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1.
Am J Hum Genet ; 110(4): 663-680, 2023 04 06.
Artículo en Inglés | MEDLINE | ID: mdl-36965478

RESUMEN

The vast majority of human genes encode multiple isoforms through alternative splicing, and the temporal and spatial regulation of those isoforms is critical for organismal development and function. The spliceosome, which regulates and executes splicing reactions, is primarily composed of small nuclear ribonucleoproteins (snRNPs) that consist of small nuclear RNAs (snRNAs) and protein subunits. snRNA gene transcription is initiated by the snRNA-activating protein complex (SNAPc). Here, we report ten individuals, from eight families, with bi-allelic, deleterious SNAPC4 variants. SNAPC4 encoded one of the five SNAPc subunits that is critical for DNA binding. Most affected individuals presented with delayed motor development and developmental regression after the first year of life, followed by progressive spasticity that led to gait alterations, paraparesis, and oromotor dysfunction. Most individuals had cerebral, cerebellar, or basal ganglia volume loss by brain MRI. In the available cells from affected individuals, SNAPC4 abundance was decreased compared to unaffected controls, suggesting that the bi-allelic variants affect SNAPC4 accumulation. The depletion of SNAPC4 levels in HeLa cell lines via genomic editing led to decreased snRNA expression and global dysregulation of alternative splicing. Analysis of available fibroblasts from affected individuals showed decreased snRNA expression and global dysregulation of alternative splicing compared to unaffected cells. Altogether, these data suggest that these bi-allelic SNAPC4 variants result in loss of function and underlie the neuroregression and progressive spasticity in these affected individuals.


Asunto(s)
Empalme Alternativo , Proteínas de Unión al ADN , Paraparesia Espástica , Factores de Transcripción , Paraparesia Espástica/genética , Humanos , Proteínas de Unión al ADN/genética , Factores de Transcripción/genética , Células HeLa , Isoformas de Proteínas/genética , RNA-Seq , Masculino , Femenino , Linaje , Alelos , Lactante , Preescolar , Niño , Adolescente , Estructura Secundaria de Proteína , ARN Nuclear Pequeño/genética
2.
Clin Genet ; 106(1): 114-115, 2024 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-38715525

RESUMEN

FGF12 related epilepsy presents with variable phenotypes. We report another patient with a duplication involving the FGF12 gene who presented similar to other published cases having normal early development and responded to phenytoin.


Asunto(s)
Variaciones en el Número de Copia de ADN , Epilepsia , Factores de Crecimiento de Fibroblastos , Humanos , Variaciones en el Número de Copia de ADN/genética , Factores de Crecimiento de Fibroblastos/genética , Epilepsia/genética , Masculino , Femenino , Fenotipo
3.
Clin Genet ; 104(5): 607-609, 2023 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-37491870

RESUMEN

Pedigree showing the autosomal dominant inheritance pattern of CSNK21 variants in families presenting with OCNDS. (A) Maternal inheritance to two daughters in Family 1, (B) Paternal inheritance to a daughter in Family 2, and (C) Maternal inheritance to two sons in Family 3.

4.
Am J Hum Genet ; 105(3): 509-525, 2019 09 05.
Artículo en Inglés | MEDLINE | ID: mdl-31422817

RESUMEN

The human RNA helicase DDX6 is an essential component of membrane-less organelles called processing bodies (PBs). PBs are involved in mRNA metabolic processes including translational repression via coordinated storage of mRNAs. Previous studies in human cell lines have implicated altered DDX6 in molecular and cellular dysfunction, but clinical consequences and pathogenesis in humans have yet to be described. Here, we report the identification of five rare de novo missense variants in DDX6 in probands presenting with intellectual disability, developmental delay, and similar dysmorphic features including telecanthus, epicanthus, arched eyebrows, and low-set ears. All five missense variants (p.His372Arg, p.Arg373Gln, p.Cys390Arg, p.Thr391Ile, and p.Thr391Pro) are located in two conserved motifs of the RecA-2 domain of DDX6 involved in RNA binding, helicase activity, and protein-partner binding. We use functional studies to demonstrate that the first variants identified (p.Arg373Gln and p.Cys390Arg) cause significant defects in PB assembly in primary fibroblast and model human cell lines. These variants' interactions with several protein partners were also disrupted in immunoprecipitation assays. Further investigation via complementation assays included the additional variants p.Thr391Ile and p.Thr391Pro, both of which, similarly to p.Arg373Gln and p.Cys390Arg, demonstrated significant defects in P-body assembly. Complementing these molecular findings, modeling of the variants on solved protein structures showed distinct spatial clustering near known protein binding regions. Collectively, our clinical and molecular data describe a neurodevelopmental syndrome associated with pathogenic missense variants in DDX6. Additionally, we suggest DDX6 join the DExD/H-box genes DDX3X and DHX30 in an emerging class of neurodevelopmental disorders involving RNA helicases.


