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Relevance to Autism

Recurrent mutations in the ADNP gene have been identified in multiple individuals with ASD as described below. Two de novo frameshift variants in ADNP were identified in unrelated simplex ASD cases in two reports by O'Roak and colleagues in 2012 (PMIDs 22495309 and 23160955). An additional seven de novo LoF variants were identified in patients with ASD in Helsmoortel et al., 2014, giving a current total of nine de novo LoF variants in ADNP gene in ASD cases; the probability of detecting eight or more de novo truncating events in ADNP was given as P=2.65 x 10-18 in this report (PMID 24531329). Furthermore, the frequency of shared clinical characteristics in ASD cases with LoF variants in ADNP (intellectual disability, facial dysmorphisms) led Helsmoortel and colleagues to conclude that ADNP mutations resulted in an autism syndrome. Analysis of rare coding variation in 3,871 ASD cases and 9,937 ancestry-matched or paternal controls from the Autism Sequencing Consortium (ASC) in De Rubeis et al., 2014 identified ADNP as a gene meeting high statistical significance with a FDR 0.01, meaning that this gene had a 99% chance of being a true autism gene (PMID 25363760). This gene was identified in Iossifov et al. 2015 as a strong candidate to be an ASD risk gene based on a combination of de novo mutational evidence and the absence or very low frequency of mutations in controls (PMID 26401017). A two-stage analysis of rare de novo and inherited coding variants in 42,607 ASD cases, including 35,130 new cases from the SPARK cohort, in Zhou et al., 2022 identified ADNP as a gene reaching exome-wide significance (P < 2.5E-06).

Molecular Function

Potential transcription factor that may mediate some of the neuroprotective peptide VIP-associated effects involving normal growth and cancer proliferation. In brain, expression is stronger in the cerebellum and cortex regions.

External Links

        

