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Full-Text Articles in Life Sciences
The Regulation Of Plant Vegetative Phase Transition And Rejuvenation: Mirnas, A Key Regulator, Tajbir Raihan, Robert L. Geneve, Sharyn E. Perry, Carlos M. Rodriguez Lopez
The Regulation Of Plant Vegetative Phase Transition And Rejuvenation: Mirnas, A Key Regulator, Tajbir Raihan, Robert L. Geneve, Sharyn E. Perry, Carlos M. Rodriguez Lopez
Horticulture Faculty Publications
In contrast to animals, adult organs in plants are not formed during embryogenesis but generated from meristematic cells as plants advance through development. Plant development involves a succession of different phenotypic stages and the transition between these stages is termed phase transition. Phase transitions need to be tightly regulated and coordinated to ensure they occur under optimal seasonal, environmental conditions. Polycarpic perennials transition through vegetative stages and the mature, reproductive stage many times during their lifecycles and, in both perennial and annual species, environmental factors and culturing methods can reverse the otherwise unidirectional vector of plant development. Epigenetic factors regulating …
Greenhouse Spatial Effects Detected In The Barley (Hordeum Vulgare L.) Epigenome Underlie Stochasticity Of Dna Methylation, Moumouni Konate, Michael J. Wilkinson, Julian Taylor, Eileen S. Scott, Bettina Berger, Carlos M. Rodriguez Lopez
Greenhouse Spatial Effects Detected In The Barley (Hordeum Vulgare L.) Epigenome Underlie Stochasticity Of Dna Methylation, Moumouni Konate, Michael J. Wilkinson, Julian Taylor, Eileen S. Scott, Bettina Berger, Carlos M. Rodriguez Lopez
Horticulture Faculty Publications
Environmental cues are known to alter the methylation profile of genomic DNA, and thereby change the expression of some genes. A proportion of such modifications may become adaptive by adjusting expression of stress response genes but others have been shown to be highly stochastic, even under controlled conditions. The influence of environmental flux on plants adds an additional layer of complexity that has potential to confound attempts to interpret interactions between environment, methylome, and plant form. We therefore adopt a positional and longitudinal approach to study progressive changes to barley DNA methylation patterns in response to salt exposure during development …
Common Garden Experiment Reveals Altered Nutritional Values And Dna Methylation Profiles In Micropropagated Three Elite Ghanaian Sweet Potato Genotypes, Belinda Akomeah, Marian D. Quain, Sunita A. Ramesh, Lakshay Anand, Carlos M. Rodríguez López
Common Garden Experiment Reveals Altered Nutritional Values And Dna Methylation Profiles In Micropropagated Three Elite Ghanaian Sweet Potato Genotypes, Belinda Akomeah, Marian D. Quain, Sunita A. Ramesh, Lakshay Anand, Carlos M. Rodríguez López
Horticulture Faculty Publications
Micronutrient deficiency is the cause of multiple diseases in developing countries. Staple crop biofortification is an efficient means to combat such deficiencies in the diets of local consumers. Biofortified lines of sweet potato (Ipomoea batata L. Lam) with enhanced beta-carotene content have been developed in Ghana to alleviate Vitamin A Deficiency. These genotypes are propagated using meristem micropropagation to ensure the generation of virus-free propagules. In vitro culture exposes micropropagated plants to conditions that can lead to the accumulation of somaclonal variation with the potential to generate unwanted aberrant phenotypes. However, the effect of micropropagation induced somaclonal variation on …
Salt Stress Induces Non-Cg Methylation In Coding Regions Of Barley Seedlings (Hordeum Vulgare), Moumouni Konate, Michael J. Wilkinson, Benjamin T. Mayne, Stephen M. Pederson, Eileen S. Scott, Bettina Berger, Carlos M. Rodriguez Lopez
Salt Stress Induces Non-Cg Methylation In Coding Regions Of Barley Seedlings (Hordeum Vulgare), Moumouni Konate, Michael J. Wilkinson, Benjamin T. Mayne, Stephen M. Pederson, Eileen S. Scott, Bettina Berger, Carlos M. Rodriguez Lopez
Horticulture Faculty Publications
Salinity can negatively impact crop growth and yield. Changes in DNA methylation are known to occur when plants are challenged by stress and have been associated with the regulation of stress-response genes. However, the role of DNA-methylation in moderating gene expression in response to salt stress has been relatively poorly studied among crops such as barley. Here, we assessed the extent of salt-induced alterations of DNA methylation in barley and their putative role in perturbed gene expression. Using Next Generation Sequencing, we screened the leaf and root methylomes of five divergent barley varieties grown under control and three salt concentrations, …