Selenium deficiency inhibits myocardial development and differentiation by targeting the mir-215-5p/CTCF axis in chicken

Jingzeng Cai; Jie Yang; Qi Liu; Yafan Gong; Yuan Zhang; Ziwei Zhang

doi:10.1039/c8mt00319j

Tumor-Progressive Mechanisms Mediating miRNA–Protein Interaction

International Journal of Molecular Sciences ◽

10.3390/ijms222212303 ◽

2021 ◽

Vol 22 (22) ◽

pp. 12303

Author(s):

Hiroaki Konishi ◽

Hiroki Sato ◽

Kenji Takahashi ◽

Mikihiro Fujiya

Keyword(s):

Cancer Progression ◽

Regulatory System ◽

Mrna Translation ◽

Cellular Protein ◽

Clinical Applications ◽

Cancer Prognosis ◽

Cellular Functions ◽

Previous Decade ◽

Extracellular Mirnas ◽

Development And Differentiation

MicroRNAs (miRNAs) are single-stranded short-chain RNAs that are endogenously expressed in vertebrates; they are considered the fine-tuners of cellular protein expression that act by modifying mRNA translation. miRNAs control tissue development and differentiation, cell growth, and apoptosis in cancer and non-cancer cells. Aberrant regulation of miRNAs is involved in the pathogenesis of various diseases including cancer. Numerous investigations have shown that the changes in cellular miRNA expression in cancerous tissues and extracellular miRNAs enclosed in exosomes are correlated with cancer prognosis. Therefore, miRNAs can be used as cancer biomarkers and therapeutic targets for cancer in clinical applications. In the previous decade, miRNAs have been shown to regulate cellular functions by directly binding to proteins and mRNAs, thereby controlling cancer progression. This regulatory system implies that cancer-associated miRNAs can be applied as molecular-targeted therapy. This review discusses the roles of miRNA–protein systems in cancer progression and its future applications in cancer treatment.

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Gap Junctions and the Regulation of Cellular Functions of Stem Cells during Development and Differentiation

Methods ◽

10.1006/meth.1999.0941 ◽

2000 ◽

Vol 20 (2) ◽

pp. 245-264 ◽

Cited By ~ 118

Author(s):

James E. Trosko ◽

Chia-Cheng Chang ◽

Melinda R. Wilson ◽

Brad Upham ◽

Tomonori Hayashi ◽

...

Keyword(s):

Stem Cells ◽

Gap Junctions ◽

Cellular Functions ◽

Development And Differentiation

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The nuclear envelope and its involvement in cellular stress responses

Biochemical Society Transactions ◽

10.1042/bst20110719 ◽

2011 ◽

Vol 39 (6) ◽

pp. 1795-1798 ◽

Cited By ~ 11

Author(s):

Ashraf N. Malhas ◽

David J. Vaux

Keyword(s):

Transcription Factors ◽

Nuclear Envelope ◽

Stress Responses ◽

Structural Integrity ◽

Cellular Stress ◽

Cellular Functions ◽

Different Types ◽

Cellular Stress Responses ◽

Development And Differentiation ◽

The Many

The nuclear envelope is not only important for the structural integrity of the nucleus, but also involved in a number of cellular functions. It has been shown to be important for maintaining and controlling chromatin organization, sequestering transcription factors, replication, transcription and signalling. The nuclear envelope is thus important for development and differentiation, and some of its components are essential for cell viability. Among the many functions which are emerging for the nuclear envelope is its involvement in protecting the cell against different types of cellular stress. In the present paper, we review key findings which describe the roles of nuclear envelope components in responses to common types of stress conditions.

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lncRNAs in development and differentiation: from sequence motifs to functional characterization

Development ◽

10.1242/dev.182741 ◽

2021 ◽

Vol 148 (1) ◽

pp. dev182741

Author(s):

Florian Constanty ◽

Alena Shkumatava

Keyword(s):

Molecular Mechanisms ◽

Functional Characterization ◽

Sequence Motifs ◽

Cellular Functions ◽

Rna Motifs ◽

Rna Sequences ◽

Conserved Sequence ◽

Interaction Partners ◽

Sequence Elements ◽

Development And Differentiation

ABSTRACTThe number of long noncoding RNAs (lncRNAs) with characterized developmental and cellular functions continues to increase, but our understanding of the molecular mechanisms underlying lncRNA functions, and how they are dictated by RNA sequences, remains limited. Relatively short, conserved sequence motifs embedded in lncRNA transcripts are often important determinants of lncRNA localization, stability and interactions. Identifying such RNA motifs remains challenging due to the substantial length of lncRNA transcripts and the rapid evolutionary turnover of lncRNA sequences. Nevertheless, the recent discovery of specific RNA elements, together with their experimental interrogation, has enabled the first step in classifying heterogeneous lncRNAs into sub-groups with similar molecular mechanisms and functions. In this Review, we focus on lncRNAs with roles in development, cell differentiation and normal physiology in vertebrates, and we discuss the sequence elements defining their functions. We also summarize progress on the discovery of regulatory RNA sequence elements, as well as their molecular functions and interaction partners.

