23 results on '"Singer, Robert H."'
Search Results
2. The nuclear connection in RNA transport and localization
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Farina, Kim L. and Singer, Robert H.
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RNA , *PROTEINS , *RNA-protein interactions , *CYTOPLASM - Abstract
RNA-binding proteins are involved in various aspects of RNA metabolism such as processing, translational control, stabilization, localization and transport. Many of these proteins bind several RNA targets and have multiple functions. In this review we focus on RNA-binding proteins that are implicated in RNA transport and localization and that also have a role in other aspects of RNA metabolism. These proteins might link nuclear events, such as RNA splicing, with the subsequent cytoplasmic localization of specific transcripts. [Copyright &y& Elsevier]
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- 2002
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3. The Capacity of Polyadenylated RNA from Myogenic Cells Treated with Actinomycin D to Direct Protein Synthesis in a Cell-Free System.
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Kessler-Icekson, Gania, Singer, Robert H., and Yafff, David
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RNA , *MYOBLASTS , *NUCLEIC acids , *RIBOSE , *AMINO acids , *BIOCHEMISTRY - Abstract
Cytoplasmic polyadenylated RNA of myogenic cells was shown to decay with biphasic kinetics, suggesting the existence of two main populations of mRNA with respect to stability. In the present study, the stability of mRNA extracted from actinomycin-D-treated cultures of a myogenic cell line was tested by its capacity to direct protein synthesis in the wheat germ cell-free system, The products were analyzed by dodecylsulphate/polyacrylamide gel electrophoresis. All major radioactive bands found in gels used for analyzing the products of the cell-free system directed by polyadenylated RNA extracted from untreated cultures were also found in similar gels containing products of RNA extracted after many hours of application of actinomycin D. The capacity to code for specific protein bands decays with a half-life ranging between 11 and 40 h. No fast-decaying translatable mRNA could be detected by this method. Instead. it was found that during the first 4-6 h following application of actinomycin D. the capacity of RNA to stimulate incorporation of amino acids into total acidinsoluble material increased by 20-30%. The synthesis of specific products increased by up to 100%The possibility that the fast-decaying polyadenylated RNA or part of it is nontranslatable RNA is discussed. [ABSTRACT FROM AUTHOR]
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- 1978
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4. Stability of Polyadenylated RNA in Differentiating Myogenic Cells.
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Singer, Robert H. and Kessler-Icekson, Gania
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RNA , *NUCLEIC acids , *RIBOSE , *MYOBLASTS , *FIBERS , *BIOCHEMISTRY - Abstract
Three independent methods of measurement showed that cytoplasmic polyadenylated RNA from the differentiating myogenic cell line L8 consists of two main populations with regard to stability, one with a half-life of less than 4 h and the other with a half-life of 17-54 h. Similar results were obtained in the presence and absence of actinomycin D. During the fusion of mononucleated myoblasts into multinucleated fibers, there was an increase in both the steady-state pool of the more stable polyadenylated RNA and the proportion of stable polyadenylated RNA synthesized in pulse labelling. [ABSTRACT FROM AUTHOR]
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- 1978
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5. Mating type switching in yeast controlled by asymmetric localization of ASH1 mRNA.
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Long, Roy M. and Singer, Robert H.
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RNA - Abstract
Reports a study that shows ASH1 messenger RNA (mRNA) preferentially accumulates in daughter cells by a process that is dependent on actin and myosin. The study results suggesting that localization of mRNA may have been an early property of the eukaryotic lineage; References and notes.
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- 1997
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6. Visualization of Early RNA Replication Kinetics of SARS-CoV-2 by Using Single Molecule RNA-FISH Combined with Immunofluorescence.
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Pathak, Rajiv, Eliscovich, Carolina, Mena, Ignacio, Cupic, Anastasija, Rutkowska, Magdalena, Chandran, Kartik, Jangra, Rohit K., García-Sastre, Adolfo, Singer, Robert H., and Kalpana, Ganjam V.
