) [J]. Acta Horticulturae Sinica, 2006, 33(5): 1140.(in Chinese) doi: 10.3321/j.issn:0513-353X.2006.05.053
[10]	林发壮, 李锦烨, 安慧珍, 等. 基于非洲菊转录组测序的SSR位点信息分析 [J]. 福建农业科技, 2020(11):1−6. doi: 10.13651/j.cnki.fjnykj.2020.11.001 LIN F Z, LI J Y, AN H Z, et al. Analysis on SSR loci information in the transcriptome sequencing of Gerbera jamesonii L [J]. Fujian Agricultural Science and Technology, 2020(11): 1−6.(in Chinese) doi: 10.13651/j.cnki.fjnykj.2020.11.001
[11]	BENEMANN D P, ARGE L W P, BARROS W S, et al. Estimation of genetic variability of a Gerbera Brazilian collection based on morphological traits and EST-SSR markers [J]. Australian Journal of Crop Science, 2014, 8(5): 722−729.
[12]	BENEMANN D P, MACHADO L N, ARGE L W P, et al. Identification, characterization and validation of SSR markers from the gerbera EST database [J]. Plant OMICS, 2012, 5(2): 159−166.
[13]	GONG L, DENG Z N. Selection and application of SSR markers for variety discrimination, genetic similarity and relation analysis in Gerbera (Gerbera hybrida) [J]. Scientia Horticulturae, 2012, 138: 120−127. doi: 10.1016/j.scienta.2012.02.020
[14]	SONG X H, DENG Z N. Powdery mildew resistance in Gerbera: Mode of inheritance, quantitative trait locus identification, and resistance responses [J]. Journal of the American Society for Horticultural Science, 2013, 138(6): 470−478. doi: 10.21273/JASHS.138.6.470
[15]	朱骏驰, 郭印山, 刘镇东, 等. 利用SSR分子标记鉴定葡萄F1代杂种 [J]. 沈阳农业大学学报, 2016, 47(2):148−152. ZHU J C, GUO Y S, LIU Z D, et al. Identification of the F1 hybrids of grape using SSR molecular markers [J]. Journal of Shenyang Agricultural University, 2016, 47(2): 148−152.(in Chinese)
[16]	李绅崇, 李淑斌, 蒋亚莲, 等. 非洲菊品种间杂交主要观赏性状在F1代的遗传表现 [J]. 云南农业大学学报(自然科学), 2007, 22(2):197−201. LI S C, LI S B, JIANG Y L, et al. Genetic performance of primary ornamental traits in F1 hybrids of Gerbera jamesonii bolus intervarietal hybridization [J]. Journal of Yunnan Agricultural University(Natural Science Eition), 2007, 22(2): 197−201.(in Chinese)
[17]	叶刚, 张笑笑, 陈静波, 等. 结缕草属植物杂交后代形态特征和SRAP分子标记鉴定 [J]. 草地学报, 2021, 29(7):1406−1415. YE G, ZHANG X X, CHEN J B, et al. Morphological characteristics and identification of SRAP molecular markers in hybrid progeny of Zoysia [J]. Acta Agrestia Sinica, 2021, 29(7): 1406−1415.(in Chinese)
[18]	OZAKI T, SHIMADA T, NAKANISHI T, et al. RAPD analysis for parentage determination in Prunus mume sieb. et zucc [J]. Engei Gakkai Zasshi, 1995, 64(2): 235−242. doi: 10.2503/jjshs.64.235
[19]	SCARANO M T, TUSA N, ABBATE L, et al. Flow cytometry, SSR and modified AFLP markers for the identification of zygotic plantlets in backcrosses between ‘Femminello’ lemon cybrids (2n and 4n) and a diploid clone of ‘Femminello’ lemon (Citrus limon L. Burm. F. ) tolerant to mal secco disease [J]. Plant Science, 2003, 164(6): 1009−1017. doi: 10.1016/S0168-9452(03)00088-8