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The Polycomb Orthologues in Teleost Fishes and Their Expression in the Zebrafish Model

Genes ◽

10.3390/genes11040362 ◽

2020 ◽

Vol 11 (4) ◽

pp. 362

Author(s):

Ludivine Raby ◽

Pamela Völkel ◽

Xuefen Le Bourhis ◽

Pierre-Olivier Angrand

Keyword(s):

Transcriptional Repression ◽

Cell Biology ◽

Global Analysis ◽

Mutual Exclusion ◽

Protein Family ◽

Specific Gene ◽

Cellular Functions ◽

Zebrafish Model ◽

Vertebrate Model ◽

Development And Differentiation

The Polycomb Repressive Complex 1 (PRC1) is a chromatin-associated protein complex involved in transcriptional repression of hundreds of genes controlling development and differentiation processes, but also involved in cancer and stem cell biology. Within the canonical PRC1, members of Pc/CBX protein family are responsible for the targeting of the complex to specific gene loci. In mammals, the Pc/CBX protein family is composed of five members generating, through mutual exclusion, different PRC1 complexes with potentially distinct cellular functions. Here, we performed a global analysis of the cbx gene family in 68 teleost species and traced the distribution of the cbx genes through teleost evolution in six fish super-orders. We showed that after the teleost-specific whole genome duplication, cbx4, cbx7 and cbx8 are retained as pairs of ohnologues. In contrast, cbx2 and cbx6 are present as pairs of ohnologues in the genome of several teleost clades but as singletons in others. Furthermore, since zebrafish is a widely used vertebrate model for studying development, we report on the expression of the cbx family members during zebrafish development and in adult tissues. We showed that all cbx genes are ubiquitously expressed with some variations during early development.

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Surface Structure of Nucleated Animal Cells: Carbon Replicas

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100060611 ◽

1967 ◽

Vol 25 ◽

pp. 120-121

Author(s):

Robert M. Glaeser ◽

Thea B. Scott

Keyword(s):

Cell Surface ◽

Surface Structure ◽

Particle Diameter ◽

Cellular Functions ◽

Animal Cells ◽

Replica Technique ◽

Carbon Replica ◽

Characteristic Particle ◽

Cell Surface Structure ◽

Carbon Replicas

The carbon-replica technique can be used to obtain information about cell-surface structure that cannot ordinarily be obtained by thin-section techniques. Mammalian erythrocytes have been studied by the replica technique and they appear to be characterized by a pebbly or “plaqued“ surface texture. The characteristic “particle” diameter is about 200 Å to 400 Å. We have now extended our observations on cell-surface structure to chicken and frog erythrocytes, which possess a broad range of cellular functions, and to normal rat lymphocytes and mouse ascites tumor cells, which are capable of cell division. In these experiments fresh cells were washed in Eagle's Minimum Essential Medium Salt Solution (for suspension cultures) and one volume of a 10% cell suspension was added to one volume of 2% OsO4 or 5% gluteraldehyde in 0.067 M phosphate buffer, pH 7.3. Carbon replicas were obtained by a technique similar to that employed by Glaeser et al. Figure 1 shows an electron micrograph of a carbon replica made from a chicken erythrocyte, and Figure 2 shows an enlarged portion of the same cell.

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Multimode light microscopy and fluorescence-based reagents as tools for the study of chemical and molecular dynamics of living cells and tissues

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100122496 ◽

1992 ◽

Vol 50 (1) ◽

pp. 418-419

Author(s):

D. L. Taylor

Keyword(s):

Living Cells ◽

Cellular Level ◽

Molecular Techniques ◽

Cellular Functions ◽

Macromolecular Assemblies ◽

Cell Functions ◽

Molecular Events ◽

Yield Information ◽

Full Knowledge ◽

Structural Methods

Cells function through the complex temporal and spatial interplay of ions, metabolites, macromolecules and macromolecular assemblies. Biochemical approaches allow the investigator to define the components and the solution chemical reactions that might be involved in cellular functions. Static structural methods can yield information concerning the 2- and 3-D organization of known and unknown cellular constituents. Genetic and molecular techniques are powerful approaches that can alter specific functions through the manipulation of gene products and thus identify necessary components and sequences of molecular events. However, full knowledge of the mechanism of particular cell functions will require direct measurement of the interplay of cellular constituents. Therefore, there has been a need to develop methods that can yield chemical and molecular information in time and space in living cells, while allowing the integration of information from biochemical, molecular and genetic approaches at the cellular level.