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SINGLE molecules , *IMMUNOFLUORESCENCE , *SARS-CoV-2 , *RNA , *DATA visualization - Abstract
SARS-CoV-2 infection remains a global burden. Despite intensive research, the mechanism and dynamics of early viral replication are not completely understood, such as the kinetics of the formation of genomic RNA (gRNA), sub-genomic RNA (sgRNA), and replication centers/organelles (ROs). We employed single-molecule RNA-fluorescence in situ hybridization (smRNA-FISH) to simultaneously detect viral gRNA and sgRNA and immunofluorescence to detect nsp3 protein, a marker for the formation of RO, and carried out a time-course analysis. We found that single molecules of gRNA are visible within the cytoplasm at 30 min post infection (p.i.). Starting from 2 h p.i., most of the viral RNA existed in clusters/speckles, some of which were surrounded by single molecules of sgRNA. These speckles associated with nsp3 protein starting at 3 h p.i., indicating that these were precursors to ROs. Furthermore, RNA replication was asynchronous, as cells with RNA at all stages of replication were found at any given time point. Our probes detected the SARS-CoV-2 variants of concern, and also suggested that the BA.1 strain exhibited a slower rate of replication kinetics than the WA1 strain. Our results provide insights into the kinetics of SARS-CoV-2 early post-entry events, which will facilitate identification of new therapeutic targets for early-stage replication to combat COVID-19. [ABSTRACT FROM AUTHOR]
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- 2024
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7. RNA localization: visualization in real-time
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Singer, Robert H.
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RNA , *VISUALIZATION , *NUCLEIC acids - Abstract
RNA localization during development is required for proper sorting of developmental determinants. Direct visualization of endogenous transcribed RNA is now possible and should provide new insights into how this process occurs. [Copyright &y& Elsevier]
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- 2003
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8. Dynamic visualization of transcription and RNA subcellular localization in zebrafish.
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Campbell, Philip D., Chao, Jeffrey A., Singer, Robert H., and Marlow, Florence L.
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GENETIC transcription , *RNA , *ZEBRA danio , *BACTERIOPHAGES , *COAT proteins (Viruses) - Abstract
Live imaging of transcription and RNA dynamics has been successful in cultured cells and tissues of vertebrates but is challenging to accomplish in vivo. The zebrafish offers important advantages to study these processes - optical transparency during embryogenesis, genetic tractability and rapid development. Therefore, to study transcription and RNA dynamics in an intact vertebrate organism, we have adapted the MS2 RNA-labeling system to zebra fish. By using this binary system to co-express a fluorescent MS2 bacteriophage coat protein (MCP) and an RNA of interest tagged with multiple copies of the RNA hairpin MS2-binding site (MBS), live-cell imaging of RNA dynamics at single RNA molecule resolution has been achieved in other organisms. Here, using a Gateway compatible MS2 labeling system, we generated stable transgenic Zebra fish lines expressing MCP, validated the MBS-MCP interaction and applied the system to investigate zygotic genome activation (ZGA) and RNA localization in primordial germ cells (PGCs) in Zebra fish. Although cleavage stage cells are initially transcriptionally silent, we detect transcription of MS2-tagged transcripts driven by the βactin promoter at ~3-3.5 h post-fertilization, consistent with the previously reported ZGA. Furthermore, we show that MS2-tagged nanos3 3'UTR transcripts localize to PGCs, where they are diffusely cytoplasmic and within larger cytoplasmic accumulations reminiscent of those displayed by endogenous nanos3. These tools provide a new avenue for live-cell imaging of RNA molecules in an intact vertebrate. Together with new techniques for targeted genome editing, this system will be a valuable tool to tag and study the dynamics of endogenous RNAs during zebra fish developmental processes. [ABSTRACT FROM AUTHOR]
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- 2015
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9. Stable Morphology, but Dynamic Internal Reorganisation, of Interphase Human Chromosomes in Living Cells.
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Müller, Iris, Boyle, Shelagh, Singer, Robert H., Bickmore, Wendy A., and Chubb, Jonathan R.
