Figure 2 Sanger sequencing, conservation, and summary of known ACO2 mutations Sanger sequencing, conservation, and summary of known ACO2 mutations (A)

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Figure Pedigrees of the SCA42 families identified in this study

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Figure 1 Phenotype and genotype of an undiagnosed family with autosomal recessive spastic ataxia Phenotype and genotype of an undiagnosed family with autosomal.

Figure 1 Summary of prior diagnostic workup in neuromuscular disorder cases Summary of prior diagnostic workup in neuromuscular disorder cases Percentage.

Figure Family pedigree and clinical improvement with riboflavin treatment Family pedigree and clinical improvement with riboflavin treatment (A) The proband.

Figure 3 Pedigree of familial idiopathic transverse myelitis

Figure 1 Box plot of the venous diameter in lesions

Figure 2 Needle biopsy of the left vastus lateralis

Figure 2 Spinal cord lesions

Figure Cerebral MRI and molecular and enzymatic analysis

Figure 1 Hierarchical clustering (HCL) outcome of all tested samples with the expression profile of the case report set as unknown Hierarchical clustering.

Figure 1 Spine MRI, sagittal and axial views of patients with idiopathic transverse myelitis with VPS37A mutations Spine MRI, sagittal and axial views.

Figure 4 Mitochondrial respiration is affected in lymphoblastoid cell lines (LCLs) of ACO2 mutation carriers Mitochondrial respiration is affected in lymphoblastoid.

Figure Pedigree of the family

Figure 2 Luciferase assays of transiently transfected HEK 293 cells with reporter constructs containing the 766-bp wild-type KCNJ18 or c.-542 T/A mutant.

Figure 3 Molecular genetics

Figure 2 Correlation between total IgG levels and anti-AQP4 IgG titer

Figure 1 Dominant and recessive missense and nonsense variants in neurofilament light (NEFL)‏ Dominant and recessive missense and nonsense variants in.

Figure WDR45 sequence changes in patients A and B

Figure 3 Temporal trends in FALS incidence

Table 4 Associations in SNP array data between the Braak stage and previously known AD risk loci (341 variants) comparing participants with Braak stage.

Figure 1 All patients with pediatric genetic movement disorders, their genetic diagnoses, and type of genetic investigations All patients with pediatric.

Figure 5 Neurite structure is not disrupted by the lack of neurofilament light (NEFL)‏ Neurite structure is not disrupted by the lack of neurofilament.

Figure 2 Schematic displaying the 3 described CHT mutant proteins alongside wild type molecule (Adapted from reference 2, using Microsoft Powerpoint Software)‏

Figure 2 Linkage analysis of chromosome 19

Figure 1 White matter lesion central vein visibility in MS and absence in small vessel disease (SVD)‏ White matter lesion central vein visibility in MS.

Figure 3 Mutation carrier–derived lymphoblastoid cell lines (LCLs) show decreased aconitase 2 activity and mitochondrial respiration deficiency compared.

Figure 2 DNA sequence analysis of VPS37A

Figure Family tree with the HLA haplotyping of 6 members of the family

Figure 4 Relative abundances of the order Clostridiales and its family members are differentially changed by therapy Relative abundances of the order Clostridiales.

Figure 1 Family pedigree and MRI

Figure 1 Clinical and genetic features of a family with Ile371Lys SYT2

Table 2 Rs number, gene, OR, 95% CI, and permutation p value for the statistical significant variants resulted from allelic association analysis association.

Figure 1 Family pedigree and DNA sequencing results

Figure 4 Voltage-clamp recordings of KCNJ18 carrying the patient's SNVs expressed in Xenopus laevis oocytes under control conditions and after application.

Figure 1 [18F]florbetapir standardized uptake value ratio analytical method [18F]florbetapir standardized uptake value ratio analytical method Flowchart.

Figure 3 Voltage-clamp recording of the wild-type KCNJ18 (left) and the KCNJ18 carrying the patient's SNVs (right) expressed in Xenopus laevis oocytes.

