Your search keyword '"Mayo, Sonia"' showing total 20 results

1. Congenital myasthenia syndrome with demyelinating sensorimotor neuropathy responsive to salbutamol monotherapy: a novel clinical phenotype of CHRNE mutation.

Author

Ghosh, Ritwik, Dubey, Souvik, Roy, Dipayan, Mayo, Sonia, and Benito-León, Julián

Subjects

DEMYELINATION, MUSCLE weakness, ALBUTEROL, CONGENITAL myasthenic syndromes, NEUROPATHY, BLEPHAROPTOSIS, CARPAL tunnel syndrome

Abstract

This document is a letter to the editor published in the journal Neurological Sciences. It discusses a unique case study of a teenager with congenital myasthenic syndrome and demyelinating sensorimotor neuropathy. The patient had a specific genetic mutation and experienced significant improvement in symptoms with salbutamol monotherapy. The letter emphasizes the importance of identifying the genetic basis of each syndrome for genetic counseling and appropriate therapy. The study highlights the variability of clinical manifestations in congenital myasthenic syndromes and the potential efficacy of salbutamol as a treatment option. Further research is needed to understand the effects of salbutamol on demyelinating neuropathy and its overall therapeutic efficacy in AChR deficiency-related congenital myasthenic syndromes. [Extracted from the article]

Published

2024

2. NR4A2 as a Novel Target Gene for Developmental and Epileptic Encephalopathy: A Systematic Review of Related Disorders and Therapeutic Strategies.

Author

Gabaldon-Albero, Alba, Mayo, Sonia, and Martinez, Francisco

Subjects

ADOLESCENCE, ALZHEIMER'S disease, BRAIN diseases, THYROID hormone receptors, MOVEMENT disorders, NEUROLOGICAL disorders, PARKINSON'S disease

Abstract

The NR4A2 gene encodes an orphan transcription factor of the steroid–thyroid hormone–retinoid receptor superfamily. This review focuses on the clinical findings associated with the pathogenic variants so far reported, including three unreported cases. Also, its role in neurodegenerative diseases, such as Parkinson's or Alzheimer's disease, is examined, as well as a brief exploration on recent proposals to develop novel therapies for these neurological diseases based on small molecules that could modulate NR4A2 transcriptional activity. The main characteristic shared by all patients is mild to severe developmental delay/intellectual disability. Moderate to severe disorder of the expressive and receptive language is present in at least 42%, while neuro-psychiatric issues were reported in 53% of patients. Movement disorders, including dystonia, chorea or ataxia, are described in 37% patients, although probably underestimated because of its frequent onset in late adolescence–young adulthood. Finally, epilepsy was surprisingly present in 42% of patients, being drug-resistant in three of them. The age at onset varied widely, from five months to twenty-six years, as did the classification of epilepsy, which ranged from focal epilepsy to infantile spasms or Lennox–Gastaut syndrome. Accordingly, we propose that NR4A2 should be considered as a first-tier target gene for the genetic diagnosis of developmental and epileptic encephalopathy. [ABSTRACT FROM AUTHOR]

Published

2024

3. N-Type Ca Channel in Epileptic Syndromes and Epilepsy: A Systematic Review of Its Genetic Variants.

Author

Mayo, Sonia, Gómez-Manjón, Irene, Marco-Hernández, Ana Victoria, Fernández-Martínez, Francisco Javier, Camacho, Ana, and Martínez, Francisco

Subjects

CALCIUM channels, RYANODINE receptors, GENETIC variation, EPILEPSY, PEOPLE with epilepsy

Abstract

N-type voltage-gated calcium channel controls the release of neurotransmitters from neurons. The association of other voltage-gated calcium channels with epilepsy is well-known. The association of N-type voltage-gated calcium channels and pain has also been established. However, the relationship between this type of calcium channel and epilepsy has not been specifically reviewed. Therefore, the present review systematically summarizes existing publications regarding the genetic associations between N-type voltage-dependent calcium channel and epilepsy. [ABSTRACT FROM AUTHOR]

Published

2023

4. CfDNA Measurement as a Diagnostic Tool for the Detection of Brain Somatic Mutations in Refractory Epilepsy.

Author

Mayo, Sonia, Gómez-Manjón, Irene, Fernández-Martínez, Francisco Javier, Camacho, Ana, Martínez, Francisco, and Benito-León, Julián