References

Type
Title
Type of Disorder
Associated Disorders
Author, Year
Primary
Sporadic autism exomes reveal a highly interconnected protein network of de novo mutations.
ASD
Support
Whole genome sequencing and variant discovery in the ASPIRE autism spectrum disorder cohort.
ASD
Support
Multiplex targeted sequencing identifies recurrently mutated genes in autism spectrum disorders.
ASD
Support
Using medical exome sequencing to identify the causes of neurodevelopmental disorders: experience of two clinical units and 216 patients.
ID
Support
Impaired Neurodevelopmental Genes in Slovenian Autistic Children Elucidate the Comorbidity of Autism With Other Developmental Disorders
ASD
ADHD, DD, ID
Support
Unveiling Hidden Genetic Architectures: Molecular Diagnostic Yield of Whole Exome Sequencing in 50 Children With Autism Spectrum Disorder Negative for Copy Number Variations
ASD
Support
Early behavioral and developmental interventions in ADNP-syndrome: A case report of SWI/SNF-related neurodevelopmental syndrome
Helsmoortel-Van der Aa syndrome
ASD
Support
The utility of exome sequencing in diagnosing pediatric neurodevelopmental disorders in a highly consanguineous population
DD
ASD
Support
Insights into Autism Spectrum Disorder Genomic Architecture and Biology from 71 Risk Loci.
ASD
Support
The autism spectrum phenotype in ADNP syndrome.
ID
ASD
Support
Prevalence and phenotypic impact of rare potentially damaging variants in autism spectrum disorder
ASD
Support
Blepharophimosis with intellectual disability and Helsmoortel-Van Der Aa Syndrome share episignature and phenotype
Helsmoortel-van der Aa syndrome
Support
De novo genic mutations among a Chinese autism spectrum disorder cohort.
ASD
Support
Gene domain-specific DNA methylation episignatures highlight distinct molecular entities of ADNP syndrome.
Helsmoortel-Van der Aa syndrome
Support
Helsmoortel-van der Aa syndrome
Support
The Eight and a Half Year Journey of Undiagnosed AD: Gene Sequencing and Funding of Advanced Genetic Testing Has Led to Hope and New Beginnings
Helsmoortel-Van der Aa syndrome
ASD, DD, ID
Support
A convergent mechanism of high risk factors ADNP and POGZ in neurodevelopmental disorders
Support
Clinical and genetic findings in autism spectrum disorders analyzed using exome sequencing
ASD
ADHD, DD, ID
Support
Large-Scale Exome Sequencing Study Implicates Both Developmental and Functional Changes in the Neurobiology of Autism
ASD
Support
Loss-of-function of activity-dependent neuroprotective protein (ADNP) by a splice-acceptor site mutation causes Helsmoortel-Van der Aa syndrome
Helsmoortel-van der Aa syndrome, ASD, DD, ID
Support
The Compassionate Side of Neuroscience: Tony Sermone's Undiagnosed Genetic Journey-ADNP Mutation.
ASD, ID
Support
A heterozygous microdeletion of 20q13.13 encompassing ADNP gene in a child with Helsmoortel-van der Aa syndrome.
Helsmoortel-Van der Aa syndrome
ID, autistic features
Support
Helsmoortel-Van der Aa syndrome, DD, ID
Autistic features, stereotypy
Support
A Systematic Review Illustrates the Expanding Clinical and Molecular Landscape of Helsmoortel-Van der Aa Syndrome
Helsmoortel-Van der Aa syndrome, ASD
Support
Exome Sequencing in 200 Intellectual Disability/Autistic Patients: New Candidates and Atypical Presentations
ID
Epilepsy/seizures
Support
Phenotypic and genetic analysis of children with unexplained neurodevelopmental delay and neurodevelopmental comorbidities in a Chinese cohort using trio-based whole-exome sequencing
ASD, DD, ID
Support
Genome-wide characteristics of de novo mutations in autism
ASD
Support
Cellular and animal models of skin alterations in the autism-related ADNP syndrome
Helsmoortel-Van der Aa syndrome
ASD, ID
Support
Helsmoortel-van der Aa syndrome, DD
Support
Novel features of Helsmoortel-Van der Aa/ADNP syndrome in a boy with a known pathogenic mutation in the ADNP gene detected by exome sequencing
Helsmoortel-Van der Aa syndrome
DD
Support
Genetic and Phenotype Analysis of a Chinese Cohort of Infants and Children With Epilepsy
Epilepsy/seizures
Support
Genetic variants and phenotypic data curated for the CAGI6 intellectual disability panel challenge
ID
ASD/autistic traits
Support
Exome sequencing of 457 autism families recruited online provides evidence for autism risk genes
ASD
Support
Clinical impact and in vitro characterization of ADNP variants in pediatric patients
Helsmoortel-van der Aa syndrome
ASD, DD, ID
Support
Large-scale discovery of novel genetic causes of developmental disorders.
ASD, DD, ID
Support
Longitudinal ophthalmic findings in a child with Helsmoortel-Van der Aa Syndrome.
Helsmoortel-Van der Aa syndrome
DD, ID
Support
ASD, ID
Support
Monogenic defects in Russian children with autism spectrum disorders
ASD
ID, epilepsy/seizures
Support
Whole genome sequencing of 45 Japanese patients with intellectual disability
ASD, DD, ID
Support
ADNP dysregulates methylation and mitochondrial gene expression in the cerebellum of a Helsmoortel-Van der Aa syndrome autopsy case
Helsmoortel-van der Aa syndrome, ASD, DD, epilepsy
Support
Meta-analysis of 2,104 trios provides support for 10 new genes for intellectual disability
ID
Support
Both rare and common genetic variants contribute to autism in the Faroe Islands.
ASD
Support
ASD
ID
Support
SH3- and actin-binding domains connect ADNP and SHANK3
ASD
Support
The chromatin remodeler ADNP regulates neurodevelopmental disorder risk genes and neocortical neurogenesis
Support
Further evidence that a blepharophimosis syndrome phenotype is associated with a specific class of mutation in the ADNP gene.
DD
Support
Impact of on-site clinical genetics consultations on diagnostic rate in children and young adults with autism spectrum disorder.
ASD
Support
Extended phenotypic characterization of a novel Helsmoortel-van der Aa syndrome case series
Helsmoortel-van der Aa syndrome, ASD, DD
Stereotypy
Support
Recurrent de novo mutations implicate novel genes underlying simplex autism risk.
ASD
Support
Helsmoortel-Van der Aa Syndrome as emerging clinical diagnosis in intellectually disabled children with autistic traits and ocular involvement.
Helsmoortel-Van der Aa syndrome
Autistic behavior
Support
Distinct Impairments Characterizing Different ADNP Mutants Reveal Aberrant Cytoplasmic-Nuclear Crosstalk
Helsmoortel-van der Aa syndrome
Alzheimer's disease
Support
A frameshift variant in activity-dependent neuroprotective protein (ADNP) causes nucleocytoskeletal alterations in a dizygotic male twin: a case study
Helsmoortel-van der Aa syndrome, ASD, ADHD, DD, ID
Support
Comprehensive Genetic Analysis of Non-syndromic Autism Spectrum Disorder in Clinical Settings
ASD
Support
Shared and divergent mental health characteristics of ADNP-, CHD8- and DYRK1A-related neurodevelopmental conditions
ASD, ID
Oppositional features
Support
Additional data on the clinical phenotype of Helsmoortel-Van der Aa syndrome associated with a novel truncating mutation in ADNP gene.
Helsmoortel-Van der Aa syndrome
ASD, DD, ID
Support
Inherited and multiple de novo mutations in autism/developmental delay risk genes suggest a multifactorial model.
ASD
Support
DD, ID
ASD
Support
Trio-based exome sequencing reveals a high rate of the de novo variants in intellectual disability
ID
Epilepsy/seizures
Support
ADNP is essential for sex-dependent hippocampal neurogenesis, through male unfolded protein response and female mitochondrial gene regulation
Helsmoortel-van der Aa syndrome
Alzheimer's disease
Support
Whole genome sequencing resource identifies 18 new candidate genes for autism spectrum disorder
ASD
Support
Lessons Learned from Large-Scale, First-Tier Clinical Exome Sequencing in a Highly Consanguineous Population.
ASD, epilepsy/seizures
Support
Clinical Utility of Proband Only Clinical Exome Sequencing in Neurodevelopmental Disorders
ASD, ADHD
Support
Challenges and opportunities in the investigation of unexplained intellectual disability using family-based whole-exome sequencing
Helsmoortel-Van der Aa syndrome
ASD, DD, ID
Support
Mutation in the ADNP gene associated with Noonan syndrome features
Helsmoortel-Van der Aa syndrome
ASD, DD, ID
Support
Integrating de novo and inherited variants in 42
ASD
ADHD, SCZ, epilepsy/seizures
Support
Genetic diagnostic outcomes from a 10-year research programme in autism in Aotearoa New Zealand
ASD
Support
Large-scale targeted sequencing identifies risk genes for neurodevelopmental disorders
ASD
DD, ID
Support
Identification of a molecular network regulated by multiple ASD high risk genes
ASD
Support
Comprehensive molecular testing in patients with high functioning autism spectrum disorder.
ASD
Support
Genetic Diagnostic Evaluation of Trio-Based Whole Exome Sequencing Among Children With Diagnosed or Suspected Autism Spectrum Disorder.
ASD
DD/ID
Support
DD, ID
Autistic features
Support
Diagnostic yield of next-generation sequencing in 87 families with neurodevelopmental disorders
ID
Support
Genomic insights from a deeply phenotyped highly consanguineous neurodevelopmental disorders cohort
DD, ID
Support
Targeted sequencing identifies 91 neurodevelopmental-disorder risk genes with autism and developmental-disability biases.
ASD, DD
Support
Developmental Phenotype of the Rare Case of DJ Caused by a Unique ADNP Gene De Novo Mutation.
ASD, ID, Helsmoortel-van der Aa syndrome
ADHD, behavioral problems
Support
Expansion of the clinical phenotype associated with mutations in activity-dependent neuroprotective protein
Helsmoortel-Van der Aa syndrome
DD, ADHD
Support
Diagnostic exome sequencing of syndromic epilepsy patients in clinical practice.
DD, ID, epilepsy/seizures
Stereotypic behavior, aggressive behavior
Support
Complex Diagnostics of Non-Specific Intellectual Developmental Disorder
DD, ID
Support
Clinical Application of a Customized Gene Panel for Identifying Autism Spectrum Disorder-Associated Variants
ASD
ID
Support
ADNP Controls Gene Expression Through Local Chromatin Architecture by Association With BRG1 and CHD4
Support
The genetic landscape of autism spectrum disorder in the Middle Eastern population
ASD
Support
Targeted DNA Sequencing from Autism Spectrum Disorder Brains Implicates Multiple Genetic Mechanisms.
ASD
Support
Genome sequencing identifies multiple deleterious variants in autism patients with more severe phenotypes.
ASD
Support
Helsmoortel-van der Aa syndrome, DD
Support
Novel ADNP Syndrome Mice Reveal Dramatic Sex-Specific Peripheral Gene Expression With Brain Synaptic and Tau Pathologies
Helsmoortel-van der Aa syndrome
Support
Helsmoortel-Van der Aa syndrome in a 13-year-old girl with autistic spectrum disorder, dysmorphism, a right solitary kidney, and polycystic ovaries: a case report
Helsmoortel-Van der Aa syndrome, ASD, ADHD, DD, ID
Support
Clinical exome sequencing: results from 2819 samples reflecting 1000 families.
Macrocephaly, white matter abnormalities
Recent Recommendation
Discovery of autism/intellectual disability somatic mutations in Alzheimer's brains: mutated ADNP cytoskeletal impairments and repair as a case study.
AD
Recent Recommendation
A SWI/SNF-related autism syndrome caused by de novo mutations in ADNP.
Autosomal dominant mental retardation-28 (MRD28)
ASD, DD, ID, epilepsy
Recent Recommendation
Clinical Presentation of a Complex Neurodevelopmental Disorder Caused by Mutations in ADNP.
Helsmoortel-Van der Aa syndrome
ASD or autistic features
Recent Recommendation
Low load for disruptive mutations in autism genes and their biased transmission.
ASD
Recent Recommendation
Activity-dependent neuroprotective protein (ADNP) exhibits striking sexual dichotomy impacting on autistic and Alzheimer's pathologies.
Recent Recommendation
CRISPRi-based screen of autism spectrum disorder risk genes in microglia uncovers roles of ADNP in microglia endocytosis and synaptic pruning
ASD
Recent Recommendation
Synaptic, transcriptional and chromatin genes disrupted in autism.
ASD
Recent Recommendation
Craniosynostosis
ASD
Recent Recommendation
The NAP motif of activity-dependent neuroprotective protein (ADNP) regulates dendritic spines through microtubule end binding proteins.
Recent Recommendation
Arachnoid cysts
ASD, DD, epilepsy/seizures
Recent Recommendation
The transcriptional regulator ADNP links the BAF (SWI/SNF) complexes with autism.
ASD
ID

Rare

Variant ID
Variant Type
Allele Change
Residue Change
Inheritance Pattern
Inheritance Association
Family Type
Author, Year
 GEN471R001 
 frameshift_variant 
 c.1222_1223del 
 p.Lys408ValfsTer31 
 De novo 
  
 Simplex 
 GEN471R002 
 frameshift_variant 
 c.2156_2157insT 
 p.Glu720ArgfsTer15 
 De novo 
  
