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TSCAN: Pseudo-time reconstruction and evaluation in single-cell RNA-seq analysis (2016)

Ji, Z., Ji, H.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2016-07-28

Beschreibung: When analyzing single-cell RNA-seq data, constructing a pseudo-temporal path to order cells based on the gradual transition of their transcriptomes is a useful way to study gene expression dynamics in a heterogeneous cell population. Currently, a limited number of computational tools are available for this task, and quantitative methods for comparing different tools are lacking. Tools for Single Cell Analysis (TSCAN) is a software tool developed to better support in silico pseudo- T ime reconstruction in S ingle- C ell RNA-seq AN alysis. TSCAN uses a cluster-based minimum spanning tree (MST) approach to order cells. Cells are first grouped into clusters and an MST is then constructed to connect cluster centers. Pseudo-time is obtained by projecting each cell onto the tree, and the ordered sequence of cells can be used to study dynamic changes of gene expression along the pseudo-time. Clustering cells before MST construction reduces the complexity of the tree space. This often leads to improved cell ordering. It also allows users to conveniently adjust the ordering based on prior knowledge. TSCAN has a graphical user interface (GUI) to support data visualization and user interaction. Furthermore, quantitative measures are developed to objectively evaluate and compare different pseudo-time reconstruction methods. TSCAN is available at https://github.com/zji90/TSCAN and as a Bioconductor package.

Schlagwort(e): Computational Methods, Genomics, Transcriptome Mapping - Monitoring Gene Expression

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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A predictive modeling approach for cell line-specific long-range regulatory interactions (2015)

Roy, S., Siahpirani, A. F., Chasman, D., Knaack, S., Ay, F., Stewart, R., Wilson, M., Sridharan, R.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-10-15

Beschreibung: Long range regulatory interactions among distal enhancers and target genes are important for tissue-specific gene expression. Genome-scale identification of these interactions in a cell line-specific manner, especially using the fewest possible datasets, is a significant challenge. We develop a novel computational approach, Regulatory Interaction Prediction for Promoters and Long-range Enhancers (RIPPLE), that integrates published Chromosome Conformation Capture (3C) data sets with a minimal set of regulatory genomic data sets to predict enhancer-promoter interactions in a cell line-specific manner. Our results suggest that CTCF, RAD21, a general transcription factor (TBP) and activating chromatin marks are important determinants of enhancer-promoter interactions. To predict interactions in a new cell line and to generate genome-wide interaction maps, we develop an ensemble version of RIPPLE and apply it to generate interactions in five human cell lines. Computational validation of these predictions using existing ChIA-PET and Hi-C data sets showed that RIPPLE accurately predicts interactions among enhancers and promoters. Enhancer-promoter interactions tend to be organized into subnetworks representing coordinately regulated sets of genes that are enriched for specific biological processes and cis -regulatory elements. Overall, our work provides a systematic approach to predict and interpret enhancer-promoter interactions in a genome-wide cell-type specific manner using a few experimentally tractable measurements.

Schlagwort(e): Computational Methods, Genomics, Transcriptome Mapping - Monitoring Gene Expression

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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Asymmetric exponential amplification reaction on a toehold/biotin featured template: an ultrasensitive and specific strategy for isothermal microRNAs analysis (2016)

Chen, J., Zhou, X., Ma, Y., Lin, X., Dai, Z., Zou, X.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2016-09-03

Beschreibung: The sensitive and specific analysis of microRNAs (miRNAs) without using a thermal cycler instrument is significant and would greatly facilitate biological research and disease diagnostics. Although exponential amplification reaction (EXPAR) is the most attractive strategy for the isothermal analysis of miRNAs, its intrinsic limitations of detection efficiency and inevitable non-specific amplification critically restrict its use in analytical sensitivity and specificity. Here, we present a novel asymmetric EXPAR based on a new biotin/toehold featured template. A biotin tag was used to reduce the melting temperature of the primer/template duplex at the 5' terminus of the template, and a toehold exchange structure acted as a filter to suppress the non-specific trigger of EXPAR. The asymmetric EXPAR exhibited great improvements in amplification efficiency and specificity as well as a dramatic extension of dynamic range. The limit of detection for the let-7a analysis was decreased to 6.02 copies (0.01 zmol), and the dynamic range was extended to 10 orders of magnitude. The strategy enabled the sensitive and accurate analysis of let-7a miRNA in human cancer tissues with clearly better precision than both standard EXPAR and RT-qPCR. Asymmetric EXPAR is expected to have an important impact on the development of simple and rapid molecular diagnostic applications for short oligonucleotides.

