definition (autosomal recessive inheritance)
gene that causes phenotype lies on autosome
phenotypes appears if imparied gene function on both alleles (bi-allelic)
one normal allele = sufficient to maintain normal function (heterozygosity)
homozygosity
compound heterozygosity
likelihoods for beeing a carrier, when…
a) both parents = carrier
b) one parent = carrier
c) in counselling if both parents = heterozygous/healthy
offspring
a) 25 % healthy, 50 % carrier, 25 % affected
b) 50 / non-carriers; 50 % carriers
c) 2/3 carrier, 1/3 healthy
What is this?
= Pseudodaminance
affected + heterozygot -> 50 % carrier + 50 % affected
in pedigree: looks like autosomal dominant
Main criteria for autosomal recessive diseases
only homozygous or compound heterozygous carriers of a pathogenic variant manifest a phenotype
both genders are equally affected
metabolic disorders (esp. enzyme defects) = frequent
transmission comes from both parents, who are heterozygous healthy carriers of a pathogenic variant
often manifestation seems sporadic (few children!)
consanguinity increases the likelihood for the manifestation of autosomal recessive diseases
de novo mutations play an important role and are normally not detectable -> functional tests to detect if cis or trans
Hardy-Weinberg-Principle
p^2 + 2pq + q^2 = 1
p + q = 1
2pq: frequency of heterozygotes
p^2 = AA (healthy)
q^2 = aa (affected / incidence of disease)
Factors that disturb the Hardy-Weinberg equilibrium
non-random mating (alters frequency of p and q)
small population size (alters frequency of p and q)
gene flow (migration) (alters frequency of p and q)
mutation (increases q)
selection of heterozygotes (increases q)
factors that disturb Hardy-Weinberg - example disease
Ellis-van-Creveld syndrome = predominant in Amish people (UK)
founder mutation: 1 person emmigrated -> all EVC patient = offspring of him
EVC gene mutation: c.1886+5G>T
franko-canadian disorders
Ashkinasi mutations (Germany/Israel) -> bc. of only marriage within allowed community (jewish)
mutations with advantages
anemia + malaria —> associated mutations:
sickle-cell trait (A -> T // Glutamin -> Valin)
healthy life, but risk of becoming homozygot offspring if both parents = heterozygot
Spinal muscular atrophy - characteristics (incl. gene)
main symptom: muscle hypotonia
motorneuron disease
caused by homozygous deletion of exon 7 and 8 of SMN1 gene (located on chr. 5)
4 forms (different severity/age of onset)
Spinal muscular atrophy - genetic background
pseudogene = SMN1
type I: 2x SMN1
type II: 3x SMN1
type III: 4x SMN1
—> copy number determines severity
Spinal muscular atrophy - therapy/treatment
1 substitution in exon 7 => splice out exon 7
regular intrafetal (spine) injection -> risk of infection
but keeps function or regain of function
gene therapy = very expensive (only needs to be approved once) -> do as early as possible; no previous adeno-virus infection; bc. of adeno-virus vector
Last changed2 years ago
