SCA Flashcards
What are examples of structural abnormalities?
→Translocations →Inversion →Deletion →Duplication →Rings →Isochromosomes
What are the two types of translocation abnormalities?
→Reciprocal
→Robertsonian
What is translocation?
→Exchange of two segments between non-homologous chromosomes
→two double strands breaks, each on a different chromosome
What is NHEJ?
→that instead of joining together the correct two bits, the DNA repair mechanism happens to stitch together the chromosome in incorrect pairs
→end of another chromosome attached and vice verse in this chromosome
What kind of translocations are NHEJ?
→balanced translocations
When do NHEJ occur?
→spontaneously during meiosis
What is the genetic material content like in NHEJ?
→no net gain or loss of genetic material
What is a Philadelphia chromosome?
→a reciprocal translocation involving chromosomes 9 and 22
→The break points of the translocation create a fusion
Which two genes create a fusion to form Philadelphia chromosome?
→ABL1 on chromosome 9
→ BCR on chromosome 22.
What is BCR on chromosomes like?
→prone to DNA double strand break
What is the Philadelphia chromosome implicated in?
→chronic myelogenous leukemia (CML)
What are the consequences of reciprocal translocations in meisosis?
→Tetravalent forms instead of bivalent
What does reciprocal translocation mean?
→no loss or gain of material
→little consequence to the cell of carrying a reciprocal translocation.
What is a pachytene quadrivalent?
→ balanced translocation ends up pairing in fours
What is pachytene?
→each tetrad shortens, thickens, and separates into four distinct chromatids joined at the centromere
What is the consequence of reciprocal translocations dependent on?
→the particular chromosomes involved
→size of the translocated material
What can the results be upon fertilisation in reciprocal translocations in meiosis?
→there could be trisomy to different regions of the chromosome
→monosomic for one chunk
What are the results of unbalanced reciprocal translocation?
→Many lead to miscarriage
→Learning difficulties, physical disabilities
→Tend to be specific to each individual so exact risks and clinical features vary
What is a Robertsonian translocations?
→two acrocentric chromosomes break at or near their centromeres,
→when the fragments are joined together again it’s possible for just the two sets of long arms to be brought together
→there’s loss of the satellites.
Which chromosomes are prone to Robertsonian translocations?
→chromosomes 13 and 14
→accounts for approximately 1/3 of all Robertsonian translocations
What is the nature of the long arms that are joined together in Robertsonian translocations?
→long arms of different chromosomes
→unusual to see, for example, the maternal and paternal long arms of chromosome 13 fused together
How many chromosome in balanced carrier after Robertsonian translocation?
→has 45 chromosomes