Studies on the Mutation Breeding in Rice. : I. Short Stiff Mutations induced by Gamma-ray Irradiation to the Rice Variety Koshihikari

Abstract Malaysia has made substantial progress in plant mutation breeding with the use of nuclear techniques and related biotechnologies, not only in the development of new mutant varieties but also in the establishment of an excellent nuclear research centre. A total of 53 mutant varieties have been developed, including rice Oryza sativa (19), banana Musa acuminata (one), groundnut Arachis hypogaea (two), orchid Dendrobium 'Sonia' (six), chrysanthemum Chrysanthemum morifolium (seven), hibiscus Hibiscus rosa-sinensis (three), roselles Hibiscus sabdariffa L. (three) and other ornamental and landscaping plants (12). Most of the new ornamental varieties have been developed by both acute and chronic gamma-ray irradiation of seeds, rooted cuttings, bulbs and tissue cultures. Food crops that have an economic impact on sustainable agricultural production are mutant varieties of banana ('Novaria') and rice (MRQ74, MR219-9 and MR219-4). 'Novaria' is a selection made from a mutant, 'GN-60A', of 'Grande Naine' (AAA Musa) identified from gamma-ray treated populations of the Biotechnology Laboratory in Seibersdorf, Austria. 'Novaria' was the first mutant variety, officially released in 1995 by the Malaysian Nuclear Agency as a new variety for its improved characteristics such as early flowering, short stature and high yield. MRQ74 is a type of high-quality fragrant rice with newly induced traits such as resistance to blast, long and slender grain shape, non-sticky and with the elongation properties of cooked rice similar to those of Basmati-type rice. It is an indirect mutant variety released in 2003 and one of its parental lines for cross-breeding was the mutant 'Mahsuri', which was developed through mutation breeding using gamma-rays. In 2014, two new mutant varieties of rice, 'MR219-9' and 'MR219-4', which are drought tolerant, high yielding and resistant to blast, were selected from gamma irradiated material. Despite these achievements, applications of induced mutation have decreased during the past 10 years due to reduced funding. Mutation breeding is still a promising technique for the development of novel varieties which in combination with advanced molecular genetics can bring plant mutation breeding into a new era.

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Selection for Growth Traits on M1V1 Generation of Raja Bulu Banana (Musa paradisiaca Linn.) Obtained by Gamma Rays Irradiation

Caraka Tani Journal of Sustainable Agriculture ◽

10.20961/carakatani.v36i1.34492 ◽

2020 ◽

Vol 36 (1) ◽

pp. 97

Author(s):

Nandariyah Nandariyah ◽

Endang Yuniastuti ◽

Sukaya Sukaya ◽

Sonia Ika Yudhita

Keyword(s):

Genetic Variation ◽

Gamma Rays ◽

Gamma Ray ◽

Growth Traits ◽

Block Design ◽

Mutation Breeding ◽

High Yield ◽

Early Maturity ◽

Musa Paradisiaca ◽

Gamma Ray Irradiation

<a name="_Hlk39513249"></a>Raja Bulu is one of the banana varieties favored by the community because of its thick fruit flesh and sweet taste. However, its parthenocarpic characteristic and vegetative propagation make this banana variety has limited genetic variation. Attempt to improve the genetic variation was conducted through induced mutation breeding using gamma-ray mutagens. This research aimed to select M1V1 generation of Raja Bulu banana (Musa paradisiaca Linn.) obtained by gamma rays’ irradiation for their growth traits which are expected to produce banana varieties that have an early maturity and high yield. This study used a randomized complete block design without replication by observing the generative growth of each individual of Raja Bulu banana irradiated by gamma rays and without radiation as a control. The results showed that gamma-ray irradiation treatment caused Raja Bulu banana to be harvested earlier and produced higher fruit weight than controls. The gamma-ray irradiation had a random influence on Raja Bulu bananas. The 10 Gy gamma-ray irradiation dosage influenced the morphological diversity in the generative phase of Raja Bulu banana. The treatment of gamma irradiation resulted in 5 individual plants that flowered and matured earlier as compared to controls.

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Morphological mutants of Zoysia japonica Steud. induced by gamma ray irradiation

Bangladesh Journal of Botany ◽

10.3329/bjb.v48i1.47483 ◽

2019 ◽

Vol 48 (1) ◽

pp. 187-194

Author(s):

Mohd Abdul Halim Bin Baharun Azahar ◽

Abdul Shukor Juraimi ◽

Mohd Rafh Yusof ◽

Abdul Rahim Harun ◽

SM Samsuzzaman ◽

...

Keyword(s):

Survival Rate ◽

Morphological Traits ◽

Leaf Blade ◽

Gamma Ray ◽

Mutation Breeding ◽

Zoysia Japonica ◽

Single Node ◽

Morphological Mutants ◽

Induce Mutagenesis ◽

Gamma Ray Irradiation

Study of Zoysia japonica morphological improvement and breeding by induced mutation using gamma ray irradiation was conducted. Mutagenesis by gamma ray irradiation was employed using 0, 20, 40, 60, 80, 100, 120 and 140 Gy to treat 30 single node stolons per treatment. It was demonstrated that single node stolon is suitable for gamma ray irradiation mutagenesis in Z. japonica. It has been identified that 76 Gy as the value LD50 is effective to induce mutagenesis on Z. japonica. Survival rate of Z. japonica stolon was greatly reduced when irradiated with higher dosages. This experiment was repeated using LD50 on 1500 single node stolons. Thirty nine morphological mutants were identified and evaluated. Most of the mutants were semi-dwarf and have horizontal growing pattern with reduced internode length and leaf blade length. The altered morphological traits were stable after third cutting back (M1V3) shown by their morphological performance. Mutation breeding is effective in improving Z. japonica when easily recognized cultivars are needed.

