Wide cross hybridization
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Transcript of Wide cross hybridization
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1Mahesh R Hampannavar
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DISTANT HYBRIDIZATION
MAHESH.R.HAMPANNAVAR
PG14AGR60622Mahesh R Hampannavar
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DefineHistoryTypesBarriers in wide crossOvercome barriersProtoplast fusionEmbryo rescueNeed of wide crossLimitationsAchievements
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DISTANT/WIDE CROSS
Hybridization
crossing between two genetically dissimilar parents is
called hybridization.
Wide Hybridization
Interspecific Hybridization:- Crosses made between
distantly related species
Intergeneric Hybridization:- Crosses made between
distantly related genera
Hybridization (recombination) is the third major
evolutionary process with an importance not exceeding that
of mutation and natural selection.
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History :
Thomas Fairchild (1717):
The first authentic record of a distant hybridization for the
crop improvement is the production of a hybrid between
Carnation (Dianthus caryophyllus) and Sweet willian
(Dianthus barbatus).
Karpechenko (1928):
An interesting intergeneric hybrid, raphanobrassica, was
produced.
Rimpu (1890):
Produce the first intergeneric hybrid triticale which
have greater potential than raphanobrassica.
THOMOS FAIRCHILD KARPECHANKO
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Inter-specific
hybridization
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Intergeneric
cross
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Difficulties encountered in wide cross
hybrids
Failure of zygote formation
Failure of zygote development
Failure of F1 seedling development
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Major distant cross barriers
I. Temporal and spatial isolation of species
II. Pre-fertilization barriers
On the surface of the stigma before pollen tube entry
Inside the tissues of the stigma and style
Inside the ovary and embryo sac
III. Post fertilization barriers
Non viability of hybrid embryos
Failure of hybrid to flower
Hybrid sterility
Lack of recombinant
Hybrid breakdown in F2 or later generation 14Mahesh R Hampannavar
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I. Temporal and spatial isolation of parental
species
Non synchronous flowering of the parental species due to different agro-ecological or geographical background
Overcome
1. Early/staggered sowing
2. Suitable photoperiodic treatment
3. vernalisation
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A. Inhibition on the stigma surface
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A. Inhibition on the stigma surface
Result in the arrest of pollen germination or pollen tube entry into the stigma
One of frequent barriers, particularly in distantly related species
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The causative factors for the failure of pollen germination:
1. Lack of effective adhesion2. Lack of full hydration3. Absence of pollen germination factors on
the stigma
Pollen adhesion and hydration are prerequisites for germination
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II. Pre-fertilization barriers
Pollen adhesion Largely depends on the nature and extent of the
surface component of the pollen and the stigma It is not a constraint in species having wet stigma
Pollen hydration The result of the transfer of water from the stigma to
the pollen through an osmotic gradient Insufficient hydration may result in crosses in which
the osmotic potential of the pollen does not match that of the stigma
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Technique to overcome barriers in the stigma
Effective pollination
• Correct place
• Correct time
• Rub stigma before
Mentor pollinationPollen which is fully compatible with the intended seedparent
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. Inhibition in the stylar region
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B. Inhibition in the stylar region
Failure of the pollen tube to reach the ovary
places1. Just below stigma2. Further down the style
Arrested pollen tubes often show abnormalities in the form:
Growing pollen tubes utilize stylar nutrients.
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Technique to overcome barriers in the stylars
Reciprocal crosses
Mentor pollination
Use of plant growth regulators
Pollen may have to be applied in a medium favoringgermination to compensate for deficiencies in the immaturestigma
# By pass stigma and style completely and apply pollen directly to the ovule
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III. Post-fertilization barriers
Result in the failure of fertilized ovules to develop into mature seeds
operate at different stages of embryo development
Factors:
Unbalance of ploidy levels
Abnormalities in the embryo development
The presence of lethal genes
Genic disharmony in the embryo
Failure or early breakdown of endosperm
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Techniques to overcome:
Removed of competing sinks
Reciprocal crosses A X B BXA
Manipulation of ploidy level
Embryo rescue
Use of plant growth regulators
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Techniques to remove the crossability barriers in distant hybridizarion :
o Embryo rescue
o with shorter style- as female parents
o A part of style may be cut off
o Autopolyploid: B. oleracea(cabbage) andB. campestris (turnip rape) do not cross witheach other at the diploid level, but theyproduce embryos, when tetraploid species
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• Bridge species.
• Transfering resistance to eye spot from Ae.ventricosa to T. aestivum, T. turgidum is used asa bridge sp.
• Use of growth regulator e.g. IAA, 2,4-D,napthelene acetamide.Eg;- N. tabacum does not hybridize with N.rependa, but this cross is possible when IAAapplied to pedicle of flowers in a lanoline paste.
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Embryo rescue :
o Embryo rescue
o endosperm degeneration:-EBN
o hybrid rescue.
o e.g.; H. vulgare x Secale cereale.
o Lack of nutrient in endosperm for germination
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• ’Wide’’ crossing of wheat and rye requires embryo
rescue and chemical treatments to double the no. of
chromosomes triticale
Triticum durum (4X) x Secale cereale (2X)
AABB RR
ABR F1(3X): EMBRYO RESCUE
CHROMOSOME DOUBLING
HEXAPLOID TRITICALE (6X)
AABBRR
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Limitations of embryo rescue :
• High cost of obtaining new plantlets
• Deleterious mutations
• A sophisticated tissue culture laboratory
• Specialized skill
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Requirement of distant hybridization :
• Diseases and insect resistance
• Quality
• Wider adaptation
• Mode of reproduction
• yield
• Development of new varieties
• Production of new crop species (e.g;
Triticale hexaploid)
• Transfer of cytoplasm36Mahesh R Hampannavar
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Alien addition lines :
• 2n+2=Alien addition lines
2n+1=Alien addition monosome.
• The main purpose of alien addition is the transfer ofdisease resistance from from related wild species.e.g. transfer of mosaic resistance from Nicotianaglutinosa to N. tabacum.
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• The alien addition lines have been developed incase of wheat, oats, tobacco and several otherspecies.
• Alien addition lines are of still agriculturalimportance since the alien chromosomegenerally carries many undesirable genes.
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Alien substitution lines :
• This line has one chromosome pair from a different species in
place of the chromosome pair of the recipient species.
• When a single chromosome (not a pair) from different species
in place of a single chromosome of the recipient species.
• Alien –substitution lines have been developed in wheat,
cotton, tobbacco, oats..
• The alien substitution show more undesirable effects than
alien additions and more useful in agriculture.
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Limitation of distant hybridization• Incompatible crosses
• F1 sterility ;-
• Problems in creating new species
• Lack of homeology between chromosome of theparental species
• Undesirable linkage
• Problems in the transfer of recessive oligogenesand quantitative traits
• Lack of flowering in F1
• Dormancy , F2 Segregation
• Problem in using improved variety42Mahesh R Hampannavar
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ACHIEVEMENTS
• VARALAKSHMI
• DH7
• SUGERCANE NOBELISATION
• PARBHANI KRANTI (A.esculentus X A.maniot)
• BARJA-NAPIER GRASS
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REFERENCES
• PLANT BREEDING PRINCIPLE AND METHODS , page no 669-691
B.D.SINGH
• ESSENTIAL OF PLANT BREEDING page no 228-242
PHUNDAN SINGH
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•conclusion
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THANK YOU
47Mahesh R Hampannavar