Asunto(s)
ARN Helicasas DEAD-box/genética , Discapacidad Intelectual/genética , Mutación Missense , Proteínas Proto-Oncogénicas/genética , ARN/genética , Humanos
6.
Genet Med ; 23(8): 1474-1483, 2021 08.
Artículo en Inglés | MEDLINE | ID: mdl-33941880

RESUMEN

PURPOSE: Despite a few recent reports of patients harboring truncating variants in NSD2, a gene considered critical for the Wolf-Hirschhorn syndrome (WHS) phenotype, the clinical spectrum associated with NSD2 pathogenic variants remains poorly understood. METHODS: We collected a comprehensive series of 18 unpublished patients carrying heterozygous missense, elongating, or truncating NSD2 variants; compared their clinical data to the typical WHS phenotype after pooling them with ten previously described patients; and assessed the underlying molecular mechanism by structural modeling and measuring methylation activity in vitro. RESULTS: The core NSD2-associated phenotype includes mostly mild developmental delay, prenatal-onset growth retardation, low body mass index, and characteristic facial features distinct from WHS. Patients carrying missense variants were significantly taller and had more frequent behavioral/psychological issues compared with those harboring truncating variants. Structural in silico modeling suggested interference with NSD2's folding and function for all missense variants in known structures. In vitro testing showed reduced methylation activity and failure to reconstitute H3K36me2 in NSD2 knockout cells for most missense variants. CONCLUSION: NSD2 loss-of-function variants lead to a distinct, rather mild phenotype partially overlapping with WHS. To avoid confusion for patients, NSD2 deficiency may be named Rauch-Steindl syndrome after the delineators of this phenotype.


Asunto(s)
N-Metiltransferasa de Histona-Lisina , Síndrome de Wolf-Hirschhorn , Femenino , N-Metiltransferasa de Histona-Lisina/genética , Humanos , Metilación , Mutación Missense , Fenotipo , Embarazo
7.
Hum Mutat ; 41(2): 412-419, 2020 02.
Artículo en Inglés | MEDLINE | ID: mdl-31660686

RESUMEN

We report a likely pathogenic splice-altering AP4S1 intronic variant in two sisters with progressive spastic paraplegia, global developmental delay, shy character, and foot deformities. Sequencing was completed on whole-blood messenger RNA (mRNA) and analyzed for gene expression outliers after exome sequencing analysis failed to identify a causative variant. AP4S1 was identified as an outlier and contained a rare homozygous variant located three bases upstream of exon 5 (NC_000014.8(NM_007077.4):c.295-3C>A). Confirmed by additional RNA-seq, reverse-transcription polymerase chain reaction, and Sanger sequencing, this variant corresponded with exon 5, including skipping, altered isoform usage, and loss of expression from the canonical isoform 2 (NM_001128126.3). Previously, loss-of-function variants within AP4S1 were associated with a quadriplegic cerebral palsy-6 phenotype, AP-4 Deficiency Syndrome. In this study, the inclusion of mRNA-seq allowed for the identification of a previously missed splice-altering variant, and thereby expands the mutational spectrum of AP-4 Deficiency Syndrome to include impacts to some tissue-dependent isoforms.