Subjects

SOMATIC mutation, CELL-free DNA, EPILEPSY, NUCLEOTIDE sequencing, BLOOD cells, NEUROLOGICAL disorders

Abstract

Epilepsy is a neurological disorder that affects more than 50 million people. Its etiology is unknown in approximately 60% of cases, although the existence of a genetic factor is estimated in about 75% of these individuals. Hundreds of genes involved in epilepsy are known, and their number is increasing progressively, especially with next-generation sequencing techniques. However, there are still many cases in which the results of these molecular studies do not fully explain the phenotype of the patients. Somatic mutations specific to brain tissue could contribute to the phenotypic spectrum of epilepsy. Undetectable in the genomic DNA of blood cells, these alterations can be identified in cell-free DNA (cfDNA). We aim to review the current literature regarding the detection of somatic variants in cfDNA to diagnose refractory epilepsy, highlighting novel research directions and suggesting further studies. [ABSTRACT FROM AUTHOR]

Published

2022

5. Noninvasive Prenatal Testing: Comparison of Two Mappers and Influence in the Diagnostic Yield.

Author

Gómez-Manjón, Irene, Moreno-Izquierdo, Ana, Mayo, Sonia, Moreno-García, Marta, Delmiro, Aitor, Escribano, David, and Fernández-Martínez, F. Javier

Subjects

ALGORITHMS, CHROMOSOMES, COMPUTER software, ELECTRONICS, MEDICAL protocols, PREGNANT women, PRENATAL diagnosis, GENETIC testing, DOWN syndrome, SEQUENCE analysis, TRISOMY 18 syndrome

Abstract

Objective. The aim of this study was to determine if the use of different mappers for NIPT may vary the results considerably. Methods. Peripheral blood was collected from 217 pregnant women, 58 pathological (34 pregnancies with trisomy 21, 18 with trisomy 18, and 6 with trisomy 13) and 159 euploid. MPS was performed following a manufacturer’s modified protocol of semiconductor sequencing. Obtained reads were mapped with two different software programs: TMAP and HPG-Aligner, comparing the results. Results. Using TMAP, 57 pathological samples were correctly detected (sensitivity 98.28%, specificity 93.08%): 33 samples as trisomy 21 (sensitivity 97.06%, specificity 99.45%), 16 as trisomy 18 (sensibility 88.89%, specificity 93.97%), and 6 as trisomy 13 (sensibility 100%, specificity 100%). 11 false positives, 1 false negative, and 2 samples incorrectly identified were obtained. Using HPG-Aligner, all the 58 pathological samples were correctly identified (sensibility 100%, specificity 96.86%): 34 as trisomy 21 (sensibility 100%, specificity 98.91%), 18 as trisomy 18 (sensibility 100%, specificity 98.99%), and 6 as trisomy 13 (sensibility 100%, specificity 99.53%). 5 false positives were obtained. Conclusion. Different mappers use slightly different algorithms, so the use of one mapper or another with the same batch file can provide different results. [ABSTRACT FROM AUTHOR]

Published

2018

6. Chimeric Genes in Deletions and Duplications Associated with Intellectual Disability.

Author

Mayo, Sonia, Monfort, Sandra, Roselló, Mónica, Orellana, Carmen, Oltra, Silvestre, Caro-Llopis, Alfonso, and Martínez, Francisco

Subjects

INTELLECTUAL disabilities, HUMAN genes, CENTRAL nervous system, GENE expression, PHENOTYPES, PATIENTS

Abstract

We report on three nonrelated patients with intellectual disability and CNVs that give rise to three new chimeric genes. All the genes forming these fusion transcripts may have an important role in central nervous system development and/or in gene expression regulation, and therefore not only their deletion or duplication but also the resulting chimeric gene may contribute to the phenotype of the patients. Deletions and duplications are usually pathogenic when affecting dose-sensitive genes. Alternatively, a chimeric gene may also be pathogenic by different gain-of-function mechanisms that are not restricted to dose-sensitive genes: the emergence of a new polypeptide that combines functional domains from two different genes, the deregulated expression of any coding sequence by the promoter region of a neighboring gene, and/or a putative dominant-negative effect due to the preservation of functional domains of partially truncated proteins. Fusion oncogenes are well known, but in other pathologies, the search for chimeric genes is disregarded. According to our findings, we hypothesize that the frequency of fusion transcripts may be much higher than suspected, and it should be taken into account in the array-CGH analyses of patients with intellectual disability. [ABSTRACT FROM AUTHOR]

