玉米穗腐病致病禾谷镰孢复合种的遗传多样性、致病力与毒素化学型分析
王宝宝,郭成,孙素丽,夏玉生,朱振东,段灿星

The Genetic Diversity, Pathogenicity, and Toxigenic Chemotypes of Fusarium graminearum Species Complex Causing Maize Ear Rot
WANG BaoBao,GUO Cheng,SUN SuLi,XIA YuSheng,ZHU ZhenDong,DUAN CanXing
表1 本试验所用引物
Table 1 Primers used in this study
引物 Primer 序列 Sequence (5′ to 3′) 退火温度 Tm (℃) 扩增片段大小 Product size (bp) 参考文献 Reference
SSR-L1 R: AGAAGAAGGGCAAATGG 57 378 [19]
F: TGTCCGAGTCGTCTGAAT
SSR-L2 R: GGTGGTGGTTTCCGTGAG 60 214 [19]
F: GCGTTGAGATACCCTTTCG
SSR-L3 R: CTGCTGCTATCACTTCCAC 58 344 [19]
F: TTCACAACGACCGTATTTC
SSR-L4 R: GTTGTTGGGTTGCTTGTG 59 160 [19]
F: GTCTCGTCCAGATTCCTATT
SSR-L5 R: GGTGGTGGTTTCCGTGAG 60 214 [19]
F: GCGTTGAGATACCCTTTCG
SSR-L6 R: AATAGTGGCGGTGCGTAG 60 386 [19]
F: GTCTCCCGAGTAGTTGGC
SSR-L7 R: TAGTGGCGGTGCGTAGTG 62 379 [19]
F: GTCTCCCGAGTAGTTGGC
SSR-L8 R: GGTCCGCAACATAGAGGG 60 403 [19]
F: CCGAAGAGGAGAACGAGC
SSR-G11 R: TTTTGGGTGTTGAAGAAGCC 56 200-300 [20]
F: TTTTTGTTTGCGTCGTTCTG
SSR-G12 R: AATGCAGTCGATGGGAAACT 56 200-300 [20]
F: GGGTTCCTTGTAAGTGGCTG
SSR-G13 R: AGTATCAGACAGGTTGGCCG 56 200-300 [20]
F: GTATGCAAAGCAGCGTCGTA
SSR-G14 R: GCCCATTACGTTGAGCAAAT 56 200-300 [20]
F: TTTTTCGGTCTGGCTATTGG
SSR-G15 R: CTCTAGTGGCAGACCCTTCG 56 200-300 [20]
F: CTTGACATGTCGCGCTTTTA
SSR-G16 R: CTGATCTGCGGACATCTTCA 56 200-300 [20]
F: GTTTTGGTTTGCCTGTCGTT
SSR-G17 R: TCTGTCGTTGACAAGCAAGC 56 200-300 [20]
F: ACGGACCGACGACATAACTC
SSR-G18 R: GCGTCGACTAAAGGAACCAG 56 200-300 [20]
F: TCCCGACGTTAGAGTGGAGT
SSR-G19 R: CCTTGTTCTTTCCACCCTGA 56 200-300 [20]
F: ACGAGGACGAACTTGTTGCT
引物 Primer 序列 Sequence (5′ to 3′) 退火温度 Tm (℃) 扩增片段大小 Product size (bp) 参考文献 Reference
SSR-G20 R: AAGCTTGGGGGCTAACATCT 56 200-300
F: CAGCTTTGGCGGACATTATT [20]
SSR-G21 R: TCACATATTCAACCGACCCA 56 200-300 [20]
F: GCTCCGTGTCCTTTCATTTC
SSR-G22 R: GACGGATCGTCGGATAGGTA 56 200-300 [20]
F: CACTAAGCTGCTCCTCCACC
VNTR-F1 F: ACAGGCATCCAAGGACATTT 56 286 [21]
R: GTTTGATGGCGCATTCAAAG
VNTR-F2 F: GCAGGACCTGGATGATGAA 56 234 [21]
R: ATGTGTGCAGCCATGAGATT
VNTR-F3 F: ATCTCCCAAGCTGGCTAATT 56 234 [21]
R: AGAACCGGCAAAGTTCGATT
VNTR-F4 F: TCCGAAGGTAGAAGCGTTGT 56 298
R: TCAAGCCCATCTATGCTGTT [21]
VNTR-F5 F: GAGATGGCAACATTATTTGCA 56 252
R: ATTGGCAGCAGGGCTTGATT [21]
VNTR-F6 F: AAGAGGGCGTGTCTCTGTTTT 56 215
R: CGCTTCCTTCCTTTCAATTC [21]
VNTR-F7 F: AAGACTGGTCAGCAGTAGGGA 56 248
R: TGAGAGCGAGACTGAGCATGA [21]
VNTR-F8 F: AAACGTAAACGGATCAACGG 56 210
R: AGATTCGCAACTTTGTGCTG [21]
VNTR-F9 F: TGGATATGGTTCCCCAGCT 56 239
R: TACTGACCTTGAGGAGCACCATAC [21]
VNTR-F10 F: TATGATGCAGCGAATGCAAC 56 221 [21]
R: TAGAGACCTGGCCCATACCA
TEF-1α R: ATGGGTAAGGAR-GACAAGAC 58 680 [22]
F: GGAR-GTACCAGTSATCATGTT
β-tubulin R: GGTAACCAAATCGGTGCTGCTTTC 55 380 [23]
F: ACCCTCAGTGTAGTGACCCTTGGC
RPB2 R: CCCATRGCTTGYTTRCCCAT 55 900 [24]
F: GGGGWGAYCAGAAGAAGGC
Tri13a/b R: CTCSACCGCATCGAAGASTCTC 58 583, 644, 859 [25]
F: GAASGTCGCARGACCTTGTTTC
Tri13F/R R: GGTGTCCCAGGATCTGCG 57 415 [26]
F: TACGTGAAACATTGTTGGC
Tri303F/R R: GCCGGACTGCCCTATTG 52 586 [27]
F: GATGGCCGCAAGTGGA
Tri315F/R R: GTCTATGCTCTCAACGGACAAC 58 864 [27]
F: CTCGCTGAAGTTGGACGTAA