5. Induced mutagenesis: basic knowledge for technological success
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[1] M. Saberi,et al. Allelopathic Effects of Eucalyptus camaldulensis on Seed Germination and Initial Growth of four range species , 2013 .
[2] N. Nybom,et al. COLCHICINE, X‐RAYS AND THE MUTATION PROCESS , 2010 .
[3] F. D'amato,et al. STUDIES ON THE EXPERIMENTAL CONTROL OF THE MUTATION PROCESS , 2010 .
[4] K. Fröier,et al. THE INFLUENCE OF SEED SIZE AND HULLS ON X‐RAY SUSCEPTIBILITY IN CEREALS , 2010 .
[5] A. Gustafsson. MUTATIONS IN AGRICULTURAL PLANTS , 2010 .
[6] A. Verma,et al. Studies on “Makhana (Euryale ferox Salisbury) , 2010 .
[7] L. Ehrenberg,et al. VIABLE MUTANTS INDUCED IN BARLEY BY IONIZING RADIATIONS AND CHEMICAL MUTAGENS , 2009 .
[8] S. Datta. Plant chimeras and their role in development of new ornamental varieties , 2009 .
[9] R. Garg,et al. Induced Mutation inPetunia nyctaginiflora JUSS. , 1989, Biologia Plantarum.
[10] Harold H. Smith,et al. Radiation in the production of useful mutations , 2008, The Botanical Review.
[11] Z. Hossain,et al. Development of NaCl-tolerant line in Chrysanthemum morifolium Ramat. through shoot organogenesis of selected callus line. , 2007, Journal of biotechnology.
[12] A. Biswas,et al. Development of NaCl-tolerant strain in Chrysanthemum morifolium Ramat. through in vitro mutagenesis. , 2006, Plant biology.
[13] Z. Hossain,et al. Isolation of a NaCl-tolerant mutant of Chrysanthemum morifolium by gamma radiation: in vitro mutagenesis and selection by salt stress. , 2006, Functional plant biology : FPB.
[14] P. Misra,et al. In vitro mutagenesis - : a quick method for establishment of solid mutant in chrysanthemum , 2005 .
[15] S. Datta,et al. Direct somatic embryogenesis and plant regeneration from ray florets of chrysanthemum , 2005, Biologia Plantarum.
[16] I. Schubert,et al. Effects of Pre- and simultaneous treatment with urea on the induction of chromatid aberrations inVicia faba , 2005, Experientia.
[17] R. Freisleben,et al. Über die Auffindung einer mehltauresistenten Mutante nach Röntgenbestrahlung einer anfälligen reinen Linie von Sommergerste , 1942, Naturwissenschaften.
[18] M. Maluszynski,et al. Global impact of mutation-derived varieties , 2004, Euphytica.
[19] D. Chakrabarty,et al. Mutation in Flower Colour and Shape of Chrysanthemum morifolium Induced by γ-Radiation , 2003, Biologia Plantarum.
[20] D. Chakrabarty,et al. In vitro isolation of solid novel flower colour mutants from induced chimeric ray florets of chrysanthemum , 2000, Euphytica.
[21] N. Michaux-ferrière,et al. Variants of carnation (Dianthus caryophyllus L.) obtained by organogenesis from irradiated petals , 1992, Plant Cell, Tissue and Organ Culture.
[22] Chin-Yi Lu,et al. Efficient, direct plant regeneration from stem segments of chrysanthemum (Chrysanthemum morifolium Ramat. cv. Royal Purple) , 1990, Plant Cell Reports.
[23] J. F. Hutchinson,et al. Shoot regeneration from stem and leaf explants of Dendranthema grandiflora Tzvelev (syn. Chrysanthemum morifolium Ramat.) , 1990, Plant Cell, Tissue and Organ Culture.
[24] P. Koene,et al. A mutant of a mutant of a mutant of a...: Irradiation of progressive radiation-induced mutants in a mutation-breeding programme with Chrysanthemum morifolium Ram. , 1980, Euphytica.
[25] D. Davies,et al. The induction by mutation of all-year-round flowering in Streptocarpus , 1975, Euphytica.
[26] J. Doorenbos,et al. X-ray induced mutations in Begonia x hiemalis , 1975, Euphytica.
[27] B. Haccius,et al. Adventitious bud formation on isolated leaves and its significance for mutation breeding , 1968, Euphytica.
[28] G. J. Dowrick,et al. The induction of mutations in chrysanthemum using X- and gamma radiation , 1966, Euphytica.
[29] C. Broertjes. Mutation breeding of chrysanthemums , 2004, Euphytica.
[30] Tejaswini,et al. Interspecific hybrid: An attempt to combine advantage of carnation and pinks , 2004 .
[31] Z. Hossain,et al. NaCl stress—its chromotoxic effects and antioxidant behavior in roots of Chrysanthemum morifolium Ramat , 2004 .
