LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions

LRFN5 locus structure is associated with autism and influenced by the sex of the individual and locus conversions

LRFN5 is a regulator of synaptic development and the only gene in a 5.4 Mb mammalian‐specific conserved topologically associating domain (TAD); the LRFN5 locus. An association between locus structural changes and developmental delay (DD) and/or autism was suggested by several cases in DECIPHER and o...

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Veröffentlicht in:Autism research 2022-03, Vol.15 (3), p.421-433
Hauptverfasser: Lybæk, Helle, Robson, Michael, Leeuw, Nicole, Hehir‐Kwa, Jayne Y., Jeffries, Aaron, Haukanes, Bjørn Ivar, Berland, Siren, Bruijn, Diederik, Mundlos, Stefan, Spielmann, Malte, Houge, Gunnar
Format: Artikel
Sprache:eng
Schlagworte:
allelic interaction
Animals
Autism
Autism Spectrum Disorder - genetics
Autistic Disorder - genetics
Cell Adhesion Molecules, Neuronal - genetics
Cell interactions
Chromatin
chromatin structure
Epigenetics
epigenomics
Female
Gene deletion
Haplotypes
Heterozygotes
Histones
Humans
Loci
LRFN5
Lysine
Male
Males
Mammals
Maternal inheritance
OMICS
Polymorphism
Polymorphism, Genetic
SALM5
Sex differences
Synaptogenesis
TAD structure
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Zusammenfassung:LRFN5 is a regulator of synaptic development and the only gene in a 5.4 Mb mammalian‐specific conserved topologically associating domain (TAD); the LRFN5 locus. An association between locus structural changes and developmental delay (DD) and/or autism was suggested by several cases in DECIPHER and own records. More significantly, we found that maternal inheritance of a specific LRFN5 locus haplotype segregated with an identical type of autism in distantly related males. This autism‐susceptibility haplotype had a specific TAD pattern. We also found a male/female quantitative difference in the amount histone‐3‐lysine‐9‐associated chromatin around the LRFN5 gene itself (p 
ISSN:1939-3792
1939-3806
DOI:10.1002/aur.2677