Molecular Basis of the Function of Transcriptional Enhancers

Transcriptional enhancers are major genomic elements that control gene activity in eukaryotes. Recent studies provided deeper insight into the temporal and spatial organization of transcription in the nucleus, the role of non-coding RNAs in the process, and the epigenetic control of gene expression. Thus, multiple molecular details of enhancer functioning were revealed. Here, we describe the recent data and models of molecular organization of enhancer-driven transcription.

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POLIII-derived non-coding RNAs acting as scaffolds and decoys

Journal of Molecular Cell Biology ◽

10.1093/jmcb/mjz049 ◽

2019 ◽

Vol 11 (10) ◽

pp. 880-885 ◽

Cited By ~ 5

Author(s):

Hendrik Täuber ◽

Stefan Hüttelmaier ◽

Marcel Köhn

Keyword(s):

Rna Binding ◽

Rna Binding Proteins ◽

Current Knowledge ◽

Cellular Functions ◽

Control Of Gene Expression ◽

Ribonucleoprotein Complexes ◽

Small Ncrnas ◽

Non Coding Rnas ◽

And Function

Abstract A large variety of eukaryotic small structured POLIII-derived non-coding RNAs (ncRNAs) have been described in the past. However, for only few, e.g. 7SL and H1/MRP families, cellular functions are well understood. For the vast majority of these transcripts, cellular functions remain unknown. Recent findings on the role of Y RNAs and other POLIII-derived ncRNAs suggest an evolutionarily conserved function of these ncRNAs in the assembly and function of ribonucleoprotein complexes (RNPs). These RNPs provide cellular `machineries’, which are essential for guiding the fate and function of a variety of RNAs. In this review, we summarize current knowledge on the role of POLIII-derived ncRNAs in the assembly and function of RNPs. We propose that these ncRNAs serve as scaffolding factors that `chaperone’ RNA-binding proteins (RBPs) to form functional RNPs. In addition or associated with this role, some small ncRNAs act as molecular decoys impairing the RBP-guided control of RNA fate by competing with other RNA substrates. This suggests that POLIII-derived ncRNAs serve essential and conserved roles in the assembly of larger RNPs and thus the control of gene expression by indirectly guiding the fate of mRNAs and lncRNAs.

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Architecturally complex O-glycopeptidases are customized for mucin recognition and hydrolysis

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.2019220118 ◽

2021 ◽

Vol 118 (10) ◽

pp. e2019220118

Author(s):

Benjamin Pluvinage ◽

Elizabeth Ficko-Blean ◽

Ilit Noach ◽

Christopher Stuart ◽

Nicole Thompson ◽

...

Keyword(s):

Three Dimensional ◽

Peptide Bond ◽

Molecular Organization ◽

Dimensional Structure ◽

Carbohydrate Binding ◽

Functional Roles ◽

Protein Substrates ◽

Individual Domain ◽

Insight Into

A challenge faced by peptidases is the recognition of highly diverse substrates. A feature of some peptidase families is the capacity to specifically use post-translationally added glycans present on their protein substrates as a recognition determinant. This is ultimately critical to enabling peptide bond hydrolysis. This class of enzyme is also frequently large and architecturally sophisticated. However, the molecular details underpinning glycan recognition by these O-glycopeptidases, the importance of these interactions, and the functional roles of their ancillary domains remain unclear. Here, using the Clostridium perfringens ZmpA, ZmpB, and ZmpC M60 peptidases as model proteins, we provide structural and functional insight into how these intricate proteins recognize glycans as part of catalytic and noncatalytic substrate recognition. Structural, kinetic, and mutagenic analyses support the key role of glycan recognition within the M60 domain catalytic site, though they point to ZmpA as an apparently inactive enzyme. Wider examination of the Zmp domain content reveals noncatalytic carbohydrate binding as a feature of these proteins. The complete three-dimensional structure of ZmpB provides rare insight into the overall molecular organization of a highly multimodular enzyme and reveals how the interplay of individual domain function may influence biological activity. O-glycopeptidases frequently occur in host-adapted microbes that inhabit or attack mucus layers. Therefore, we anticipate that these results will be fundamental to informing more detailed models of how the glycoproteins that are abundant in mucus are destroyed as part of pathogenic processes or liberated as energy sources during normal commensal lifestyles.

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The Critical Role of miRNAs in Regulation of Flowering Time and Flower Development

Genes ◽

10.3390/genes11030319 ◽

2020 ◽

Vol 11 (3) ◽

pp. 319

Author(s):

Saquib Waheed ◽

Lihui Zeng

Keyword(s):

Gene Expression ◽

Flower Development ◽

Critical Role ◽

Transcriptional Level ◽

Control Of Gene Expression ◽

Non Coding Rnas ◽

Time Of Year ◽

Acting In Concert ◽

Flowering Process

Flowering is an important biological process for plants that ensures reproductive success. The onset of flowering needs to be coordinated with an appropriate time of year, which requires tight control of gene expression acting in concert to form a regulatory network. MicroRNAs (miRNAs) are non-coding RNAs known as master modulators of gene expression at the post-transcriptional level. Many different miRNA families are involved in flowering-related processes such as the induction of floral competence, floral patterning, and the development of floral organs. This review highlights the diverse roles of miRNAs in controlling the flowering process and flower development, in combination with potential biotechnological applications for miRNAs implicated in flower regulation.