Asunto(s)
Complejo 4 de Proteína Adaptadora/genética , Empalme Alternativo , Estudios de Asociación Genética , Predisposición Genética a la Enfermedad , Intrones , Hermanos , Paraplejía Espástica Hereditaria/diagnóstico , Paraplejía Espástica Hereditaria/genética , Alelos , Femenino , Estudios de Asociación Genética/métodos , Genotipo , Humanos , Linaje , Fenotipo
8.
Hum Genet ; 138(11-12): 1409-1417, 2019 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-31748968

RESUMEN

Pelizaeus-Merzbacher-like disease (PMLD) is an autosomal recessive hypomyelinating leukodystrophy, which is clinically and radiologically similar to X-linked Pelizaeus-Merzbacher disease (PMD). PMLD is characterized by early-onset nystagmus, delayed development (motor delay, speech delay and dysarthria), dystonia, hypotonia typically evolving into spasticity, ataxia, seizures, optic atrophy, and diffuse leukodystrophy on magnetic resonance imaging (MRI). We identified a 12-year-old Caucasian/Hispanic male with the classical clinical characteristics of PMLD with lack of myelination of the subcortical white matter, and absence of the splenium of corpus callosum. Exome sequencing in the trio revealed novel compound heterozygous pathogenic mutations in SNAP29 (p.Leu119AlafsX15, c.354DupG and p.0?, c.2T > C). Quantitative analysis of the patient's blood cells through RNA sequencing identified a significant decrease in SNAP29 mRNA expression, while western blot analysis on fibroblast cells revealed a lack of protein expression compared to parental and control cells. Mutations in SNAP29 have previously been associated with cerebral dysgenesis, neuropathy, ichthyosis, and keratoderma (CEDNIK) syndrome. Typical skin features described in CEDNIK syndrome, such as generalized ichthyosis and keratoderma, were absent in our patient. Moreover, the early onset nystagmus and leukodystrophy were consistent with a PMLD diagnosis. These findings suggest that loss of SNAP29 function, which was previously associated with CEDNIK syndrome, is also associated with PMLD. Overall, our study expands the genetic spectrum of PMLD.


Asunto(s)
Enfermedades Desmielinizantes del Sistema Nervioso Central Hereditarias/genética , Enfermedades Desmielinizantes del Sistema Nervioso Central Hereditarias/patología , Heterocigoto , Mutación , Proteínas Qb-SNARE/genética , Proteínas Qc-SNARE/genética , Niño , Humanos , Masculino , Pronóstico , Secuenciación del Exoma
9.
Am J Hum Genet ; 98(5): 909-918, 2016 05 05.
Artículo en Inglés | MEDLINE | ID: mdl-27132593

RESUMEN

The proteins encoded by TELO2, TTI1, and TTI2 interact to form the TTT complex, a co-chaperone for maturation of the phosphatidylinositol 3-kinase-related protein kinases (PIKKs). Here we report six affected individuals from four families with intellectual disability (ID) and neurological and other congenital abnormalities associated with compound heterozygous variants in TELO2. Although their fibroblasts showed reduced steady-state levels of TELO2 and the other components of the TTT complex, PIKK functions were normal in cellular assays. Our results suggest that these TELO2 missense variants result in loss of function, perturb TTT complex stability, and cause an autosomal-recessive syndromic form of ID.


Asunto(s)
Discapacidad Intelectual/etiología , Chaperonas Moleculares/genética , Proteínas Serina-Treonina Quinasas/genética , Proteínas de Unión a Telómeros/genética , Adolescente , Proteínas Portadoras/genética , Niño , Femenino , Humanos , Péptidos y Proteínas de Señalización Intracelular , Masculino , Linaje , Fosfatidilinositol 3-Quinasas/genética
10.
Am J Med Genet A ; 176(7): 1549-1558, 2018 07.
Artículo en Inglés | MEDLINE | ID: mdl-30160831

RESUMEN

Chromosome 1q41-q42 deletions have recently been associated with a recognizable neurodevelopmental syndrome of early childhood (OMIM 612530). Within this group, a predominant phenotype of developmental delay (DD), intellectual disability (ID), epilepsy, distinct dysmorphology, and brain anomalies on magnetic resonance imaging/computed tomography has emerged. Previous reports of patients with de novo deletions at 1q41-q42 have led to the identification of an evolving smallest region of overlap which has included several potentially causal genes including DISP1, TP53BP2, and FBXO28. In a recent report, a cohort of patients with de novo mutations in WDR26 was described that shared many of the clinical features originally described in the 1q41-q42 microdeletion syndrome (MDS). Here, we describe a novel germline FBXO28 frameshift mutation in a 3-year-old girl with intractable epilepsy, ID, DD, and other features which overlap those of the 1q41-q42 MDS. Through a familial whole-exome sequencing study, we identified a de novo FBXO28 c.972_973delACinsG (p.Arg325GlufsX3) frameshift mutation in the proband. The frameshift and resulting premature nonsense mutation have not been reported in any genomic database. This child does not have a large 1q41-q42 deletion, nor does she harbor a WDR26 mutation. Our case joins a previously reported patient also in whom FBXO28 was affected but WDR26 was not. These findings support the idea that FBXO28 is a monogenic disease gene and contributes to the complex neurodevelopmental phenotype of the 1q41-q42 gene deletion syndrome.


