From Genomics to Omics Landscapes of Parkinson's Disease: Revealing the Molecular Mechanisms

Redenšek, Sara; Dolžan, Vita; Kunej, Tanja

doi:10.1089/omi.2017.0181

Cited by 39 publications

(17 citation statements)

References 128 publications

(155 reference statements)

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“…For example, a five-layer approach may include genomics, epigenomics (three sublayers: DNA methylation, histone code, miRNA), transcriptomics, proteomics, and metabolomics, which coupled to phenotype (phenomics) data appears as an 'obvious' integrative omics approach, and one that we are currently exploring. However, so far, most published studies are limited to three layers, namely genomics-transcriptomics-proteomics, which will capture post-transcriptional regulatory mechanisms, whenever there is discrepancy between gene and protein expression (52), but which do not take advantage of the orthogonal information that e.g. metabolomics adds to the (almost) full picture (52,53).…”

Section: Integromicsmentioning

confidence: 99%

“…However, so far, most published studies are limited to three layers, namely genomics-transcriptomics-proteomics, which will capture post-transcriptional regulatory mechanisms, whenever there is discrepancy between gene and protein expression (52), but which do not take advantage of the orthogonal information that e.g. metabolomics adds to the (almost) full picture (52,53). A major concern about integromics analysis and sharing of such big medical data is the difficult question regarding privacy and security (120), which needs to be solved before a massive open online medical (MOOM) repository can become a reality (22).…”

Section: Integromicsmentioning

confidence: 99%

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Personalized medicine—concepts, technologies, and applications in inflammatory skin diseases

Litman

2019

APMIS

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Section: Integromicsmentioning

confidence: 99%

Section: Integromicsmentioning

confidence: 99%

Personalized medicine—concepts, technologies, and applications in inflammatory skin diseases

Litman

2019

APMIS

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“…The first step toward classification of these complex genomics information according to omics levels was enabled by proposed taxonomy of multiomics science (Pirih and Kunej, 2017) and extended in previous studies (Pirih and Kunej, 2018;Redenšek et al, 2018) (Fig. 2).…”

Section: Integrating Glycomics With Other Omics Technologies and Knowmentioning

confidence: 99%

“…The number of included omics levels into integrative analyses is expected to increase as well. Data from 13 omics layers including glycomics were synthesized with the aim to enable a step toward a systems view on pathological mechanisms and for prioritization of novel potential biomarkers in Parkinson's disease and asthma (Pecak et al, 2018;Redenšek et al, 2018).…”

Section: Multiomicsmentioning

confidence: 99%

Rise of Systems Glycobiology and Personalized Glycomedicine: Why and How to Integrate Glycomics with Multiomics Science?

Kunej

2019

OMICS: A Journal of Integrative Biology

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Glycomics is a rapidly emerging subspecialty of system sciences that evaluates the structures and functions of glycans in biological systems. Moreover, glycomics informs allied scholarships such as systems glycobiology and personalized glycomedicine that collectively aim to explain the role of glycans in person-to-person and between-population variations in disease susceptibility and response to health interventions such as drugs, nutrition, and vaccines. For glycomics to make greater, systems-scale, contributions to biology and medical research, it is facing a new developmental challenge: transition from single omics to multiomics integrative technology platforms. A comprehensive map of all possible connections between glycomics and other omics types has not yet been developed. Glycomics aims to discover a complex interplay of molecular interactions; however, little is known about the regulatory networks controlling these complex processes. In addition, the glycomics knowledgebase is presently scattered across various publications and databases, and therefore does not enable a holistic or systems view of this study field. Therefore, researchers are not always aware, for example, that a given analyzed genetic locus is linked with glycans, and that there are also glycomics determinants of complex phenotypes in health and biology. This review presents several published examples of glycomics science in association with other omics levels, such as genomics, transcriptomics, proteomics, metabolomics, epigenomics, ncRNomics, lipidomics, and interactomics. I also highlight the salient knowledge gaps and suggest future research directions. Understanding the interconnections of glycomics with other omics technologies will facilitate multiomics science and knowledge integration, enhance development of systems glycobiology and personalized glycomedicine.

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“…Our catalog of missense pDelVars is of great importance since it can be applied in numerous fields, for example, to research of candidate disease markers associated with polygenic diseases, such as Parkinson's disease (Redenšek et al, 2018), personalized medicine, iatromics (Hekim and Ö zdemir, 2017), pharmacogenomics, nutrigenomics, ecogenomics (Ozdemir et al, 2009), and other omics types (Pirih and Kunej, 2017). Furthermore, the catalog may be applied in identification of pDelVars, located within miRNA-target interaction sites (Piletič and Kunej, 2017) or other types of molecular interactions.…”

Section: Genome-wide Prioritization Of Sequence Variants 417mentioning

confidence: 99%

Harnessing Omics Big Data in Nine Vertebrate Species by Genome-Wide Prioritization of Sequence Variants with the Highest Predicted Deleterious Effect on Protein Function

Rozman

Kunej

2018

OMICS: A Journal of Integrative Biology

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Harnessing the genomics big data requires innovation in how we extract and interpret biologically relevant variants. Currently, there is no established catalog of prioritized missense variants associated with deleterious protein function phenotypes. We report in this study, to the best of our knowledge, the first genome-wide prioritization of sequence variants with the most deleterious effect on protein function (potentially deleterious variants [pDelVars]) in nine vertebrate species: human, cattle, horse, sheep, pig, dog, rat, mouse, and zebrafish. The analysis was conducted using the Ensembl/BioMart tool. Genes comprising pDelVars in the highest number of examined species were identified using a Python script. Multiple genomic alignments of the selected genes were built to identify interspecies orthologous potentially deleterious variants, which we defined as the ''ortho-pDelVars.'' Genome-wide prioritization revealed that in humans, 0.12% of the known variants are predicted to be deleterious. In seven out of nine examined vertebrate species, the genes encoding the multiple PDZ domain crumbs cell polarity complex component (MPDZ) and the transforming acidic coiled-coil containing protein 2 (TACC2) comprise pDelVars. Five interspecies ortho-pDelVars were identified in three genes. These findings offer new ways to harness genomics big data by facilitating the identification of functional polymorphisms in humans and animal models and thus provide a future basis for optimization of protocols for whole genome prioritization of pDelVars and screening of orthologous sequence variants. The approach presented here can inform various postgenomic applications such as personalized medicine and multiomics study of health interventions (iatromics).

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From Genomics to Omics Landscapes of Parkinson's Disease: Revealing the Molecular Mechanisms

Cited by 39 publications

References 128 publications

Personalized medicine—concepts, technologies, and applications in inflammatory skin diseases

Personalized medicine—concepts, technologies, and applications in inflammatory skin diseases

Rise of Systems Glycobiology and Personalized Glycomedicine: Why and How to Integrate Glycomics with Multiomics Science?

Harnessing Omics Big Data in Nine Vertebrate Species by Genome-Wide Prioritization of Sequence Variants with the Highest Predicted Deleterious Effect on Protein Function

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