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)
1697
stress, Plant Biotechnol. J., 8(8): 887-899
Huang S.Q., Peng J., Qiu C.X., and Yang Z.M., 2009, Heavy
metal-regulated new microRNAs from rice, J. Inorg.
Biochem., 103(2): 282-7
Huang Y.X., Liao B.H., Wang Z.K., and Bao H.T., 2008,
Cadmium toxicity and differences in tolerance to cadmium
of various soybean varieties, Hunana Nongye Daxue
Xuebao (Journal of Hunan Agricultural University (Natural
Sciences)), 34(5): 519-524 (
黄运湘
,
廖柏寒
,
王志坤
,
包
海田
, 2008,
不同大豆品种镉毒害效应及耐镉差异性
,
湖南农业大学学报
(
自然科学版
), 34(5): 519-524)
Hyten D.L., Choi I., Song Q., Specht J.E., Jr. Carter T.E.,
Shoemaker R. C., Hwang E., Matukumalli L.K., and
Cregan P.B., 2010, A high density integrated genetic
linkage map of soybean and the development of a 1 536
universal soy linkage panel for quantitative trait locus
mapping, Crop Science, 50: 960-968
Ishikawa S., Ae N., Sugiyama M., Murakami M., and Arao T.,
2005, Genotypic variation in shoot cadmium concentration
in rice and soybean in soils with different levels of
cadmium contamination, Soil Sci. Plant Nutr., 51: 101-108
Jegadeesan S., Yu K., Poysa V., Gawalko E., Morrison M.J.,
Shi C., and Cober E., 2010, Mapping and validation of
simple sequence repeat markers linked to a major gene
controlling seed cadmium accumulation in soybean
(
Glycine max
(L.)
Merr.
), Theor. Appl. Genet., 121(2):
283-294
Kovalchuk I., Titov V., Hohn B., and Kovalchuk O., 2005,
Transcriptome profiling reveals similarities and differences
in plant responses to cadmium and lead, Mutat. Res.,
570(2): 149-161
Lee K., Bae D.W., Kim S.H., Han H.J., Liu X., Park H.C., Lim
C.O., Lee S.Y., and Chung W.S., 2010, Comparative
proteomic analysis of the short-term responses of rice
roots and leaves to cadmium, J. Plant Physiol., 167(3):
161-168
Liu J., Qian M., Cai G., Yang J., and Zhu Q., 2007, Uptake and
translocation of Cd in different rice cultivars and the
relation with Cd accumulation in rice grain, J Hazard
Mater, 143(1-2): 443-447
Liu J., Qian M., Cai G., Zhu Q., and Wong M.H., 2007,
Variations between rice cultivars in root secretion of
organic acids and the relationship with plant cadmium
uptake, Environ Geochem Health, 29 (3): 189-195
Lux A., Martinka M., Vaculik M., and White P.J., 2011, Root
responses to cadmium in the rhizosphere: a review, J. Exp.
Bot., 62 (1): 21-37
MacLean A.J., 1976, Cadmium in different plant species and its
availability in soils as influenced by organic matter and
additions of lime, P, Cd and Zn, Canadian Journal of Soil
Science, 56: 129-138
Marchiol L., Leita L., Martin M., Peressotti A., and Zerbi G.,
1996, Physiological Responses of Two Soybean Cultivars
to Cadmium, J. Environ. Qual., 25: 562-566
Miyadate H., Adachi S., Hiraizumi A., Tezuka K., Nakazawa N.,
Kawamoto T., Katou K., Kodama I., Sakurai K., Takahashi
H., Satoh-Nagasawa N., Watanabe A., Fujimura T. and
Akagi H., 2011, OsHMA3, a P1B-type of ATPase affects
root-to-shoot cadmium translocation in rice by mediating
efflux into vacuoles, New Phytol, 189(1): 190-199
Morel M., Crouzet J., Gravot A., Auroy P., Leonhardt N.,
Vavasseur A., and Richaud P., 2009, AtHMA3, a P1B-
ATPase allowing Cd/Zn/Co/Pb vacuolar storage in
Arabidopsis, Plant Physiol, 149(2): 894-904
Ohya T., Tanoi K., Iikura H., Rai H., and Nakanishi T.M., 2008,
Effect of rhizosphere pH condition on cadmium
movement in a soybean plant, Journal of Radioanalytical
and Nuclear Chemistry, 275: 247-251
Papoyan A., Pineros M., and Kochian L.V., 2007, Plant Cd
2+
and Zn
2+
status effects on root and shoot heavy metal
accumulation in Thlaspi caerulescens, New Phytol., 175(1):
51-58
Pawlak S., Firych A., Rymer K., and Deckert J., 2009, Cu,
Zn-superoxide dismutase is differently regulated by
cadmium and lead in roots of soybean seedlings, Acta
Physiologiae Plantarum, 34(4):741-747
Perfus-Barbeoch L., Leonhardt N., Vavasseur A., and Forestier
C., 2002, Heavy metal toxicity: cadmium permeates
through calcium channels and disturbs the plant water
status, Plant J., 32(4): 539-548
Petterson O., 1977, Differences in cadmium uptake between
plant species and cultivars, Swed. J. Agric. Res, 7: 21-24
Pirselova B., Kuna R., Libantova J., Moravcikova J., and
Matusikova I., 2010, Biochemical and physiological
comparison of heavy metal-triggered defense responses in
the monocot maize and dicot soybean roots, Mol. Biol.
Rep., 38(5):3437-3446
Polle A., and Schützendübel A., 2003, Heavy metal signalling
in plants: linking cellular and organismic responses, Plant
Responses to Abiotic Stress, 4: 187-215
Qiu L.J., Wang C.L., Zhou G.A., Chen S.Y., and Chang R.Z.,
2007, Soybean molecular breeding, Zhongguo Nongye