TLS Online TPP Program
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TLS Online TPP Program
#Question id: 37965
#Plant Biotechnology
Assertion (A): During the induction phase of pollen culture, total protein synthesis is completely halted.
Reason (R): Existing proteins are suppressed, and new proteins like napin (in Brassica napus) are synthesized.
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TLS Online TPP Program
#Question id: 37966
#Plant Biotechnology
Assertion (A): Commitment to androgenesis is achieved primarily by the abolition of pollen maturation gene expression.
Reason (R): During induction, several hundred genes are upregulated or downregulated to facilitate the developmental switch
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TLS Online TPP Program
#Question id: 37967
#Plant Biotechnology
Assertion (A): Responsive pollen in culture always develops directly into a globular embryo.
Reason (R): The developmental fate (embryo vs. callus) depends on the plant species.
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TLS Online TPP Program
#Question id: 37968
#Plant Biotechnology
Assertion (A): In cereals like rice and wheat, the choice between embryo or callus formation can be manipulated.
Reason (R): Modifying the medium composition in these species can induce either embryos or calli.
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TLS Online TPP Program
#Question id: 37969
#Plant Biotechnology
Statement I: Cold treatment (3–6°C) helps in retarding the aging of the anther wall, thereby allowing more microspores to switch from gametophytic to sporophytic development.
Statement II: Maize responds best to standard cold treatment temperatures of 3–6°C rather than higher temperatures like 14°C
TLS Online TPP Program
#Question id: 37970
#Plant Biotechnology
Statement I: Hot treatment (e.g., 30°C for 24h) in Brassica stimulates embryogenesis by causing the dissolution of microtubules and displacement of the spindle.
Statement II: This thermal shock leads to normal division of the microspore nucleus.