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Translocation
- 1. Interchromosomal Alterations- types, effects and detection. Dr. Lakhvinder Singh Department of Botany G.G.M. Science College, Jammu TRANSLOCATION
- 2. Chromosomal Aberrations Structural Changes Numerical Changes Intra-chromosomal Inter-chromosomal Deletion Duplication Inversion Translocation Aneuploidy Euploidy
- 3. Translocation • It includes all types of unilateral or bilateral transfer of chromosome segments from one chromosome to another non-homologous chromosome. • The genetic significance of translocation is that genes from one chromosome are transferred to the another chromosome.
- 4. Reciprocal Translocation •When pieces of two non- homologous chromosomes are interchanged without any net loss of genetic material, the event is referred to as a reciprocal translocation.
- 8. FIGURE (a) & (b): Structure and pairing behavior of a reciprocal translocation between chromosomes. In (b) pairing occurs during the prophase of meiosis I, after the chromosomes have been duplicated. Pachytene configuration
- 9. • Figure (a) in last slide shows a reciprocal translocation between two large autosomes. • These chromosomes have interchanged pieces of their right arms. • If a translocation is present in one of the two sets of chromosomes, this will be a translocation heterozygote. • In such plants, normal pairing into bivalents is not possible among chromosomes involved in translocation. • Due to pairing between homologous segments of chromosomes, a cross shaped (+) figure involving four chromosomes will be observed at pachytene of Meiosis- I.(Figure b of previous slide). • This pairing configuration is diagnostic of a translocation heterozygote. • Cells in which the translocated chromosomes are in homozygous condition, they do not form this pattern. Instead, each of the translocated chromosomes pairs smoothly with its structurally identical partner.
- 10. This ring quadrivalent (+) of 4 chromosomes at Pachytene of meiosis-I can have one of following three orientations at Metaphase-I 1.Alternate 2.Adjacent-I 3.Adjacent-II
- 11. In alternate orientation, alternate chromosomes will be oriented towards the same pole) Anaphase-I Pachytene configuration Quadrivalent
- 12. In adjacent-I orientation, adjacent chromosomes having non-homologous centromeres will move towards the same pole.
- 13. In adjacent-II orientation, adjacent chromosomes having homologous centromeres will move towards the same pole.
- 14. • Alternate disjunction will give functional gametes. • Adjacent I and adjacent-II disjunctions will form gametes which would carry duplications and deficiencies (aneuploid gametes). • These aneuploid gametes will be non-functional. • Therefore, in a plant having translocation in Heterozygous condition, there will be considerable pollen sterility. • The production of aneuploid gametes by adjacent disjunctions explains why translocation heterozygotes have reduced fertility. • Translocation heterozygotes are therefore characterized by low fertility.
- 15. References • Snustard, D.P. and Simmons, M.J. (2012). Principles of Genetics (6th ed.). John Wiley & Sons, Inc. • Klug, W.S.; Cummings, M.R.; Spencer, C.A. and Palladino, M.A. (2012). Concepts of Genetics (10th ed). Pearson Education, Inc. • Karp, G. (2010). Cell and Molecular Biology- concepts and experiments (6th ed.). John Wiley & Sons, Inc.
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