Asunto(s)
Trastorno Dismórfico Corporal/genética , Deleción Cromosómica , Cromosomas Humanos Par 1/genética , Discapacidades del Desarrollo/genética , Epilepsia Refractaria/genética , Mutación del Sistema de Lectura , Proteínas Ligasas SKP Cullina F-box/genética , Trastorno Dismórfico Corporal/patología , Preescolar , Discapacidades del Desarrollo/patología , Epilepsia Refractaria/patología , Exoma , Femenino , Humanos , Fenotipo , Pronóstico , Secuenciación del Exoma
12.
Rare ; 22024.
Artículo en Inglés | MEDLINE | ID: mdl-38770537

RESUMEN

Snyder-Robinson syndrome (SRS) is a rare X-linked recessive disorder characterized by a collection of clinical features including mild to severe intellectual disability, hypertonia, marfanoid habitus, facial asymmetry, osteoporosis, developmental delay and seizures. Whole genome sequencing (WGS) identified a mutation in the spermine synthase (SMS) gene (c.746 A>G, p.Tyr249Cys) in a male with kyphosis, seizures, and osteoporosis. His phenotype is unique in that he does not have intellectual disability (ID) but does have a mild learning disability. This case demonstrates a milder presentation of SRS and expands the phenotype beyond the reported literature.

13.
Cells ; 12(10)2023 05 21.
Artículo en Inglés | MEDLINE | ID: mdl-37408271

RESUMEN

Mutations of the X-linked gene encoding methyl-CpG-binding protein 2 (MECP2) cause classical forms of Rett syndrome (RTT) in girls. A subset of patients who are recognized to have an overlapping neurological phenotype with RTT but are lacking a mutation in a gene that causes classical or atypical RTT can be described as having a 'Rett-syndrome-like phenotype (RTT-L). Here, we report eight patients from our cohort diagnosed as having RTT-L who carry mutations in genes unrelated to RTT. We annotated the list of genes associated with RTT-L from our patient cohort, considered them in the light of peer-reviewed articles on the genetics of RTT-L, and constructed an integrated protein-protein interaction network (PPIN) consisting of 2871 interactions connecting 2192 neighboring proteins among RTT- and RTT-L-associated genes. Functional enrichment analysis of RTT and RTT-L genes identified a number of intuitive biological processes. We also identified transcription factors (TFs) whose binding sites are common across the set of RTT and RTT-L genes and appear as important regulatory motifs for them. Investigation of the most significant over-represented pathway analysis suggests that HDAC1 and CHD4 likely play a central role in the interactome between RTT and RTT-L genes.


Asunto(s)
Trastornos del Neurodesarrollo , Síndrome de Rett , Humanos , Síndrome de Rett/genética , Proteína 2 de Unión a Metil-CpG/genética , Mutación/genética , Fenotipo , Factores de Transcripción/genética
14.
Elife ; 122023 01 17.
Artículo en Inglés | MEDLINE | ID: mdl-36648066

