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1.
Biochem J ; 478(17): 3205-3220, 2021 09 17.
Artículo en Inglés | MEDLINE | ID: mdl-34397090

RESUMEN

Recent advances in genome sequencing have led to the identification of new ion and metabolite transporters, many of which have not been characterized. Due to the variety of subcellular localizations, cargo and transport mechanisms, such characterization is a daunting task, and predictive approaches focused on the functional context of transporters are very much needed. Here we present a case for identifying a transporter localization using evolutionary rate covariation (ERC), a computational approach based on pairwise correlations of amino acid sequence evolutionary rates across the mammalian phylogeny. As a case study, we find that poorly characterized transporter SLC30A9 (ZnT9) coevolves with several components of the mitochondrial oxidative phosphorylation chain, suggesting mitochondrial localization. We confirmed this computational finding experimentally using recombinant human SLC30A9. SLC30A9 loss caused zinc mishandling in the mitochondria, suggesting that under normal conditions it acts as a zinc exporter. We therefore propose that ERC can be used to predict the functional context of novel transporters and other poorly characterized proteins.


Asunto(s)
Proteínas Portadoras/genética , Proteínas Portadoras/metabolismo , Proteínas de Transporte de Catión/genética , Proteínas de Transporte de Catión/metabolismo , Proteínas de Ciclo Celular/genética , Proteínas de Ciclo Celular/metabolismo , Biología Computacional/métodos , Evolución Molecular , Mitocondrias/metabolismo , Transducción de Señal/genética , Factores de Transcripción/genética , Factores de Transcripción/metabolismo , Secuencia de Aminoácidos , Animales , Técnicas de Silenciamiento del Gen , Células HeLa , Humanos , Proteínas Mitocondriales/metabolismo , Filogenia , Transfección , Secuenciación Completa del Genoma/métodos , Zinc/metabolismo
2.
Proc Biol Sci ; 287(1923): 20192988, 2020 03 25.
Artículo en Inglés | MEDLINE | ID: mdl-32183630

RESUMEN

In numerous animal clades, the evolutionary history of host species drives patterns of gut microbial community structure, resulting in more divergent microbiota with increasing phylogenetic distance between hosts. This phenomenon, termed phylosymbiosis, has been observed in diverse evolutionary lineages, but has been difficult to detect in birds. Previous tests of phylosymbiosis among birds have been conducted using wild individuals, and thus interspecific differences in diet and environment may have masked a phylogenetic signal. Therefore, we tested for phylosymbiosis among all 15 species of cranes (family Gruidae) housed in the same captive environment and maintained on identical diets. 16S rRNA sequencing revealed that crane species harbour distinct gut microbiota. Overall, we detected marginally significant patterns of phylosymbiosis, the strength of which was increased when including the estimates of absolute microbial abundance (rather than relative abundance) derived from microbial densities determined by flow cytometry. Using this approach, we detected the statistically significant signatures of phylosymbiosis only after removing male cranes from our analysis, suggesting that using mixed-sex animal cohorts may prevent the detection of phylosymbiosis. Though weak compared with mammals (and especially insects), these results provide evidence of phylosymbiosis in birds. We discuss the potential differences between birds and mammals, such as transmission routes and host filtering, that may underlie the differences in the strength of phylosymbiosis.


Asunto(s)
Aves/fisiología , Filogenia , Simbiosis , Animales , Evolución Biológica , Microbioma Gastrointestinal , Especificidad del Huésped
3.
PLoS One ; 19(8): e0308574, 2024.
Artículo en Inglés | MEDLINE | ID: mdl-39190712