Published

2017

7. High diagnostic yield of syndromic intellectual disability by targeted next-generation sequencing.

Author

Martínez, Francisco, Caro-Llopis, Alfonso, Roselló, Mónica, Oltra, Silvestre, Mayo, Sonia, Monfort, Sandra, and Orellana, Carmen

Abstract

Background Intellectual disability is a very complex condition where more than 600 genes have been reported. Due to this extraordinary heterogeneity, a large proportion of patients remain without a specific diagnosis and genetic counselling. The need for new methodological strategies in order to detect a greater number of mutations in multiple genes is therefore crucial. Methods In this work, we screened a large panel of 1256 genes (646 pathogenic, 610 candidate) by next-generation sequencing to determine the molecular aetiology of syndromic intellectual disability. A total of 92 patients, negative for previous genetic analyses, were studied together with their parents. Clinically relevant variants were validated by conventional sequencing. Results A definitive diagnosis was achieved in 29 families by testing the 646 known pathogenic genes. Mutations were found in 25 different genes, where only the genes KMT2D, KMT2A and MED13L were found mutated in more than one patient. A preponderance of de novo mutations was noted even among the X linked conditions. Additionally, seven de novo probably pathogenic mutations were found in the candidate genes AGO1, JARID2, SIN3B, FBXO11, MAP3K7, HDAC2 and SMARCC2. Altogether, this means a diagnostic yield of 39% of the cases (95% CI 30% to 49%). Conclusions The developed panel proved to be efficient and suitable for the genetic diagnosis of syndromic intellectual disability in a clinical setting. Next-generation sequencing has the potential for high-throughput identification of genetic variations, although the challenges of an adequate clinical interpretation of these variants and the knowledge on further unknown genes causing intellectual disability remain to be solved. [ABSTRACT FROM AUTHOR]

Published

2017

8. Intragenic CNVs for epigenetic regulatory genes in intellectual disability: Survey identifies pathogenic and benign single exon changes.

Author

Zahir, Farah R., Tucker, Tracy, Mayo, Sonia, Brown, Carolyn J., Lim, Emilia L., Taylor, Jonathan, Marra, Marco A., Hamdan, Fadi F., Michaud, Jacques L., and Friedman, Jan M.

Abstract

The disruption of genes involved in epigenetic regulation is well known to cause Intellectual Disability (ID). We reported a custom microarray study that interrogated among others, the epigenetic regulatory gene-class, at single exon resolution. Here we elaborate on identified intragenic CNVs involving epigenetic regulatory genes; specifically discussing those in three genes previously unreported in ID etiology- ARID2, KDM3A, and ARID4B. The changes in ARID2 and KDM3A are likely pathogenic while the ARID4B variant is uncertain. Previously, we found a CNV involving only exon 6 of the JARID2 gene occurred apparently de novo in seven patients. JARID2 is known to cause ID and other neurodevelopmental conditions. However, exon 6 of this gene encodes one of a series of repeated motifs. We therefore, investigated the impact of this variant in two cohorts and present a genotype-phenotype assessment. We find the JARID2 exon 6 CNV is benign, with a high population frequency (>14%), but nevertheless could have a contributory effect. We also present results from an interrogation of the exomes of 2,044 patients with neurocognitive phenotypes for the incidence of potentially damaging mutation in the epigenetic regulatory gene-class. This paper provides a survey of the fine-scale CNV landscape for epigenetic regulatory genes in the context of ID, describing likely pathogenic as well as benign single exon imbalances. © 2016 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2016

9. Identification of Intellectual Disability Genes in Female Patients with a Skewed X-Inactivation Pattern.

Author

Fieremans, Nathalie, Esch, Hilde, Holvoet, Maureen, Goethem, Gert, Devriendt, Koenraad, Rosello, Monica, Mayo, Sonia, Martinez, Francisco, Jhangiani, Shalini, Muzny, Donna M., Gibbs, Richard A., Lupski, James R., Vermeesch, Joris R., Marynen, Peter, and Froyen, Guy

