Expression Patterns of HvCKX Genes Indicate Their Role in Growth and Reproductive Development of Barley |
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| Authors: | Wojciech Zalewski Sebastian Gasparis Maja Boczkowska Izabela K. Rajchel Maciej Ka?a Wac?aw Orczyk Anna Nadolska-Orczyk |
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| Affiliation: | 1. Department of Functional Genomics, Plant Breeding and Acclimatization Institute – National Research Institute, Radzikow, Blonie, Poland.; 2. Department of Genetic Engineering, Plant Breeding and Acclimatization Institute – National Research Institute, Radzikow, Blonie, Poland.; Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, China, |
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| Abstract: | Cytokinin oxidase/dehydrogenase proteins (CKX) are encoded by a multigene family of CKX genes with a varying number of members depending on species. For some of the genes, spectacular effects on grain production in selected cereals have been observed. Despite the fact that partial or full length sequences of most HvCKX genes in barley (Hordeum vulgare) have already been published, in most cases their specific biological functions have not been reported. Detailed expression patterns for five HvCKX genes in different organs/tissues of developing barley plants coupled with analysis of RNAi silent for two genes are presented to test the hypothesis that these expression profiles might indicate their function. Elevated expression for four of them – HvCKX1, HvCKX9, HvCKX4, and HvCKX11 – was found in developing kernels of wild-type plants compared to other tissues. HvCKX5 was mainly expressed in leaf tissue. Lower expression was noted for HvCKX1 in seedling roots and for HvCKX9 in leaves. The documented effect of RNAi silencing of HvCKX1 and a trend for HvCKX9 was higher plant productivity, and the trait was inherited through four generations. Higher plant yield was determined by higher numbers of seeds and spikes. Increased productivity was significantly greater in HvCKX1 silenced plants showing higher relative expression of HvCKX1 in developing kernels of wild-type plants compared to the expression of HvCKX9. Both HvCKX1 silenced T1 seedlings of cv. Golden Promise and the newly transformed breeding line STH7308 showed greater root mass, but this trait was not inherited in the next generation. Similarly HvCKX9 silenced T1 seedlings exhibited greater plant height without inheritance in the next generation. It is suggested that these effects were not inherited because of compensation by other genes co-ordinately regulating reproductive development. One line with untypically changed, inherited phenotype, which was selected from several dozen silenced lines showing stable and common phenotypes is presented. |
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