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HUMAN chromosomes , *FLUORESCENCE in situ hybridization , *HISTONES , *CELL morphology , *CELL cycle , *MITOSIS regulation , *RNA , *IMMUNOFLUORESCENCE , *IMAGING systems in genetics - Abstract
Despite the distinctive structure of mitotic chromosomes, it has not been possible to visualise individual chromosomes in living interphase cells, where chromosomes spend over 90% of their time. Studies of interphase chromosome structure and dynamics use fluorescence in-situ hybridisation (FISH) on fixed cells, which potentially damages structure and loses dynamic information. We have developed a new methodology, involving photoactivation of labelled histone H3 at mitosis, to visualise individual and specific human chromosomes in living interphase cells. Our data revealed bulk chromosome volume and morphology are established rapidly after mitosis, changing only incrementally after the first hour of G1. This contrasted with the behaviour of specific loci on labelled chromosomes, which showed more progressive reorganisation, and revealed that ''looping out'' of chromatin from chromosome territories is a dynamic state. We measured considerable heterogeneity in chromosome decondensation, even between sister chromatids, which may reflect local structural impediments to decondensation and could potentially amplify transcriptional noise. Chromosome structure showed tremendous resistance to inhibitors of transcription, histone deacetylation and chromatin remodelling. Together, these data indicate steric constraints determine structure, rather than innate chromosome architecture or function-driven anchoring, with interphase chromatin organisation governed primarily by opposition between needs for decondensation and the space available for this to happen. [ABSTRACT FROM AUTHOR]
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- 2010
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10. Imaging mRNA movement from transcription sites to translation sites
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Rodriguez, Alexis J., Condeelis, John, Singer, Robert H., and Dictenberg, Jason B.
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MESSENGER RNA , *NUCLEIC acids , *RNA , *PROTEIN synthesis - Abstract
Abstract: RNA localization is one mechanism to temporally and spatially restrict protein synthesis to specific subcellular compartments in response to extracellular stimuli. To understand the mechanisms of mRNA localization, a number of methods have been developed to follow the path of these molecules in living cells including direct labeling of target mRNAs, the MS2-GFP system, and molecular beacons. We review advances in these methods with the goal of identifying the particular strengths and weaknesses of the various approaches in their ability to follow the movements of mRNAs from transcription sites to translation sites. [Copyright &y& Elsevier]
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- 2007
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11. Localization of a β-Actin Messenger Ribonucleoprotein Complex with Zipcode-Binding Protein Modulates the Density of Dendritic Filopodia and Filopodial Synapses.
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Taesun Eom, Fabio, Antar, Laura N., Singer, Robert H., and Bassell, Gary J.
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DENDRITES , *NEURONS , *CELLS , *NERVOUS system , *MESSENGER RNA , *RNA - Abstract
The dendritic transport and local translation of mRNA may be an essential mechanism to regulate synaptic growth and plasticity. We investigated the molecular mechanism and function of β-actin mRNA localization in dendrites of cultured hippocampal neurons. Previous studies have shown that β-actin mRNA localization to the leading edge of fibroblasts or the growth cones of developing neurites involved a specific interaction between a zipcode sequence in the 3′ untranslated region and the mRNA-binding protein zipcode-binding protein-1 (ZBP1). Here, we show that ZBP1 is required for the localization of β-actin mRNA to dendrites. Knock-down of ZBP1 using morpholino antisense oligonucleotides reduced dendritic levels of ZBP1 and β-actin mRNA and impaired growth of dendritic filopodia in response to BDNF treatment. Transfection of an enhanced green fluorescent protein (EGFP)-β-actin construct, which contained the zipcode, increased the density of dendritic filopodia and filopodial synapses. Transfection of an EGFP construct, also with the zipcode, resulted in recruitment of endogenous ZBP1 and β-actin mRNA into dendrites and similarly increased the density of dendritic filopodia. However, the β-actin zipcode did not affect filopodial length or the density of mature spines. These results reveal a novel function for an mRNA localization element and its binding protein in the regulation of dendritic morphology and synaptic growth via dendritic filopodia. [ABSTRACT FROM AUTHOR]
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- 2003
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12. The snoRNA box C/D motif directs nucleolar targeting and also couples snoRNA synthesis and localization.
