A couple planning their family are aware that through the past three generations on the husband's side a substantial number of stillbirths have occurred and several malformed babies were born who died early in childhood. The wife has studied genetics and urges her husband to visit a genetic counseling clinic, where a complete karyotype-banding analysis is performed. Although the tests show that he has a normal complement of 46 chromosomes, banding analysis reveals that one member of the chromosome 1 pair (in group \(A\) ) contains an inversion covering 70 percent of its length. The homolog of chromosome 1 and all other chromosomes show the normal banding sequence. (a) How would you explain the high incidence of past stillbirths? (b) What can you predict about the probability of abnormal- ity/normality of their future children? (c) Would you advise the woman that she will have to bring each pregnancy to term to determine whether the fetus is normal? If not, what else can you suggest?

Step by step solution

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a) Explaining the high incidence of past stillbirths

The high incidence of past stillbirths and malformed babies could be attributed to the inversion in one of the chromosomes in chromosome 1 pair. An inversion is a chromosomal rearrangement where a segment of a chromosome is reversed end-to-end. This can lead to abnormal gametes during the process of meiosis, as the normal and inverted chromosomes may not align properly. This may result in unbalanced chromosome arrangements in the offspring, which can lead to stillbirths or congenital anomalies.

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b) Predicting the probability of abnormality/normality in future children

The probability of abnormality or normality in their future children would depend on the type of inversion present in the father's chromosome 1. There are two types of inversions: pericentric and paracentric. A pericentric inversion involves the centromere, while a paracentric inversion does not. If the father has a pericentric inversion, there is a higher risk of producing unbalanced gametes during meiosis, leading to a higher chance of abnormalities in the children. If the father has a paracentric inversion, the risk of abnormality is relatively lower. Nevertheless, it is important to note that the presence of inversion increases the overall risk of chromosomal abnormalities in the offspring, compared to couples with no inversion.

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c) Advising on whether to continue with each pregnancy

It is not necessary for the woman to bring each pregnancy to term to determine if the fetus is normal. Instead, they can undergo prenatal testing, which can provide information about the chromosomal makeup of the fetus early in pregnancy. Techniques such as chorionic villus sampling (CVS) and amniocentesis can help detect any chromosomal abnormalities in the fetus, allowing the couple to make informed decisions on whether to continue with the pregnancy or not. It would also be beneficial for the couple to discuss their options with a genetic counselor, who can provide personalized guidance and support.

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