[32] D. Chakrabarty,et al. Application of in vitro techniques in mutation breeding of chrysanthemum , 2004, Plant Cell, Tissue and Organ Culture.
[33] A. Cassells,et al. Diplontic selection as a positive factor in determining the fitness of mutants of Dianthus ‘Mystère’ derived from x-irradiation of nodes in in vitro culture , 2004, Euphytica.
[34] Srikant Sharma,et al. Gamma rays induced genetic variability in Bougainvillea , 2002 .
[35] Z. Hossain,et al. Direct, fractionated dose and storage effects of gamma rays on radiosensitivity of resting and dividing cells of onion , 2002 .
[36] Srikant Sharma,et al. Gamma rays induced bract colour mutation in single bracted Bougainvillea 'Palekar' , 2002 .
[37] D. Chakrabarty,et al. Gamma ray‐induced genetic manipulations in flower colour and shape in Dendranthema grandiflorum and their management through tissue culture , 2001 .
[38] B. Banerji,et al. Gamma ray induced early fruiting mutant in winged bean [Psophocarpus tetragonolobus (L.) D.C.] , 2001 .
[39] A. K. Dwivedi,et al. Gamma ray induced new flower colour chimera and its management through tissue culture. , 2002 .
[40] D. Chakrabarty,et al. Retrieval of new coloured chrysanthemum through organogenesis from sectorial chimera. , 2000 .
[41] D. Chakrabarty,et al. Management of chimera through direct shoot regeneration from florets of chrysanthemum (Chrysanthemum morifolium Ramat.) , 1999 .
[42] S. Datta,et al. PERFORMANCE OF MUTAGEN TREATED JATROPHA CURCAS (PETRO-CROP) ON ALKALI SOIL , 1998 .
[43] S. Dana. Induction and analysis of short thick fruit mutant in Trichosanthes anguina L. , 1994 .
[44] S. Datta,et al. Jatropha curcas - a promising crop for new source of fuel. , 1993 .
[45] S. Datta,et al. Improvement of Jatropha curcas through induced mutations , 1992 .
[46] S. Datta. Radiosensitivity of garden Chrysanthemum , 1992 .
[47] S. Datta,et al. Induced morphological mutations in fenugreek , 1992 .
[48] M. Davey,et al. The Production of Novel Plants from Florets of Chrysanthemum morifolium Using Tissue Culture 1. Shoot Regeneration from Ray Florets and Somaclonal Variation Exhibited by the Regenerated Plants , 1991 .
[49] M. Davey,et al. The Production of Novel Plants from Florets of Chrysanthemum morifolium using Tissue Culture 2. Securing Natural Mutations (Sports) , 1991 .
[50] S. P. Sinha,et al. Vitamin B-Complex Mediated Minimisation of Malathion and Rogor induced Mitoinhibition and Clastogeny , 1991 .
[51] M. Jerzy,et al. Adventitious shoot formation on ex vitro derived leaf explants of Gerbera jamesonii , 1991 .
[52] S. Datta. Effects of X- ray and colchicine on fruit and seed yield of Trichosanthes anguina L. , 1991 .
[53] S. Datta. Colchicine induced mutations in seed and vegetatively propagated plants , 1990 .
[54] B. Banerji,et al. 'Los Banos Variegata' - a new double bracted chlorophyll variegated bougainvillea induced by gamma rays. , 1990 .
[55] G. C. Gussenhoven,et al. Methods for the Selection of Low‐Temperature Tolerant Mutants of Chrysanthemum morifolium Ramat. by Using Irradiated Cell Suspension Cultures , 1989 .
[56] S. Datta. Induced high punicic acid yielding mutants of Trichosanthes anguina , 1989 .
[57] S. Datta. Studies in Cephalandra indica Naud , 1988 .
[58] M. Maluszynski,et al. Induced mutations for crop improvement ― a review , 1987 .
[59] P. Maliga. ISOLATION AND CHARACTERIZATION OF MUTANTS IN PLANT CELL CULTURE , 1984 .
[60] J. K. Butler,et al. Induced dwarf mutant in impatiens platypetala , 1983 .
[61] R. T. Johnson. Gamma Irradiation and in Vitro Induced Separation of Chimeral Genotypes in Carnation1 , 1980, HortScience.
[62] W. Horn,et al. Variation following mutagenic treatment of cuttings and in vitro cultures of Chrysanthemum. , 1980 .
[63] S. K. Mandal,et al. Differential radiosensitivity on a tissue level in Delphinium ajacis. , 1980 .
[64] S. Datta,et al. Effects of X-rays and Colchicine on Pollen ofTrichosanthes anguinaL. (Cucurbitaceae) , 1977 .
[65] J. Moutschen,et al. Hydroxylamine Induced Chromosome Aberrations in Lens esculenta and Combined Effects with Ionizing Radiation , 1974 .
[66] K. S. Ramului. Effect of ionizing radiations and chemical mutagens on chiasma frequency in Sorghum , 1971 .