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Samarsky, Dmirty A., Fournier, Maurille J., Singer, Robert H, and Bertrand, Edouard
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RNA , *NUCLEOTIDES , *STEM cells , *MAMMALS , *CELLS , *YEAST - Abstract
Most small nucleolar RNAs (snoRNAs) fall into two families, known as the box C/D and box H/ACA snoRNAs. The various box elements are essential for snoRNA production and for snoRNA-directed modification of rRNA nucleotides. In the case of the box C/D snoRNAs, boxes C and D and an adjoining stem form a vital structure, known as the box C/D motif. Here, we examined expression of natural and artificial box C/D snoRNAs in yeast and mammalian cells, to assess the role of the box C/D motif in snoRNA localization. The results demonstrate that the motif is necessary and sufficient for nucleolar targeting, both in yeast and mammals. Moreover, in mammalian cells, RNA is targeted to coiled bodies as well. Thus, the box C/D motif is the first intranuclear RNA trafficking signal identified for an RNA family. Remarkably, it also couples snoRNA localization with synthesis and, most likely, function. The distribution of snoRNA precursors in mammalian cells suggests that this coupling is provided by a specific protein(s) which binds the box C/D motif during or rapidly after snoRNA transcription. The conserved nature of the box C/D motif indicates that its role in coupling production and localization of snoRNAs is of ancient evolutionary origin. [ABSTRACT FROM AUTHOR]
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- 1998
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13. Rrp17p Is a Eukaryotic Exonuclease Required for 5′ End Processing of Pre-60S Ribosomal RNA
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Oeffinger, Marlene, Zenklusen, Daniel, Ferguson, Angelica, Wei, Karen E., El Hage, Aziz, Tollervey, David, Chait, Brian T., Singer, Robert H., and Rout, Michael P.
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EUKARYOTIC cells , *EXONUCLEASES , *RIBOSOMES , *ORGANELLE formation , *CATALYSIS , *PROTEIN synthesis , *RNA - Abstract
Summary: Ribosomal processing requires a series of endo- and exonucleolytic steps for the production of mature ribosomes, of which most have been described. To ensure ribosome synthesis, 3′ end formation of rRNA uses multiple nucleases acting in parallel; however, a similar parallel mechanism had not been described for 5′ end maturation. Here, we identify Rrp17p as a previously unidentified 5′–3′ exonuclease essential for ribosome biogenesis, functioning with Rat1p in a parallel processing pathway analogous to that of 3′ end formation. Rrp17p is required for efficient exonuclease digestion of the mature 5′ ends of 5.8SS and 25S rRNAs, contains a catalytic domain close to its N terminus, and is highly conserved among higher eukaryotes, being a member of a family of exonucleases. We show that Rrp17p binds late pre-60S ribosomes, accompanying them from the nucleolus to the nuclear periphery, and provide evidence for physical and functional links between late 60S subunit processing and export. [Copyright &y& Elsevier]
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- 2009
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14. Mechanisms and cellular roles of local protein synthesis in mammalian cells
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Rodriguez, Alexis J, Czaplinski, Kevin, Condeelis, John S, and Singer, Robert H
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COMPOUND nucleus , *MESSENGER RNA , *RNA , *CARRIER proteins , *CELL physiology - Abstract
After the export from the nucleus it turns out that all mRNAs are not treated equally. Not only is mRNA subject to translation, but also through RNA-binding proteins and other trans-acting factors, eukaryotic cells interpret codes for spatial sorting within the mRNA sequence. These codes instruct the cytoskeleton and translation apparatus to make decisions about where to transport and when to translate the intended protein product. Signaling pathways decode extra-cellular cues and can modify transport and translation factors in the appropriate cytoplasmic space to achieve translation locally. Identifying regulatory sites on transport factors as well as novel physiological functions for well-known translation factors has provided significant advances in how spatially controlled translation impacts cell function. [Copyright &y& Elsevier]
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- 2008
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15. YRA1 Autoregulation Requires Nuclear Export and Cytoplasmic Edc3p-Mediated Degradation of Its Pre-mRNA
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Dong, Shuyun, Li, Chunfang, Zenklusen, Daniel, Singer, Robert H., Jacobson, Allan, and He, Feng
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MESSENGER RNA , *NUCLEIC acids , *EUKARYOTIC cells , *RNA - Abstract
Summary: Autoregulatory loops often provide precise control of the level of expression of specific genes that encode key regulatory proteins. Here we have defined a pathway by which Yra1p, a yeast mRNA export factor, controls its own expression. We show that YRA1 exon 1 sequences in cis and Yra1p in trans inhibit YRA1 pre-mRNA splicing and commit the pre-mRNA to nuclear export. Mex67p and Crm1p jointly promote YRA1 pre-mRNA export, and once in the cytoplasm, the pre-mRNA is degraded by a 5′ to 3′ decay mechanism that is dependent on the decapping activator Edc3p and on specific sequences in the YRA1 intron. These results illustrate how common steps in the nuclear processing, export, and degradation of a transcript can be uniquely combined to control the expression of a specific gene and suggest that Edc3p-mediated decay may have additional regulatory functions in eukaryotic cells. [Copyright &y& Elsevier]
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- 2007
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16. Transcriptional Pulsing of a Developmental Gene
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Chubb, Jonathan R., Trcek, Tatjana, Shenoy, Shailesh M., and Singer, Robert H.
