RNA-Seq and microarray analysis of the Xenopus inner ear transcriptome discloses orthologous OMIM® genes for hereditary disorders of hearing and balance

Ramirez-Gordillo, Daniel; Powers, TuShun R.; Velkinburgh, Jennifer C. van; Trujillo-Provencio, Casilda; Schilkey, Faye; Serrano, Elba E.

doi:10.1186/s13104-015-1485-1

Cited by 8 publications

(5 citation statements)

References 34 publications

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“…The use of Xenopus eggs and embryos for in vivo analyses of disease gene expression and function has exploded in recent years. This model has supported important advances in our understanding of: neurological disorders including autism, Alzheimer's disease, and depression (James et al, ; Park et al, ; Ramirez‐Vizcarrando, Hasan, Gu, Khakhalin, & Aizenman, ; Ullah, Demuro, Parker, & Pearson, ); cancers (Green, Kwon, & Christian, ; Haynes‐Gilmore et al, ; Van Nieuwenhuysen et al, ; Wei et al, ); congenital heart defects (Endicott, Basu, Khokha, & Brueckner, ; Silva et al, ; Torres‐Prioris, Smith, Mohun, Fernández, & Durán, ); craniofacial and auditory malformations (Dickinson, ; Griffin, Sondalle, Del Viso, Baserga, & Khokha, ; Moody, Neilson, Kenyon, Alfandari, & Pignoni, ; Ramírez‐Gordillo et al, ); diabetes (Kofent & Spagnoli, ; Pearl, Jarikji, & Horb, ; Salanga & Horb, ); kidney disease (Desgrange & Cereghini, ; Lienkamp, ; Stiburkova, Stekrova, Nakamura, & Ichida, ); Lennox–Gastaut syndrome (Hammer, Ebert, Jensen, & Jensen, ); and Zimmermann–Laband syndrome (Kortüm et al, ).…”

Section: Xenopus Is a Powerful System For Deciphering The Function Ofmentioning

confidence: 83%

Using Xenopus to understand human disease and developmental disorders

Sater

Moody

2017

Genesis

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Model animals are crucial to biomedical research. Among the commonly used model animals, the amphibian, Xenopus, has had tremendous impact because of its unique experimental advantages, cost effectiveness, and close evolutionary relationship with mammals as a tetrapod. Over the past 50 years, the use of Xenopus has made possible many fundamental contributions to biomedicine, and it is a cornerstone of research in cell biology, developmental biology, evolutionary biology, immunology, molecular biology, neurobiology, and physiology. The prospects for Xenopus as an experimental system are excellent: Xenopus is uniquely well-suited for many contemporary approaches used to study fundamental biological and disease mechanisms. Moreover, recent advances in high throughput DNA sequencing, genome editing, proteomics, and pharmacological screening are easily applicable in Xenopus, enabling rapid functional genomics and human disease modeling at a systems level.

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Section: Xenopus Is a Powerful System For Deciphering The Function Ofmentioning

confidence: 83%

Using Xenopus to understand human disease and developmental disorders

Sater

Moody

2017

Genesis

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“…To assess the depth of coverage, we compared our Xenopus dataset to previously published transcriptomic data from Xenopus inner ears as well as proteomic data from dissected postnatal mouse inner ear tissues. 4 , 18 From our dataset of ∼6000 proteins, 178 proteins were previously shown to be present in inner ear tissues (n = 164) and hair cells (n = 14) ( Figure 2 A), including proteins that play important roles in proper functioning of the inner ear such as alpha-tectorin (Tecta), a protein present in the tectorial membrane that connects the stereocilia bundles of hair cells ( Table S1 ). We also compared our Xenopus dataset to known human deafness genes reported on OMIM and matched >70 proteins to genes that are associated with syndromic CHL such as SIX1 (associated with BOR syndrome, OMIM entry 601205) and CHD7 (associated with CHARGE syndrome, OMIM entry 608892).…”

Section: Resultsmentioning

confidence: 99%

Time-resolved quantitative proteomic analysis of the developing Xenopus otic vesicle reveals putative congenital hearing loss candidates

Baxi,

Nemes,

Moody

2023

iScience

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“…Previous studies on the auditory transcriptome were performed using microarray technologies and bulk RNA-seq [116], providing significant knowledge and information on the differential gene expression in physiological and pathological conditions of the cochlea, with important implications for the development of new therapies [117,118]. Studies on the transcriptome have also given insights into the developmental processes of the inner ear [119], the transcriptional changes associated with ageing [120], and cochlear cell damage/degeneration [121].…”

Section: Scrna-seq Is a Key Tool For Deciphering The Complex Cellular...mentioning

confidence: 99%

Advanced Omics Techniques for Understanding Cochlear Genome, Epigenome, and Transcriptome in Health and Disease

Tisi,

Palaniappan,

Maccarrone

2023

Biomolecules

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Advanced genomics, transcriptomics, and epigenomics techniques are providing unprecedented insights into the understanding of the molecular underpinnings of the central nervous system, including the neuro-sensory cochlea of the inner ear. Here, we report for the first time a comprehensive and updated overview of the most advanced omics techniques for the study of nucleic acids and their applications in cochlear research. We describe the available in vitro and in vivo models for hearing research and the principles of genomics, transcriptomics, and epigenomics, alongside their most advanced technologies (like single-cell omics and spatial omics), which allow for the investigation of the molecular events that occur at a single-cell resolution while retaining the spatial information.

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RNA-Seq and microarray analysis of the Xenopus inner ear transcriptome discloses orthologous OMIM® genes for hereditary disorders of hearing and balance

Cited by 8 publications

References 34 publications

Using Xenopus to understand human disease and developmental disorders

Using Xenopus to understand human disease and developmental disorders

Time-resolved quantitative proteomic analysis of the developing Xenopus otic vesicle reveals putative congenital hearing loss candidates

Advanced Omics Techniques for Understanding Cochlear Genome, Epigenome, and Transcriptome in Health and Disease

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