Abstract

ABSTRACT Intellectual disability (ID) is a heterogeneous disorder with an unknown molecular etiology in many cases. Previously, X-linked ID (XLID) studies focused on males because of the hemizygous state of their X chromosome. Carrier females are generally unaffected because of the presence of a second normal allele, or inactivation of the mutant X chromosome in most of their cells (skewing). However, in female ID patients, we hypothesized that the presence of skewing of X-inactivation would be an indicator for an X chromosomal ID cause. We analyzed the X-inactivation patterns of 288 females with ID, and found that 22 (7.6%) had extreme skewing (>90%), which is significantly higher than observed in the general population (3.6%; P = 0.029). Whole-exome sequencing of 19 females with extreme skewing revealed causal variants in six females in the XLID genes DDX3X, NHS, WDR45, MECP2, and SMC1A. Interestingly, variants in genes escaping X-inactivation presumably cause both XLID and skewing of X-inactivation in three of these patients. Moreover, variants likely accounting for skewing only were detected in MED12, HDAC8, and TAF9B. All tested candidate causative variants were de novo events. Hence, extreme skewing is a good indicator for the presence of X-linked variants in female patients. [ABSTRACT FROM AUTHOR]

Published

2016

10. Pure duplication of 19p13.3 in three members of a family with intellectual disability and literature review. Definition of a new microduplication syndrome.

Author

Orellana, Carmen, Roselló, Mónica, Monfort, Sandra, Mayo, Sonia, Oltra, Silvestre, and Martínez, Francisco

Abstract

This paper describes the presence of an interstitial pure duplication of 19p13.3 (4.95 Mb) in a patient with intellectual disability studied by array-CGH which was initially considered as a de novo alteration. The discovery of the same chromosomal alteration in a first-degree cousin of this patient led us to investigate the presence of insertional translocations, which were consequently found in three family generations. The same duplication was found in three intellectually disabled patients and among the translocation carrier family members a very high incidence of miscarriages are reported. A review of other published cases has allowed us to find three other patients with a similar pure duplication, all of them sharing some common clinical findings such as intrauterine growth retardation, microcephaly, motor and speech delay, moderate to severe intellectual disability, and dysmorphic features. These findings allow us to suggest the presence of a new microduplication syndrome in chromosomal region 19p13.3. © 2015 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2015

11. A novel missense mutation in the NSDHL gene identified in a Lithuanian family by targeted next-generation sequencing causes CK syndrome.

Author

Preiksaitiene, Egle, Caro, Alfonso, Benušienė, Eglė, Oltra, Silvestre, Orellana, Carmen, Morkūnienė, Aušra, Roselló, Mónica Pilar, Kasnauskiene, Jurate, Monfort, Sandra, Kučinskas, Vaidutis, Mayo, Sonia, and Martinez, Francisco

Abstract

The NSDHL gene encodes 3β-hydroxysteroid dehydrogenase involved in one of the later steps of the cholesterol biosynthetic pathway. Mutations in this gene can cause CHILD syndrome (OMIM 308050) and CK syndrome (OMIM 300831). CHILD syndrome is an X-linked dominant, male lethal disorder caused by mutations in the NSDHL gene that result in the loss of the function of the NSDHL protein. CK syndrome is an allelic X-linked recessive disorder. So far, 13 patients with CK syndrome from two families have been reported on. We present a new five-generation family with affected males manifesting clinical features of CK syndrome. Next generation sequencing was targeted to a custom panel of 542 genes with known or putative implication on intellectual disability. Missense mutation p.Gly152Asp was identified in the NSDHL gene in the DNA sample of the affected male. Mutation carrier status was confirmed for all the obligate carriers in the family. The clinical features of the affected males in the family manifested as weak fetal movements, severe intellectual disability, seizures, spasticity, atrophy of optic discs, microcephaly, plagiocephaly, skeletal abnormalities, and minor facial anomalies, including a high nasal bridge, strabismus, and micrognathia. A highly significant preferential transmission of the mutation was observed in this and previous families segregating CK syndrome. Our report expands the clinical spectrum of this syndrome to include weak fetal movements, spasticity, and plagiocephaly, and transmission ratio distortion. The various findings in these patients increase our understanding of the diversity of the clinical presentation of cholesterol biosynthesis disorders. © 2015 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2015

