Basic HTML Version
曾兴莹等
, 2011,
花椰菜与黑芥体细胞杂种不同世代甲基化变异
MSAP
分析
,
分子植物育种
Vol.9 No.20 (doi: 10.5376/mpb.cn.2011.09.0020)
157
表
3 MSAP
分析的接头和引物序列
Table 3 MSAP adapters and primers used in this study
接头
Adapters
Eco
R
Ⅰ
-
adaptors
Ⅰ
5'
-
CTCGTAGACTGCGTACC
-
3'
Eco
R
Ⅰ
-
adaptors
Ⅱ
5'
-
AATTGGTACGCAGTC
-
3'
Hpa
Ⅱ
//
Msp
Ⅰ
-
adaptors
Ⅰ
5'
-
GATCATGAGTCCTGCT
-
3'
Hpa
Ⅱ
//
Msp
Ⅰ
-
adaptors
Ⅱ
5'
-
CGAGCAGGACTCATGA
-
3'
预扩引物
(5'→3')
Preselective primers (5'→3')
Eco
R
Ⅰ
+A
5'
-
GACTGCGTACCAATTCA
-
3'
Hpa
Ⅱ
//
Msp
Ⅰ
+0
5'
-
ATCATGAGTCCTGCTCGGT
-
3'
MSAP
选扩引物组合
(5'→3')
Selective primer combinations used in MSAP (5'→3')
Eco
R
Ⅰ
-AAC+
Hpa
Ⅱ
/
Msp
Ⅰ
-TCA
Eco
R
Ⅰ
-ACA+
Hpa
Ⅱ
/
Msp
Ⅰ
-TCA
Eco
R
Ⅰ
-AAC+
Hpa
Ⅱ
/
Msp
Ⅰ
-ATA
Eco
R
Ⅰ
-ACA+
Hpa
Ⅱ
/
Msp
Ⅰ
-ATA
Eco
R
Ⅰ
-AAC+
Hpa
Ⅱ
/
Msp
Ⅰ
-ACT
Eco
R
Ⅰ
-ACA+
Hpa
Ⅱ
/
Msp
Ⅰ
-ACT
Eco
R
Ⅰ
-AAC+
Hpa
Ⅱ
/
Msp
Ⅰ
-CAT
Eco
R
Ⅰ
-ACA+
Hpa
Ⅱ
/
Msp
Ⅰ
-CAT
Eco
R
Ⅰ
-AAG+
Hpa
Ⅱ
/
Msp
Ⅰ
-TCA
Eco
R
Ⅰ
-AAC+
Hpa
Ⅱ
/
Msp
Ⅰ
-TCA
Eco
R
Ⅰ
-AAG+
Hpa
Ⅱ
/
Msp
Ⅰ
-ATA
Eco
R
Ⅰ
-ACT+
Hpa
Ⅱ
/
Msp
Ⅰ
-ATA
Eco
R
Ⅰ
-AAG+
Hpa
Ⅱ
/
Msp
Ⅰ
-ACT
Eco
R
Ⅰ
-ACT+
Hpa
Ⅱ
/
Msp
Ⅰ
-ACT
Eco
R
Ⅰ
-AAG+
Hpa
Ⅱ
/
Msp
Ⅰ
-CAT
Eco
R
Ⅰ
-ACT+
Hpa
Ⅱ
/
Msp
Ⅰ
-CAT
作者贡献
刘凡老师、王桂香老师是本研究的实验设计和实验研
究的执行人;在此研究中曾兴莹完成了论文初稿的写作、数
据的分析以及结果分析。而且王桂香老师对此论文进行了修
改。全体作者都阅读并同意最终的文本。
致谢
本研究由北京市科技计划项目
(D0807050069
-
0803)
和
北京市科技计划项目
(Z09090501040902)
共同资助。
参考文献
Chan S.W., Henderson I.R., and Jacobsen S.E., 2005,
Gardening the genome: DNA methylationin Arabidopsis
thaliana, NatRev. Genet., 6: 351-360
Comai L., 2000, Genetic and epigenetic interactions in
allopolyploid plants, Plant Mol. Biol., 43: 387-399
Houehins K., O’Dell M., and Flavell R.B., 1997, Cytosine
methylation and nueleolar dominance in cereal hybrids,
Mol. Gen. Genet., 255: 294-301
Kashkush K., Feldman M., and Levy A.A., 2003, Transeription
activation of retrotransposons alters the expression of
adjacent genes in wheat, Nature geneties, 33: 102-106
Lee H.S., and Chen Z.J., 2001, Protein-coding genes are
epigenetically regulated in
Arabdopsis polyploids
, Proc.
Natl. Acad. Sei. USA, 98: 6753-6758
Madlung A., Masuelli R.W., and Watson B., 2002, Remodeling
of DNA methylation and phenotypic and transcriptional
changes in synt hetic
Arabidopsis
allotet raploids, Plant
Physiol., 129: 733-746
Madlung A., Masuelli R.W., and Watson B., 2002, Remolding
of DNA methylation and phenotypic and transcriptional
changes in synthetic
Arabdopsis polyploids
, Plant Physiol.,
129: 733-746
Salmon A., Ainouche M.L., and Wendel J.F., 2005, Genetic
and epigenetic consequences of recent hybridization and
polyploidy in
Spartina
(Poaceae), Mol. Ecol., 14:
1163-1175
Seheb H., and Grossniklaus U., 2006, The first high-resolution
DNA “methylome”, Cell, 126: 1025-1028
Shaked H., Kashkush K., and Ozakan H., 2001, Sequence
elimination and cytosine methylation are rapid and
reproducible responses of the genome to wide
hybridization and allopolyploidy in wheat, Plant Cell, 13:
1749-1759
Vos P., Hogers R., and Bleeker M., 1995, A FLP: a new
techique for DNA finger printing, Nucleic Acids Research,
23: 4407-4414
Xiong L.Z., Xucg, and Maroof M.A.S., 1999, Patterns of
cytosine methylationin an elite rice hybrid and it sparental
lines detected by methylation sensitive amplification
polymorphism technique, Mol. Gen. Genet., 261: 439-446
Zhang L., Zhao H., and Chen B., 2008, Development and
identification of interspecific somatic hybrids between
cauliflower and black mustard, Zhiwuxue Tongbao
(Chinese Bulletin of Botany), 25: 176-184 (
张丽
,
赵泓
,
陈斌
,
刘凡
, 2008,
花椰菜与黑芥种间体细胞杂种的获
得和鉴定
,
植物学通报
, 25: 176-184)