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DEVELOPMENTAL genetics , *GENETIC transcription , *EUKARYOTIC cells , *CELL populations , *RNA , *DEVELOPMENTAL biology , *GENE expression - Abstract
Summary: It has not been possible to view the transcriptional activity of a single gene within a living eukaryotic cell. It is therefore unclear how long and how frequently a gene is actively transcribed, how this is modulated during differentiation, and how transcriptional events are dynamically coordinated in cell populations. By means of an in vivo RNA detection technique , we have directly visualized transcription of an endogenous developmental gene. We found discrete “pulses” of gene activity that turn on and off at irregular intervals. Surprisingly, the length and height of these pulses were consistent throughout development. However, there was strong developmental variation in the proportion of cells recruited to the expressing pool. Cells were more likely to reexpress than to initiate new expression, indicating that we directly observe a transcriptional memory. In addition, we used a clustering algorithm to reveal synchronous transcription initiation in neighboring cells. This study represents the first direct visualization of transcriptional pulsing in eukaryotes. Discontinuity of transcription may allow greater flexibility in the gene-expression decisions of a cell. [ABSTRACT FROM AUTHOR]
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- 2006
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17. From Silencing to Gene Expression: Real-Time Analysis in Single Cells
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Janicki, Susan M., Tsukamoto, Toshiro, Salghetti, Simone E., Tansey, William P., Sachidanandam, Ravi, Prasanth, Kannanganattu V., Ried, Thomas, Shav-Tal, Yaron, Bertrand, Edouard, Singer, Robert H., and Spector, David L.
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GENE expression , *DNA , *CHROMOSOMES , *RNA - Abstract
We have developed an inducible system to visualize gene expression at the levels of DNA, RNA and protein in living cells. The system is composed of a 200 copy transgene array integrated into a euchromatic region of chromosome 1 in human U2OS cells. The condensed array is heterochromatic as it is associated with HP1, histone H3 methylated at lysine 9, and several histone methyltransferases. Upon transcriptional induction, HP1α is depleted from the locus and the histone variant H3.3 is deposited suggesting that histone exchange is a mechanism through which heterochromatin is transformed into a transcriptionally active state. RNA levels at the transcription site increase immediately after the induction of transcription and the rate of synthesis slows over time. Using this system, we are able to correlate changes in chromatin structure with the progression of transcriptional activation allowing us to obtain a real-time integrative view of gene expression. [Copyright &y& Elsevier]
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- 2004
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18. RNA asymmetric distribution and daughter/mother differentiation in yeast
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Darzacq, Xavier, Powrie, Erin, Gu, Wei, Singer, Robert H, and Zenklusen, Daniel
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MESSENGER RNA , *SACCHAROMYCES cerevisiae , *PROTEINS , *ACTIVE biological transport , *RNA - Abstract
Active transport and localized translation of the ASH1 mRNA at the bud tip of the budding yeast Saccharomyces cerevisiae is an essential process that is required for the regulation of the mating type switching. ASH1 mRNA localization has been extensively studied over the past few years and the core components of the translocation machinery have been identified. It is composed of four localization elements (zipcodes), within the ASH1 mRNA, and at least three proteins, She1p/Myo4p, She2p and She3p. Whereas the movement of the RNA can be attributed to direct interaction with myosin, the regulation of the RNA expression is less well understood. Recent insights have revealed a role for translation that might have a key function in the regulation of Ash1 protein sorting. [Copyright &y& Elsevier]
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- 2003
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19. Activity-Dependent Trafficking and Dynamic Localization of Zipcode Binding Protein 1 and Β-Actin mRNA in Dendrites and Spines of Hippocampal Neurons.
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Tiruchinapalli, Dhanrajan M., Oleynikov, Yuri, Kelic, Sofija, Shenoy, Shailesh M., Hartley, Adam, Stanton, Patric K., Singer, Robert H., and Bassell, Gary J.
