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flower-specific expression promoter from
Arabidopsis thaliana
and its
plant expression vector construction, Forestry Studies in China, 12(4):
201-205 http://dx.doi. org/10.1007/s11632-010-0408-4
Gao S.P., Fan B.Y., Shi G.A., Jia X.P., and Kong X.S., 2010, Cloning and
sequence analysis of promoter of chalcone synthase gene from
Petunia
Hybrida
and construction of plant expression vector, Northern
Horticulture, 17: 155-158
Higo K., Ugawa Y., Iwamoto M., and Korenaga T., 1999, Plant
cis
-acting
regulatory DNA elements (PLACE) database: 1999, Nucleic Acids
Research, 27(1): 297-300 http://dx.doi.org/10.1093/nar/27.1.297 PMid:9847208
PMCid:148163
Koch M.A., Weisshaar B., Kroymann J., Haubold B., and Mitchell-Olds T.,
2001, Comparative genomics and regulatory evolution: conservation
and function of the
Chs
and
Apetala3
promoters, Molecular Biology
and Evolution, 18(10): 1882-1891 http://dx.doi.org/10.1093/oxfordjournals.
molbev.a003729 PMid:11557794
Krizek B.A., and Meyerowits E.M., 1996, The
Arabidopsis
homeotic genes
APETAGA3 and
PISTILLATA
are sufficient to provide the B class
organ identity function, Development, 122(1): 11-22 PMid:8565821
Mummenhoff K., and Koch M., 1994, Chloroplast DNA restriction site
variation and phylogenetic relationships in the genus
Thlaspi
sensu lato
(Brassicaceae), Syst. Bot., 19(1): 73-88 http://dx.doi.org/10.2307/2419713
Staiger D., Kaulen H., and Schell J., 1989, A CACGTG motif of the
Antirrhinum majus
chalcone synthase promoter is recognized by an
evolutionary conserved nuclear protein, Proc. Natl. Acad. Sci., USA,
86(18): 6930-6934 http://dx. doi.org/10.1073/pnas.86.18.6930
Tilly J.J., Allen D.W., and Jack T., 1998, The CArG boxes in the promoter
of the
Arabidopsis
floral organ identity gene
APETALA3
mediate diverse
regulatory effects, Development, 125(9): 1647-1657 PMid:9521903
Tunen A.J., Hartman S.A., Mur L.A., and Mol J.N.M., 1989, Regulation of
chalcone flavonone isomerase (CHI) gene expression in
Petunia
hybrida
: the use of alternative promters in corolla, anthers and pollen,
Plant Mol. Biol., 12(5): 539-551 http://dx.doi.org/10.1007/BF00036968r
van der Meer I.M., Brouwer M., Spelt C.E., Mol J.N.M., and Stuitje A.R.,
1992, The TACPyAT repeats in the chalcone synthase promoter of
Petunia hybrida
act as a dominant negative
cis
-acting module in the
control of organ-specific expression, The Plant J., 2(4): 525-535
http://dx.doi.org/ 10.1046/j.1365-313X.1992.t01-23-00999.x PMid:1344889
Verdonk J.C., Shibuya K., Loucas H.M., Colquhoun T.A., Underwood B.A.,
and Clark D.G., 2008, Flower-specific expression of the
Agrobacterium
tumefaciens isopentenyl- transferase
gene results in radial expansion of
floral organs in
Petunia hybrida
, Plant Biotechnology Journal, 6(7):
694-701 http://dx.doi.org/10.1111/j.1467-7652.2008. 00349.x PMid:18482222
Zhang Z.Z., Xu Y.Q., and Huang H., 2006, Aribidopsis, a powerful tool for
exploring the mysteries of plant kingdom, Chinese Bulletin of Life
Sciences, 18(5): 442-446
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