RESUMEN

TOR (target of rapamycin), a ubiquitous protein kinase central to cellular homeostasis maintenance, fundamentally regulates ribosome biogenesis in part by its target La-related protein 1 (LARP1). Among other target transcripts, LARP1 specifically binds TOP (terminal oligopyrimidine) mRNAs encoding all 80 ribosomal proteins in a TOR-dependent manner through its C-terminal region containing the DM15 module. Though the functional implications of the LARP1 interaction with target mRNAs is controversial, it is clear that the TOP-LARP1-TOR axis is critical to cellular health in humans. Its existence and role in evolutionarily divergent animals remain less understood. We focused our work on expanding our knowledge of the first arm of the axis: the connection between LARP1-DM15 and the 5' TOP motif. We show that the overall DM15 architecture observed in humans is conserved in fruit fly and zebrafish. Both adopt familiar curved arrangements of HEAT-like repeats that bind 5' TOP mRNAs on the same conserved surface, although molecular dynamics simulations suggest that the N-terminal fold of the fruit fly DM15 is predicted to be unstable and unfold. We demonstrate that each ortholog interacts with TOP sequences with varying affinities. Importantly, we determine that the ability of the DM15 region to bind some TOP sequences but not others might amount to the context of the RNA structure, rather than the ability of the module to recognize some sequences but not others. We propose that TOP mRNAs may retain similar secondary structures to regulate LARP1 DM15 recognition.


Asunto(s)
Autoantígenos , Evolución Molecular , Ribonucleoproteínas , Antígeno SS-B , Ribonucleoproteínas/metabolismo , Ribonucleoproteínas/genética , Ribonucleoproteínas/química , Autoantígenos/metabolismo , Autoantígenos/genética , Autoantígenos/química , Animales , Humanos , Pez Cebra/genética , ARN Mensajero/genética , ARN Mensajero/metabolismo , Simulación de Dinámica Molecular , Secuencia de Aminoácidos , Unión Proteica
4.
Dis Model Mech ; 13(7)2020 07 30.
Artículo en Inglés | MEDLINE | ID: mdl-32586947

RESUMEN

Mucolipidosis type IV (MLIV) is a lysosomal disease caused by mutations in the MCOLN1 gene that encodes the endolysosomal transient receptor potential channel mucolipin-1, or TRPML1. MLIV results in developmental delay, motor and cognitive impairments, and vision loss. Brain abnormalities include thinning and malformation of the corpus callosum, white-matter abnormalities, accumulation of undegraded intracellular 'storage' material and cerebellar atrophy in older patients. Identification of the early events in the MLIV course is key to understanding the disease and deploying therapies. The Mcoln1-/- mouse model reproduces all major aspects of the human disease. We have previously reported hypomyelination in the MLIV mouse brain. Here, we investigated the onset of hypomyelination and compared oligodendrocyte maturation between the cortex/forebrain and cerebellum. We found significant delays in expression of mature oligodendrocyte markers Mag, Mbp and Mobp in the Mcoln1-/- cortex, manifesting as early as 10 days after birth and persisting later in life. Such delays were less pronounced in the cerebellum. Despite our previous finding of diminished accumulation of the ferritin-bound iron in the Mcoln1-/- brain, we report no significant changes in expression of the cytosolic iron reporters, suggesting that iron-handling deficits in MLIV occur in the lysosomes and do not involve broad iron deficiency. These data demonstrate very early deficits of oligodendrocyte maturation and critical regional differences in myelination between the forebrain and cerebellum in the mouse model of MLIV. Furthermore, they establish quantitative readouts of the MLIV impact on early brain development, useful to gauge efficacy in pre-clinical trials.


Asunto(s)
Encéfalo/metabolismo , Diferenciación Celular , Mucolipidosis/metabolismo , Oligodendroglía/metabolismo , Canales de Potencial de Receptor Transitorio/metabolismo , Factores de Edad , Animales , Encéfalo/patología , Cerebelo/metabolismo , Cerebelo/patología , Corteza Cerebral/metabolismo , Corteza Cerebral/patología , Modelos Animales de Enfermedad , Regulación del Desarrollo de la Expresión Génica , Ratones Endogámicos C57BL , Ratones Noqueados , Mucolipidosis/genética , Mucolipidosis/patología , Proteína Básica de Mielina/metabolismo , Proteínas de la Mielina/metabolismo , Glicoproteína Asociada a Mielina/metabolismo , Células Precursoras de Oligodendrocitos/metabolismo , Células Precursoras de Oligodendrocitos/patología , Oligodendroglía/patología , Prosencéfalo/metabolismo , Prosencéfalo/patología , Canales de Potencial de Receptor Transitorio/genética
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