12. In Pursuit of New Imprinting Syndromes by Epimutation Screening in Idiopathic Neurodevelopmental Disorder Patients.

Author

Mayo, Sonia, Monfort, Sandra, Roselló, Mónica, Oltra, Silvestre, Orellana, Carmen, and Martínez, Francisco

Subjects

NEURODEGENERATION, CASE studies, MEDICAL screening, METHYLATION, GENETIC mutation, RESEARCH funding, EPIGENOMICS, DIAGNOSIS

Abstract

Alterations of epigenetic mechanisms, and more specifically imprinting modifications, could be responsible of neurodevelopmental disorders such as intellectual disability (ID) or autism together with other associated clinical features in many cases. Currently only eight imprinting syndromes are defined in spite of the fact that more than 200 genes are known or predicted to be imprinted. Recent publications point out that some epimutations which cause imprinting disorders may affect simultaneously different imprinted loci, suggesting that DNA-methylation may have been altered more globally. Therefore, we hypothesised that the detection of altered methylation patterns in known imprinting loci will indirectly allow identifying new syndromes due to epimutations among patients with unexplained ID. In a screening for imprinting alterations in 412 patients with syndromic ID/autism we found five patients with altered methylation in the four genes studied: MEG3, H19, KCNQ1OT1, and SNRPN. Remarkably, the cases with partial loss of methylation in KCNQ1OT1 and SNRPN present clinical features different to those associated with the corresponding imprinting syndromes, suggesting a multilocus methylation defect in accordance with our initial hypothesis. Consequently, our results are a proof of concept that the identification of epimutations in known loci in patients with clinical features different from those associated with known syndromes will eventually lead to the definition of new imprinting disorders. [ABSTRACT FROM AUTHOR]

Published

2015

13. Prenatal Diagnosis of a Female Fetus with Ring Chromosome 9, 46,XX,r(9)(p24q34), and a de novo Interstitial 9p Deletion.

Author

Penacho, Vanessa, Galán, Francisco, Martín-Bayón, Tina-a., Mayo, Sonia, Manchón, Irene, Carrasco, alfonso, Martínez-Castellano, Francisco, and alcaraz, Luis a.

Subjects

CHROMOSOMES, PRENATAL care, FETAL growth retardation, GENETICS, FETAL development

Abstract

Ring chromosomes are circular structures formed as a result of breaks in the chromosome arms and the fusion of the proximal broken ends with a loss of distal material, or by fusion of dysfunctional telomeres without any loss. The mechanism underlying this process has not yet been sufficiently explained. Commonly, rings occur as acquired genetic abnormalities; however, sometimes they are found as constitutional aberrations with a prevalence of around 1:50,000 live births. Here, we present a new case of r(9) in a female fetus with intrauterine growth retardation and slight craniofacial dysmorphisms. Both parents had a normal phenotype. Amniotic fluid karyotype showed r(9)(p24q34). An array CGH revealed 3 deletion segments: a ring chromosome with a 2.57-Mb deletion at 9pterp24.2 (chr9:163,131-2,729,722), a 2.60-Mb deletion at 9q34.3qter (chr9:138,523,302-141,122,055), and also a 0.15-Mb interstitial deletion at 9p24.1 (chr9:5,090,443-5,235,765). These deletions overlap with proposed regions for the 9p24.3 deletion and Kleefstra syndrome. Segregation analysis revealed a maternal origin of the rearranged chromosome. We conclude that both the ring chromosome and the interstitial deletion occurred de novo. This last deletion has not been reported before. Prenatal array CGH, combined with fine mapping of breakpoints contributes to the assessment of genotype-phenotype correlations. © 2015 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2015

14. Duplication at Xq13.3-q21.1 with syndromic intellectual disability, a probable role for the ATRX gene.

Author

Martínez, Francisco, Roselló, Mónica, Mayo, Sonia, Monfort, Sandra, Oltra, Silvestre, and Orellana, Carmen

