Widespread Volumetric Reductions in Schizophrenia and Schizoaffective Patients Displaying Compromised Cognitive Abilities

The estrogen receptor is the master transcriptional regulator of breast cancer phenotype and the archetype of a molecular therapeutic target. We mapped all estrogen receptor and RNA polymerase II binding sites on a genome-wide scale, identifying the authentic cis binding sites and target genes, in breast cancer cells. Combining this unique resource with gene expression data demonstrates distinct temporal mechanisms of estrogen-mediated gene regulation, particularly in the case of estrogen-suppressed genes. Furthermore, this resource has allowed the identification of cis-regulatory sites in previously unexplored regions of the genome and the cooperating transcription factors underlying estrogen signaling in breast cancer.

show abstract

Chromosome-Wide Mapping of Estrogen Receptor Binding Reveals Long-Range Regulation Requiring the Forkhead Protein FoxA1

Carroll

Liu

Brodsky

et al. 2005

Cell

1,220

View full text Add to dashboard Cite

Estrogen plays an essential physiologic role in reproduction and a pathologic one in breast cancer. The completion of the human genome has allowed the identification of the expressed regions of protein-coding genes; however, little is known concerning the organization of their cis-regulatory elements. We have mapped the association of the estrogen receptor (ER) with the complete nonrepetitive sequence of human chromosomes 21 and 22 by combining chromatin immunoprecipitation (ChIP) with tiled microarrays. ER binds selectively to a limited number of sites, the majority of which are distant from the transcription start sites of regulated genes. The unbiased sequence interrogation of the genuine chromatin binding sites suggests that direct ER binding requires the presence of Forkhead factor binding in close proximity. Furthermore, knockdown of FoxA1 expression blocks the association of ER with chromatin and estrogen-induced gene expression demonstrating the necessity of FoxA1 in mediating an estrogen response in breast cancer cells.

show abstract

Toehold Switches: De-Novo-Designed Regulators of Gene Expression

Green

Silver

Collins

et al. 2014

Cell

648

904

View full text Add to dashboard Cite

SUMMARY Efforts to construct synthetic networks in living cells have been hindered by the limited number of regulatory components that provide wide dynamic range and low crosstalk. Here, we report a new class of de-novo-designed prokaryotic riboregulators called toehold switches that activate gene expression in response to cognate RNAs with arbitrary sequences. Toehold switches provide a high level of orthogonality and can be forward-engineered to provide average dynamic range above 400. We show that switches can be integrated into the genome to regulate endogenous genes and use them as sensors that respond to endogenous RNAs. We exploit the orthogonality of toehold switches to regulate 12 genes independently and to construct a genetic circuit that evaluates 4-input AND logic. Toehold switches, with their wide dynamic range, orthogonality, and programmability, represent a versatile and powerful platform for regulation of translation, offering diverse applications in molecular biology, synthetic biology, and biotechnology.

show abstract

Genome-Wide Localization of the Nuclear Transport Machinery Couples Transcriptional Status and Nuclear Organization

Casolari

Brown

Komili

et al. 2004

Cell

529

576

View full text Add to dashboard Cite

The association of genes with the nuclear pore complex (NPC) and nuclear transport factors has been implicated in transcriptional regulation. We therefore examined the association of components of the nuclear transport machinery including karyopherins, nucleoporins, and the Ran guanine-nucleotide exchange factor (RanGEF) with the Saccharomyces cerevisiae genome. We find that most nucleoporins and karyopherins preferentially associate with a subset of highly transcribed genes and with genes that possess Rap1 binding sites whereas the RanGEF preferentially associates with transcriptionally inactive genes. Consistent with coupling of transcription to the nuclear pore, we show that transcriptional activation of the GAL genes results in their association with nuclear pore proteins, relocation to the nuclear periphery, and loss of RanGEF association. Taken together, these results indicate that the organization of the genome is coupled via transcriptional state to the nuclear transport machinery.

show abstract

Water splitting–biosynthetic system with CO ₂ reduction efficiencies exceeding photosynthesis