 Simplex 
 GEN471R003 
 frameshift_variant 
 c.3280_3281insCC 
 p.Gly1094AlafsTer5 
 Familial 
 Maternal 
 Simplex 
 GEN471R004 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R005 
 stop_gained 
 c.1211C>A 
 p.Ser404Ter 
 De novo 
  
  
 GEN471R006 
 frameshift_variant 
 c.2153_2165del 
 p.Thr718ArgfsTer6 
 De novo 
  
  
 GEN471R007 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R008 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R009 
 frameshift_variant 
 c.2808del 
 p.Tyr936Ter 
 De novo 
  
  
 GEN471R010 
 frameshift_variant 
 c.2491_2494del 
 p.Leu831IlefsTer82 
 De novo 
  
  
 GEN471R011 
 stop_gained 
 c.1930C>T 
 p.Arg644Ter 
 Unknown 
  
  
 GEN471R012 
 stop_gained 
 c.118C>T 
 p.Gln40Ter 
 De novo 
  
 Simplex 
 GEN471R013 
 frameshift_variant 
 c.642_649del 
 p.Asn214LysfsTer4 
 De novo 
  
 Simplex 
 GEN471R014 
 frameshift_variant 
 c.2866_2869del 
 p.Glu956LeufsTer35 
 De novo 
  
 Simplex 
 GEN471R015 
 frameshift_variant 
 c.2318_2319del 
 p.Lys773IlefsTer14 
 Unknown 
  
 Unknown 
 GEN471R016 
 missense_variant 
 c.1668G>C 
 p.Gln556His 
 Unknown 
  
 Unknown 
 GEN471R017 
 missense_variant 
 c.1553G>A 
 p.Arg518His 
 Unknown 
  
 Unknown 
 GEN471R018 
 missense_variant 
 c.2881G>T 
 p.Asp961Tyr 
 Unknown 
  
 Unknown 
 GEN471R019 
 frameshift_variant 
 c.2497_2500del 
 p.Lys833SerfsTer80 
 De novo 
  
 Simplex 
 GEN471R020 
 frameshift_variant 
 c.1222_1223del 
 p.Lys408ValfsTer31 
 De novo 
  
 Simplex 
 GEN471R021 
 frameshift_variant 
 c.2156dup 
 p.Tyr719Ter 
 De novo 
  
 Simplex 
 GEN471R022 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
 Simplex 
 GEN471R023 
 frameshift_variant 
 c.1046_1047del 
 p.Leu349ArgfsTer49 
 De novo 
  
 Simplex 
 GEN471R024 
 missense_variant 
 c.3281G>T 
 p.Gly1094Val 
 Unknown 
  
 Unknown 
 GEN471R025 
 missense_variant 
 c.1327A>G 
 p.Thr443Ala 
 Unknown 
  
  
 GEN471R026 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
 Simplex 
 GEN471R027 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
  
 GEN471R028 
 frameshift_variant 
 c.1035_1038del 
 p.Ser346Ter 
 De novo 
  
 Simplex 
 GEN471R029 
 stop_gained 
 c.632T>A 
 p.Leu211Ter 
 De novo 
  
  
 GEN471R030 
 frameshift_variant 
 c.3047dup 
 p.Ala1017GlyfsTer6 
 Familial 
 Maternal 
  
 GEN471R031 
 missense_variant 
 c.2288C>T 
 p.Ser763Phe 
 Familial 
 Maternal 
  
 GEN471R032 
 frameshift_variant 
 c.2157del 
 p.Tyr719Ter 
 De novo 
  
 Simplex 
 GEN471R033 
 stop_gained 
 c.3170T>A 
 p.Leu1057Ter 
 De novo 
  
 Simplex 
 GEN471R034 
 frameshift_variant 
 c.3066_3069del 
 p.Asp1022GlufsTer4 
 De novo 
  
  
 GEN471R035 
 frameshift_variant 
 c.2491_2494del 
 p.Leu831IlefsTer82 
 De novo 
  
  
 GEN471R036 
 stop_gained 
 c.2213C>G 
 p.Ser738Ter 
 De novo 
  
  
 GEN471R037 
 stop_gained 
 c.673C>T 
 p.Arg225Ter 
 De novo 
  
  
 GEN471R038 
 frameshift_variant 
 c.1035_1038del 
 p.Ser346Ter 
 De novo 
  
  
 GEN471R039 
 stop_gained 
 c.3170T>A 
 p.Leu1057Ter 
 De novo 
  
 Simplex 
 GEN471R040 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R041 
 stop_gained 
 c.517C>T 
 p.Arg173Ter 
 De novo 
  
  
 GEN471R042 
 frameshift_variant 
 c.2156dup 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R043 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
  
 GEN471R044 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
 Simplex 
 GEN471R045 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
 Simplex 
 GEN471R046 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R047 
 copy_number_loss 
  
  
 De novo 
  
 Simplex 
 GEN471R048 
 frameshift_variant 
 c.339del 
 p.Phe114SerfsTer47 
 Unknown 
  
  
 GEN471R049 
 frameshift_variant 
 c.1046_1047del 
 p.Leu349ArgfsTer49 
 De novo 
  
  
 GEN471R050 
 frameshift_variant 
 c.2287del 
 p.Ser763ProfsTer9 
 Unknown 
  
  
 GEN471R051 
 frameshift_variant 
 c.287del 
 p.Val96AlafsTer65 
 Unknown 
  
  
 GEN471R052 
 stop_gained 
 c.1102C>T 
 p.Gln368Ter 
 Unknown 
  
  
 GEN471R053 
 frameshift_variant 
 c.819del 
 p.Lys274AsnfsTer31 
 De novo 
  
  
 GEN471R054 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R055 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R056 
 frameshift_variant 
 c.190dup 
 p.Thr64AsnfsTer35 
 De novo 
  
  
 GEN471R057 
 frameshift_variant 
 c.2250_2274del 
 p.Val751MetfsTer13 
 De novo 
  
  
 GEN471R058 
 frameshift_variant 
 c.1026dup 
 p.Val343CysfsTer56 
 De novo 
  
 Simplex 
 GEN471R059 
 frameshift_variant 
 c.2250_2274del 
 p.Val751MetfsTer13 
 De novo 
  
 Multiplex 
 GEN471R060 
 initiator_codon_variant 
 c.2T>C 
 p.Met1? 
 De novo 
  
 Simplex 
 GEN471R061 
 frameshift_variant 
 c.2155del 
 p.Tyr719ThrfsTer9 
 Unknown 
 Not maternal 
 Simplex 
 GEN471R062 
 copy_number_loss 
  
  
 Unknown 
 Not maternal 
 Simplex 
 GEN471R063 
 frameshift_variant 
 c.2798_2799del 
 p.Gly933ValfsTer10 
 Unknown 
  
 Multiplex 
 GEN471R064 
 frameshift_variant 
 c.537dup 
 p.Val180SerfsTer2 
 De novo 
  
 Simplex 
 GEN471R065 
 frameshift_variant 
 c.10C>G 
 p.Leu4Val 
 Unknown 
  
 Unknown 
 GEN471R066 
 frameshift_variant 
 c.2499del 
 p.Val834SerfsTer80 
 De novo 
  
 Simplex 
 GEN471R067 
 stop_gained 
 c.517C>T 
 p.Arg173Ter 
 De novo 
  
 Simplex 
 GEN471R068 
 frameshift_variant 
 c.2251_2275del 
 p.Val751MetfsTer13 
 De novo 
  
  
 GEN471R069 
 stop_gained 
 c.2261T>G 
 p.Leu754Ter 
 De novo 
  
 Simplex 
 GEN471R070 
 stop_gained 
 c.3170T>A 
 p.Leu1057Ter 
 De novo 
  
 Simplex 
 GEN471R071 
 frameshift_variant 
 c.1026dup 
 p.Val343CysfsTer56 
 De novo 
  