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Transcriptomic Profiling of Fe-Responsive lncRNAs and Their Regulatory Mechanism in Rice

Genes ◽

10.3390/genes12040567 ◽

2021 ◽

Vol 12 (4) ◽

pp. 567

Author(s):

Shoudong Wang ◽

Shuo Sun ◽

Runze Guo ◽

Wenying Liao ◽

Huixia Shou

Keyword(s):

Regulatory Mechanism ◽

Transcriptional Response ◽

Fe Deficiency ◽

Rna Seq ◽

Systematic Screening ◽

Yield And Quality ◽

Non Coding Rnas ◽

Fe Homeostasis ◽

Insight Into

Iron (Fe) deficiency directly affects crop growth and development, ultimately resulting in reduced crop yield and quality. Recently, long non-coding RNAs (lncRNAs) have been demonstrated to play critical regulatory roles in a multitude of pathways across numerous species. However, systematic screening of lncRNAs responding to Fe deficiency and their regulatory mechanism in plants has not been reported. In this work, 171 differently expressed lncRNAs (DE-lncRNAs) were identified based on analysis of strand-specific RNA-seq data from rice shoots and roots under Fe-deficient conditions. We also found several lncRNAs, which could generate miRNAs or act as endogenous target mimics to regulate expression of Fe-related genes. Analysis of interaction networks and gene ontology enrichment revealed that a number of DE-lncRNAs were associated with iron transport and photosynthesis, indicating a possible role of lncRNAs in regulation of Fe homeostasis. Moreover, we identified 76 potential lncRNA targets of OsbHLH156, a key regulator for transcriptional response to Fe deficiency. This study provides insight into the potential functions and regulatory mechanism of Fe-responsive lncRNAs and would be an initial and reference for any further studies regarding lncRNAs involved in Fe deficiency in plants.

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Long Non-coding RNA: Insight Into Mechanisms of Alzheimer's Disease

Frontiers in Molecular Neuroscience ◽

10.3389/fnmol.2021.821002 ◽

2022 ◽

Vol 14 ◽

Author(s):

Zhen Lan ◽

Yanting Chen ◽

Jiali Jin ◽

Yun Xu ◽

Xiaolei Zhu

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Neurodegenerative Disorder ◽

Vital Role ◽

Biological Functions ◽

Non Coding Rna ◽

Non Coding Rnas ◽

Long Non Coding Rna ◽

Insight Into

Alzheimer's disease (AD), a heterogeneous neurodegenerative disorder, is the most common cause of dementia accounting for an estimated 60–80% of cases. The pathogenesis of AD remains unclear, and no curative treatment is available so far. Increasing evidence has revealed a vital role of non-coding RNAs (ncRNAs), especially long non-coding RNAs (lncRNAs), in AD. LncRNAs contribute to the pathogenesis of AD via modulating amyloid production, Tau hyperphosphorylation, mitochondrial dysfunction, oxidative stress, synaptic impairment and neuroinflammation. This review describes the biological functions and mechanisms of lncRNAs in AD, indicating that lncRNAs may provide potential therapeutic targets for the diagnosis and treatment of AD.

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Decoding the Oncogenic Signals from the Long Non-Coding RNAs

Onco ◽

10.3390/onco1020014 ◽

2021 ◽

Vol 1 (2) ◽

pp. 176-206

Author(s):

Revathy Nadhan ◽

Danny N. Dhanasekaran

Keyword(s):

High Throughput Sequencing ◽

Critical Role ◽

Therapy Resistance ◽

Signaling Cascades ◽

Clear Understanding ◽

Sequencing Technologies ◽

Cancer Cell Survival ◽

Non Coding Rnas ◽

Insight Into

Cancer is one of the leading causes of death worldwide. Multifactorial etiology of cancer and tumor heterogeneity are the two most acute challenges in existing diagnostic and therapeutic strategies for cancer. An effective precision cancer medicine strategy to overcome these challenges requires a clear understanding of the transcriptomic landscape of cancer cells. Recent innovative breakthroughs in high-throughput sequencing technologies have identified the oncogenic or tumor-suppressor role of several long non-coding RNAs (lncRNAs). LncRNAs have been characterized as regulating various signaling cascades which are involved in the pathobiology of cancer. They modulate cancer cell survival, proliferation, metabolism, invasive metastasis, stemness, and therapy-resistance through their interactions with specific sets of proteins, miRNAs and other non-coding RNAs, mRNAs, or DNAs in cells. By virtue of their ability to regulate multiple sets of genes and their cognate signaling pathways, lncRNAs are emerging as potential candidates for diagnostic, prognostic, and therapeutic targets. This review is focused on providing insight into the mechanisms by which different lncRNAs play a critical role in cancer growth, and their potential role in cancer diagnosis, prognosis, and therapy.

