Brassinosteroids protect Lycopersicon esculentum from cadmium toxicity applied as shotgun approach

[1]  S. Hayat,et al.  Screening of tomato (Lycopersicon esculentum) cultivars against cadmium through shotgun approach , 2009 .

[2]  J. Abadía,et al.  Cadmium toxicity in tomato (Lycopersicon esculentum) plants grown in hydroponics , 2009 .

[3]  Yasemin Ekmekçi,et al.  Effects of cadmium on antioxidant enzyme and photosynthetic activities in leaves of two maize cultivars. , 2008, Journal of plant physiology.

[4]  S. Hayat,et al.  A role for brassinosteroids in the amelioration of aluminium stress through antioxidant system in mung bean (Vigna radiata L. Wilczek) , 2008 .

[5]  S. Hayat,et al.  28-homobrassinolide protects chickpea (Cicer arietinum) from cadmium toxicity by stimulating antioxidants. , 2008, Environmental pollution.

[6]  A. Wahid,et al.  Effects of Cadmium on Carbon and Nitrogen Assimilation in Shoots of Mungbean [Vigna radiata (L.) Wilczek] Seedlings , 2007 .

[7]  G. Zeng,et al.  Cadmium-induced oxidative stress and response of the ascorbate-glutathione cycle in Bechmeria nivea (L.) Gaud. , 2007, Chemosphere.

[8]  T. Cuin,et al.  Compatible solutes reduce ROS-induced potassium efflux in Arabidopsis roots. , 2007, Plant, cell & environment.

[9]  T. Kazi,et al.  Heavy Metal Contents of Vegetables Grown in Soil, Irrigated with Mixtures of Wastewater and Sewage Sludge in Pakistan, using Ultrasonic‐Assisted Pseudo‐digestion , 2007 .

[10]  S. Hayat,et al.  Brassinosteroid enhanced the level of antioxidants under cadmium stress in Brassica juncea , 2007 .

[11]  S. Hayat,et al.  28-Homobrassinolide ameliorates the saline stress in chickpea (Cicer arietinum L.) , 2007 .

[12]  S. Hayat,et al.  Effect of 28-homobrassinolide treatment on nickel toxicity in Brassica juncea , 2007, Photosynthetica.

[13]  P. Shewry,et al.  Asparagine in plants , 2007 .

[14]  S. Hayat,et al.  Effect of root applied 28-homobrassinolide on the performance of Lycopersicon esculentum , 2006 .

[15]  P. Mazzafera,et al.  Antioxidant metabolism of coffee cell suspension cultures in response to cadmium. , 2006, Chemosphere.

[16]  Qixing Zhou,et al.  Joint stress of chlorimuron-ethyl and cadmium on wheat Triticum aestivum at biochemical levels. , 2006, Environmental pollution.

[17]  S. Husted,et al.  Antioxidant defense system and cadmium uptake in barley genotypes differing in cadmium tolerance. , 2006, Journal of trace elements in medicine and biology : organ of the Society for Minerals and Trace Elements.

[18]  S. Zuchi,et al.  Effect of cadmium on H+ATPase activity of plasma membrane vesicles isolated from roots of different S-supplied maize (Zea mays L.) plants , 2005 .

[19]  Ricardo Antunes Azevedo,et al.  Making the life of heavy metal-stressed plants a little easier. , 2005, Functional plant biology : FPB.

[20]  S. Ansari,et al.  Carbonic anhydrase in relation to higher plants , 2005, Photosynthetica.

[21]  T. Balakhnina,et al.  The effect of cadmium on CO2 exchange, variable fluorescence of chlorophyll, and the level of antioxidant enzymes in pea leaves , 2005, Russian Journal of Plant Physiology.

[22]  Jingquan Yu,et al.  A role for brassinosteroids in the regulation of photosynthesis in Cucumis sativus. , 2004, Journal of experimental botany.

[23]  B. Tripathi,et al.  Relationship between copper- and zinc-induced oxidative stress and proline accumulation in Scenedesmus sp. , 2004, Planta.

[24]  P. Mazzafera,et al.  Influence of a Brassinosteroid Analogue on Antioxidant Enzymes in Rice Grown in Culture Medium with NaCl , 2003, Biologia Plantarum.

[25]  A. Jäger,et al.  Effects of plant growth regulators on the antioxidant system in seedlings of two maize cultivars subjected to water stress , 1998, Plant Growth Regulation.

[26]  R. Sairam Effects of homobrassinolide application on plant metabolism and grain yield under irrigated and moisture-stress conditions of two wheat varieties , 1994, Plant Growth Regulation.