Liu

Colón

Ziesack

et al. 2016

Science

766

582

View full text Add to dashboard Cite

Artificial photosynthesis steps up Photosynthesis fixes CO 2 from the air by using sunlight. Industrial mimics of photosynthesis seek to convert CO 2 directly into biomass, fuels, or other useful products. Improving on a previous artificial photosynthesis design, Liu et al. combined the hydrogen-oxidizing bacterium Raistonia eutropha with a cobalt-phosphorus water-splitting catalyst. This biocompatible self-healing electrode circumvented the toxicity challenges of previous designs and allowed it to operate aerobically. When combined with solar photovoltaic cells, solar-to-chemical conversion rates should become nearly an order of magnitude more efficient than natural photosynthesis. Science , this issue p. 1210

show abstract

Organization of Intracellular Reactions with Rationally Designed RNA Assemblies

Delebecque

Lindner

Silver

et al. 2011

Science

578

550

View full text Add to dashboard Cite

The rules of nucleic acid base-pairing have been used to construct nanoscale architectures and organize biomolecules, but little has been done to apply this technology in vivo. We designed and assembled multidimensional RNA structures and used them as scaffolds for the spatial organization of bacterial metabolism. Engineered RNA modules were assembled into discrete, one-dimensional, and two-dimensional scaffolds with distinct protein-docking sites and used to control the spatial organization of a hydrogen-producing pathway. We increased hydrogen output as a function of scaffold architecture. Rationally designed RNA assemblies can thus be used to construct functional architectures in vivo.

show abstract

HITS-CLIP and Integrative Modeling Define the Rbfox Splicing-Regulatory Network Linked to Brain Development and Autism

et al. 2014

View full text Add to dashboard Cite

Summary The RNA-binding proteins Rbfox1/2/3 regulate alternative splicing in the nervous system, and disruption of Rbfox1 has been implicated in autism. However, comprehensive identification of functional Rbfox targets has been challenging. Here we performed HITS-CLIP for all three Rbfox family members to globally map, at a single-nucleotide resolution, their in vivo RNA interaction sites in the mouse brain. We found that the two guanines in the Rbfox-binding motif UGCAUG are critical for protein-RNA interactions and crosslinking. Using integrative modeling, these interaction sites combined with additional datasets defined 1,059 direct Rbfox target alternative splicing events. Over half of the quantifiable targets show dynamic changes during brain development. Of particular interest are 111 events from 48 candidate autism-susceptibility genes, including syndromic autism genes Shank3, Cacna1c, and Tsc2. Alteration of Rbfox targets in some autistic brains is correlated with down-regulation of all three Rbfox proteins, supporting the potential clinical relevance of the splicing- regulatory network.

show abstract

Nuclear transport and cancer: from mechanism to intervention

Way²,

2004

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

334 Leonard St

Brooklyn, NY 11211

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Pamela A. Silver

Genome-wide analysis of estrogen receptor binding sites

Chromosome-Wide Mapping of Estrogen Receptor Binding Reveals Long-Range Regulation Requiring the Forkhead Protein FoxA1

Toehold Switches: De-Novo-Designed Regulators of Gene Expression

Genome-Wide Localization of the Nuclear Transport Machinery Couples Transcriptional Status and Nuclear Organization

Water splitting–biosynthetic system with CO ₂ reduction efficiencies exceeding photosynthesis

Organization of Intracellular Reactions with Rationally Designed RNA Assemblies

HITS-CLIP and Integrative Modeling Define the Rbfox Splicing-Regulatory Network Linked to Brain Development and Autism

Nuclear transport and cancer: from mechanism to intervention

Contact Info

Product

Resources

About

Pamela A. Silver

Genome-wide analysis of estrogen receptor binding sites

Chromosome-Wide Mapping of Estrogen Receptor Binding Reveals Long-Range Regulation Requiring the Forkhead Protein FoxA1

Toehold Switches: De-Novo-Designed Regulators of Gene Expression

Genome-Wide Localization of the Nuclear Transport Machinery Couples Transcriptional Status and Nuclear Organization

Water splitting–biosynthetic system with CO 2 reduction efficiencies exceeding photosynthesis

Organization of Intracellular Reactions with Rationally Designed RNA Assemblies

HITS-CLIP and Integrative Modeling Define the Rbfox Splicing-Regulatory Network Linked to Brain Development and Autism

Nuclear transport and cancer: from mechanism to intervention

Contact Info

Product

Resources

About

Water splitting–biosynthetic system with CO ₂ reduction efficiencies exceeding photosynthesis