 Simplex 
 GEN471R072 
 frameshift_variant 
 c.1222_1223del 
 p.Lys408ValfsTer31 
 De novo 
  
 Simplex 
 GEN471R073 
 frameshift_variant 
 c.2424_2427del 
 p.Lys809SerfsTer19 
 De novo 
  
 Simplex 
 GEN471R074 
 frameshift_variant 
 c.2287dup 
 p.Ser763PhefsTer3 
 De novo 
  
 Simplex 
 GEN471R075 
 missense_variant 
 c.746A>G 
 p.Tyr249Cys 
 De novo 
  
 Simplex 
 GEN471R076 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R077 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
 Simplex 
 GEN471R078 
 frameshift_variant 
 c.2491_2494del 
 p.Leu831IlefsTer82 
 De novo 
  
  
 GEN471R079 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R080 
 frameshift_variant 
 c.651_655del 
 p.Glu218Ter 
 De novo 
  
 Simplex 
 GEN471R081 
 frameshift_variant 
 c.2156dup 
 p.Tyr719Ter 
 Unknown 
  
  
 GEN471R082 
 frameshift_variant 
 c.103dup 
 p.Ile35AsnfsTer5 
 Unknown 
  
  
 GEN471R083 
 frameshift_variant 
 c.2287del 
 p.Ser763ProfsTer9 
 De novo 
  
  
 GEN471R084 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R085 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R086 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R087 
 frameshift_variant 
 c.1046_1047del 
 p.Leu349ArgfsTer49 
 De novo 
  
  
 GEN471R088 
 frameshift_variant 
 c.853_857del 
 p.Pro285AspfsTer27 
 De novo 
  
  
 GEN471R089 
 frameshift_variant 
 c.539_542del 
 p.Val180GlyfsTer17 
 De novo 
  
  
 GEN471R090 
 frameshift_variant 
 c.539_542del 
 p.Val180GlyfsTer17 
 De novo 
  
  
 GEN471R091 
 frameshift_variant 
 c.361_362del 
 p.Leu121GlyfsTer5 
 De novo 
  
  
 GEN471R092 
 frameshift_variant 
 c.334_335insA 
 p.Cys112Ter 
 De novo 
  
  
 GEN471R093 
 missense_variant 
 c.1568A>C 
 p.Asp523Ala 
 De novo 
  
  
 GEN471R094 
 missense_variant 
 c.1540T>G 
 p.Cys514Gly 
 De novo 
  
  
 GEN471R095 
 missense_variant 
 c.1535T>G 
 p.Leu512Arg 
 De novo 
  
  
 GEN471R096 
 missense_variant 
 c.253T>C 
 p.Phe85Leu 
 De novo 
  
  
 GEN471R097 
 frameshift_variant 
 c.819del 
 p.Lys274AsnfsTer31 
 De novo 
  
  
 GEN471R098 
 frameshift_variant 
 c.190dup 
 p.Thr64AsnfsTer35 
 De novo 
  
  
 GEN471R099 
 stop_gained 
 c.1102C>T 
 p.Gln368Ter 
 De novo 
  
  
 GEN471R100 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R101 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R102 
 frameshift_variant 
 c.3047dup 
 p.Ala1017GlyfsTer6 
 Familial 
 Maternal 
  
 GEN471R103 
 frameshift_variant 
 c.3047dup 
 p.Ala1017GlyfsTer6 
 Familial 
 Maternal 
  
 GEN471R104 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 Unknown 
  
  
 GEN471R105 
 frameshift_variant 
 c.2318dup 
 p.Tyr774ValfsTer14 
 Unknown 
  
  
 GEN471R106 
 stop_gained 
 c.2382G>A 
 p.Trp794Ter 
 Unknown 
  
  
 GEN471R107 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 Unknown 
  
  
 GEN471R108 
 stop_gained 
 c.893T>G 
 p.Leu298Ter 
 Unknown 
  
  
 GEN471R109 
 frameshift_variant 
 c.1402_1403del 
 p.Glu468ThrfsTer2 
 Unknown 
  
  
 GEN471R110 
 frameshift_variant 
 c.1287dup 
 p.Ala430CysfsTer10 
 Unknown 
  
  
 GEN471R111 
 frameshift_variant 
 c.1046_1047del 
 p.Leu349ArgfsTer49 
 Unknown 
  
  
 GEN471R112 
 frameshift_variant 
 c.339del 
 p.Phe114SerfsTer47 
 Unknown 
  
  
 GEN471R113 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 Unknown 
  
  
 GEN471R114 
 frameshift_variant 
 c.287del 
 p.Val96AlafsTer65 
 Unknown 
  
  
 GEN471R115 
 missense_variant 
 c.110A>T 
 p.Asp37Val 
 Unknown 
  
  
 GEN471R116 
 frameshift_variant 
 c.2491_2494del 
 p.Leu831IlefsTer82 
 De novo 
  
  
 GEN471R117 
 frameshift_variant 
 c.2194_2197del 
 p.Leu732MetfsTer20 
 Unknown 
  
  
 GEN471R118 
 frameshift_variant 
 c.2231del 
 p.Glu744GlyfsTer9 
 Unknown 
  
  
 GEN471R119 
 stop_gained 
 c.1930C>T 
 p.Arg644Ter 
 Unknown 
  
  
 GEN471R120 
 frameshift_variant 
 c.2156dup 
 p.Tyr719Ter 
 Unknown 
  
  
 GEN471R121 
 frameshift_variant 
 c.3047dup 
 p.Ala1017GlyfsTer6 
 Unknown 
  
  
 GEN471R122 
 missense_variant 
 c.1931G>A 
 p.Arg644Gln 
 Unknown 
  
  
 GEN471R123 
 frameshift_variant 
 c.1713dup 
 p.Arg572GlufsTer6 
 Unknown 
  
  
 GEN471R124 
 frameshift_variant 
 c.2156dup 
 p.Tyr719Ter 
 Unknown 
  
  
 GEN471R125 
 missense_variant 
 c.2126C>T 
 p.Ser709Phe 
 Familial 
 Maternal 
  
 GEN471R126 
 missense_variant 
 c.2772G>C 
 p.Glu924Asp 
 Familial 
 Paternal 
  
 GEN471R127 
 missense_variant 
 c.3127G>T 
 p.Asp1043Tyr 
 Familial 
 Maternal 
  
 GEN471R128 
 frameshift_variant 
 c.642_651del 
 p.Asn214LysfsTer31 
 De novo 
  
 Simplex 
 GEN471R129 
 frameshift_variant 
 c.2314dup 
 p.Thr772AsnfsTer16 
 Unknown 
  
  
 GEN471R130 
 frameshift_variant 
 c.2317_2318del 
 p.Lys773ValfsTer14 
 Unknown 
  
  
 GEN471R131 
 stop_gained 
 c.1792C>T 
 p.Gln598Ter 
 De novo 
  
 Simplex 
 GEN471R132 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
  
 GEN471R133 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R134 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
  
 GEN471R135 
 frameshift_variant 
 c.3071_3072del 
 p.Glu1024AlafsTer7 
 Unknown 
  
  
 GEN471R136 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R137 
 missense_variant 
 c.3281G>A 
 p.Gly1094Glu 
 De novo 
  
  
 GEN471R138 
 frameshift_variant 
 c.2155del 
 p.Tyr719ThrfsTer9 
 De novo 
  
 Simplex 
 GEN471R139 
 stop_gained 
 c.790C>T 
 p.Arg264Ter 
 Unknown 
  
 Unknown 
 GEN471R140 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R141 
 synonymous_variant 
 c.1917T>C 
 p.Leu639= 
 De novo 
  