Abstract

Here we report on two unrelated male patients with syndromic intellectual disability (ID) due to duplication at Xq13.3-q21.1, a region of about 6 Mb and 25 genes. Among these, the most outstanding is ATRX, the causative gene of X-linked alpha-thalassemia/mental retardation. ATRX belongs to the growing list of genes implied in chromatin remodeling causing ID. Many these genes, such as MECP2, are dose-sensitive so that not only deletions and point mutations, but also duplications cause ID. Both patients have severe ID, absent expressive speech, early hypotonia, behavior problems (hyperactivity, repetitive self-stimulatory behavior), postnatal growth deficiency, microcephaly, micrognathia, cryptorchidism, low-set, posteriorly angulated ears, and downslanting palpebral fissures. These findings are also usually present among patients with loss-of-function mutations of the ATRX gene. Completely skewed X inactivation was observed in the only informative carrier mother, a constant finding among female carriers of inactivating point mutations of this gene. Participation of other duplicated genes cannot be excluded; nevertheless we propose that the increased dosage of ATRX is the major pathogenic mechanism of this X-linked disorder, a syndrome reminiscent of MECP2 duplication. © 2014 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2014

15. Letter to the Editor: Breastfeeding and COVID-19 Vaccine: Yes We Can.

Author

Mayo, Sonia and Monfort, Sandra

Published

2021

16. Hypomethylation of the KCNQ1OT1 imprinting center of chromosome 11 associated to Sotos-like features.

Author

Mayo, Sonia, Garin, Intza, Monfort, Sandra, Roselló, Mónica, Orellana, Carmen, Oltra, Silvestre, Zazo, Celia, de Naclares, Guiomar Perez, and Martínez, Francisco

Subjects

BECKWITH-Wiedemann syndrome, INTELLECTUAL disabilities, CHROMOSOME abnormalities, DELETION mutation, KARYOTYPES, GENOMIC imprinting, CHROMOSOME banding

Published

2012

17. Enrichment of ultraconserved elements among genomic imbalances causing mental delay and congenital anomalies.

Author

Martínez, Francisco, Monfort, Sandra, Roselló, Mónica, Oltra, Silvestre, Blesa, David, Quiroga, Ramiro, Mayo, Sonia, and Orellana, Carmen

Subjects

GENETIC research, GENOMICS, MOLECULAR genetics, ANIMAL genome mapping, HUMAN abnormalities, HEREDITY, NUCLEIC acids, RNA, DNA

Abstract

Background: The ultraconserved elements (UCEs) are defined as stretches of at least 200 base pairs of human DNA that match identically with corresponding regions in the mouse and rat genomes, albeit their real significance remains an intriguing issue. These elements are most often located either overlapping exons in genes involved in RNA processing or in introns or nearby genes involved in the regulation of transcription and development. Interestingly, human UCEs have been reported to be strongly depleted among segmental duplications and benign copy number variants (CNVs). However no comprehensive survey of a putative enrichment of these elements among pathogenic dose variants has yet been reported. Results: A survey for UCEs was performed among the 26 cryptic genomic rearrangements detected in our series of 200 patients with idiopathic neurodevelopmental disorders associated to congenital anomalies. A total of 29 elements, out of the 481 described UCEs, were contained in 13 of the 26 pathogenic gains or losses detected in our series, what represents a highly significant enrichment of ultraconserved elements. In addition, here we show that these elements are preferentially found in pathogenic deletions (enrichment ratio 3.6 vs. 0.5 in duplications), and that this association is not related with a higher content of genes. In contrast, pathogenic CNVs lacking UCEs showed almost a threefold higher content in genes. Conclusions: We propose that these elements may be interpreted as hallmarks for dose-sensitive genes, particularly for those genes whose gain or loss may be directly implied in neurodevelopmental disorders. Therefore, their presence in genomic imbalances of unknown effect might be suggestive of a clinically relevant condition. [ABSTRACT FROM AUTHOR]

Published

2010

18. The Arabidopsis heavy metal P-type ATPase HMA5 interacts with metallochaperones and functions in copper detoxification of roots.