Schlagwort(e): Nucleic acid amplification

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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Signatures of accelerated somatic evolution in gene promoters in multiple cancer types (2015)

Smith, K. S., Yadav, V. K., Pedersen, B. S., Shaknovich, R., Geraci, M. W., Pollard, K. S., De, S.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-06-24

Beschreibung: Cancer-associated somatic mutations outside protein-coding regions remain largely unexplored. Analyses of the TERT locus have indicated that non-coding regulatory mutations can be more frequent than previously suspected and play important roles in oncogenesis. Using a computational method called SASE-hunter, developed here, we identified a novel signature of accelerated somatic evolution (SASE) marked by a significant excess of somatic mutations localized in a genomic locus, and prioritized those loci that carried the signature in multiple cancer patients. Interestingly, even when an affected locus carried the signature in multiple individuals, the mutations contributing to SASE themselves were rarely recurrent at the base-pair resolution. In a pan-cancer analysis of 906 samples from 12 tumor types, we detected SASE in the promoters of several genes, including known cancer genes such as MYC, BCL2, RBM5 and WWOX. Nucleotide substitution patterns consistent with oxidative DNA damage and local somatic hypermutation appeared to contribute to this signature in selected gene promoters (e.g. MYC). SASEs in selected cancer gene promoters were associated with over-expression, and also correlated with the age of onset of cancer, aggressiveness of the disease and survival. Taken together, our work detects a hitherto under-appreciated and clinically important class of regulatory changes in cancer genomes.

Schlagwort(e): Computational Methods, Genomics, Transcriptome Mapping - Monitoring Gene Expression

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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Global transcription network incorporating distal regulator binding reveals selective cooperation of cancer drivers and risk genes (2015)

Kim, K., Yang, W., Lee, K. S., Bang, H., Jang, K., Kim, S. C., Yang, J. O., Park, S., Park, K., Choi, J. K.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-07-12

Beschreibung: Global network modeling of distal regulatory interactions is essential in understanding the overall architecture of gene expression programs. Here, we developed a Bayesian probabilistic model and computational method for global causal network construction with breast cancer as a model. Whereas physical regulator binding was well supported by gene expression causality in general, distal elements in intragenic regions or loci distant from the target gene exhibited particularly strong functional effects. Modeling the action of long-range enhancers was critical in recovering true biological interactions with increased coverage and specificity overall and unraveling regulatory complexity underlying tumor subclasses and drug responses in particular. Transcriptional cancer drivers and risk genes were discovered based on the network analysis of somatic and genetic cancer-related DNA variants. Notably, we observed that the risk genes were functionally downstream of the cancer drivers and were selectively susceptible to network perturbation by tumorigenic changes in their upstream drivers. Furthermore, cancer risk alleles tended to increase the susceptibility of the transcription of their associated genes. These findings suggest that transcriptional cancer drivers selectively induce a combinatorial misregulation of downstream risk genes, and that genetic risk factors, mostly residing in distal regulatory regions, increase transcriptional susceptibility to upstream cancer-driving somatic changes.

Schlagwort(e): Computational Methods, Genomics, Transcriptome Mapping - Monitoring Gene Expression

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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By the company they keep: interaction networks define the binding ability of transcription factors (2015)

Cirillo, D., Botta-Orfila, T., Tartaglia, G. G.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-10-31

Beschreibung: Access to genome-wide data provides the opportunity to address questions concerning the ability of transcription factors (TFs) to assemble in distinct macromolecular complexes. Here, we introduce the PAnDA (Protein And DNA Associations) approach to characterize DNA associations with human TFs using expression profiles, protein–protein interactions and recognition motifs. Our method predicts TF binding events with 〉0.80 accuracy revealing cell-specific regulatory patterns that can be exploited for future investigations. Even when the precise DNA-binding motifs of a specific TF are not available, the information derived from protein-protein networks is sufficient to perform high-confidence predictions (area under the ROC curve of 0.89). PAnDA is freely available at http://service.tartaglialab.com/new_submission/panda .