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Correlation Between Cellular Functions and Morphological Changes of Human Trophoblast in Vitro

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100116620 ◽

1975 ◽

Vol 33 ◽

pp. 600-601

Author(s):

John C. Garancis ◽

Robert O. Hussa ◽

Michael T. Story ◽

Donald Yorde ◽

Roland A. Pattillo

Keyword(s):

Electron Microscopy ◽

Cellular Proliferation ◽

Morphological Changes ◽

Culture Fluid ◽

Cellular Functions ◽

Human Trophoblast ◽

Transmission Electron ◽

Marked Activity ◽

Malignant Trophoblast

Human malignant trophoblast cells in continuous culture were incubated for 3 days in medium containing 1 mM N6-O2'-dibutyryl cyclic adenosine 3':5'-monophosphate (dibutyryl cyclic AMP) and 1 mM theophylline. The culture fluid was replenished daily. Stimulated cultures secreted many times more chorionic gonadotropin and estrogens than did control cultures in the absence of increased cellular proliferation. Scanning electron microscopy revealed remarkable surface changes of stimulated cells. Control cells (not stimulated) were smooth or provided with varying numbers of microvilli (Fig. 1). The latter, usually, were short and thin. The surface features of stimulated cells were considerably different. There was marked increase of microvilli which appeared elongated and thick. Many cells were covered with confluent polypoid projections (Fig. 2). Transmission electron microscopy demonstrated marked activity of cytoplasmic organelles. Mitochondria were increased in number and size; some giant forms with numerous cristae were observed.

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Signal-regulated oxidation of proteins via MICAL

Biochemical Society Transactions ◽

10.1042/bst20190866 ◽

2020 ◽

Vol 48 (2) ◽

pp. 613-620

Author(s):

Clara Ortegón Salas ◽

Katharina Schneider ◽

Christopher Horst Lillig ◽

Manuela Gellert

Keyword(s):

Signal Transduction ◽

Hydrogen Peroxide ◽

Cell Death ◽

Redox Regulation ◽

Signal Transduction Pathways ◽

Cellular Functions ◽

Intracellular Signals ◽

Amino Acid Side Chains ◽

Specific Receptors ◽

Sulfur Containing

Processing of and responding to various signals is an essential cellular function that influences survival, homeostasis, development, and cell death. Extra- or intracellular signals are perceived via specific receptors and transduced in a particular signalling pathway that results in a precise response. Reversible post-translational redox modifications of cysteinyl and methionyl residues have been characterised in countless signal transduction pathways. Due to the low reactivity of most sulfur-containing amino acid side chains with hydrogen peroxide, for instance, and also to ensure specificity, redox signalling requires catalysis, just like phosphorylation signalling requires kinases and phosphatases. While reducing enzymes of both cysteinyl- and methionyl-derivates have been characterised in great detail before, the discovery and characterisation of MICAL proteins evinced the first examples of specific oxidases in signal transduction. This article provides an overview of the functions of MICAL proteins in the redox regulation of cellular functions.

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Receptor Mediated Binding of the Fibrinolytic Components, Plasminogen and Urokinase, to Peripheral Blood Cells

Thrombosis and Haemostasis ◽

10.1055/s-0038-1646019 ◽

1987 ◽

Vol 58 (03) ◽

pp. 936-942 ◽

Cited By ~ 96

Author(s):

Lindsey A Miles ◽

Edward F Plow

Keyword(s):

T Cells ◽

B Cell ◽

Peripheral Blood ◽

Binding Sites ◽

Blood Cells ◽

High Capacity ◽

Red Cells ◽

Peripheral Blood Cells ◽

Cellular Functions ◽

Fibrinolytic Proteins

SummaryGlu-plasminogen binds to platelets; the monocytoid line, U937, and the human fetal fibroblast line, GM1380 bind both plasminogen and its activator, urokinase. This study assesses the interaction of these fibrinolytic proteins with circulating human blood cells. Plasminogen bound minimally to red cells but bound saturably and reversibly to monocytes, granulocytes and lymphocytes with apparent Kd values of 0.9-1.4 μM. The interactions were of high capacity with 1.6 to 49 × 105 sites/cell and involved the lysine binding sites of plasminogen. Both T cells and non-rosetting lymphocytes and two B cell lines saturably bound plasminogen. Urokinase bound saturably to gianulocytes, monocytes, non-rosetting lymphocytes and a B cell line, but minimally to T cells, platelets and red cells. Therefore, plasminogen binding sites of high capacity, of similar affinities, and with common recognition specificities are expressed by many peripheral blood cells. Urokinase receptors are also widely distributed, but less so than plasminogen binding sites. The binding ol plasminogen and/ or urokinase to these cells may lead to generation of cell- associated proteolytic activity which contributes to a variety of cellular functions.

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