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1.
Proc Natl Acad Sci U S A ; 117(49): 31278-31289, 2020 12 08.
Artículo en Inglés | MEDLINE | ID: mdl-33229591

RESUMEN

Presbycusis, or age-related hearing loss (ARHL), is a major public health issue. About half the phenotypic variance has been attributed to genetic factors. Here, we assessed the contribution to presbycusis of ultrarare pathogenic variants, considered indicative of Mendelian forms. We focused on severe presbycusis without environmental or comorbidity risk factors and studied multiplex family age-related hearing loss (mARHL) and simplex/sporadic age-related hearing loss (sARHL) cases and controls with normal hearing by whole-exome sequencing. Ultrarare variants (allele frequency [AF] < 0.0001) of 35 genes responsible for autosomal dominant early-onset forms of deafness, predicted to be pathogenic, were detected in 25.7% of mARHL and 22.7% of sARHL cases vs. 7.5% of controls (P = 0.001); half were previously unknown (AF < 0.000002). MYO6, MYO7A, PTPRQ, and TECTA variants were present in 8.9% of ARHL cases but less than 1% of controls. Evidence for a causal role of variants in presbycusis was provided by pathogenicity prediction programs, documented haploinsufficiency, three-dimensional structure/function analyses, cell biology experiments, and reported early effects. We also established Tmc1N321I/+ mice, carrying the TMC1:p.(Asn327Ile) variant detected in an mARHL case, as a mouse model for a monogenic form of presbycusis. Deafness gene variants can thus result in a continuum of auditory phenotypes. Our findings demonstrate that the genetics of presbycusis is shaped by not only well-studied polygenic risk factors of small effect size revealed by common variants but also, ultrarare variants likely resulting in monogenic forms, thereby paving the way for treatment with emerging inner ear gene therapy.


Asunto(s)
Sordera/genética , Genes Dominantes , Mutación/genética , Presbiacusia/genética , Factores de Edad , Edad de Inicio , Animales , Estudios de Casos y Controles , Estudios de Cohortes , Heterocigoto , Humanos , Proteínas de la Membrana/genética , Ratones , MicroARNs/genética , Mitocondrias/genética , Secuenciación del Exoma
2.
Plant Physiol ; 171(2): 894-913, 2016 06.
Artículo en Inglés | MEDLINE | ID: mdl-27208295

RESUMEN

The thick cuticle covering and embedding the epidermal cells of tomato (Solanum lycopersicum) fruit acts not only as a protective barrier against pathogens and water loss but also influences quality traits such as brightness and postharvest shelf-life. In a recent study, we screened a mutant collection of the miniature tomato cultivar Micro-Tom and isolated several glossy fruit mutants in which the abundance of cutin, the polyester component of the cuticle, was strongly reduced. We employed a newly developed mapping-by-sequencing strategy to identify the causal mutation underlying the cutin deficiency in a mutant thereafter named gpat6-a (for glycerol-3-phosphate acyltransferase6). To this end, a backcross population (BC1F2) segregating for the glossy trait was phenotyped. Individuals displaying either a wild-type or a glossy fruit trait were then pooled into bulked populations and submitted to whole-genome sequencing prior to mutation frequency analysis. This revealed that the causal point mutation in the gpat6-a mutant introduces a charged amino acid adjacent to the active site of a GPAT6 enzyme. We further showed that this mutation completely abolished the GPAT activity of the recombinant protein. The gpat6-a mutant showed perturbed pollen formation but, unlike a gpat6 mutant of Arabidopsis (Arabidopsis thaliana), was not male sterile. The most striking phenotype was observed in the mutant fruit, where cuticle thickness, composition, and properties were altered. RNA sequencing analysis highlighted the main processes and pathways that were affected by the mutation at the transcriptional level, which included those associated with lipid, secondary metabolite, and cell wall biosynthesis.