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MESSENGER RNA , *RNA , *NEURONS , *NERVOUS system , *FLUORESCENCE microscopy , *DENDRITES - Abstract
Presents information on a study which used fluorescence microscopy and digital imaging techniques applied to both fixed and live cultured hippocampal neurons to visualize the localization of the messenger RNA binding protein, zipcode binding protein 1 (ZBP1) and its dynamic movements. Visualization of ZBP1 granules in dendrites, actin-rich spines and subsynaptic loci with the use of high-resolution fluorescence microscopy; Localization of ZBP1 in dendrites and spines with the use of high-resolution fluorescence imaging; Regulation of messenger RNA localization by neuronal activity and glutamatergic signals.
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- 2003
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20. Asymmetric Sorting of Ash1p in Yeast Results from Inhibition of Translation by Localization Elements in the mRNA
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Chartrand, Pascal, Meng, Xiu Hua, Huttelmaier, Stefan, Donato, Damiane, and Singer, Robert H.
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YEAST , *RNA , *PROTEINS - Abstract
ASH1 mRNA localizes at the bud tip of late-anaphase yeast, resulting in accumulation of Ash1p in the daughter nucleus. We show that disruption of the secondary structure, but not the protein coding, of all four ASH1 localization elements resulted in RNA and protein delocalization. Localization of both was incrementally restored by replacement of each of the four elements. However, transposition of the elements to the 3′UTR reinstated the RNA, but not the protein, localization. Interestingly, the mutant ASH1 mRNA was translated more efficiently, suggesting that asymmetry of Ash1p resulted from translational inhibition by the localization elements. In support of this, Ash1p asymmetry could be rescued by slowing its translation. [Copyright &y& Elsevier]
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- 2002
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21. An Exclusively Nuclear RNA-binding Protein Affects Asymmetric Localization of ASH1 mRNA and Ash1p...
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Long, Roy M., Wei Gu, Xiuhua Meng, Gonsalvez, Graydon, Singer, Robert H., and Chartrand, Pascal
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PROTEINS , *RNA , *MESSENGER RNA - Abstract
Identifies a protein Loc1p that binds in vitro directly to the wild type ASH1 3prime-untranslated region RNA. Recognition of a novel protein, coded from loc1 gene, to double-stranded RNA structures; Distribution of Ash1p in daughter and mother cells in a loc1 strain; Requirement for a specific cytoplasmic ASH1 messenger RNA localization.
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- 2001
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22. Visualization of single RNA transcripts in situ .
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Femino, Andrea M., Fay, Fredric S., Fogarty, Kevin, and Singer, Robert H.
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IN situ hybridization , *FLUORESCENCE , *MICROSCOPY , *RNA - Abstract
Reports on experiments in which fluorescence in situ hybridization (FISH) and digital imaging microscopy were modified to allow detection of single RNA molecules. Use of synthesized oligodeoxynucleotide probes; Detection of RNA transcription; Implications of findings.
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- 1998
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23. Spatial arrangement of an RNA zipcode identifies mRNAs under post-transcriptional control.
- Author
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Patel, Vivek L., Mitra, Somdeb, Harris, Richard, Buxbaum, Adina R., Lionnet, Timothée, Brenowitz, Michael, Girvin, Mark, Levy, Matthew, Almo, Steven C., Singer, Robert H., and Chao, Jeffrey A.
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RNA , *CARRIER proteins , *MESSENGER RNA , *HOMOLOGY (Biology) , *BINDING sites - Abstract
How RNA-binding proteins recognize specific sets of target mRNAs remains poorly understood because current approaches depend primarily on sequence information. In this study, we demonstrate that specific recognition of messenger RNAs (mRNAs) by RNA-binding proteins requires the correct spatial positioning of these sequences. We characterized both the cis-acting sequence elements and the spatial restraints that define the mode of RNA binding of the zipcode-binding protein 1 (ZBP1/IMP1/IGF2BP1) to the β-actin zipcode. The third and fourth KH (hnRNP K homology) domains of ZBP1 specifically recognize a bipartite RNA element comprised of a 5' element (CGGAC) followed by a variable 3' element (C/A-CA-C/U) that must be appropriately spaced. Remarkably, the orientation of these elements is interchangeable within target transcripts bound by ZBP1. The spatial relationship of this consensus binding site identified conserved transcripts that were verified to associate with ZBP1 in vivo. The dendritic localization of one of these transcripts, spinophilin, was found to be dependent on both ZBP1 and the RNA elements recognized by ZBP1 KH34. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
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