invitro mutation selection for biotic stresses in plants
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Invitro mutation selection for biotic stresses in PlantsTRANSCRIPT
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In-Vitro mutant selection for biotic stresses in PlantsIn-Vitro mutant selection for biotic stresses in Plants
A. Manivannan Scientist (Genetics)
DMR, New Delhi
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APPLICATION OF CELLULAR MANIPULATIONSAPPLICATION OF CELLULAR MANIPULATIONS
In-vitro selection
one of somaclonal variation method. Its effectiveness and efficiency are due to its ability of changing the plant to the desired character, either by applying a selection agent on the culture media or by giving particular condition to change the somaclone with the required character
In- vitro mutagenesis :
The production of either random or specific mutations out side the cells natural environment.
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1.Physical Agents
2.Chemical Mutagens
3.Colchicine
4.Transposan mediated Mutagenesis
5.Site Directed Mutagenesis
6.Somaclonal variation
Type of Mutation Induction Type of Mutation Induction
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Physical AgentsPhysical Agents
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Gamma Irradiation Chambers Gamma Irradiation Chambers
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Chemical MutagensChemical Mutagens
1. Base analogs bromouracil (BU) aminopurine (AP)
2. Chemicals which alter structure and pairing properties of basesAlkylating agents [ethyl methanesulphonate (EMS); diethyl sulphate (dES); ethyleneimine (EI); ethyl nitroso urethane (ENU), ethyl nitroso urea (ENH), methyl nitroso urea (MNH)
3. Intercalating agentsAcridine orange, Proflavin, Ethidium Bromide
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Intercalating Agents Intercalating Agents
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Site Directed MutagenesisSite Directed Mutagenesis
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Oligonucleotide-based mutagenesis is the most commonly used method to introduce mutations in coding sequence.
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Enhanced Genome Enhanced Genome
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sometimes called site-specific mutagenesis, is a process that produces mutations in DNA that are controlled by us. Protein Engineering - one of the most sophisticated applications of recombinant DNA technology - where the properties of a protein, such as an enzyme, are altered in an attempt to 'improve' it by changing (mutating) the gene coding for the protein using SDM.
Desired improvements might be increased thermostability, altered substrate range, reduction in negative feedback inhibition, altered pH range, etc.
Site- Directed Mutagenesis (SDM)Site- Directed Mutagenesis (SDM)
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Somatic Embryos:
This system, based on single-cell origin of regenerated plants, allows the treatment of large populations and the rapid generation of
homo-histonts (i.e., non-chimeric plants).
Choice of Explant for invitro mutagenesisChoice of Explant for invitro mutagenesis
Choice of Plant Material
A preliminary key step toward the successful use of micropropagation for mutation breeding is the choice of the mother plant, since the starting material should provide a reliable
genetic basis and high phytosanitary levels (Ahloowalia, 1998).
Virus- free mother plants are the best starting material for tissue culture initiation.
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(a) Originate from a single cell, which minimises
or eliminates chimera, depending on the plant species
(b) Somatic embryo cell suspension is ideal for mutation induction due to the production of direct mutant somatic embryos (c) Behave like zygotic embryos in germination
(d) Single somatic embryo can be encapsulated (e) Most suitable approach for plant regeneration of woody species (f) Somatic embryos can be produced in a bioreactor, which can be automated for large scale production of somatic embryos
Advantages of somatic embryogenesis Advantages of somatic embryogenesis
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Mutagen treatment of in vitro tissues enhances the frequency rate of spontaneous mutations that may result in a range of mutation spectrum (Jain and Maluszynski, 2004).
Chemical mutagens • easy to handle, especially when using cell suspension. • don’t require special equipment used for radiation treatment.
Normally, chimeras are a major problem in regenerated plants by mutagen treatment of multi-cellular structures, such as shoot tips or axillary buds. Mutagen treatment of shoot tips or other organs leads to chimeras that require repeated vegetative propagation up to M1V4 level in order to dissociate the chimeras (Jain, 2000; Predrieri, 2001).
Roux et al. (2001) reduced cytochimeras by colchicine treatment in three banana micropropagation systems shoot tip culture, using multi-apexing culture and a corm slice technique.
plant breeders prefer solid or periclinal mutants to developing mutant cultivars.
In-vitro mutagen treatment In-vitro mutagen treatment
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First In-vitro selection for disease resistance conducted by Carlson (1973) for Tabotoxcin (Methionine sulfoximine) produced by Pseudomonas syringae p. var. tabaci in Tobacco
In-vitro selection In-vitro selection
It can be employed for selection for both Biotic stress resistance and Abiotic stress tolerance
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In vitro selection process to obtain disease resistance plantsIn vitro selection process to obtain disease resistance plants
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General Scheme of invitro screening for disease resistance and SelectionGeneral Scheme of invitro screening for disease resistance and Selection
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In-vitro selection for Fungal Diseases resistance In-vitro selection for Fungal Diseases resistance
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Radio sensitivity test for In vitro buds irradiated with various dose of gamma rays
Radio sensitivity TestRadio sensitivity Test
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Radiosensitivity Curve or Dose Curve Test Radiosensitivity Curve or Dose Curve Test
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In vitro selection of variants originating form gamma irradiation of buds which survived the culture filtrate of Fusarium solani
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Screening for Banana sigotaka Leaf spot Screening for Banana sigotaka Leaf spot
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Screening for Alternaria Blotch resistance Screening for Alternaria Blotch resistance
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Plant Breeding Scheme by induced mutations and somaclonal variationPlant Breeding Scheme by induced mutations and somaclonal variation
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Crop Pathogen Selective agent Selection level Resistance observed
Barley Fusarium spp. Fusaric acid Callus Increased resistance
Barley Helminthosporium sativum Crude toxin Callus Resistance
Maize Helminthosporium maydis HmT toxin Callus Resistance
Oats Helminthosporium victoriae Victorin Callus Resistance to victorin
Potato Phytophthora infestans Culture filtrate Callus Reduced lesion size
Rape Phoma lingam Culture filtrate Suspension cells Increased resistance
Rape Alternaria brassicicola Partial culture filtrate Secondary embryoids Increased resistance
Rice Helminthosporium oryzae Crude toxin Callus Increased resistance
Rice Xanthomonas oryzae Bacterial cells Callus Resistance
Sugarcane Helminthosporium sacchari Toxin Callus Increased resistance
Tobacco Pseudomonas syringae pv. tabaci Crude toxin Callus Resistance
Tobacco Tobacco mosaic Virus Virus Callus from infected tissue Reduced virus
Tomato Fusarium oxysporum f.sp. Lycopersici Culture filtrate Callus Tolerance to culture
Wheat Helminthosporium sativum Crude toxin Callus Resistance
A list of disease resistant plants of various species obtained by in-vitro selection A list of disease resistant plants of various species obtained by in-vitro selection
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