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Pengaruh Mutasi Fisik Iradiasi Sinar Gamma terhadap Keragaman Genetik dan Penampilan Coleus blumei

Jurnal Hortikultura Indonesia ◽

10.29244/jhi.7.3.187-194 ◽

2016 ◽

Vol 7 (3) ◽

pp. 187

Author(s):

Eny Rolenti Togatorop ◽

Syarifah Iis Aisyah ◽

M. Rizal M. Damanik

Keyword(s):

Genetic Variability ◽

Gamma Ray ◽

Mutation Breeding ◽

Ornamental Plant ◽

Fractionated Irradiation ◽

Coleus Blumei ◽

Gamma Ray Irradiation ◽

Number Of Leaves ◽

Putative Mutant ◽

Number Of Branches

ABSTRACT Mutation breeding such as gamma ray irradiation is one of strategy to increase genetic variability. The aim of this research was to indentify genetic variability, performance changes and to obtain putative mutant of Coleus blumei purple/green through gamma ray irradiation. The experiment design used was Randomized Complete Block with single factor and three replications. The gamma ray irradiation was given to shoot cuttings of C. blumei by fractionated irradiation dose: 0 Gy (control), 20+20 Gy, 22.5+22.5 Gy, 25+25 Gy and 27.5+27.5 Gy. The irradiated shoot cuttings were planted in field until MV3 generation. The result of this research showed that gamma ray irradiation on C.blumei purple/green produced the high genetic variability on number of leaves and number of branches i.e. 58.48% and 74.02% by 25+25 Gy dose and number of branches by 20+20 Gy and 22.5+22.5 Gy dose i.e. 53.47% and 68.97% respectively. Physically induced mutation by gamma ray irradiation produced 5 putative mutants respectively on colour and pattern of leaf changes in the following plants: 20+20.5, 20+20.7, 22.5+22.5.8, 25+25.5 and 25+25.8. Keywords: fractionated irradiation, mutagen, ornamental plant, putative mutan, shoot cuttingABSTRAK Pemuliaan mutasi dengan iradiasi sinar gamma merupakan salah satu cara dalam meningkatkan keragaman genetik tanaman. Tujuan penelitian ini untuk mengidentifikasi keragaman genetik, perubahan penampilan dan mendapatkan mutan putatif pada tanaman Coleus blumei ungu/hijau melalui iradiasi sinar gamma. Penelitian menggunakan rancangan kelompok lengkap teracak (RKLT) faktor tunggal dengan 3 ulangan. Iradiasi sinar gamma diberikan terhadap stek pucuk C. blumei ungu/hijau dengan dosis terbagi yaitu: 0 Gy (kontrol), 20+20 Gy, 22.5+22.5 Gy, 25+25 Gy dan 27.5+27.5 Gy. Semua tanaman hasil iradiasi ditanam di lapangan sampai generasi MV3. Hasil penelitian menunjukkan bahwa pemberian iradiasi sinar gamma pada C. blumei ungu/hijau menghasilkan keragaman genetik yang cukup tinggi pada karakter jumlah daun dan jumlah cabang dengan nilai KKG masing-masing 58.48% dan 74.02% pada dosis 25+25 Gy serta karakter jumlah cabang dengan nilai KKG 53.47% dan 68.97% masing-masing pada dosis 20+20 gy dan 22.5+22.5 Gy. Mutasi induksi fisik dengan iradiasi sinar gamma pada C. blumei ungu/hijau menghasilkan 5 mutan putatif berdasarkan perubahan warna dan corak daun yaitu pada tanaman: 20+20.5, 20+20.7, 22.5+22.5.8, 25+25.5 dan 25+25.8. Kata kunci: iradiasi terbagi, mutagen, mutan putatif, stek pucuk, tanaman hias

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Seleksi Kacang Bambara (Vigna subterranea (L.) Verdcourt) Berumur Genjah Hasil Iradiasi Sinar Gamma Generasi M2

Agrologia ◽

10.30598/a.v6i2.172 ◽

2017 ◽

Vol 6 (2) ◽

Author(s):

Hafsah Ashri Noor Azizah ◽

Noladhi Wicaksana ◽

Dedi Ruswandi

Keyword(s):

Gamma Ray ◽

Phenotypic Variability ◽

Comparative Method ◽

Phenotypic Selection ◽

Mutation Breeding ◽

High Yield ◽

Early Maturity ◽

Gamma Ray Irradiation ◽

Different Doses ◽

Spatial Plan

Mutation breeding using gamma-ray irradiation is one way to improve thevariability of bambara groundnuts. Improved variability can increase the effectiveness of selection on bambara groundnuts. The objective of this research was to obtain some genotypes of bambara groundnut of M2 generation that are of early maturity and high yield from gamma-ray irradiation through phenotypic selection. The experimental design was Spatial Plan, using the descriptive-comparative method. Bambara groundnuts accessions (KB-29 (1)) were treated with gamma-ray irradiation with different doses namely 100 Gy, 150 Gy, and 200 Gy. The results of this study showed that the phenotypic variability of the population irradiated by gamma rays 100 Gy, 150 Gy, and 200 Gy on the character of flowering time, harvest time, and all yielding ability characters was broad. The results of selection obtained 30 of the best genotypes that have advantages in the character of early maturity based on scoring value.

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