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chromosomal aberrations and changes in the structure of chromosomes

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ReiyaBosco
ReiyaBosco

In the nucleus of each cell DNA is packed ino thread like str. called as chromosomes. Each chromo has a constriction point called as CENTROMERE. It divides the chromo. Into 2 arms : p & q. Location of centromere gives characteristic shape & describes the location of spf genes. Chromosomes hv spf str but sometimes they undergo structural modifications called CHROMO ABERATIONS

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CHANGES IN THE STRUCTURE OF CHROMOSOME By D . REIYA BOSCO
CHROMOSOM ES • In the nucleus of each cell DNA is packed ino thread like str. called as chromosomes. • Each chromo has a constriction point called as CENTROMERE. • It divides the chromo. Into 2 arms : p & q. • Location of centromere gives characteristic shape & describes the location of spf genes. • Chromosomes hv spf str but sometimes they undergo structural modifications called CHROMO ABERATIONS
BREAKAGE & FUSION BRIDGE • Structural changes are cause due to BREAKES in chromo. • Mc.Clintok std on the broken ends of Zea maize. • The broken ends behave as if they are STICKY. • They undergo FUSION as ease. • If breakes occur & r followed by duplication during prophase. • Results in the fusion of 2 sticky ends of chromatids . • Formation of long chromatid wit 2 centromeres. • During anaphase spindle attach & separate the 2 centromeres.
• It forms dicentric chromatid bridge. • Bridge can be broken at diff points . • It causes deficency / extra genes.
TYPES OF CHROMOSOMAL ABERRATIONS • 2 TYPES • Changes in NUMBER OF GENES : Deletion : Duplication • Changes in ARRANGEMENTS OF GENES : Inversion :Translocation
1) DELETION / DEFICIENCY • Results from the loss of a part of chromo.
2 TYPES OF DELETION • TERMINAL DELETION • Deletion at the end of chromosome. • Single break. • Gives rise to small acentric fragment • INTERCALARY DELETION • Deletion at the centre of the arm. • 2 breaks. • Also forms Acentic fragment.
TERMINAL DELETION
INTERCALARY DELETION
GENETIC EFFECT OF DELETION • If the deleted segment consist of genes physiologically important then organism will not survive. • Pseudodominance Missing segment allows expression of recessive genes If dominant genes r deleted. Example in humans: Deficiency in segment of chromosome 18 – large ears , long fingers & low mental ability. Cri-du-chat was due to deletion of chromosome 5.
2) DUPLICATION • Occurs when section of chromo is presenton twice. • Results in extra chromo material. • TYPES • Tandem dup • Reverse tandem dup • Displaced dup • Transposition • Dicentric chromosome
1)TANDEM DUPLICATIO N • Section of chromo repeated immediately after its normal position in same direction.
2) REVERSE TANDEM DUPLICATION • The repeated segment is a reversal of the duplicated segment. • Arranged immediately after its normal position.
3) DISPLACEMENT DUPLICATION • HOMOBRANCHIAL • Repeated segment is some distance away from normal location. • Occurs on the same arm of chromo • HETEROBRANCHIAL • Repeated segment is some distance away from its normal location. • When repetation takes place on the other arm.
4) TRANSPOSITION • When repeated segment is on a non-homologous
5) DICENTRIC CHROMOSOME • When duplication occurs by taking the extra centromeres causing a dicentric chromosome.
3)TRANSLOCATION • Results from transfer of a segment to diffetent parts of same chromo/ diff chromo • Like homologous/ non-homologous chromo. • TYPES • Reciprocal • Non reciprocal interchromosomal • Non reciprocal intrachromosomal • Robertsonian
1) RECIPROCAL TRANSLOCATI ON • Exchange b/n non –homologous chromo. • Meiotic behaviour of chromo is altered. • Leads to rearrangement of genetic material. • Tot gm is not altered thereby they are balanced. • Causes potential genetic drift. • Arise due to: • chromo break • Abnormal crossover
2) NON- RECIPROCAL INTERCHROMOSO MAL TRANSLOCATION • A small segment of chromo is transferred to a non homologous chromo. • Occurs between chromosomes.
3) NON RECIPROCAL INTRACHROMOSOMAL TRANSLOCATION • A small segment is translocated from one region to another within Same chromo.
4) ROBERTSONIA N TRANSLOCATIO N • Transfer of genetic material occur only in 1 direction. • Associated with phenotypic abnormalities /lethality. • They are confined to chromosome 13,14,15,21. • Eg: familial downs syndrome. • In that majority of chromo 21 is attached to chromo14. • Individuals have 3 copies of genes on large
4) INVERSION • Occurs when a segment of a chromo breakes & rotates by 180 degree. • Genes are rearranged in reverse order . • No change in the number of genes. • Majority of inversions hv no phenotypic consequences. • Minimum of 2 breakes is required. • Normal pairing is not possible between 2 homologous chromo. • 2 types • Paracentric inversion • Pericentric inversion
• Paracentric inversion • Occurs when there are 2 breaks on same chromosomal arm. • Recombination occurs inside a large loop. • Dicentric bridges form at the center where cross over does not occur. • Acentric loop arise at the centromere. • Pericentric inversion • Occurs when there is a break on both sides of centromere. • Recombination occur inside 2 loops. • Chromo can be elongated / shortened. • Deletion & duplication occur During cross over.
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chromosomal aberrations and changes in the structure of chromosomes

