Exploring chromatin structural roles of non-coding RNAs at imprinted domains

Llères, David; Imaizumi, Yui; Feil, Robert

doi:10.1042/bst20210758

Cited by 14 publications

(14 citation statements)

References 133 publications

(215 reference statements)

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“…In our study, we conducted high‐throughput sequencing technology to analyze these two cells. Growing evidence suggest that a few lncRNAs that regulate neighboring gene act preferentially in cis, and those cis ‐encode elements, such as RNA transcripts or sequence motifs, 6 interact with a variety of regulators to module canonical regulatory mechanisms 18 . First, we analyzed the differential‐expression lncRNAs between SPC‐A‐1sci and SPC‐A‐1 cells (the fold of change >2).…”

Section: Resultsmentioning

confidence: 99%

“…Growing evidence suggest that a few lncRNAs that regulate neighboring gene act preferentially in cis, and those cis-encode elements, such as RNA transcripts or sequence motifs, 6 interact with a variety of regulators to module canonical regulatory mechanisms. 18 First, we analyzed the differential-expression lncRNAs between SPC-A-1sci and SPC-A-1 cells (the fold of change >2). After cis-action bioinformatic analysis, we mainly focused on 44 differentialexpression lncRNAs that may be involved in cis regulation (Figure 1A).…”

Section: The Screen and Validation Of High-throughput Sequencing Betw...mentioning

confidence: 99%

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PLIC11 drives lung cancer progression through regulating the YY1/PIWIL4 axis

Zhu

Chen

Pan

et al. 2022

Molecular Carcinogenesis

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Lung cancer is the leading cause of cancer related deaths worldwide. Nonsmall cell lung cancers (NSCLC), the most common histological type of lung cancer, are known to be less well characterized. Long noncoding RNAs are a new class of cancer regulators. Here, we aimed to investigate the effect of lncRNA PLIC11 in NSCLC progression. In our study, we found that PLIC11 was upregulated in lung cancer, particularly in metastatic lung cancer tissues. Overexpression of PLIC11 enhanced cell proliferation, migration, and metastasis in vitro and in vivo. Mechanically, PLIC11 could interact with YY1 and promote PIWIL4 expression by transcription activation.

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Section: Resultsmentioning

confidence: 99%

Section: The Screen and Validation Of High-throughput Sequencing Betw...mentioning

confidence: 99%

PLIC11 drives lung cancer progression through regulating the YY1/PIWIL4 axis

Zhu

Chen

Pan

et al. 2022

Molecular Carcinogenesis

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“…The regulation of gene expression in imprinting clusters is provided in particular by lncRNAs, which are located in the immediate vicinity of ICRs and have an effect on large physical distances within clusters. Their precise roles need further clarification, but it is accepted that lncRNAs do more than simple transcriptional interference and are required for imprinting maintenance ( MacDonald and Mann, 2020 ; Llères et al, 2021 ). As such RNAs may exceed one kilobase in length, the use of direct RNA-seq methods compatible with long reads appears an appropriate strategy to favor their characterization while limiting the occurrence of bias ( Garalde et al, 2018 ).…”

Section: Towards Characterizing Imprintomes In the New Omics Eramentioning

confidence: 99%

Genomic Imprinting in the New Omics Era: A Model for Systems-Level Approaches

Hubert

Demars

2022

Front. Genet.

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Genomic imprinting represents a noteworthy inheritance mechanism leading to allele-specific regulations dependent of the parental origin. Imprinted loci are especially involved in essential mammalian functions related to growth, development and behavior. In this mini-review, we first offer a summary of current representations associated with genomic imprinting through key results of the three last decades. We then outline new perspectives allowed by the spread of new omics technologies tackling various interacting levels of imprinting regulations, including genomics, transcriptomics and epigenomics. We finally discuss the expected contribution of new omics data to unresolved big questions in the field.

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“…Our understanding of how regions affected by imprinting have evolved and function has expanded considerably ( Llères et al, 2021 ; Kaneko-Ishino and Ishino, 2022 ; Richard Albert et al, 2023 ) and we today have increasingly sophisticated resources and tools ( Hubert and Demars, 2022 ; Jima et al, 2022 ; Akbari et al, 2023 ) to identify and accurately report the links between nuclear architecture, Imprinting Control Regions (ICRs), imprinted genes, other genes including different RNA species and, finally, phenotypes. While cytosine methylation is key to almost all regulations that affect it, including transgenerational maintenance, imprinting involves multi-scale mechanisms ( Monk et al, 2019 ), giving grounds for multi-omics approaches ( Hubert and Demars, 2022 ).…”

Section: Introductionmentioning

confidence: 99%

Livestock species as emerging models for genomic imprinting

Hubert,

Perret,

Riquet

et al. 2024

Front. Cell Dev. Biol.

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Genomic imprinting is an epigenetically-regulated process of central importance in mammalian development and evolution. It involves multiple levels of regulation, with spatio-temporal heterogeneity, leading to the context-dependent and parent-of-origin specific expression of a small fraction of the genome. Genomic imprinting studies have therefore been essential to increase basic knowledge in functional genomics, evolution biology and developmental biology, as well as with regard to potential clinical and agrigenomic perspectives. Here we offer an overview on the contribution of livestock research, which features attractive resources in several respects, for better understanding genomic imprinting and its functional impacts. Given the related broad implications and complexity, we promote the use of such resources for studying genomic imprinting in a holistic and integrative view. We hope this mini-review will draw attention to the relevance of livestock genomic imprinting studies and stimulate research in this area.

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Exploring chromatin structural roles of non-coding RNAs at imprinted domains

Cited by 14 publications

References 133 publications

PLIC11 drives lung cancer progression through regulating the YY1/PIWIL4 axis

PLIC11 drives lung cancer progression through regulating the YY1/PIWIL4 axis

Genomic Imprinting in the New Omics Era: A Model for Systems-Level Approaches

Livestock species as emerging models for genomic imprinting

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