Author

Andrés-Colás, Nuria, Sancenón, Vicente, Rodríguez-Navarro, Susana, Mayo, Sonia, Thiele, Dennis J., Ecker, Joseph R., Puig, Sergi, and Peñarrubia, Lola

Subjects

ARABIDOPSIS, HOMEOSTASIS, ADENOSINE triphosphatase, CHEMICAL reactions, OXIDATIVE stress, MOLECULAR biology

Abstract

Since copper (Cu) is essential in key physiological oxidation reactions, organisms have developed strategies for handling Cu while avoiding its potentially toxic effects. Among the tools that have evolved to cope with Cu is a network of Cu homeostasis factors such as Cu-transporting P-type ATPases that play a key role in transmembrane Cu transport. In this work we present the functional characterization of an Arabidopsis Cu-transporting P-type ATPase, denoted heavy metal ATPase 5 (HMA5), and its interaction with Arabidopsis metallochaperones. HMA5 is primarily expressed in roots, and is strongly and specifically induced by Cu in whole plants. We have identified and characterized plants carrying two independent T-DNA insertion alleles, hma5-1 and hma5-2. Both mutants are hypersensitive to Cu but not to other metals such as iron, zinc or cadmium. Interestingly, root tips from Cu-treated hma5 mutants exhibit a wave-like phenotype at early stages and later on main root growth completely arrests whereas lateral roots emerge near the crown. Accordingly, these lines accumulate Cu in roots to a greater extent than wild-type plants under Cu excess. Finally, yeast two-hybrid experiments demonstrate that the metal-binding domains of HMA5 interact with Arabidopsis ATX1-like Cu chaperones, and suggest a regulatory role for the plant-specific domain of the CCH Cu chaperone. Based on these findings, we propose a role for HMA5 in Cu compartmentalization and detoxification. [ABSTRACT FROM AUTHOR]

Published

2006

19. Candidate Genes for Eyelid Myoclonia with Absences, Review of the Literature.

Author

Mayo, Sonia, Gómez-Manjón, Irene, Fernández-Martínez, Fco. Javier, Camacho, Ana, Martínez, Francisco, and Benito-León, Julián

Subjects

EYELIDS, LITERATURE reviews, GENES, PHENOTYPES, DIAGNOSIS

Abstract

Eyelid myoclonia with absences (EMA), also known as Jeavons syndrome (JS) is a childhood onset epileptic syndrome with manifestations involving a clinical triad of absence seizures with eyelid myoclonia (EM), photosensitivity (PS), and seizures or electroencephalogram (EEG) paroxysms induced by eye closure. Although a genetic contribution to this syndrome is likely and some genetic alterations have been defined in several cases, the genes responsible for have not been identified. In this review, patients diagnosed with EMA (or EMA-like phenotype) with a genetic diagnosis are summarized. Based on this, four genes could be associated to this syndrome (SYNGAP1, KIA02022/NEXMIF, RORB, and CHD2). Moreover, although there is not enough evidence yet to consider them as candidate for EMA, three more genes present also different alterations in some patients with clinical diagnosis of the disease (SLC2A1, NAA10, and KCNB1). Therefore, a possible relationship of these genes with the disease is discussed in this review. [ABSTRACT FROM AUTHOR]

Published

2021

20. Large deletion in the Factor VIII gene ( F8) involving segmental duplications in int22h shows no haematological phenotype in female carriers, but may be embryonic lethal in males.

Author

Casaña, Pilar, Mayo, Sonia, Monfort, Sandra, Orellana, Carmen, Haya, Saturnino, Cid, Ana R., Roselló, Monica, Oltra, Silvestre, and Martínez, Francisco

Subjects

BLOOD coagulation factor VIII, CHROMOSOME inversions, HEMOPHILIA, HOMOLOGOUS chromosomes, INTRONS, PALINDROMES, GENETIC recombination, GENETICS

Abstract

The article discusses the inversion of the factor VIII gene (F8) causing haemophilia. According to initial hypothesis, homologous recombination between repeat int22h-1, in intron 22 of F8 and and one of the two duplicons, int22h-2 or int22h-3, in the reverse direction caused haemophilia A whereas at present, the duplicons are known to be inversely oriented in relation to each other forming imperfect palindrome with a central unique loop of 67.3 kb and arms of 50.5 kb.

Published

2012