Studies on Biological Effects of Ion Beams on Lethality, Molecular Nature of Mutation, Mutation Rate, and Spectrum of Mutation Phenotype for Mutation Breeding in Higher Plants
TLDR
The results indicated that the characteristics of ion beams for mutation induction are high mutation frequency and broad mutation spectrum and therefore, efficient induction of novel mutants.Abstract:
Recently, heavy ions or ion beams have been used to generate new mutants or varieties, especially in higher plants. It has been found that ion beams show high relative biological effectiveness (RBE) of growth inhibition, lethality, and so on, but the characteristics of ion beams on mutation have not been clearly elucidated. To understand the effect of ion beams on mutation induction, mutation rates were investigated using visible known Arabidopsis mutant phenotypes, indicating that mutation frequencies induced by carbon ions were 20-fold higher than by electrons. In chrysanthemum and carnation, flower-color and flower-form mutants, which are hardly produced by gamma rays or X rays, were induced by ion beams. Novel mutants and their responsible genes, such as UV-B resistant, serrated petals and sepals, anthocyaninless, etc. were induced by ion beams. These results indicated that the characteristics of ion beams for mutation induction are high mutation frequency and broad mutation spectrum and therefore, efficient induction of novel mutants. On the other hand, PCR and sequencing analyses showed that half of all mutants induced by ion beams possessed large DNA alterations, while the rest had point-like mutations. Both mutations induced by ion beams had a common feature that deletion of several bases were predominantly induced. It is plausible that ion beams induce a limited amount of large and irreparable DNA damage, resulting in production of a null mutation that shows a new mutant phenotype.read more
Citations
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Ion-beam irradiation, gene identification, and marker-assisted breeding in the development of low-cadmium rice
Satoru Ishikawa,Yasuhiro Ishimaru,Yasuhiro Ishimaru,Masato Igura,Masato Kuramata,Tadashi Abe,Takeshi Senoura,Yoshihiro Hase,Tomohito Arao,Naoko K. Nishizawa,Naoko K. Nishizawa,Hiromi Nakanishi +11 more
TL;DR: Because mutants produced by ion-beam radiation are not transgenic plants, they are likely to be accepted by consumers and thus represent a practical choice for rice production worldwide.
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DNA damage and repair in plants - from models to crops.
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TL;DR: Enhanced understanding of DNA repair processes in plants will inform and accelerate the engineering of crop genomes via both traditional and targeted approaches.
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Cadmium minimization in rice. A review
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Effects of sparsely and densely ionizing radiation on plants
TL;DR: Main results from studies on the effect of ionizing radiations, including cosmic rays, on plants, focusing on genetic alterations, modifications of growth and reproduction and changes in biochemical pathways especially photosynthetic behaviour confirm what is known from animal studies: densely ionizing radiator are more efficient in inducing damages at several different levels, in comparison with sparsely ionizing radiation.
Journal ArticleDOI
Characterization of highly efficient heavy-ion mutagenesis in Arabidopsis thaliana.
TL;DR: The C ions with LETmax showed high mutation efficiency and predominantly induced base substitutions or small deletions/insertions, most of which were null mutations, which can be determined by single-nucleotide polymorphism (SNP) detection systems.
References
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Journal ArticleDOI
Mutagenic effects of ion beam irradiation on rice
Hiroyasu Yamaguchi,Yoshihiro Hase,Atsushi Tanaka,Naoya Shikazono,Konosuke Degi,Akemi Shimizu,Toshikazu Morishita +6 more
TL;DR: Ion beams appeared to efficiently induce mutants with little radiation damage in rice by comparing the efficiency, mutation rate, spectrum, and optimum dose to that of gamma rays.
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Damage to cellular DNA from particulate radiations, the efficacy of its processing and the radiosensitivity of mammalian cells. Emphasis on DNA double strand breaks and chromatin breaks.
TL;DR: Understanding of the biological effects of heavy ions is important not only for the welfare of astronauts who will undertake extended interplanetary missions in space but also for the facilitation of a rigorous scientific basis for conventional radiation therapy.
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Molecular and cell models of biological effects of heavy ion radiation.
TL;DR: This work has suggested that clustered damage in DNA and associated molecules of greater complexity or severity is suggested to be less repairable and therefore to dominate the biological consequences.
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Cell inactivation by heavy charged particles
TL;DR: Future experimental and theoretical modeling research emphasis should focus on exploring particle-induced inactivation of endpoints assessing functionality and not just lethality, and on analyzing molecular damage and genetic effects arising in damaged but non-inactivated survivors.
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Mutation induced with ion beam irradiation in rose
TL;DR: In this article, the effects of ion beam irradiation on axillary buds in rose were investigated, and mutations were induced not only in higher doses but also in lower doses, with which physiological effect by irradiation was hardly observed.