Asunto(s)
Glicerol-3-Fosfato O-Aciltransferasa/metabolismo , Lípidos de la Membrana/metabolismo , Solanum lycopersicum/enzimología , Secuencia de Aminoácidos , Mapeo Cromosómico , Frutas/anatomía & histología , Frutas/enzimología , Frutas/genética , Frutas/crecimiento & desarrollo , Glicerol-3-Fosfato O-Aciltransferasa/genética , Solanum lycopersicum/anatomía & histología , Solanum lycopersicum/genética , Solanum lycopersicum/crecimiento & desarrollo , Modelos Moleculares , Mutación , Fenotipo , Filogenia , Proteínas de Plantas/genética , Proteínas de Plantas/metabolismo , Polen/anatomía & histología , Polen/enzimología , Polen/genética , Polen/crecimiento & desarrollo , Proteínas Recombinantes , Alineación de Secuencia , Análisis de Secuencia de ARN
3.
Nat Commun ; 10(1): 4521, 2019 10 04.
Artículo en Inglés | MEDLINE | ID: mdl-31586061

RESUMEN

Designing highly specific modulators of protein-protein interactions (PPIs) is especially challenging in the context of multiple paralogs and conserved interaction surfaces. In this case, direct generation of selective and competitive inhibitors is hindered by high similarity within the evolutionary-related protein interfaces. We report here a strategy that uses a semi-rational approach to separate the modulator design into two functional parts. We first achieve specificity toward a region outside of the interface by using phage display selection coupled with molecular and cellular validation. Highly selective competition is then generated by appending the more degenerate interaction peptide to contact the target interface. We apply this approach to specifically bind a single PDZ domain within the postsynaptic protein PSD-95 over highly similar PDZ domains in PSD-93, SAP-97 and SAP-102. Our work provides a paralog-selective and domain specific inhibitor of PSD-95, and describes a method to efficiently target other conserved PPI modules.


Asunto(s)
Anticuerpos/química , Dominios PDZ , Péptidos/química , Ingeniería de Proteínas , Mapas de Interacción de Proteínas/efectos de los fármacos , Animales , Anticuerpos/farmacología , Células COS , Chlorocebus aethiops , Homólogo 4 de la Proteína Discs Large/antagonistas & inhibidores , Homólogo 4 de la Proteína Discs Large/metabolismo , Diseño de Fármacos , Mapeo Epitopo , Modelos Moleculares , Biblioteca de Péptidos , Péptidos/farmacología , Unión Proteica , Proteínas Recombinantes/metabolismo
4.
Nat Protoc ; 11(12): 2401-2418, 2016 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-27809315

RESUMEN

The tomato is the model species of choice for fleshy fruit development and for the Solanaceae family. Ethyl methanesulfonate (EMS) mutants of tomato have already proven their utility for analysis of gene function in plants, leading to improved breeding stocks and superior tomato varieties. However, until recently, the identification of causal mutations that underlie particular phenotypes has been a very lengthy task that many laboratories could not afford because of spatial and technical limitations. Here, we describe a simple protocol for identifying causal mutations in tomato using a mapping-by-sequencing strategy. Plants displaying phenotypes of interest are first isolated by screening an EMS mutant collection generated in the miniature cultivar Micro-Tom. A recombinant F2 population is then produced by crossing the mutant with a wild-type (WT; non-mutagenized) genotype, and F2 segregants displaying the same phenotype are subsequently pooled. Finally, whole-genome sequencing and analysis of allele distributions in the pools allow for the identification of the causal mutation. The whole process, from the isolation of the tomato mutant to the identification of the causal mutation, takes 6-12 months. This strategy overcomes many previous limitations, is simple to use and can be applied in most laboratories with limited facilities for plant culture and genotyping.


Asunto(s)
Análisis Mutacional de ADN/métodos , Metanosulfonato de Etilo/metabolismo , Mutación , Solanum lycopersicum/genética , Variación Genética , Factores de Tiempo
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