An increase in ethylene sensitivity following pollination is the initial event triggering an increase in ethylene production and enhanced senescence of Phalaenopsis orchid flowers
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R. Porat | A. Halevy | M. Serek | A. Borochov
[1] M. Reid,et al. Novel Gaseous Ethylene Binding Inhibitor Prevents Ethylene Effects in Potted Flowering Plants , 1994 .
[2] R. Porat,et al. Pollination-induced changes in ethylene production and sensitivity to ethylene in cut dendrobium orchid flowers , 1994 .
[3] R. Porat,et al. Pollination-induced senescence in phalaenopsis petals. Relationship of ethylene sensitivity to activity of GTP-binding proteins and protein phosphorylation , 1994 .
[4] R. Porat,et al. Petunia flower longevity: the role of sensitivity to ethylene , 1993 .
[5] S. Mayak,et al. Unusual ethylene-related behavior in senescing flowers of the carnation sandrosa , 1993 .
[6] C. S. Whitehead,et al. Role of short-chain saturated fatty acids in the control of ethylene sensitivity in senescing carnation flowers , 1993 .
[7] R. Fluhr,et al. Ethylene Signal Is Transduced via Protein Phosphorylation Events in Plants. , 1993, The Plant cell.
[8] X. S. Zhang,et al. Ovary and Gametophyte Development Are Coordinately Regulated by Auxin and Ethylene following Pollination. , 1993, The Plant cell.
[9] X. S. Zhang,et al. Interorgan regulation of ethylene biosynthetic genes by pollination. , 1993, The Plant cell.
[10] M. Montague. Calcium Antagonists Inhibit Sustained Gibberellic Acid-Induced Growth of Avena (Oat) Stem Segments , 1993, Plant physiology.
[11] R. Fluhr,et al. Calcium Requirement for Ethylene-Dependent Responses. , 1992, The Plant cell.
[12] T. Kao,et al. Ethylene Synthesis and Floral Senescence following Compatible and Incompatible Pollinations in Petunia inflata. , 1992, Plant physiology.
[13] M. Reid,et al. Variation in the senescence of carnation (Dianthus caryophyllus L.) cultivars. II. Comparison of sensitivity to exogenous ethylene and of ethylene binding , 1991 .
[14] C. S. Whitehead,et al. Pollination-Induced Corolla Abscission and Senescence and the Role of Short-Chain Fatty Acids in the Process , 1989 .
[15] A. Trewavas,et al. The measurement of intracellular calcium levels in protoplasts from higher plant cells , 1986 .
[16] F. Hoekstra,et al. Lack of Control by Early Pistillate Ethylene of the Accelerated Wilting of Petunia hybrida Flowers. , 1986, Plant physiology.
[17] C. S. Whitehead,et al. Does pollination induce corolla abscission of cyclamen flowers by promoting ethylene production? , 1984, Plant physiology.
[18] N. Hoffman,et al. Ethylene biosynthesis and its regulation in higher plants , 1984 .
[19] A. Trewavas. Growth substance sensitivity: The limiting factor in plant development , 1982 .
[20] S. P. Burg,et al. Ethylene and auxin participation in pollen induced fading of vanda orchid blossoms. , 1967, Plant physiology.