[67] Y. Ukai. STUDIES ON VARIETAL DIFFERENCES IN RADIOSENSITIVITY IN RICE , 1970 .
[68] A. Sparrow,et al. The radiosensitivity of gymnosperms II. On the nature of radiation injury and cause of death of Pinus Rigida and P. Strobus after chronic gamma irradiation , 1970 .
[69] B. Kaul. Studies on radioprotective role of dimethyl sulfoxide in plants. , 1970 .
[70] G. Hill. Shoot Formation in Tissue Cultures of Chrysanthemum‘Bronze Pride’ , 1968 .
[71] A. Sparrow,et al. RADIOSENSITIVITY STUDIES WITH WOODY PLANTS. I. ACUTE GAMMA IRRADIATION SURVIVAL DATA FOR 28 SPECIES AND PREDICTIONS FOR 190 SPECIES. , 1968 .
[72] A. Sparrow,et al. Chromosomes and cellular radiosensitivity-II , 1968 .
[73] A. Sparrow,et al. Chromosomes and cellular radiosensitivity. I. The relationship of D0 to chromosome volume and complexity in seventy-nine different organisms. , 1967, Radiation research.
[74] Y. Ukai. STUDIES ON VARIETAL DIFFERENCES IN RADIOSENSITIVITY IN RICE : I. Dose-response Curve for Root Growth and Varietal Difference in Radiosensitivity , 1967 .
[75] G. Woodwell,et al. EFFECTS OF CHRONIC GAMMA RADIATION ON THE STRUCTURE AND DIVERSITY OF AN OAK- PINE FOREST. , 1967 .
[76] L. Ehrenberg,et al. Genetigal and physiological causes of the variation of radiosensitivity in barley and maize , 1966 .
[77] A. Sparrow,et al. Relative Radiosensitivities of Woody and Herbaceous Spermatophytes , 1965, Science.
[78] F. Khadr,et al. Recurrent irradiation for oat breeding , 1965 .
[79] R. Brock,et al. Response of Trifolium subterraneum to X-rays and thermal neutrons , 1965 .
[80] J. Sybenga. Quantitative analysis of radiation-induced sectorial discoloration of the first leaf of Crotalaria Intermedia* , 1964 .
[81] S. Nirula. Studies on some nuclear factors controlling radiation sensitivity and the induced mutation rate in eu- and para-sorghum species* , 1963 .
[82] C. Lawrence. Genetic control of radiation-induced chromosome exchange in rye , 1963 .
[83] F. Skoog,et al. A revised medium for rapid growth and bio assays with tobacco tissue cultures , 1962 .
[84] D. Davies. The genetical control of radiosensitivity , 1962, Heredity.
[85] H. Bowen,et al. The induction of sports in chrysanthemums by gamma radiation , 1961 .
[86] A. Sparrow,et al. SOME FACTORS AFFECTING THE RESPONSES OF PLANTS TO ACUTE AND CHRONIC RADIATION EXPOSURES , 1961 .
[87] H. Bowen. Radiosensitivity of higher plants, and correlations with cell weight and DNA content , 1961 .
[88] H. Stubbe. Some Results and Problems of Theoretical and Applied Mutation Research , 1959 .
[89] L. W. Mericle,et al. Irradiation of Developing Plant Embryos. I. Effects of External Irradiation (X Rays) on Barley Embryogeny, Germination, and Subsequent Seedling Development , 1957 .
[90] H. P. Riley. THE PROTECTIVE EFFECT OF VARIOUS CHEMICAL COMPOUNDS AGAINST DAMAGE TO CHROMOSOMES BY GAMMA RADIATION , 1955 .
[91] S. Wolff. Some Aspects of the Chemical Protection against Radiation Damage to Vicia Faba Chromosomes. , 1954, Genetics.
[92] J. Thoday. The effect of ionizing radiations on the broad bean root. Part IX. Chromosome breakage and the lethality of ionizing radiations to the root meristem. , 1951, The British journal of radiology.
[93] Gray Lh,et al. The effect of ionizing radiations on the broad bean root. VIII. Growth rate studies and histological analyses. , 1951 .
[94] R. Kaplan. [Rates of chromosome and gene mutation in seeds of Hordeum subjected to different heat treatments and to cold during and after roentgen irradiation in single and fractional dosage]. , 1950, Zeitschrift fur induktive Abstammungs- und Vererbungslehre.
[95] Luther Smith. HEREDITARY SUSCEPTIBILITY TO X‐RAY INJURY IN TRITICUM MONOCOCCUM , 1942 .
[96] L. Stadler,et al. MUTATIONS IN BARLEY INDUCED BY X-RAYS AND RADIUM. , 1928, Science.
[97] L. Stadler,et al. Genetic Effects of X-Rays in Maize. , 1928, Proceedings of the National Academy of Sciences of the United States of America.
[98] H J Muller,et al. ARTIFICIAL TRANSMUTATION OF THE GENE. , 1927, Science.