Table of Contents
Exercise 7
Data description
Working plan
How many variants do you detect for each scenario?
A. Individual filters
B. Progressive selection
Exercise 7
Data description
Working plan
We have several candidate profiles of mutations to explore:
How many variants do you detect for each scenario?
A. Individual filters
Description of variants
. How many SNVs, INDELs, MNVs, SVs, CNVs?
Recessive heritage
Dominant heritage (mother is affected).
For this region: 3:10000-500000
Evaluate these regions at the same time: 3:10000-500000, 5:1000-500000, 13:500-100000
For theses genes related to Charcot-Marie-Tooth disease: BSCL2, DNM2, EGR2, FGD4, FIG4, GARS, GDAP1, GJB1, HSPB1, HSPB8, KIF1B, LITAF, LMNA, MFN2, MPZ, MTMR2, NDRG1, NEFL, PMP22, PRPS1, PRX, RAB7A, SBF2, SH3TC2, TRPV4, and YARS
B. Progressive selection
We have several clues about our candidate variants:
Recessive heritage
For theses genes related to Charcot-Marie-Tooth disease: BSCL2, DNM2, EGR2, FGD4, FIG4, GARS, GDAP1, GJB1, HSPB1, HSPB8, KIF1B, LITAF, LMNA, MFN2, MPZ, MTMR2, NDRG1, NEFL, PMP22, PRPS1, PRX, RAB7A, SBF2, SH3TC2, TRPV4, and YARS
How many variants do you have including both characteristics?
Only one!
Maybe this is our variant. We need several more things:
Select this variant and take a picture from the Genomic Browser.
Explore with detail information about “Genomic context”, “Pop. Frequencies”, “Phenotype”, “Effect”.
Another interesting profile for us:
Dominant heritage (mother is affected) where mother and daughters present a heterozygous variant.
Only chromosome 5.
How many variants do you have including both characteristics?
Last scenario to explore:
Recessive heritage but…..
There are two affected daughters but one of them (
F2
) is more affected than (
F3
). Maybe there is a modifier for
F2
not present in
F3
.
Only chromosome 5.