[27]  J. L. Moya,et al.  Influence of cadmium and nickel on growth, net photosynthesis and carbohydrate distribution in rice plants , 1993, Photosynthesis Research.

[28]  N. S. Randhawa,et al.  Evaluation of a rapid test for the hidden hunger of zinc in plants , 1974, Plant and Soil.

[29]  I. D. Teare,et al.  Rapid determination of free proline for water-stress studies , 1973, Plant and Soil.

[30]  J. van Staden,et al.  Effects of plant growth regulators on the antioxidant system in callus of two maize cultivars subjected to water stress , 2004, Plant Growth Regulation.

[31]  J. Sasse Physiological Actions of Brassinosteroids: An Update , 2003, Journal of Plant Growth Regulation.

[32]  V. Zhabinskii,et al.  New Practical Aspects of Brassinosteroids and Results of Their Ten-Year Agricultural Use in Russia and Belarus , 2003 .

[33]  S. Hayat,et al.  Brassinosteroids: bioactivity and crop productivity. , 2003 .

[34]  A. Suzuki,et al.  Effects of cadmium on the co-ordination of nitrogen and carbon metabolism in bean seedlings. , 2003, Journal of plant physiology.

[35]  P. Singh,et al.  Cadmium toxicity induced changes in plant water relations and oxidative metabolism of Brassica juncea L. plants. , 2003, Journal of environmental biology.

[36]  B. Vidya Vardhini,et al.  Acceleration of ripening of tomato pericarp discs by brassinosteroids. , 2002, Phytochemistry.

[37]  L. M. Sandalio,et al.  Cadmium-induced changes in the growth and oxidative metabolism of pea plants. , 2001, Journal of experimental botany.

[38]  P. Carrier,et al.  Leaf chlorosis in oilseed rape plants (Brassica napus) grown on cadmium-polluted soil: causes and consequences for photosynthesis and growth , 2001, Planta.

[39]  V. Zhabinskii,et al.  Twenty Years of Brassinosteroids: Steroidal Plant Hormones Warrant Better Crops for the XXI Century , 2000 .

[40]  A. Bajguz Effect of brassinosteroids on nucleic acids and protein content in cultured cells of Chlorella vulgaris , 2000 .

[41]  W. Campbell NITRATE REDUCTASE STRUCTURE, FUNCTION AND REGULATION: Bridging the Gap between Biochemistry and Physiology. , 1999, Annual review of plant physiology and plant molecular biology.

[42]  S. Clouse,et al.  Brassinosteroids : steroidal plant hormones , 1999 .

[43]  V. A. Khripach,et al.  Brassinosteroids: A New Class of Plant Hormones , 1998 .

[44]  L. E. Hernandez,et al.  Alterations in the mineral nutrition of pea seedlings exposed to cadmium , 1996 .

[45]  H. Obata,et al.  Effects of zinc deficiency on the growth, proteins, and other constituents of yeast, Saccharomyces cerevisiae, cells , 1996 .

[46]  D. Doxey Manual of Laboratory Techniques , 1994 .

[47]  H. J. Kim,et al.  Nucleotide Sequence of a Gene Encoding Carbonic Anhydrase in Arabidopsis thaliana , 1994, Plant physiology.

[48]  J. Morel,et al.  Water relations, gas exchange and amino acid content in Cd-treated lettuce , 1994 .

[49]  G. Wagner Accumulation of Cadmium in Crop Plants and Its Consequences to Human Health , 1993 .

[50]  S. Sawhney,et al.  Effect of cadmium on enzymes of nitrogen metabolism in pea seedlings , 1992 .

[51]  C. Poschenrieder,et al.  Plant water relations as affected by heavy metal stress: A review , 1990 .

[52]  M. Reddy Changes in pigment composition. Hill reaction activity and saccharides metabolism in bajra (Penisetum typhoides) leaves under NaCl salinity , 1986 .

[53]  A. Stobart,et al.  The effect of Cd2+ on the biosynthesis of chlorophyll in leaves of barley , 1985 .

[54]  S. Ranganna,et al.  Manual of analysis of fruit and vegetable products , 1977 .

[55]  I. Fridovich,et al.  Superoxide dismutase: improved assays and an assay applicable to acrylamide gels. , 1971, Analytical biochemistry.

[56]  E. Jaworski Nitrate reductase assay in intact plant tissues. , 1971, Biochemical and biophysical research communications.

[57]  B. Chance,et al.  The assay of catalases and peroxidases. , 2006, Methods of biochemical analysis.

[58]  William G. Hopkins An Introduction to Plant Physiology , 1932, Nature.