RESUMEN

TRPM3 is a temperature- and neurosteroid-sensitive plasma membrane cation channel expressed in a variety of neuronal and non-neuronal cells. Recently, rare de novo variants in TRPM3 were identified in individuals with developmental and epileptic encephalopathy, but the link between TRPM3 activity and neuronal disease remains poorly understood. We previously reported that two disease-associated variants in TRPM3 lead to a gain of channel function . Here, we report a further 10 patients carrying one of seven additional heterozygous TRPM3 missense variants. These patients present with a broad spectrum of neurodevelopmental symptoms, including global developmental delay, intellectual disability, epilepsy, musculo-skeletal anomalies, and altered pain perception. We describe a cerebellar phenotype with ataxia or severe hypotonia, nystagmus, and cerebellar atrophy in more than half of the patients. All disease-associated variants exhibited a robust gain-of-function phenotype, characterized by increased basal activity leading to cellular calcium overload and by enhanced responses to the neurosteroid ligand pregnenolone sulfate when co-expressed with wild-type TRPM3 in mammalian cells. The antiseizure medication primidone, a known TRPM3 antagonist, reduced the increased basal activity of all mutant channels. These findings establish gain-of-function of TRPM3 as the cause of a spectrum of autosomal dominant neurodevelopmental disorders with frequent cerebellar involvement in humans and provide support for the evaluation of TRPM3 antagonists as a potential therapy.


Asunto(s)
Epilepsia , Trastornos del Neurodesarrollo , Neuroesteroides , Canales Catiónicos TRPM , Animales , Humanos , Mutación con Ganancia de Función , Trastornos del Neurodesarrollo/genética , Epilepsia/genética , Canales Iónicos/genética , Canales Catiónicos TRPM/genética , Canales Catiónicos TRPM/metabolismo , Mamíferos/metabolismo
15.
J AAPOS ; 25(6): 370-373, 2021 12.
Artículo en Inglés | MEDLINE | ID: mdl-34628026

RESUMEN

Cerebellar-facial-dental syndrome (CFDS) is a newly described autosomal recessive genetic disorder characterized by mutations in the BRF1 gene. CFDS is clinically associated with dysmorphic facial features and cerebellar hypoplasia. We report visually significant progressive bilateral nuclear cataracts in a child with CFDS and identify a new causative genetic variant.


Asunto(s)
Catarata , Factores Asociados con la Proteína de Unión a TATA , Catarata/genética , Cerebelo/anomalías , Cerebelo/diagnóstico por imagen , Niño , Discapacidades del Desarrollo , Humanos , Mutación
16.
Neurol Genet ; 6(4): e468, 2020 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-32754643

RESUMEN

OBJECTIVE: Description of a new variant of the glutamine-fructose-6-phosphate transaminase 1 (GFPT1) gene causing congenital myasthenic syndrome (CMS) in 3 children from 2 unrelated families. METHODS: Muscle biopsies, EMG, and whole-exome sequencing were performed. RESULTS: All 3 patients presented with congenital hypotonia, muscle weakness, respiratory insufficiency, head lag, areflexia, and gastrointestinal dysfunction. Genetic analysis identified a homozygous frameshift insertion in the GFPT1 gene (NM_001244710.1: c.686dupC; p.Arg230Ter) that was shared by all 3 patients. In one of the patients, inheritance of the variant was through uniparental disomy (UPD) with maternal origin. Repetitive nerve stimulation and single-fiber EMG was consistent with the clinical diagnosis of CMS with a postjunctional defect. Ultrastructural evaluation of the muscle biopsy from one of the patients showed extremely attenuated postsynaptic folds at neuromuscular junctions and extensive autophagic vacuolar pathology. CONCLUSIONS: These results expand on the spectrum of known loss-of-function GFPT1 mutations in CMS12 and in one family demonstrate a novel mode of inheritance due to UPD.