Schlagwort(e): Computational Methods, Genomics, Transcriptome Mapping - Monitoring Gene Expression

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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An efficient and sensitive method for preparing cDNA libraries from scarce biological samples (2015)

Sterling, C. H., Veksler-Lublinsky, I., Ambros, V.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-01-10

Beschreibung: The preparation and high-throughput sequencing of cDNA libraries from samples of small RNA is a powerful tool to quantify known small RNAs (such as microRNAs) and to discover novel RNA species. Interest in identifying the small RNA repertoire present in tissues and in biofluids has grown substantially with the findings that small RNAs can serve as indicators of biological conditions and disease states. Here we describe a novel and straightforward method to clone cDNA libraries from small quantities of input RNA. This method permits the generation of cDNA libraries from sub-picogram quantities of RNA robustly, efficiently and reproducibly. We demonstrate that the method provides a significant improvement in sensitivity compared to previous cloning methods while maintaining reproducible identification of diverse small RNA species. This method should have widespread applications in a variety of contexts, including biomarker discovery from scarce samples of human tissue or body fluids.

Schlagwort(e): Nucleic acid amplification

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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Enhanced sequencing coverage with digital droplet multiple displacement amplification (2016)

Sidore, A. M., Lan, F., Lim, S. W., Abate, A. R.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2016-04-21

Beschreibung: Sequencing small quantities of DNA is important for applications ranging from the assembly of uncultivable microbial genomes to the identification of cancer-associated mutations. To obtain sufficient quantities of DNA for sequencing, the small amount of starting material must be amplified significantly. However, existing methods often yield errors or non-uniform coverage, reducing sequencing data quality. Here, we describe digital droplet multiple displacement amplification, a method that enables massive amplification of low-input material while maintaining sequence accuracy and uniformity. The low-input material is compartmentalized as single molecules in millions of picoliter droplets. Because the molecules are isolated in compartments, they amplify to saturation without competing for resources; this yields uniform representation of all sequences in the final product and, in turn, enhances the quality of the sequence data. We demonstrate the ability to uniformly amplify the genomes of single Escherichia coli cells, comprising just 4.7 fg of starting DNA, and obtain sequencing coverage distributions that rival that of unamplified material. Digital droplet multiple displacement amplification provides a simple and effective method for amplifying minute amounts of DNA for accurate and uniform sequencing.

Schlagwort(e): Nucleic acid amplification

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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FocalScan: Scanning for altered genes in cancer based on coordinated DNA and RNA change (2016)

Karlsson, J., Larsson, E.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2016-11-01

Beschreibung: Somatic genomic copy-number alterations can lead to transcriptional activation or inactivation of tumor driver or suppressor genes, contributing to the malignant properties of cancer cells. Selection for such events may manifest as recurrent amplifications or deletions of size-limited (focal) regions. While methods have been developed to identify such focal regions, finding the exact targeted genes remains a challenge. Algorithms are also available that integrate copy number and RNA expression data, to aid in identifying individual targeted genes, but specificity is lacking. Here, we describe FocalScan, a tool designed to simultaneously uncover patterns of focal copy number alteration and coordinated expression change, thus combining both principles. The method outputs a ranking of tentative cancer drivers or suppressors. FocalScan works with RNA-seq data, and unlike other tools it can scan the genome unaided by a gene annotation, enabling identification of novel putatively functional elements including lncRNAs. Application on a breast cancer data set suggests considerably better performance than other DNA/RNA integration tools.

Schlagwort(e): Computational Methods, Genomics, Transcriptome Mapping - Monitoring Gene Expression

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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MRPrimer: a MapReduce-based method for the thorough design of valid and ranked primers for PCR (2015)

Kim, H., Kang, N., Chon, K.-W., Kim, S., Lee, N., Koo, J., Kim, M.-S.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-11-17

Beschreibung: Primer design is a fundamental technique that is widely used for polymerase chain reaction (PCR). Although many methods have been proposed for primer design, they require a great deal of manual effort to generate feasible and valid primers, including homology tests on off-target sequences using BLAST-like tools. That approach is inconvenient for many target sequences of quantitative PCR (qPCR) due to considering the same stringent and allele-invariant constraints. To address this issue, we propose an entirely new method called MRPrimer that can design all feasible and valid primer pairs existing in a DNA database at once, while simultaneously checking a multitude of filtering constraints and validating primer specificity. Furthermore, MRPrimer suggests the best primer pair for each target sequence, based on a ranking method. Through qPCR analysis using 343 primer pairs and the corresponding sequencing and comparative analyses, we showed that the primer pairs designed by MRPrimer are very stable and effective for qPCR. In addition, MRPrimer is computationally efficient and scalable and therefore useful for quickly constructing an entire collection of feasible and valid primers for frequently updated databases like RefSeq. Furthermore, we suggest that MRPrimer can be utilized conveniently for experiments requiring primer design, especially real-time qPCR.

Schlagwort(e): Nucleic acid amplification

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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