  
 GEN471R142 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
  
 GEN471R143 
 missense_variant 
 c.1594C>T 
 p.Arg532Trp 
 De novo 
  
  
 GEN471R144 
 stop_gained 
 c.1102C>T 
 p.Gln368Ter 
 De novo 
  
  
 GEN471R145 
 missense_variant 
 c.715C>G 
 p.His239Asp 
 De novo 
  
  
 GEN471R146 
 frameshift_variant 
 c.3136_3137del 
 p.Gln1046ValfsTer6 
 Unknown 
  
  
 GEN471R147 
 frameshift_variant 
 c.3069_3072del 
 p.Arg1023SerfsTer3 
 Unknown 
  
  
 GEN471R148 
 frameshift_variant 
 c.3047dup 
 p.Ala1017GlyfsTer6 
 Unknown 
  
  
 GEN471R149 
 frameshift_variant 
 c.2825_2828del 
 p.Thr942ArgfsTer6 
 Unknown 
  
  
 GEN471R150 
 frameshift_variant 
 c.2457del 
 p.Lys819AsnfsTer10 
 Unknown 
  
  
 GEN471R151 
 frameshift_variant 
 c.2421_2422del 
 p.Arg808GlufsTer6 
 Unknown 
  
  
 GEN471R152 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 Unknown 
  
  
 GEN471R153 
 frameshift_variant 
 c.1239_1240del 
 p.Gln414ValfsTer25 
 Unknown 
  
  
 GEN471R154 
 frameshift_variant 
 c.1239_1240del 
 p.Gln414ValfsTer25 
 Unknown 
  
  
 GEN471R155 
 frameshift_variant 
 c.1049dup 
 p.Leu351SerfsTer48 
 Unknown 
  
  
 GEN471R156 
 frameshift_variant 
 c.1004_1005del 
 p.Lys335IlefsTer63 
 Unknown 
  
  
 GEN471R157 
 stop_gained 
 c.484C>T 
 p.Gln162Ter 
 Unknown 
  
  
 GEN471R158 
 frameshift_variant 
 c.539_542del 
 p.Val180GlyfsTer17 
 Unknown 
  
  
 GEN471R159 
 frameshift_variant 
 c.539_542del 
 p.Val180GlyfsTer17 
 De novo 
  
  
 GEN471R160 
 stop_gained 
 c.2213C>A 
 p.Ser738Ter 
 De novo 
  
  
 GEN471R161 
 inversion 
 c.-89-3923_201+2793inv 
  
 De novo 
  
 Simplex 
 GEN471R162 
 missense_variant 
 c.1084C>G 
 p.Gln362Glu 
 De novo 
  
  
 GEN471R163 
 stop_gained 
 c.2712dup 
 p.Asn905Ter 
 Familial 
  
  
 GEN471R164 
 frameshift_variant 
 c.2491_2494del 
 p.Leu831IlefsTer82 
 De novo 
  
  
 GEN471R165 
 frameshift_variant 
 c.2194_2197del 
 p.Leu732MetfsTer20 
 De novo 
  
  
 GEN471R166 
 stop_gained 
 c.2156dup 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R167 
 stop_gained 
 c.568C>T 
 p.Gln190Ter 
 De novo 
  
  
 GEN471R168 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
 Simplex 
 GEN471R169 
 frameshift_variant 
 c.3047_3048insA 
 p.Ala1017GlyfsTer6 
 Familial 
 Maternal 
 Multiplex 
 GEN471R170 
 missense_variant 
 c.311A>G 
 p.Lys104Arg 
 Unknown 
  
  
 GEN471R171 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R172 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R173 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R174 
 stop_gained 
 c.2157del 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R175 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R176 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R177 
 frameshift_variant 
 c.2496_2499del 
 p.Asn832LysfsTer81 
 De novo 
  
  
 GEN471R178 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
  
 GEN471R179 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
  
 GEN471R180 
 frameshift_variant 
 c.2222dup 
 p.Phe742LeufsTer2 
 De novo 
  
  
 GEN471R181 
 frameshift_variant 
 c.2189del 
 p.Arg730GlnfsTer3 
 De novo 
  
  
 GEN471R182 
 stop_gained 
 c.673C>T 
 p.Arg225Ter 
 De novo 
  
  
 GEN471R183 
 frameshift_variant 
 c.2491_2494del 
 p.Leu831IlefsTer82 
 De novo 
  
  
 GEN471R184 
 frameshift_variant 
 c.319del 
 p.Asn108IlefsTer53 
 De novo 
  
  
 GEN471R185 
 splice_site_variant 
 c.-5-1_-4del 
  
 De novo 
  
  
 GEN471R186 
 frameshift_variant 
 c.294_295del 
 p.Ser98ArgfsTer4 
 Unknown 
  
  
 GEN471R187 
 stop_gained 
 c.1360G>T 
 p.Glu454Ter 
 Unknown 
  
  
 GEN471R188 
 frameshift_variant 
 c.64dup 
 p.Ile22AsnfsTer3 
 De novo 
  
 Simplex 
 GEN471R189 
 stop_gained 
 c.498_499del 
 p.Tyr166Ter 
 De novo 
  
 Simplex 
 GEN471R190 
 stop_gained 
 c.673C>T 
 p.Arg225Ter 
 De novo 
  
  
 GEN471R191 
 missense_variant 
 c.2059T>C 
 p.Cys687Arg 
 De novo 
  
 Simplex 
 GEN471R192 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R193 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 Unknown 
  
  
 GEN471R194 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
 Simplex 
 GEN471R195 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
 Simplex 
 GEN471R196 
 missense_variant 
 c.2188C>G 
 p.Arg730Gly 
 De novo 
  
 Simplex 
 GEN471R197 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
 Simplex 
 GEN471R198 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
 Simplex 
 GEN471R199 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 De novo 
  
 Simplex 
 GEN471R200 
 frameshift_variant 
 c.2289del 
 p.Tyr764MetfsTer8 
 Unknown 
  
  
 GEN471R201 
 frameshift_variant 
 c.2355_2356del 
 p.Glu785AspfsTer2 
 De novo 
  
  
 GEN471R202 
 frameshift_variant 
 c.2491_2494del 
 p.Leu831IlefsTer82 
 De novo 
  
 Simplex 
 GEN471R203 
 stop_gained 
 c.2157C>A 
 p.Tyr719Ter 
 De novo 
  
 Simplex 
 GEN471R204 
 frameshift_variant 
 c.1676dup 
 p.His559GlnfsTer3 
 De novo 
  
  
 GEN471R205 
 inframe_deletion 
 c.370_381del 
 p.His124_Ile127del 
 De novo 
  
 Simplex 
 GEN471R206 
 frameshift_variant 
 c.1265dup 
 p.Gln423SerfsTer17 
 De novo 
  
  
 GEN471R207 
 stop_gained 
 c.2188C>T 
 p.Arg730Ter 
 Unknown 
  
  
 GEN471R208 
 stop_gained 
 c.2156dupA 
 p.Tyr719Ter 
 De novo 
  
  
 GEN471R209 
 missense_variant 
 c.2473G>C 
 p.Gly825Arg 
 De novo 
  
 Simplex 
 GEN471R210 
 frameshift_variant 
 c.2232_2236del 
 p.Glu744AspfsTer2 
 Unknown 
  
 Simplex 
 GEN471R211 
 frameshift_variant 
 c.539_542del 
 p.Val180GlyfsTer17 
 De novo 
  
 Simplex 
 GEN471R212 
 missense_variant 
 c.2667T>A 
 p.Ser889Arg 
 Familial 
 Maternal 
  
