Özgün Babur scite author profile

Pathway Commons (http://www.pathwaycommons.org) is a collection of publicly available pathway data from multiple organisms. Pathway Commons provides a web-based interface that enables biologists to browse and search a comprehensive collection of pathways from multiple sources represented in a common language, a download site that provides integrated bulk sets of pathway information in standard or convenient formats and a web service that software developers can use to conveniently query and access all data. Database providers can share their pathway data via a common repository. Pathways include biochemical reactions, complex assembly, transport and catalysis events and physical interactions involving proteins, DNA, RNA, small molecules and complexes. Pathway Commons aims to collect and integrate all public pathway data available in standard formats. Pathway Commons currently contains data from nine databases with over 1400 pathways and 687 000 interactions and will be continually expanded and updated.

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Integrative Analysis Identifies Four Molecular and Clinical Subsets in Uveal Melanoma

Robertson¹,

Shih²,

Yau³

et al. 2017

Cancer Cell

662

712

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SUMMARY Comprehensive multiplatform analysis of 80 uveal melanomas (UM) identifies four molecularly distinct, clinically relevant subtypes: two associated with poor-prognosis monosomy 3 (M3) and two with better-prognosis disomy 3 (D3). We show that BAP1 loss follows M3 occurrence and correlates with a global DNA methylation state that is distinct from D3-UM. Poor-prognosis M3-UM divide into subsets with divergent genomic aberrations, transcriptional features, and clinical outcomes. We report change-of-function SRSF2 mutations. Within D3-UM, EIF1AX- and SRSF2/SF3B1 -mutant tumors have distinct somatic copy number alterations and DNA methylation profiles, providing insight into the biology of these low-versus intermediate-risk clinical mutation subtypes.

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The BioPAX community standard for pathway data sharing

Demir¹,

Cary²,

Paley³

et al. 2010

Nat Biotechnol

624

524

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BioPAX (Biological Pathway Exchange) is a standard language to represent biological pathways at the molecular and cellular level. Its major use is to facilitate the exchange of pathway data (http://www.biopax.org). Pathway data captures our understanding of biological processes, but its rapid growth necessitates development of databases and computational tools to aid interpretation. However, the current fragmentation of pathway information across many databases with incompatible formats presents barriers to its effective use. BioPAX solves this problem by making pathway data substantially easier to collect, index, interpret and share. BioPAX can represent metabolic and signaling pathways, molecular and genetic interactions and gene regulation networks. BioPAX was created through a community process. Through BioPAX, millions of interactions organized into thousands of pathways across many organisms, from a growing number of sources, are available. Thus, large amounts of pathway data are available in a computable form to support visualization, analysis and biological discovery.

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Integrative Analysis Identifies Four Molecular and Clinical Subsets in Uveal Melanoma

Robertson¹,

Shih²,

Yau³

et al. 2018

Cancer Cell

236

467

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In the originally published version of this paper, there were two instances in which a paper by Raab et al. was cited, but the full reference was accidentally omitted from the reference list. First, in the subsection titled ''Arid1a Haploinsufficiency Alters Global Chromatin Occupancy and Metastasis Genes,'' paragraph 4, the authors wrote, ''To determine if these genes have direct interactions with ARID1A and SWI/SNF components in human HCC, we examined ChIP-seq experiments from HepG2 cells performed by Raab et al.'' Second, in the legend for Figure 7G, the authors wrote, ''ChIP-seq data showing binding of EMILIN1, MAT1A, LCN2, and IL1R1 loci by ARID1A and SNF5 over input in human HepG2 hepatoma cells (data from Raab et al.).''

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Integrated Analysis of TP53 Gene and Pathway Alterations in The Cancer Genome Atlas

et al. 2019

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The Human Tumor Atlas Network: Charting Tumor Transitions across Space and Time at Single-Cell Resolution

Hupalowska¹,

Rood²,

Hwang³

et al. 2020

Cell

363

273

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Crucial transitions in cancer-including tumor initiation, local expansion, metastasis, and therapeutic resistance-involve complex interactions between cells within the dynamic tumor ecosystem. Transformative single-cell genomics technologies and spatial multiplex in situ methods now provide an opportunity to interrogate this complexity at unprecedented resolution. The Human Tumor Atlas Network (HTAN), part of the National Cancer Institute (NCI) Cancer Moonshot Initiative, will establish a clinical, experimental, computational, and organizational framework to generate informative and accessible three-dimensional atlases of cancer transitions for a diverse set of tumor types. This effort complements both ongoing efforts to map healthy organs and previous largescale cancer genomics approaches focused on bulk sequencing at a single point in time. Generating single-cell, multiparametric, longitudinal atlases and integrating them with clinical outcomes should help identify novel predictive biomarkers and features as well as therapeutically relevant cell types, cell states, and cellular interactions across transitions. The resulting tumor atlases should have a profound impact on our understanding of cancer biology and have the potential to improve cancer detection, prevention, and therapeutic discovery for better precision-medicine treatments of cancer patients and those at risk for cancer.Cancer forms and progresses through a series of critical transitions-from pre-malignant to malignant states, from locally contained to metastatic disease, and from treatment-responsive to treatment-resistant tumors (Figure 1). Although specifics differ across tumor types and patients, all transitions involve complex dynamic interactions between diverse pre-malignant, malignant, and non-malignant cells (e.g., stroma cells and immune cells), often organized in specific patterns within the tumor

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Integrated Analysis of TP53 Gene and Pathway Alterations in The Cancer Genome Atlas

Donehower¹,

Soussi²,

Korkut³

et al. 2019

Cell Reports

168

209

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Pathway Commons 2019 Update: integration, analysis and exploration of pathway data

et al. 2019

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Pathway Commons (https://www.pathwaycommons.org) is an integrated resource of publicly available information about biological pathways including biochemical reactions, assembly of biomolecular complexes, transport and catalysis events and physical interactions involving proteins, DNA, RNA, and small molecules (e.g. metabolites and drug compounds). Data is collected from multiple providers in standard formats, including the Biological Pathway Exchange (BioPAX) language and the Proteomics Standards Initiative Molecular Interactions format, and then integrated. Pathway Commons provides biologists with (i) tools to search this comprehensive resource, (ii) a download site offering integrated bulk sets of pathway data (e.g. tables of interactions and gene sets), (iii) reusable software libraries for working with pathway information in several programming languages (Java, R, Python and Javascript) and (iv) a web service for programmatically querying the entire dataset. Visualization of pathways is supported using the Systems Biological Graphical Notation (SBGN). Pathway Commons currently contains data from 22 databases with 4794 detailed human biochemical processes (i.e. pathways) and ∼2.3 million interactions. To enhance the usability of this large resource for end-users, we develop and maintain interactive web applications and training materials that enable pathway exploration and advanced analysis.

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Özgün Babur

Pathway Commons, a web resource for biological pathway data

Integrative Analysis Identifies Four Molecular and Clinical Subsets in Uveal Melanoma

The BioPAX community standard for pathway data sharing

Integrative Analysis Identifies Four Molecular and Clinical Subsets in Uveal Melanoma

Integrated Analysis of TP53 Gene and Pathway Alterations in The Cancer Genome Atlas

The Human Tumor Atlas Network: Charting Tumor Transitions across Space and Time at Single-Cell Resolution

Integrated Analysis of TP53 Gene and Pathway Alterations in The Cancer Genome Atlas

Pathway Commons 2019 Update: integration, analysis and exploration of pathway data

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