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Insight into the Role of Long Non-coding RNAs During Osteogenesis in Mesenchymal Stem Cells

Current Stem Cell Research & Therapy ◽

10.2174/1574888x12666171115124112 ◽

2017 ◽

Vol 13 (1) ◽

Cited By ~ 2

Author(s):

Sibei Huo ◽

Yachuan Zhou ◽

Xinyu He ◽

Mian Wan ◽

Wei Du ◽

...

Keyword(s):

Stem Cells ◽

Mesenchymal Stem Cells ◽

Non Coding Rnas ◽

Insight Into

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Role of Exosomal Non-coding RNAs in Gastric Cancer: Biological Functions and Potential Clinical Applications

Frontiers in Oncology ◽

10.3389/fonc.2021.700168 ◽

2021 ◽

Vol 11 ◽

Author(s):

Feng Hu ◽

Jixuan Liu ◽

Huibo Liu ◽

Fan Li ◽

Minjie Wan ◽

...

Keyword(s):

Gastric Cancer ◽

Treatment Resistance ◽

Bioactive Molecules ◽

Research Progress ◽

Circular Rnas ◽

Micro Rnas ◽

Non Coding Rnas ◽

New Biomarkers ◽

Insight Into

Gastric cancer (GC) is one of the most common fatal cancers worldwide. The communication between GC and other cells in the GC microenvironment directly affects GC progression. Recently, exosomes have been revealed as new players in intercellular communication. They play an important role in human health and diseases, including cancer, owing to their ability to carry various bioactive molecules, including non-coding RNAs (ncRNAs). NcRNAs, including micro RNAs, long non-coding RNAs, and circular RNAs, play a significant role in various pathophysiological processes, especially cancer. Increasing evidence has shown that exosomal ncRNAs are involved in the regulation of tumor proliferation, invasion, metastasis, angiogenesis, immune regulation, and treatment resistance in GC. In addition, exosomal ncRNAs have promising potential as diagnostic and prognostic markers for GC. Considering the biocompatibility of exosomes, they can also be used as biological carriers for targeted therapy. This review summarizes the current research progress on exosomal ncRNAs in gastric cancer, focusing on their biological role in GC and their potential as new biomarkers for GC and therapeutics. Our review provides insight into the mechanisms involved in GC progression, which may provide a new point cut for the discovery of new diagnostic markers and therapeutic strategies.

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miRNAs Signatures In Patients With Acute Liver Injury: Clinical Concerns and Correlations

Current Molecular Medicine ◽

10.2174/1566524020666191211153546 ◽

2020 ◽

Vol 20 (5) ◽

pp. 325-335

Author(s):

Hitarthi S. Vyas ◽

Kapil K. Upadhyay ◽

Ranjitsinh V. Devkar

Keyword(s):

Liver Injury ◽

Biological Significance ◽

Clinical Findings ◽

Cellular Regulation ◽

Liver Injuries ◽

The Status ◽

Non Coding Rnas ◽

Underlying Mechanisms ◽

Insight Into

: Non-coding RNAs can be highly exploited for their biological significance in living systems. miRNAs are in the upstream position of cellular regulation cascade and hold merit in its state. A plethora of information is available on a wide variety of miRNAs that undergo alterations in experimentally induced models of liver injuries. The underlying mechanisms governed by these miRNAs have been inferred through cellbased experiments but the scientific knowledge on miRNA signatures in patients with liver injury are primordial and lack scientific clarity. Hence, it is crucial to get insight into the status and synergy of miRNAs in patients, with varying degrees of acute toxic manifestations in the liver. Though some miRNAs are being investigated in clinical trials, a major research lacuna exists with regard to the functional role of other miRNAs in liver diseases. This review article is a meticulous compilation of disease based or drug/alcohol based acute liver injuries in patients and resultant alteration in their miRNA profile. Investigative reports on underlying miRNA-liver crosstalk in cell-based or murine models are also discussed herein to draw a correlation with clinical findings.

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New insight into the role of long non-coding RNAs in the pathogenesis of preeclampsia

Hypertension in Pregnancy ◽

10.1080/10641955.2019.1573252 ◽

2019 ◽

Vol 38 (1) ◽

pp. 41-51 ◽

Cited By ~ 4

Author(s):

Mohammad-Taher Moradi ◽

Zohreh Rahimi ◽

Asad Vaisi-Raygani

Keyword(s):

Non Coding Rnas ◽

Insight Into

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