Jie Zhang scite author profile

The tissue-specific pattern of mRNA expression can indicate important clues about gene function. High-density oligonucleotide arrays offer the opportunity to examine patterns of gene expression on a genome scale. Toward this end, we have designed custom arrays that interrogate the expression of the vast majority of protein-encoding human and mouse genes and have used them to profile a panel of 79 human and 61 mouse tissues. The resulting data set provides the expression patterns for thousands of predicted genes, as well as known and poorly characterized genes, from mice and humans. We have explored this data set for global trends in gene expression, evaluated commonly used lines of evidence in gene prediction methodologies, and investigated patterns indicative of chromosomal organization of transcription. We describe hundreds of regions of correlated transcription and show that some are subject to both tissue and parental allele-specific expression, suggesting a link between spatial expression and imprinting.

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Zoledronic Acid and Clinical Fractures and Mortality after Hip Fracture

Lyles

et al. 2007

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Nonfullerene Acceptor Molecules for Bulk Heterojunction Organic Solar Cells

et al. 2018

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The bulk-heterojunction blend of an electron donor and an electron acceptor material is the key component in a solution-processed organic photovoltaic device. In the past decades, a p-type conjugated polymer and an n-type fullerene derivative have been the most commonly used electron donor and electron acceptor, respectively. While most advances of the device performance come from the design of new polymer donors, fullerene derivatives have almost been exclusively used as electron acceptors in organic photovoltaics. Recently, nonfullerene acceptor materials, particularly small molecules and oligomers, have emerged as a promising alternative to replace fullerene derivatives. Compared to fullerenes, these new acceptors are generally synthesized from diversified, low-cost routes based on building block materials with extraordinary chemical, thermal, and photostability. The facile functionalization of these molecules affords excellent tunability to their optoelectronic and electrochemical properties. Within the past five years, there have been over 100 nonfullerene acceptor molecules synthesized, and the power conversion efficiency of nonfullerene organic solar cells has increased dramatically, from ∼2% in 2012 to >13% in 2017. This review summarizes this progress, aiming to describe the molecular design strategy, to provide insight into the structure-property relationship, and to highlight the challenges the field is facing, with emphasis placed on most recent nonfullerene acceptors that demonstrated top-of-the-line photovoltaic performances. We also provide perspectives from a device point of view, wherein topics including ternary blend device, multijunction device, device stability, active layer morphology, and device physics are discussed.

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Functional roles of enhancer RNAs for oestrogen-dependent transcriptional activation

Notani

et al. 2013

Nature

891

1,055

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The functional importance of gene enhancers in regulated gene expression is well established(1–3). In addition to widespread transcription of long non-coding RNAs (ncRNA) in mammalian cells(4–6), bidirectional ncRNAs referred to as eRNAs are transcribed on enhancers(7–9). However, it has remained unclear whether these eRNAs are functional, or merely a reflection of enhancer activation. Here, we report that 17β-estradiol (E2)-bound estrogen receptor α (ERα) on enhancers causes a global increase in eRNA transcription on enhancers adjacent to E2-upregulated coding genes. These induced eRNAs, as functional transcripts, appear to exert important roles for the observed ligand-dependent induction of target coding genes, causing an increased strength of specific enhancer:promoter looping initiated by ERα binding. Cohesin, present on many ERα-regulated enhancers even prior to ligand treatment, apparently contributes to E2-dependent gene activation, at least in part, by stabilizing E2/ERα/eRNA-induced enhancer:promoter looping. Our data indicate that eRNAs are likely to exert important functions in many regulated programs of gene transcription.

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Jie Zhang

A gene atlas of the mouse and human protein-encoding transcriptomes

Zoledronic Acid and Clinical Fractures and Mortality after Hip Fracture

Nonfullerene Acceptor Molecules for Bulk Heterojunction Organic Solar Cells

Functional roles of enhancer RNAs for oestrogen-dependent transcriptional activation

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