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chromosomal aberrations and changes in the structure of chromosomes

  • 1. CHANGES IN THE STRUCTURE OF CHROMOSOME By D . REIYA BOSCO
  • 2. CHROMOSOM ES • In the nucleus of each cell DNA is packed ino thread like str. called as chromosomes. • Each chromo has a constriction point called as CENTROMERE. • It divides the chromo. Into 2 arms : p & q. • Location of centromere gives characteristic shape & describes the location of spf genes. • Chromosomes hv spf str but sometimes they undergo structural modifications called CHROMO ABERATIONS
  • 3. BREAKAGE & FUSION BRIDGE • Structural changes are cause due to BREAKES in chromo. • Mc.Clintok std on the broken ends of Zea maize. • The broken ends behave as if they are STICKY. • They undergo FUSION as ease. • If breakes occur & r followed by duplication during prophase. • Results in the fusion of 2 sticky ends of chromatids . • Formation of long chromatid wit 2 centromeres. • During anaphase spindle attach & separate the 2 centromeres.
  • 4. • It forms dicentric chromatid bridge. • Bridge can be broken at diff points . • It causes deficency / extra genes.
  • 5.
  • 6. TYPES OF CHROMOSOMAL ABERRATIONS • 2 TYPES • Changes in NUMBER OF GENES : Deletion : Duplication • Changes in ARRANGEMENTS OF GENES : Inversion :Translocation
  • 7. 1) DELETION / DEFICIENCY • Results from the loss of a part of chromo.
  • 8. 2 TYPES OF DELETION • TERMINAL DELETION • Deletion at the end of chromosome. • Single break. • Gives rise to small acentric fragment • INTERCALARY DELETION • Deletion at the centre of the arm. • 2 breaks. • Also forms Acentic fragment.
  • 11. GENETIC EFFECT OF DELETION • If the deleted segment consist of genes physiologically important then organism will not survive. • Pseudodominance Missing segment allows expression of recessive genes If dominant genes r deleted. Example in humans: Deficiency in segment of chromosome 18 – large ears , long fingers & low mental ability. Cri-du-chat was due to deletion of chromosome 5.
  • 12. 2) DUPLICATION • Occurs when section of chromo is presenton twice. • Results in extra chromo material. • TYPES • Tandem dup • Reverse tandem dup • Displaced dup • Transposition • Dicentric chromosome
  • 13.
  • 14. 1)TANDEM DUPLICATIO N • Section of chromo repeated immediately after its normal position in same direction.
  • 15. 2) REVERSE TANDEM DUPLICATION • The repeated segment is a reversal of the duplicated segment. • Arranged immediately after its normal position.
  • 16. 3) DISPLACEMENT DUPLICATION • HOMOBRANCHIAL • Repeated segment is some distance away from normal location. • Occurs on the same arm of chromo • HETEROBRANCHIAL • Repeated segment is some distance away from its normal location. • When repetation takes place on the other arm.
  • 17.
  • 18.
  • 19. 4) TRANSPOSITION • When repeated segment is on a non-homologous
  • 20. 5) DICENTRIC CHROMOSOME • When duplication occurs by taking the extra centromeres causing a dicentric chromosome.
  • 21. 3)TRANSLOCATION • Results from transfer of a segment to diffetent parts of same chromo/ diff chromo • Like homologous/ non-homologous chromo. • TYPES • Reciprocal • Non reciprocal interchromosomal • Non reciprocal intrachromosomal • Robertsonian
  • 22. 1) RECIPROCAL TRANSLOCATI ON • Exchange b/n non –homologous chromo. • Meiotic behaviour of chromo is altered. • Leads to rearrangement of genetic material. • Tot gm is not altered thereby they are balanced. • Causes potential genetic drift. • Arise due to: • chromo break • Abnormal crossover
  • 23.
  • 24. 2) NON- RECIPROCAL INTERCHROMOSO MAL TRANSLOCATION • A small segment of chromo is transferred to a non homologous chromo. • Occurs between chromosomes.
  • 25. 3) NON RECIPROCAL INTRACHROMOSOMAL TRANSLOCATION • A small segment is translocated from one region to another within Same chromo.
  • 26. 4) ROBERTSONIA N TRANSLOCATIO N • Transfer of genetic material occur only in 1 direction. • Associated with phenotypic abnormalities /lethality. • They are confined to chromosome 13,14,15,21. • Eg: familial downs syndrome. • In that majority of chromo 21 is attached to chromo14. • Individuals have 3 copies of genes on large
  • 27.
  • 28. 4) INVERSION • Occurs when a segment of a chromo breakes & rotates by 180 degree. • Genes are rearranged in reverse order . • No change in the number of genes. • Majority of inversions hv no phenotypic consequences. • Minimum of 2 breakes is required. • Normal pairing is not possible between 2 homologous chromo. • 2 types • Paracentric inversion • Pericentric inversion
  • 29. • Paracentric inversion • Occurs when there are 2 breaks on same chromosomal arm. • Recombination occurs inside a large loop. • Dicentric bridges form at the center where cross over does not occur. • Acentric loop arise at the centromere. • Pericentric inversion • Occurs when there is a break on both sides of centromere. • Recombination occur inside 2 loops. • Chromo can be elongated / shortened. • Deletion & duplication occur During cross over.