Figure 1 Responder rates of patients at 4 weeks compared with prevaccinated levels Responder rates of patients at 4 weeks compared with prevaccinated levels.

Figure 1 Pedigree and genetic findings

Figure 1 Histamine flare in patients and controls

Figure 3 Similar but restricted distributions of pathogenic variants in the P domain Similar but restricted distributions of pathogenic variants in the.

Figure 2 Changes in fatigue under treatment

Figure 1 Considerations for concussed athletes leading to medical care or return to sport (RTS)‏ Considerations for concussed athletes leading to medical.

Figure 2 Longitudinal relationship between CSF glucose and protein changes Longitudinal relationship between CSF glucose and protein changes Delta glucose.

Figure 2 Global tau-PET distribution in familial prion disease mirrors the distribution seen in Alzheimer disease Global tau-PET distribution in familial.

Figure 2 Identification of a heterozygous mutation in POLR3F, protein structure, and pedigree Identification of a heterozygous mutation in POLR3F, protein.

Figure 1 Family pedigrees, clinical photographs, and multispecies alignment showing the effect of the 3 reported mutations Family pedigrees, clinical photographs,

Figure 2 Kaplan-Meier survival graphs for 10-year risks of overall and post-90-day recurrent ischemic stroke (IS) and death Kaplan-Meier survival graphs.

Figure 1 Annualized percentage brain volume change

Figure 2 BVL according to on-study disability worsening

Figure 2 Repopulation of CD19+ cells in low and high BSA patients and calculation of the BSA Repopulation of CD19+ cells in low and high BSA patients and.

Figure 3 Genotype-phenotype correlation in SPG7 mutations and age at onset of symptoms Genotype-phenotype correlation in SPG7 mutations and age at onset.

Figure 2 Pathogenic deletions upstream of LMNB1

Figure. Pedigree of the family studied, photographs, and identification of a homozygous mutation in TBCK Pedigree of the family studied, photographs, and.

Figure 1 bvFTD PINBPA network

Figure 1 Schematic representation of FOXG1 gene, protein domain structure, and positions of FOXG1 mutations Schematic representation of FOXG1 gene, protein.

Figure 2 Seizure outcomes

Yian Gu et al. Neurol Neuroimmunol Neuroinflamm 2019;6:e521

Ingo Kleiter et al. Neurol Neuroimmunol Neuroinflamm 2018;5:e504

Figure 1 Schematic of the OPA3 gene and OPA3 protein isoform b

Gitanjali Das et al. Neurol Neuroimmunol Neuroinflamm 2018;5:e453

Figure 2 Pedigrees of families and segregation analysis of variants c

Figure 2 Compound heterozygous mutations in ADAM22

Figure 2 LMNB1 mRNA expression

Figure 3 Within-group comparisons (before–after)‏

Figure Pedigree, neuroimaging, and gene analysis

Figure 2 Time from incident ADS event to MS diagnosis

Figure 4 Venn diagram for B-cell Sup proteins compared with proteins from exosome-enriched fractions from a human B-cell line Venn diagram for B-cell Sup.

Figure 3 A receiver operating characteristic curve of days to IVMP as a predictor of failure to regain 0.2 logMAR (20/30) vision (AUC 0.84, p < 0.001)‏

Figure (A and B) Effect of canakinumab in muscle strength measured in each patient as mean bilateral GF (A) and TMS (B) during the mean study period of.

Figure 4 Western blotting

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Figure 2 Sanger sequencing, conservation, and summary of known ACO2 mutations Sanger sequencing, conservation, and summary of known ACO2 mutations (A) Electropherograms indicating the homozygous ACO2 mutation (affected family members), the heterozygous mutation (both parents and unaffected sibling), and the reference sequence (unaffected, unrelated subject). (B) Amino acid conservation within the ACO2 protein homologs across species. (C) Homozygous (top) and compound heterozygous (bottom) ACO2 mutations identified to date in patients with neurodegenerative phenotypes. Christian G. Bouwkamp et al. Neurol Genet 2018;4:e223 Copyright © 2018 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology