[1] |
Karlstrom A R, Levine R L. Copper inhibits the protease from human immunodeficiency virus 1 by both cysteine-dependent and cysteine-independent mechanisms[J]. Proc Natl Acad Sci U S A,1991, 88(13): 5552-5556. |
[2] |
Puig S,Thiele D J. Molecular mechanisms of copper uptake and distribution[J]. Curr Opin Chem Biol, 2002,6(2):171-180. |
[3] |
Laliberte J, Labbe S. The molecular bases for copper uptake and distribution: lessons from yeast[J]. Med Sci (Paris), 2008, 24(3): 277-283. |
[4] |
Harrison M D, Jones C E, Dameron C T. Copper chaperones: function, structure and copper-binding properties[J]. J Biol Inorg Chem,1999, 4(2): 145-153. |
[5] |
Mira H, Martinez-Garcia F, Penarrubia L. Evidence for the plant-specific intercellular transport of the Arabidopsis copper chaperone CCH[J]. Plant J, 2001, 25(5):521-528. |
[6] |
Puig S, Mira H, Dorcey E,et al. Higher plants possess two different types of ATX1-like copper chaperones[J]. Biochem Biophys Res Commun, 2007, 354(2):385-390. |
[7] |
Lee H, Lee J S, Bae E K, et al. Differential expression of a poplar copper chaperone gene in response to various abiotic stresses[J]. Tree Physiol, 2005, 25(4):395-401. |
[8] |
井 鑫, 张兴国.黄瓜CCH基因的生物信息学及表达分析 [D]. 重庆:西南大学,2006:32-39. |
[9] |
刘关君,曲春浦, 刘明坤, 等. 西伯利亚蓼铜伴侣蛋白基因在盐胁迫条件下的表达分析[J]. 中国生物化学与分子生物学报, 2008,24(11): 1034-1039. |
[10] |
智颖飙,王再岚,王中生,等. 公路绿化植物油松(Pinus tabulaeformis)和小叶杨(Populus simonii)对重金属元素的吸收与积累[J].生态学报,2007,27(5):1863-1872. |
[11] |
Company P,Gonzalez-Bosch C. Identification of a copper chaperone from tomato fruits infected with Botrytis cinerea by differential display[J]. Biochem Biophys Res Commun,2003,304(4): 825-830. |
[12] |
Robert-Seilaniantz A, Grant M, Jones J D. Hormone crosstalk in plant disease and defense: more than just jasmonate-salicylate antagonism[J]. Annu Rev Phytopathol,2011,49:317-343. |