[20]	苏聪聪, 金燕, 徐丰, 等. 利用SSR分子标记鉴定刺葡萄F₁代杂种 [J]. 江苏农业科学, 2018, 46(17):35−38. SU C C, JIN Y, XU F, et al. Identification of F1 hybrids of Vitis davidii Foex using SSR molecular markers [J]. Jiangsu Agricultural Sciences, 2018, 46(17): 35−38.(in Chinese)
[21]	李文秀, 贺军军, 张华林, 等. SSR分子标记鉴定橡胶树F₁真伪杂种 [J]. 热带作物学报, 2021, 42(5):1305−1309. doi: 10.3969/j.issn.1000-2561.2021.05.015 LI W X, HE J J, ZHANG H L, et al. Identification of F1 hybrids of Hevea brasiliensis by SSR markers [J]. Chinese Journal of Tropical Crops, 2021, 42(5): 1305−1309.(in Chinese) doi: 10.3969/j.issn.1000-2561.2021.05.015
[22]	文雁成, 王汉中, 沈金雄, 等. SRAP和SSR标记构建的甘蓝型油菜品种指纹图谱比较 [J]. 中国油料作物学报, 2006, 28(3):233−239. doi: 10.3321/j.issn:1007-9084.2006.03.001 WEN Y C, WANG H Z, SHEN J X, et al. Comparision of cultivar fingerprints constructed with SRAP and SSR markers in Brassica napus L [J]. Chinese Journal of Oil Crop Sciences, 2006, 28(3): 233−239.(in Chinese) doi: 10.3321/j.issn:1007-9084.2006.03.001
[23]	林榕燕, 钟淮钦, 黄敏玲, 等. 文心兰EST-SSR标记的开发及其在遗传多样性分析中的应用 [J]. 分子植物育种, 2016, 14(11):3113−3119. doi: 10.13271/j.mpb.014.003113 LIN R Y, ZHONG H Q, HUANG M L, et al. Development of EST-SSR molecular marker and its application in genetic diversity analysis of Oncidium [J]. Molecular Plant Breeding, 2016, 14(11): 3113−3119.(in Chinese) doi: 10.13271/j.mpb.014.003113
[24]	舒珂, 李建红, 陈璐, 等. 卷丹百合远缘杂交及杂种后代的鉴定 [J]. 湖南农业大学学报(自然科学版), 2022, 48(5):556−562. doi: 10.13331/j.cnki.jhau.2022.05.008 SHU K, LI J H, CHEN L, et al. Distant hybridization of Lilium lancifolium Thunb. and identification of its hybrid progeny [J]. Journal of Hunan Agricultural University (Natural Sciences), 2022, 48(5): 556−562.(in Chinese) doi: 10.13331/j.cnki.jhau.2022.05.008
[25]	周宁宁, 李淑斌, 李远波, 等. 二倍体月季F₁群体的SSR鉴定与遗传分析 [J]. 园艺学报, 2017, 44(1):151−160. ZHOU N N, LI S B, LI Y B, et al. Hybrids identification and genetic analysis in diploid roses population(F₁)using SSR markers [J]. Acta Horticulturae Sinica, 2017, 44(1): 151−160.(in Chinese)
[26]	韩国辉, 向素琼, 汪卫星, 等. 沙田柚杂交后代群体的SSR鉴定与遗传多样性分析 [J]. 中国农业科学, 2010, 43(22):4678−4686. doi: 10.3864/j.issn.0578-1752.2010.22.015 HAN G H, XIANG S Q, WANG W X, et al. Identification and genetic diversity of hybrid progenies from Shatian pummelo by SSR [J]. Scientia Agricultura Sinica, 2010, 43(22): 4678−4686.(in Chinese) doi: 10.3864/j.issn.0578-1752.2010.22.015
[27]	张婧, 黄琳凯, 张新全, 等. SRAP与SSR分子标记在柳枝稷杂种鉴定中的比较分析 [J]. 草业学报, 2012, 21(5):128−133. doi: 10.11686/cyxb20120516 ZHANG J, HUANG L K, ZHANG X Q, et al. Comparison of SRAP and SSR markers for hybrid identification of switchgrass(Panicum virgatum) [J]. Acta Prataculturae Sinica, 2012, 21(5): 128−133.(in Chinese) doi: 10.11686/cyxb20120516