2024
CC2D1A causes ciliopathy, intellectual disability, heterotaxy, renal dysplasia, and abnormal CSF flow
Kim A, Sakin I, Viviano S, Tuncel G, Aguilera S, Goles G, Jeffries L, Ji W, Lakhani S, Kose C, Silan F, Oner S, Kaplan O, Group M, Ergoren M, Mishra-Gorur K, Gunel M, Sag S, Temel S, Deniz E. CC2D1A causes ciliopathy, intellectual disability, heterotaxy, renal dysplasia, and abnormal CSF flow. Life Science Alliance 2024, 7: e202402708. PMID: 39168639, PMCID: PMC11339347, DOI: 10.26508/lsa.202402708.Peer-Reviewed Original ResearchConceptsDevelopmental disabilitiesIntellectual disabilityPatient-derived fibroblastsMidbrain regionsBrain developmentDefective ciliogenesisCSF circulationDisabilityCSF flowAbnormal CSF flowNervous system developmentMutant tadpolesCiliated tissuesMultiple model systemsVariant functionPronephric ductUnrelated familiesCC2D1AExpression patternsCiliogenesisRenal dysplasiaLeft-right organizerFunctional analysisDisease mechanismsBrainUnraveling the genetic tapestry of pediatric sarcomeric cardiomyopathies and masquerading phenocopies in Jordan
Azab B, Aburizeg D, Shaaban S, Ji W, Mustafa L, Isbeih N, Al-Akily A, Mohammad H, Jeffries L, Khokha M, Lakhani S, Al-Ammouri I. Unraveling the genetic tapestry of pediatric sarcomeric cardiomyopathies and masquerading phenocopies in Jordan. Scientific Reports 2024, 14: 15141. PMID: 38956129, PMCID: PMC11219879, DOI: 10.1038/s41598-024-64921-9.Peer-Reviewed Original ResearchConceptsExome sequencingSarcomere-related genesMitochondrial-related diseasesAt-risk family membersGenetic architectureGenetic landscapePathogenic variantsGene panelPediatric cardiomyopathyMolecular underpinningsGenetic testingPhenocopiesSarcomeric cardiomyopathiesGenesSequenceStorage disorderFamily membersAt-riskVariantsEarly interventionExomeFamilyGlycogen storage disorderHypertrophic cardiomyopathyCardiomyopathy
2023
Sequence variants in different genes underlying Bardet-Biedl syndrome in four consanguineous families
Ali A, Abdullah, Bilal M, Mis E, Lakhani S, Ahmad W, Ullah I. Sequence variants in different genes underlying Bardet-Biedl syndrome in four consanguineous families. Molecular Biology Reports 2023, 50: 9963-9970. PMID: 37897612, DOI: 10.1007/s11033-023-08816-4.Peer-Reviewed Original ResearchConceptsUnique inheritance patternConsanguineous familyPakistani consanguineous familyMKK genesDifferent genesBBS7 geneBardet-Biedl syndromeWhole-exome sequencingRod-cone dystrophyBBS genesGenesCompound heterozygous variantsNovel homozygous variantHeterogeneous congenital disorderInheritance patternRelated phenotypesExome sequencingClinical manifestationsMutational screeningRenal abnormalitiesMutation spectrumCognitive impairmentHeterozygous variantsPakistani populationHomozygous variant
2021
Functional testing for variant prioritization in a family with long QT syndrome
Najari Beidokhti M, Bertalovitz AC, Ji W, McCormack J, Jeffries L, Sempou E, Khokha MK, McDonald TV, Lakhani SA. Functional testing for variant prioritization in a family with long QT syndrome. Molecular Genetics And Genomics 2021, 296: 823-836. PMID: 33876311, DOI: 10.1007/s00438-021-01780-3.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SubstitutionAMP-Activated Protein KinasesDNA Mutational AnalysisElectrocardiographyERG1 Potassium ChannelExome SequencingFamilyFemaleGenetic TestingHeart Function TestsHEK293 CellsHumansKCNQ1 Potassium ChannelLong QT SyndromeMiddle AgedMutationPedigreePhenotypePolymerase Chain ReactionPolymorphism, Single NucleotideProtein Serine-Threonine KinasesConceptsWhole-exome sequencingFunctional characterizationSilico analysisPrecise genetic etiologyHeterologous expression systemNext-generation sequencing platformsNovel genetic variantsDeleterious phenotypesFunction phenotypesExpression systemSequencing platformsSecond individualHeritable diseaseVariant prioritizationGenetic variantsLong QT syndromeExome sequencingGenetic etiologyGenetic settingClinical genetics settingPhenotypeFamilyGene panelFamily membersVariants
2020
The latest FADS: Functional analysis of GLDN patient variants and classification of GLDN‐associated AMC as a type of viable fetal akinesia deformation sequence
Mis EK, Al‐Ali S, Ji W, Spencer‐Manzon M, Konstantino M, Khokha MK, Jeffries L, Lakhani SA. The latest FADS: Functional analysis of GLDN patient variants and classification of GLDN‐associated AMC as a type of viable fetal akinesia deformation sequence. American Journal Of Medical Genetics Part A 2020, 182: 2291-2296. PMID: 32812332, DOI: 10.1002/ajmg.a.61783.Peer-Reviewed Original ResearchConceptsFetal akinesia deformation sequenceArthrogryposis multiplex congenitaCohort of patientsScope of illnessPulmonary hypoplasiaAdditional patientsClinical featuresNeonatal supportNervous system developmentMultiplex congenitaCongenital contracturesPatientsHeterogenous conditionRecessive variantsPatient variantsFunctional evidenceCohortNovel variantsContractureFunctional dataSyndromeHypoplasiaIllnessVariantsFindings
2018
A homozygous variant in RRM2B is associated with severe metabolic acidosis and early neonatal death
Penque BA, Su L, Wang J, Ji W, Bale A, Luh F, Fulbright RK, Sarmast U, Sega AG, Konstantino M, Spencer-Manzon M, Pierce R, Yen Y, Lakhani SA. A homozygous variant in RRM2B is associated with severe metabolic acidosis and early neonatal death. European Journal Of Medical Genetics 2018, 62: 103574. PMID: 30439532, DOI: 10.1016/j.ejmg.2018.11.008.Peer-Reviewed Original Research