 GEN471R213 
 frameshift_variant 
 c.14del 
 p.Pro5LeufsTer8 
 De novo 
  
 Simplex 
 GEN471R214 
 missense_variant 
 c.3205A>G 
 p.Ile1069Val 
 Unknown 
  
  
 GEN471R215 
 missense_variant 
 c.2782G>C 
 p.Asp928His 
 Unknown 
  
  
 GEN471R216 
 inframe_deletion 
 c.2653_2655del 
 p.Glu885del 
 Unknown 
  
  
 GEN471R217 
 missense_variant 
 c.1490A>G 
 p.Tyr497Cys 
 De novo 
  
  
 GEN471R218 
 frameshift_variant 
 c.1046_1047delTG 
 p.Leu349ArgfsTer49 
 De novo 
  
 Simplex 
 GEN471R219 
 stop_gained 
 c.2157C>G 
 p.Tyr719Ter 
 De novo 
  
  

Common

No Common Variants Available
Chromosome
CNV Locus
CNV Type
# of studies
Animal Model
20
Duplication
 1
 
20
Deletion-Duplication
 14
 
20
Deletion-Duplication
 1
 

M_ADNP_2_KO_HT_NAP-2

Rescue Type: RESCUE-Pharmaceutical
Rescue Paradigm: 3-6 month old male M_ADNP_2_KO_HT_NAP mice were administered NAP labelled with cy 5.0 on the amino terminal end, once daily at 0.5 microgram in 5 microliters for one month. NAP was dissolved in chlorbutanol to increase bioavailability through the blood-brain-barrier.

M_ADNP_2_KO_HT_NAP-2

Category
Entity
Effect on phenotype Qualification
Restored Treatment improves measured phenotype significantly
Refractory Treatment does not improve measured phenotype (was expected to do so)
Ameliorated Treatment provides partial correction or improvement of measured phenotype
No adverse effect Treatment does not affect the parameter adversely
Sustained effect Treatment has long term effect of restoration or amelioration, tested AFTER stopping administration (not applied for continuing long-term treatment) . Will be applied only where treatment has had restorative effects during administration or in the first battery of tests conducted.
No sustained effect Treatment has no long term of restoration or amelioration detectable, after stopping administration. Will be applied only where treatment has had restorative effects during administration or in the first battery of tests conducted.
Unexpected results Treats an unexpected phenotype
Side effect Exaggerates an unexpected phenotype
Experimental Paradigm
Age at Testing
Motor coordination and balance1
Ameliorated
Description: Nap treatment increased the latency to fall off a hanging wire in male and female mutants.
Exp Paradigm: NA
 Wire hang test
 3-6 months
Dti: fractional anisotropy or relative anisotropy in brain regions1
Ameliorated
Description: Nap treatment reduced the fractional anisotropy in male mutants.
Exp Paradigm: NA
 Diffusion tensor imaging (dti)
 7-8 months
Neuronal number: excitatory neurons1
Restored
Description: Nap treatment increased vglut1 protein expression in the hippocampus and cortex in male mutants.
Exp Paradigm: NA
 Immunohistochemistry
 7.5 month
Hippocampal morphology1
Refractory
Description: Nap treatment did not affect increased mean diffusivity in male mutants.
Exp Paradigm: NA
 Diffusion tensor imaging (dti)
 7-8 months
Olfaction1
Restored
Description: Nap treatment increased the total time spent sniffing the different odors in male mutants. nap treatment reduced the total time spent sniffing the different odors in female mutants.
Exp Paradigm: NA
 Olfactory discrimination test
 3-6 months
Social approach1
No adverse effect
Description: Nap treatment showed no change in time spent sniffing a mouse in mutants.
Exp Paradigm: NA
 Three-chamber social approach test
 3-6 months
Social memory1
Restored
Description: Nap treatment increased interaction time with a novel mouse in male and female mutants.
Exp Paradigm: NA
 Three-chamber social approach test
 3-6 months
Object recognition memory1
Restored
Description: Nap treatment increased time spent interacting with the novel object compared with untreated mutants.
Exp Paradigm: NA
 Novel object recognition test
 3-6 months
Olfactory learning and memory1
No adverse effect
Description: Nap treatment had no effect on olfactory discrimination in adnp het male or female mutants.
Exp Paradigm: NA
 Olfactory discrimination test
 3-6 months
Gene expression1
Refractory
Description: Nap treatment showed no change in vglut1 gene expression in the cerebral cortex in female mutants.
Exp Paradigm: NA
 Quantitative pcr (qrt-pcr)
 7.5 month
Gene expression1
Side effect
Description: Nap treatment reduced vglut1 expression in the cerebral cortex in male mutants.
Exp Paradigm: NA
 Quantitative pcr (qrt-pcr)
 7.5 month
Gene expression1
Restored
Description: Nap treatment increased vglut1 expression in the hippocampus in male mutants.
Exp Paradigm: NA
 Quantitative pcr (qrt-pcr)
 7.5 month
Gene expression1
No adverse effect
Description: Nap treatment showed no change in vglut1 gene expression in the hippocampus in female mutants.
Exp Paradigm: NA
 Quantitative pcr (qrt-pcr)
 7.5 month
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Maternal behavior, Neurophysiology, Physiological parameters, Repetitive behavior, Seizure

M_ADNP_2_KO_HT

Category
Entity
Quantity
Experimental Paradigm
Age at Testing
 Motor coordination and balance2
 Decreased
Description: Adnp het male but not female mice show decrease in latency to fall off and inverted wire cage lid compared with controls, indicating sexual dimorphism.
Exp Paradigm: NA
 Wire hang test
 3 weeks
 Grip strength2
 Decreased
Description: Adnp het males but not females show reduced forelimb grip strength compared with controls.
Exp Paradigm: NA
 Grip strength test
 3 weeks
 General locomotor activity: ambulatory activity4
 Increased
Description: Female mutants cover longer distances compared with controls.
Exp Paradigm: NA
 Open field test
 9-12 months
 Motor coordination and balance3
 Decreased
Description: Male and female mutants show decrease in latency to fall off a hanging wire compared with controls.
Exp Paradigm: NA
 Wire hang test
 3-6 months
 Gait2
 Decreased
Description: Adnp het male mice show significant decrease in stand time and step cycle compared with controls. adnp het male and female mice show decrease in stride length compared with controls. gait was more severely affected in male than in female mutants indicating sexual dimorphism.
Exp Paradigm: NA
 Footprint analysis
 1 month
 Synapse density: mature boutons2
 Decreased
Description: Adnp het mutants males ut not females show increased localization of psd95 (marking immature synapses) in the dendritic shafts rather than spines compared with mutants, exhibiting sexual dimorphism.
Exp Paradigm: NA
 Immunohistochemistry
 Adult
 Dendritic architecture: spine morphology2
 Decreased
Description: Mutants showed reduction in all spine subtypes (stubby, mushroom, thin) compared to controls.
Exp Paradigm: NA
 Immunohistochemistry
 Adult
 Neuronal number: excitatory neurons3
 Decreased
Description: Male mutants show decrease in vglut1 protein expression in the hippocampus and cortex compared with controls.
Exp Paradigm: NA
 Immunohistochemistry
 7.5 month
 Dendritic architecture: spine density2
 Decreased
Description: Adnp het male and female mice show decreased dendritic spine density compared with controls, with a more severe reduction in the cortex than the hippocampus in males.
Exp Paradigm: Crossing with a membrane gfp reporter mouse line allows for assays on dendritic spine density. adnp het females were crossed with l15 male mice (on a c57bl/6 background), to produce adnp het mice with neuronal gfp expression.
 Fluorescence microscopy
 Adult
 Hippocampal morphology3
 Increased
Description: Male mutants show increase in mean diffusivity compared with controls, indicating structural impairment in the hippocampus.
Exp Paradigm: Hippocampus
 Diffusion tensor imaging (dti)
 7-8 months
 Synapse density: synaptic bouton number2
 Increased
Description: Adnp het male but not female mice show increase in hippocampal and cortical shaft synapse density exhibiting sexual dimorphsm.
Exp Paradigm: NA
 Immunohistochemistry
 Adult
 Dti: fractional anisotropy or relative anisotropy in brain regions3
 Decreased
Description: Male mutants show decrease in fractional anisotropy in the hippocampus compared with controls, indicating structural impairment in the hippocampus.
Exp Paradigm: Hippocampus
 Diffusion tensor imaging (dti)
 7-8 months
 Olfaction3
 Decreased
Description: Male mutants show a decrease in total sniffing time compared with male controls indicating a change in olfaction either due to a change in the sensory perception in the olfactory epithelium or due to unknown factors not tested here.
Exp Paradigm: NA
 Olfactory discrimination test
 3-6 months
 Olfaction3
 Increased
Description: Female mutants show increase in total sniffing time in the olfactory discrimination test compared with female controls indicating a change in olfaction either due to a change in the sensory perception in the olfactory epithelium or due to unknown factors not tested here.
Exp Paradigm: NA
 Olfactory discrimination test
 3-6 months
 Olfaction2
 Decreased
Description: Adnp het female but not male mice show decreased odor discrimination compared with controls indicating sexual dimorphism.
Exp Paradigm: NA
 Olfactory discrimination test
 Adult
 Social memory2
 Decreased
Description: Adnp het female and male mice show decrease in social memory indices compared with controls.
Exp Paradigm: NA
 Social recognition test
 Adult
 Social memory4
 Decreased
Description: Mutants show reduced interest toward an unfamiliar mouse over a familiar mouse compared with controls.
Exp Paradigm: NA
 Three-chamber social approach test
 9-12 months
 Social approach4
 Decreased
Description: Female mutants spent less time sniffing a mouse over a cup compared with controls.
Exp Paradigm: NA
 Three-chamber social approach test
 9-12 months
 Social memory3
 Decreased
Description: Mutant male and female mice spent less time exploring a novel mouse than a familiar mouse compared with controls.
Exp Paradigm: NA
 Three-chamber social approach test
 3-6 months
 Social approach2
 Decreased
Description: Adnp het female but not male mice prefered the inanimate object (empty cup) over the mouse stimulus compared to controls, indicating sexual dimorphism.
Exp Paradigm: NA
 Three-chamber social approach test
 Adult
 Social memory1
 Decreased
Description: Both male and female adnp het mice show significantly reduced social memory and spend less time with novel stimulus mouse, compared to familiar mouse in the three chamber test
Exp Paradigm: NA
 Three-chamber social approach test
 7-8 months
 Ultrasonic vocalization: isolation induced2
 Decreased
Description: Adnp het mice show decrease in usv calls compared with controls.
Exp Paradigm: NA
 Monitoring ultrasonic vocalizations
 P8
 Size/growth2
 Decreased
Description: Adnp het male mice showed lower body lengths between p13 and p21 but not before p13, compared with controls. adnp het female mice show lower body lengths compared with controls between p15 and p21 but not before p15 compared with controls.
Exp Paradigm: NA
 Body length measurement
 P0-3 weeks
 Size/growth2
 Decreased
Description: Adnp het male and female mice show decrease in body weight gain between p18 and p21 in males and between p13 and p21 in females compared with controls.
Exp Paradigm: NA
 Body weight measurement
 P0-p21
 Developmental trajectory2
 Abnormal
Description: Adnp het pups show an earlier appearance of the development of ear twitching, no change in the time of development of air righting reflex, and a delay in appearance of negative geotaxis compared with controls.
Exp Paradigm: Daily measurements for length, weight and eyeopeningobservation, until p21.
 Developmental milestone measurements
 P5-20
 Object recognition memory2
 Decreased
Description: Adnp het male and female mutants show decreased objection recognition index compared with controls.
Exp Paradigm: NA
 Novel object recognition test
 Adult
 Object recognition memory: long-term recall4
 Decreased
Description: Male mutants show decrease in time spent exploring the novel object compared with controls.
Exp Paradigm: Fraction of time spent with the novel object in relation to the total time spent sniffing both novel and familiar objects is measured (d2 score)
 Novel object recognition test
 9-12 months
 Object recognition memory3
 Decreased
Description: Mutants spent less time interacting with the novel object compared with controls, indicating impaired short and long term retention.
Exp Paradigm: NA
 Novel object recognition test
 3-6 months
 Object recognition memory1
 Decreased
Description: Male adnp het mice spend significantly less time sniffing the novel object compared to male wild type mice. female adnp het mice had normal novel object recognition, similar to wild type females
Exp Paradigm: Novel object recognition test: sexual dimorphism detected with female adnp mice showing normal object recognition and male mice being deficient
 Novel object recognition test
 7 months
 Gene expression1
 Increased
Description: Increased levels of elongation factor: eif4e transcripts were observed in male adnp het mice. no difference between females of the two genotypes was observable.
Exp Paradigm: NA
 Quantitative pcr (qrt-pcr)
 7 months
 Targeted expression4
 Decreased
Description: Mutants show decrease in splenic adnp transcript levels compared with controls.
Exp Paradigm: Hprt was used as a validated reference transcript
 Quantitative pcr (qrt-pcr)
 9-12 months
 Gene expression4
 Increased
Description: Female mutants show increase in vipr2 expression at 1 month but not at 5 months compared with controls.
Exp Paradigm: NA
 Quantitative pcr (qrt-pcr)
 1, 5 months
 Targeted expression2
 Decreased
Description: Adnp het male and female mice show decrease in adnp transcripts in the spleen. female mutants show a greater decrease in splenic adnp transcript than males indicating sexual dimorphism.
Exp Paradigm: Gene expressions are normalized to hprt.
 Quantitative pcr (qrt-pcr)
 2.7-3 weeks
 Gene expression3
 Decreased
Description: Female mutants show decrease in vglut1 gene expression in the cerebral cortex compared with controls. male mutants show decreased expression of vglut1 in the hippocampus compared with controls.
Exp Paradigm: Hippocampus; cerebral cortex
 Quantitative pcr (qrt-pcr)
 7.5 month
 Gene expression4
 Decreased
Description: Male mutants show decrease in hippocampal transcript levels of adcyap1 gene encoding pacap compared with controls. female mutants show decrease in hippocampal adcyap1r1 transcript levels at 5 months but not at 1 month compared with controls. female mutants show decrease in hippoccampal vipr1 expression at 1 month but not at 5 months compared with controls.
Exp Paradigm: NA
 Quantitative pcr (qrt-pcr)
 1, 5 months
 Gene expression2
 Abnormal
Description: Adnp het males and females show differences in transcript levels of multiple genes, including a significant decrease in male hippocampal fpr-rs3, and female hippocampal tubb1 in 2.7-3 week old mice and dysregulation the asd genes abcf3, adnp, akt1, bmp4, cdh17, iba1 (aif1), klf1, mtor and per1 in the spleen in 3 month old mice indicating sexual dimorphism.
Exp Paradigm: Gene expressions are normalized to hprt.
 Quantitative pcr (qrt-pcr)
 2.7-3 weeks, 3 months
Anxiety4
 No change
 Elevated plus maze test
 9-12 months
Object recognition memory: long-term recall4
 No change
 Novel object recognition test
 9-12 months
Olfactory learning and memory3
 No change
 Olfactory discrimination test
 3-6 months
Olfactory learning and memory1
 No change
 Olfactory habituation-dishabituation test
 7 months
Gene expression4
 No change
 Quantitative pcr (qrt-pcr)
 1, 5 months
Gene expression3
 No change
 Quantitative pcr (qrt-pcr)
 7.5 month
General locomotor activity1
 No change
 Open field test
 5-6 months
General locomotor activity: ambulatory activity4
 No change
 Open field test
 9-12 months
Olfaction4
 No change
 Olfactory discrimination test
 9-12 months
Social approach1
 No change
 Three-chamber social approach test
 7-8 months
Social approach4
 No change
 Three-chamber social approach test
 9-12 months
Social approach3
 No change
 Three-chamber social approach test
 3-6 months
 Not Reported: Circadian sleep/wake cycle, Communications, Developmental profile, Emotion, Immune response, Maternal behavior, Neuroanatomy / ultrastructure / cytoarchitecture, Neurophysiology, Physiological parameters, Repetitive behavior, Seizure, Sensory





Download ADNP's Cytoscape file

Interactor Symbol Interactor Name Interactor Organism Entrez ID Uniprot ID Interaction Type Evidence Reference
2-Sep septin 2 4735 Q15019 LC-MS/MS
Havugimana PC , et al. 2012
ADNP activity-dependent neuroprotector homeobox 23394 Q9H2P0 ChIP
Aboonq MS , et al. 2011
ARID1A AT rich interactive domain 1A (SWI-like) 8289 O14497 IP/WB
Mandel S and Gozes I 2007
CBX1 chromobox homolog 1 10951 P83916 in vitro binding assay; Co-localization
MS; IP/WB
Rosnoblet C , et al. 2011
CBX3 chromobox homolog 3 11335 Q13185 in vitro binding assay; Co-localization
MS; IP/WB
Rosnoblet C , et al. 2011
CBX5 chromobox homolog 5 23468 Q61686 in vitro binding assay
MS; IP/WB
Rosnoblet C , et al. 2011
CDC27 cell division cycle 27 996 G3V1C4 Y2H
Wang J , et al. 2011
CHD8 chromodomain helicase DNA binding protein 8 57680 Q9HCK8 ChIP-chip
Subtil-Rodrguez A , et al. 2013
EB1 Microtubule-associated protein RP/EB family member 1 22919 Q15691 in silico target prediction
Oz S , et al. 2014
EB2 Microtubule-associated protein RP/EB family member 2 10982 Q15555 in silico target prediction
Oz S , et al. 2014
EB3 Microtubule-associated protein RP/EB family member 3 22924 Q9UPY8 in silico target prediction
Oz S , et al. 2014
EBNA1BP2 EBNA1 binding protein 2 10969 H7C2Q8 LC-MS/MS
Havugimana PC , et al. 2012
EMD emerin 2010 P50402 LC-MS/MS
Havugimana PC , et al. 2012
H3F3A H3 histone, family 3A 3020 P84243 in vitro binding assay; IP; LC-MS/MS; IP/WB; Co-localization
Mosch K , et al. 2011
HDAC1 histone deacetylase 1 3065 Q13547 LC-MS/MS
Joshi P , et al. 2013
HDAC11 histone deacetylase 11 79885 Q96DB2 LC-MS/MS
Joshi P , et al. 2013
HDAC7 histone deacetylase 7 51564 Q8WUI4 IP; LC-MS/MS
Huttlin EL , et al. 2015
MAP1LC3B microtubule-associated protein 1 light chain 3 beta 81631 Q9GZQ8 IP/WB
Y2H
Vinayagam A , et al. 2011
MAPRE1 microtubule-associated protein, RP/EB family, member 1 22919 Q15691 in vitro binding assay; IP/WB
Oz S , et al. 2014
MAPRE3 microtubule-associated protein, RP/EB family, member 3 22924 Q9UPY8 in vitro binding assay; IP/WB
Oz S , et al. 2014
MYC v-myc myelocytomatosis viral oncogene homolog (avian) 4609 P01106 Size-exclusion chromatography (SEC); MS
Agrawal P , et al. 2010
NCAPH2 non-SMC condensin II complex, subunit H2 29781 Q6IBW4 IP; LC-MS/MS
Huttlin EL , et al. 2015
NFIA nuclear factor I/A 4774 Q12857 LC-MS/MS
Havugimana PC , et al. 2012
PHGDH phosphoglycerate dehydrogenase 26227 O43175 LC-MS/MS
Havugimana PC , et al. 2012
POLG2 polymerase (DNA directed), gamma 2, accessory subunit NM_007215 E5KS15 IP; LC-MS/MS
Huttlin EL , et al. 2015
QPRT Nicotinate-nucleotide pyrophosphorylase [carboxylating] 23475 Q15274 IP; LC-MS/MS
Huttlin EL , et al. 2015
RRS1 RRS1 ribosome biogenesis regulator homolog (S. cerevisiae) 23212 Q15050 LC-MS/MS
Havugimana PC , et al. 2012
SAP18 Sin3A-associated protein, 18kDa 10284 O00422 LC-MS/MS
Havugimana PC , et al. 2012
SIRT7 sirtuin 7 51547 Q9NRC8 LC-MS/MS
Tsai YC , et al. 2012
SMARCA4 SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 6597 A7E2E1 IP/WB
Mandel S and Gozes I 2007
SMARCC2 SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily c, member 2 6601 Q8TAQ2 IP/WB
Mandel S and Gozes I 2007
SUMO2 SMT3 suppressor of mif two 3 homolog 2 (S. cerevisiae) 6613 P61956 LC-MS/MS
Bruderer R , et al. 2011
TOP3B topoisomerase (DNA) III beta 8940 O95985 IP/WB
Xu D , et al. 2013
UBC ubiquitin C 7316 P63279 LC-MS/MS
Danielsen JM , et al. 2010
ZNF524 Zinc finger protein 524 147807 Q96C55 IP; LC-MS/MS
Huttlin EL , et al. 2015
ZNF581 zinc finger protein 581 51545 Q9P0T4 IP; LC-MS/MS
Huttlin EL , et al. 2015
ZSCAN20 zinc finger and SCAN domain containing 20 7579 P17040 IP; LC-MS/MS
Huttlin EL , et al. 2015
APOE apolipoprotein E 11816 P08226 IP/WB
Mandel S , et al. 2007
CTSC cathepsin C 13032 P97821 IP/WB
Mandel S , et al. 2007
CTSZ cathepsin Z 64138 Q9WUU7 IP/WB
Mandel S , et al. 2007
FMR1 fragile X mental retardation 1 14265 P35922 HITS-CLIP
Darnell JC , et al. 2011
HBB hemoglobin, beta adult major chain 15129 P02088 ChIP
Dresner E , et al. 2012
Mapre2 microtubule-associated protein, RP/EB family, member 2 212307 Q8R001 IP/WB
Oz S , et al. 2014
MTNR1A melatonin receptor 1A 17773 Q61184 IP/WB
Mandel S , et al. 2007
MYL2 myosin, light polypeptide 2, regulatory, cardiac, slow 17906 P51667 IP/WB
Mandel S , et al. 2007
NEUROG1 neurogenin 1 18014 P70660 IP/WB
Mandel S , et al. 2007
Rbfox1 RNA binding protein, fox-1 homolog (C. elegans) 1 268859 Q9JJ43 HITS-CLIP
Weyn-Vanhentenryck SM , et al. 2014
Sfpq splicing factor proline/glutamine-rich 71514 Q8VIJ6 IP/WB
Schirer Y , et al. 2014
Smarca2 SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 2 67155 Q6DIC0 IP/WB
Schirer Y , et al. 2014
Srcin1 SRC kinase signaling inhibitor 1 56013 Q9QWI6 IP/WB
Oz S , et al. 2014
Tubb2a tubulin, beta 2A class IIA 22151 Q7TMM9 IP/WB
Oz S , et al. 2014

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