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赵云云等
, 2011,
大豆抗镉污染低积累育种的研究进展
,
分子植物育种
(online) Vol.9 No.96 pp.1692-1699 (doi: 10.5376/mpb. cn.2011.09.0096)
1698
Kexue (Scientia Agricultura Sinica), 40(11): 2418-2436
(
邱丽娟
,
王昌陵
,
周国安
,
陈受宜
,
常汝镇
, 2007,
大豆
分子育种研究进展
,
中国农业科学
,40(11): 2418-2436)
Romero-Puertas M.C., Corpas F.J., Rodriguez-Serrano M.,
Gomez M., Del R.L., and Sandalio L.M., 2007, Differential
expression and regulation of antioxidative enzymes by
cadmium in pea plants, J. Plant Physiol., 164(10): 1346-1357
Roth U., von Roepenack-Lahaye E., and Clemens S., 2006,
Proteome changes in
Arabidopsis thaliana
roots upon
exposure to Cd
2+
, J. Exp. Bot, 57(15): 4003-4013
Salt D.E., Prince R.C., Pickering I.J., and Raskin I., 1995,
Mechanisms of Cadmium Mobility and Accumulation in
Indian Mustard, Plant Physiol, 109(4): 1427-1433
Sanità D., Toppi L., and Gabbrielli R., 1999, Response to
cadmium in higher plants, Environmental and Experimen-
tal Botany, 41(2): 105-130
Schmutz J., Cannon S.B., Schlueter J., Ma J., Mitros T., Nelson
W., Hyten D.L., Song Q., Thelen J.J., Cheng J., Xu D.,
Hellsten U., May G.D., Yu Y., Sakurai T., Umezawa T.,
Bhattacharyya M.K., Sandhu D., Valliyodan B., Lindquist
E., Peto M., Grant D., Shu S., Goodstein D., Barry K.,
Futrell-Griggs M., Abernathy B., Du J, Tian Z., Zhu L.,
Gill N., Joshi T., Libault M., Sethuraman A., Zhang X.C.,
Shinozaki K., Nguyen H.T., Wing R.A., Cregan P., Specht
J., Grimwood J., Rokhsar D., Stacey G., Shoemaker R.C.,
and Jackson S.A., 2010, Genome sequence of the
palaeopolyploid soybean, Nature, 463(7278): 178-183
Semane B., Dupae J., Cuypers A., Noben J.P., Tuomainen M.,
Tervahauta A., Karenlampi S., Van Belleghem F., Smeets
K., and Vangronsveld J., 2010, Leaf proteome responses
of
Arabidopsis thaliana
exposed to mild cadmium stress, J.
Plant Physiol., 167(4): 247-254
Shi G., and Cai Q., 2009, Cadmium tolerance and accumulation
in eight potential energy crops, Biotechnol Adv., 27(5):
555-561
Shute T., and Macfie S.M., 2006, Cadmium and zinc accumula-
tion in soybean: A threat to food safety? Sci. Total Environ.,
371(1-3): 63-73
Siemianowski O., Mills R.F., Williams L., and Antosiewicz
D.M., 2011, Expression of the P1B-type ATPase AtHMA4
in tobacco modifies Zn and Cd root to shoot partitioning
and metal tolerance, Plant Biotechnology Journal, 9(1):
64-74
Siripornadulsil S., Traina S., Verma D.P., and Sayre R.T., 2002,
Molecular mechanisms of proline-mediated tolerance to
toxic heavy metals in transgenic microalgae, Plant Cell, 14:
2837-2847
Sobkowiak R., and Deckert J., 2006, Proteins induced by
cadmium in soybean cells, J. Plant Physiol., 163 (11):
1203-1206
Sugiyama M., Ae N., and Arao T., 2007, Accumulation of large
amounts of Cd in the root may limit the accumulation of
Cd in edible above-ground portions of the plant, Plant Soil,
295: 1-11
Suzuki N., Koizumi N., and H.S., 2001, Screening of cadmium
responsive genes in
Arabidopsis thaliana
, Plant Cell
Environ., 24: 1177-1188
Tamas L., Dudikova J., Durcekova K., Haluskova L., Huttova
J., Mistrik I., and Olle M., 2008, Alterations of the gene
expression, lipid peroxidation, proline and thiol content
along the barley root exposed to cadmium, J. Plant
Physiol., 165(11): 1193-203
Tester M., and Langridge P., 2010, Breeding technologies to
increase crop production in a Changing world, Science,
327(5967): 818-822
Tran L.S., and Mochida K., 2010, Functional genomics of
soybean for improvement of productivity in adverse
conditions, Funct. Integr. Genomics, 10(4): 447-462
Ueno D., Koyama E., Yamaji N., and Ma J.F., 2010a,
Physiological, genetic, and molecular characterization of a
high-Cd-accumulating rice cultivar, Jarjan, J. Exp. Bot.,
62(9):1-8
Ueno D., Yamaji N., Kono I., Huang C.F., Ando T., Yano M.
and Ma J.F., 2010b, Gene limiting cadmium accumulation
in rice, PNAS USA, 107(38): 16500-16505
Uraguchi S., Mori S., Kuramata M., Kawasaki A., Arao T., and
Ishikawa S., 2009, Root-to-shoot Cd translocation via the
xylem is the major process determining shoot and grain
cadmium accumulation in rice, J. Exp. Bot., 60(9):
2677-2688
van de Mortel J.E., Schat H., Moerland P.D., Ver L.V.T.E., van
der Ent S., Blankestijn H., Ghandilyan A., Tsiatsiani S.,
and Aarts M.G., 2008, Expression differences for genes
involved in lignin, glutathione and sulphate metabolism in
response to cadmium in
Arabidopsis thaliana
and the
related Zn/Cd-hyperaccumulator Thlaspi caerulescens,
Plant Cell Environ., 31(3): 301-324
Villiers F., Ducruix C., Hugouvieux V., Jarno N., Ezan E.,
Garin J., Junot C., and Bourguignon J., 2011, Investigating
the plant response to cadmium exposure by proteomic and
metabolomic approaches, Proteomics, 11(9): 1650-1663
Wang Y., Qian Y.R., Hu H., Xu Y., and Zhang H.J., 2011,