Apical dominance is a phenomenon that the growth of axillary meristems is inhibited by the primary shoot or inflorescence. Recent researches have begun to reveal the molecular mechanisms of apical dominance by isolati...Apical dominance is a phenomenon that the growth of axillary meristems is inhibited by the primary shoot or inflorescence. Recent researches have begun to reveal the molecular mechanisms of apical dominance by isolating and identifying mutants with altered apical dominance. Here we report isolation of a bushy and dwarf 1 (bud1) mutant from Arabidopsis thaliana L. through a T-DNA tagging approach. The phenotypes of bul1 plants include loss of apical dominance, reduced plant size and dwarfism, suggesting that the bud1 mutant may be involved in auxin metabolism, transport or signalling. Using a reporter gene driven by an auxin-responsive promoter, we found that the expression pattern of auxin response element was altered in bud1. The auxin sensitivity and transport assay indicates that these two processes are normal in bud1. These results suggest that the bud1 phenotypes may result from an alteration in auxin metabolism. Genetic analysis demonstrates that bud1 is a semidominant mutant and cosegregates with a T-DNA insertion, which indicates that BUD1 gene could be cloned by iPCR approach.展开更多
Flooding events tend to destroy the original flood-intolerant vegetation in riparian zones,but the flood-tolerant species can confront the stress,and contribute to the riparian ecosystem.Grass species,Hemarthria altis...Flooding events tend to destroy the original flood-intolerant vegetation in riparian zones,but the flood-tolerant species can confront the stress,and contribute to the riparian ecosystem.Grass species,Hemarthria altissima,are usually dominant in the riparian zones.This species is considered as good forage which is usually grazed by livestock or mowed by local people.Therefore,the apical tissues of the plants are often removed,and the plants have to grow without stem apexes,during their life cycle.In this study,we aimed to examine the differences in growth performance of intact versus apex-cut individuals of H.altissima upon complete submergence.Two groups of H.altissima plants(with and without shoot apexes)were treated with dark non-submergence and dark complete submergence conditions for 200 days.During the experiment,we measured plant growth,biomass changes in plant organs,and the consumption of non-structural carbohydrates(NSC)by different tissues.During submergence,shoot elongation stopped,and around six lateral buds were developed averagely by each plant without apexes.This growth performance finally caused 60%decline of NSC in underground parts.The relatively intensive consumption of carbohydrates in submerged apex-removed plants induced the 21%stem length decreased under water,which indicated the decreasing submergence tolerance of plants with shoot apex removed.Therefore,we suggest that when using H.altissima for restoring degraded riparian ecosystems,the shoot apexes should be protected from grazing by livestock or harvesting by local people in order to maintain the submergence tolerance of H.altissima.展开更多
文摘Apical dominance is a phenomenon that the growth of axillary meristems is inhibited by the primary shoot or inflorescence. Recent researches have begun to reveal the molecular mechanisms of apical dominance by isolating and identifying mutants with altered apical dominance. Here we report isolation of a bushy and dwarf 1 (bud1) mutant from Arabidopsis thaliana L. through a T-DNA tagging approach. The phenotypes of bul1 plants include loss of apical dominance, reduced plant size and dwarfism, suggesting that the bud1 mutant may be involved in auxin metabolism, transport or signalling. Using a reporter gene driven by an auxin-responsive promoter, we found that the expression pattern of auxin response element was altered in bud1. The auxin sensitivity and transport assay indicates that these two processes are normal in bud1. These results suggest that the bud1 phenotypes may result from an alteration in auxin metabolism. Genetic analysis demonstrates that bud1 is a semidominant mutant and cosegregates with a T-DNA insertion, which indicates that BUD1 gene could be cloned by iPCR approach.
基金supported by National Natural Science Foundation of China(grant numbers U22A20448,31800331,31400480,31770465)National Key R&D Program of China(grant number 2023YFF1305204)+2 种基金Chongqing Talents Program(grant number cstc2021ycjh-bgzxm0316)the Fundamental Research Funds for the Central Universities(grant number SWU-KT23001)Science Foundation of School of Life Sciences SWU(grant numbers 20212017050401,20212005393901).
文摘Flooding events tend to destroy the original flood-intolerant vegetation in riparian zones,but the flood-tolerant species can confront the stress,and contribute to the riparian ecosystem.Grass species,Hemarthria altissima,are usually dominant in the riparian zones.This species is considered as good forage which is usually grazed by livestock or mowed by local people.Therefore,the apical tissues of the plants are often removed,and the plants have to grow without stem apexes,during their life cycle.In this study,we aimed to examine the differences in growth performance of intact versus apex-cut individuals of H.altissima upon complete submergence.Two groups of H.altissima plants(with and without shoot apexes)were treated with dark non-submergence and dark complete submergence conditions for 200 days.During the experiment,we measured plant growth,biomass changes in plant organs,and the consumption of non-structural carbohydrates(NSC)by different tissues.During submergence,shoot elongation stopped,and around six lateral buds were developed averagely by each plant without apexes.This growth performance finally caused 60%decline of NSC in underground parts.The relatively intensive consumption of carbohydrates in submerged apex-removed plants induced the 21%stem length decreased under water,which indicated the decreasing submergence tolerance of plants with shoot apex removed.Therefore,we suggest that when using H.altissima for restoring degraded riparian ecosystems,the shoot apexes should be protected from grazing by livestock or harvesting by local people in order to maintain the submergence tolerance of H.altissima.
