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Your search keyword '"Nikoloski, Zoran"' showing total 20 results
Start Over Author "Nikoloski, Zoran" Journal plant physiology
20 results on '"Nikoloski, Zoran"'

1. Observability of Plant Metabolic Networks Is Reflected in the Correlation of Metabolic Profiles

Author

Schwahn, Kevin, Küken, Anika, Kliebenstein, Daniel J, Fernie, Alisdair R, and Nikoloski, Zoran

Subjects
Plant Biology, Biological Sciences, Nutrition, Arabidopsis, Computer Simulation, Gene Expression Regulation, Plant, Genome, Plant, Genomics, Metabolic Networks and Pathways, Metabolome, Metabolomics, Models, Biological, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology
Abstract

Understanding whether the functionality of a biological system can be characterized by measuring few selected components is key to targeted phenotyping techniques in systems biology. Methods from observability theory have proven useful in identifying sensor components that have to be measured to obtain information about the entire system. Yet, the extent to which the data profiles reflect the role of components in the observability of the system remains unexplored. Here we first identify the sensor metabolites in the model plant Arabidopsis (Arabidopsis thaliana) by employing state-of-the-art genome-scale metabolic networks. By using metabolic data profiles from a set of seven environmental perturbations as well as from natural variability, we demonstrate that the data profiles of sensor metabolites are more correlated than those of nonsensor metabolites. This pattern was confirmed with in silico generated metabolic profiles from a medium-size kinetic model of plant central carbon metabolism. Altogether, due to the small number of identified sensors, our study implies that targeted metabolite analyses may provide the vast majority of relevant information about plant metabolic systems.

Published
2016

7. Focus on Respiration

Author

Hanson, Andrew D, primary, Millar, A Harvey, additional, Nikoloski, Zoran, additional, and Way, Danielle A, additional

Published
2023
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14. Sulfur deficiency-induced genes affect seed protein accumulation and composition under sulfate deprivation

Author

Aarabi, Fayezeh, primary, Rakpenthai, Apidet, additional, Barahimipour, Rouhollah, additional, Gorka, Michal, additional, Alseekh, Saleh, additional, Zhang, Youjun, additional, Salem, Mohamed A, additional, Brückner, Franziska, additional, Omranian, Nooshin, additional, Watanabe, Mutsumi, additional, Nikoloski, Zoran, additional, Giavalisco, Patrick, additional, Tohge, Takayuki, additional, Graf, Alexander, additional, Fernie, Alisdair R, additional, and Hoefgen, Rainer, additional

Published
2021
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15. The Rice Actin-Binding Protein RMD Regulates Light-Dependent Shoot Gravitropism

Author

Song, Yu, primary, Li, Gang, additional, Nowak, Jacqueline, additional, Zhang, Xiaoqing, additional, Xu, Dongbei, additional, Yang, Xiujuan, additional, Huang, Guoqiang, additional, Liang, Wanqi, additional, Yang, Litao, additional, Wang, Canhua, additional, Bulone, Vincent, additional, Nikoloski, Zoran, additional, Hu, Jianping, additional, Persson, Staffan, additional, and Zhang, Dabing, additional

Published
2019
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19. Integrative Comparative Analyses of Transcript and Metabolite Profiles from Pepper and Tomato Ripening and Development Stages Uncovers Species-Specific Patterns of Network Regulatory Behavior1[W][OA].

Author

Osorio, Sonia, Alba, Rob, Nikoloski, Zoran, Kochevenko, Andrej, Fernie, Alisdair R., and Giovannoni, James J.

Subjects
PEPPERS, TOMATO research, FRUIT genetics, FRUIT physiology, GENETIC transcription, PHYSIOLOGY
Abstract

Integrative comparative analyses of transcript and metabolite levels from climacteric and nonclimacteric fruits can be employed to unravel the similarities and differences of the underlying regulatory processes. To this end, we conducted combined gas chromatography-mass spectrometry and heterologous microarray hybridization assays in tomato (Solanum Iycopersicum; climacteric) and pepper (Capsicum chilense; nonclimacteric) fruits across development and ripening. Computational methods from multivariate and network-based analyses successfully revealed the difference between the covariance structures of the integrated data sets. Moreover, our results suggest that both fruits have similar ethylene-mediated signaling components; however, their regulation is different and may reflect altered ethylene sensitivity or regulators other than ethylene in pepper. Genes involved in ethylene biosynthesis were not induced in pepper fruits. Nevertheless, genes downstream of ethylene perception such as cell wall metabolism genes, carotenoid biosynthesis genes, and the never-ripe receptor were clearly induced in pepper as in tomato fruit. While signaling sensitivity or actual signals may differ between climacteric and nonclimacteric fruit, the evidence described here suggests that activation of a common set of ripening genes influences metabolic traits. Also, a coordinate regulation of transcripts and the accumulation of key organic acids, including malate, citrate, dehydroascorbate, and threonate, in pepper fruit were observed. Therefore, the integrated analysis allows us to uncover additional information for the comprehensive understanding of biological events relevant to metabolic regulation during climacteric and nonclimacteric fruit development. [ABSTRACT FROM AUTHOR]

Published
2012
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20. Integrative Comparative Analyses of Transcript and Metabolite Profiles from Pepper and Tomato Ripening and Development Stages Uncovers Species-Specific Patterns of Network Regulatory Behavior1[W][OA].

Author

Osorio, Sonia, Alba, Rob, Nikoloski, Zoran, Kochevenko, Andrej, Fernie, Alisdair R., and Giovannoni, James J.

Subjects
*PEPPERS, *TOMATO research, *GENETIC transcription, *PHYSIOLOGY, FRUIT genetics, FRUIT physiology
Abstract

Integrative comparative analyses of transcript and metabolite levels from climacteric and nonclimacteric fruits can be employed to unravel the similarities and differences of the underlying regulatory processes. To this end, we conducted combined gas chromatography-mass spectrometry and heterologous microarray hybridization assays in tomato (Solanum Iycopersicum; climacteric) and pepper (Capsicum chilense; nonclimacteric) fruits across development and ripening. Computational methods from multivariate and network-based analyses successfully revealed the difference between the covariance structures of the integrated data sets. Moreover, our results suggest that both fruits have similar ethylene-mediated signaling components; however, their regulation is different and may reflect altered ethylene sensitivity or regulators other than ethylene in pepper. Genes involved in ethylene biosynthesis were not induced in pepper fruits. Nevertheless, genes downstream of ethylene perception such as cell wall metabolism genes, carotenoid biosynthesis genes, and the never-ripe receptor were clearly induced in pepper as in tomato fruit. While signaling sensitivity or actual signals may differ between climacteric and nonclimacteric fruit, the evidence described here suggests that activation of a common set of ripening genes influences metabolic traits. Also, a coordinate regulation of transcripts and the accumulation of key organic acids, including malate, citrate, dehydroascorbate, and threonate, in pepper fruit were observed. Therefore, the integrated analysis allows us to uncover additional information for the comprehensive understanding of biological events relevant to metabolic regulation during climacteric and nonclimacteric fruit development. [ABSTRACT FROM AUTHOR]

Published
2012
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