17.
Semin Pediatr Neurol ; 26: 28-32, 2018 07.
Artículo en Inglés | MEDLINE | ID: mdl-29961512

RESUMEN

Epileptic encephalopathies are childhood brain disorders characterized by a variety of severe epilepsy syndromes that differ by the age of onset and seizure type. Until recently, the cause of many epileptic encephalopathies was unknown. Whole exome or whole genome sequencing has led to the identification of several causal genes in individuals with epileptic encephalopathy, and the list of genes has now expanded greatly. Genetic testing with epilepsy gene panels is now done quite early in the evaluation of children with epilepsy, following brain imaging, electroencephalogram, and metabolic profile. Early infantile epileptic encephalopathy (EIEE1; OMIM #308350) is the earliest of these age-dependent encephalopathies, manifesting as tonic spasms, myoclonic seizures, or partial seizures, with severely abnormal electroencephalogram, often showing a suppression-burst pattern. In this case study, we describe a 33-month-old female child with severe, neonatal onset epileptic encephalopathy. An infantile epilepsy gene panel test revealed 2 novel heterozygous variants in the MECP2 gene; a 70-bp deletion resulting in a frameshift and truncation (p.Lys377ProfsX9) thought to be pathogenic, and a 6-bp in-frame deletion (p.His371_372del), designated as a variant of unknown significance. Based on this test result, the diagnosis of atypical Rett syndrome (RTT) was made. Family-based targeted testing and segregation analysis, however, raised questions about the pathogenicity of these specific MECP2 variants. Whole exome sequencing was performed in this family trio, leading to the discovery of a rare, de novo, missense mutation in GNAO1 (p. Leu284Ser). De novo, heterozygous mutations in GNAO1 have been reported to cause early infantile epileptic encephalopathy-17 (EIEE17; OMIM 615473). The child's severe phenotype, the family history and segregation analysis of variants and prior reports of GNAO1-linked disease allowed us to conclude that the GNAO1 mutation, and not the MECP2 variants, was the cause of this child's neurological disease. With the increased use of genetic panels and whole exome sequencing, we will be confronted with lists of gene variants suspected to be pathogenic or of unknown significance. It is important to integrate clinical information, genetic testing that includes family members and correlates this with the published clinical and scientific literature, to help one arrive at the correct genetic diagnosis.


Asunto(s)
Subunidades alfa de la Proteína de Unión al GTP Gi-Go/genética , Síndrome de Rett/diagnóstico , Síndrome de Rett/genética , Espasmos Infantiles/diagnóstico , Espasmos Infantiles/genética , Preescolar , Diagnóstico Diferencial , Errores Diagnósticos , Femenino , Humanos , Proteína 2 de Unión a Metil-CpG/genética , Fenotipo
19.
F1000Res ; 6: 553, 2017.
Artículo en Inglés | MEDLINE | ID: mdl-28663785

RESUMEN

Mutations disrupting presynaptic protein TBC1D24 are associated with a variable neurological phenotype, including DOORS syndrome, myoclonic epilepsy, early-infantile epileptic encephalopathy, and non-syndromic hearing loss. In this report, we describe a family segregating autosomal dominant epilepsy, and a 37-year-old Caucasian female with a severe neurological phenotype including epilepsy, Parkinsonism, psychosis, visual and auditory hallucinations, gait ataxia and intellectual disability. Whole exome sequencing revealed two missense mutations in the TBC1D24 gene segregating within this family (c.1078C>T; p.Arg360Cys and c.404C>T; p.Pro135Leu). The female proband who presents with a severe neurological phenotype carries both of these mutations in a compound heterozygous state. The p.Pro135Leu variant, however, is present in the proband's mother and sibling as well, and is consistent with an autosomal dominant pattern linked to tonic-clonic and myoclonic epilepsy. In conclusion, we describe a single family in which TBC1D24 mutations cause expanded dominant and recessive phenotypes. In addition, we discuss and highlight that some variants in TBC1D24 might cause a dominant susceptibility to epilepsy.

20.
Epigenomics ; 9(11): 1373-1386, 2017 11.
Artículo en Inglés | MEDLINE | ID: mdl-28967789

RESUMEN

AIM: To explore differential DNA methylation (DNAm) in Aicardi syndrome (AIC), a severe neurodevelopmental disorder with largely unknown etiology. PATIENTS & METHODS: We characterized DNAm in AIC female patients and parents using the Illumina 450 K array. Differential DNAm was assessed using the local outlier factor algorithm, and results were validated via qPCR in a larger set of AIC female patients, parents and unrelated young female controls. Functional epigenetic modules analysis was used to detect pathways integrating both genome-wide DNAm and RNA-seq data. RESULTS & CONCLUSION: We detected differential methylation patterns in AIC patients in several neurodevelopmental and/or neuroimmunological networks. These networks may be part of the underlying pathogenic mechanisms involved in the disease.


Asunto(s)
Síndrome de Aicardi/genética , Metilación de ADN , Epigénesis Genética , Adulto , Algoritmos , Femenino , Redes Reguladoras de Genes , Humanos , Lactante , Recién Nacido , Masculino , Técnicas de Diagnóstico Molecular/métodos , Linaje , Secuenciación Completa del Genoma/métodos
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