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Summary Terminology list of Neurogenetics course (2023/2024)

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This document contains all the terminology that you should be able to explain on the exam!

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  • 16 juni 2024
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TERMINOLOGY LIST
INTRODUCTION TO NEUROGENETICS
Reduced penetrance = carriers of the disease gene may be unaffected
Phenocopy = patients show same clinical phenotype, but are not carrier of the same disease gene
Oligogenic disease = multiple genes are needed to manifest disease, often we see a variable phenotype
Polygenic disease = multifactorial diseases associated with both multiple genes and environmental factors. Often we see
extensive phenotypic heterogeneity
Population stratification = systematic ancestry difference between patients & controls (well-matched controls!!)
Polygenic risk score = sum of (common variant x effect size). Is generated at the population level and applied at individual level
 Select variant  derive effect size from population level  apply on individual level
 Gives the overall risk of developing a disease
Manhattan plot = shows the significance that a certain variant is distributed (threshold: p = 5x10 -8)
Burden analysis = rare variants are grouped based on biological information
Manolio plot = gives the relation between the allele frequency and the effect size
Phenotypic heterogeneity = patients have same genotype, but different phenotype
Nonsense-mediated decay = mRNA surveillance mechanism triggered when nonsense mutation results in stop codon
 Principle: exon junction complexes are not displaced when a premature stop codon is introduced  NMDS
 Will not work when premature stop codon is
o In the last exon
o Within +/- 55 nucleotides of the final exon-junction complex
Splicing enhancers = promote the inclusion of exons
Splicing silencers= inhibit the inclusion of exons
Cryptic splicing = inclusion of exclusion of unintended exons or introns leading to aberrant mRNA transcripts

GENETIC MECHANISMS
Haploinsufficiency = 1 gene copy is not sufficient for the protein to work
Dominant-negative effect = defective allele interferes with wildtype copy, more then 50% loss of protein
Dominant gain-of-function = novel (toxic) protein function or ectopic expression of protein function. Wildtype allele is not able
to counterbalance the toxic effect of the mutation
Mutational heterogeneity = different gene mutations cause the same disease or condition
Mutational homogeneity = 1 specific mutation causes the disease or condition
Retrogene = a processed copy of another gene derived via reverse-transcription of mRNA & more or less random insertion into
the organism’s genome. Usually non-function and inactive, because lack of regulatory elements
Mosaic status = not all body cells have the same genetic make-up and a pathogenic mutation is found in some of the cells
Somatic mutation = mutation in any of the cells except for the germ cells
Heteroplasmy = variable ratios of mutant to normal mtDNA copies per cell. The larger the ratio, the more severe phenotype

TANDEM REPEAT EXPANSIONS
STRs = short tandem repeats (microsatellite)  when repeat motif has a length of 1 – 9 nt
VNTRs = variable number of tandem repeats (minisatellite)  when repeat motif has length of 10 – 100 nt
Premutation allele = not pathogenic, but likely to expand to a pathogenic length in the next generation. The offspring is of high
risk, but the person him-/herself will not develop disease
Permissive haplotype = not pathogenic, but has a minimally expanded repeat without interruptions (unstable) that is likely to
further expand across many generations. This results in geographical clustering of repeat disorders and linkage disequilibrium
with nearby SNPs
Anticipation = disease shows earlier onset and/or more severe phenotype with each subsequent generation due to further
expansion of a repeat (Length of repetitive DNA sequences increases across generations)
RNA foci = unusual RNA aggregates in the nucleus

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