Your search keyword '"Hinrichs, Angie S"' showing total 266 results

1. Standardized Phylogenetic Classification of Human Respiratory Syncytial Virus below the Subgroup Level

Author

Goya, Stephanie, Ruis, Christopher, Neher, Richard A., Meijer, Adam, Aziz, Ammar, Hinrichs, Angie S., von Gottberg, Anne, Roemer, Cornelius, Amoako, Daniel G., Acuna, Dolores, McBroome, Jakob, Otieno, James R., Bhiman, Jinal N., Everatt, Josie, Munoz-Escalante, Juan C., Ramaekers, Kaat, Duggan, Kate, Presser, Lance D., Urbanska, Laura, Venter, Marietjie, Wolter, Nicole, Peret, Teresa C.T., Salimi, Vahid, Potdar, Varsha, Borges, Vitor, and Viegas, Mariana

Subjects

Phenetics -- Methods, Biology -- Identification and classification, Genomes -- Research, Phylogeny -- Research, Virus research, Respiratory syncytial virus -- Identification and classification -- Genetic aspects

Abstract

Human respiratory syncytial virus (HRSV) is a leading cause of acute lower respiratory tract infection in children, elderly, and immunocompromised persons. In 2023, the US Food and Drug Administration and [...]

Published

2024

2. The UCSC Genome Browser database: 2024 update

Author

Raney, Brian J, Barber, Galt P, Benet-Pagès, Anna, Casper, Jonathan, Clawson, Hiram, Cline, Melissa S, Diekhans, Mark, Fischer, Clayton, Gonzalez, Jairo Navarro, Hickey, Glenn, Hinrichs, Angie S, Kuhn, Robert M, Lee, Brian T, Lee, Christopher M, Le Mercier, Phillipe, Miga, Karen H, Nassar, Luis R, Nejad, Parisa, Paten, Benedict, Perez, Gerardo, Schmelter, Daniel, Speir, Matthew L, Wick, Brittney D, Zweig, Ann S, Haussler, David, Kent, W James, and Haeussler, Maximilian

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Cancer Genomics, Emerging Infectious Diseases, Coronaviruses, Biotechnology, Infectious Diseases, Cancer, Human Genome, 2.6 Resources and infrastructure (aetiology), Generic health relevance, Animals, Humans, Mice, Databases, Genetic, Genome, Human, Genome, Viral, Genomics, Internet, Molecular Sequence Annotation, RNA, Viral, Software, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

The UCSC Genome Browser (https://genome.ucsc.edu) is a web-based genomic visualization and analysis tool that serves data to over 7,000 distinct users per day worldwide. It provides annotation data on thousands of genome assemblies, ranging from human to SARS-CoV2. This year, we have introduced new data from the Human Pangenome Reference Consortium and on viral genomes including SARS-CoV2. We have added 1,200 new genomes to our GenArk genome system, increasing the overall diversity of our genomic representation. We have added support for nine new user-contributed track hubs to our public hub system. Additionally, we have released 29 new tracks on the human genome and 11 new tracks on the mouse genome. Collectively, these new features expand both the breadth and depth of the genomic knowledge that we share publicly with users worldwide.

Published

2024

3. Online Phylogenetics with matOptimize Produces Equivalent Trees and is Dramatically More Efficient for Large SARS-CoV-2 Phylogenies than de novo and Maximum-Likelihood Implementations

Author

Kramer, Alexander M, Thornlow, Bryan, Ye, Cheng, De Maio, Nicola, McBroome, Jakob, Hinrichs, Angie S, Lanfear, Robert, Turakhia, Yatish, and Corbett-Detig, Russell

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Evolutionary Biology, Genetics, Infectious Diseases, Coronaviruses, Humans, Phylogeny, SARS-CoV-2, COVID-19, Probability, Genomics, maximum likelihood, optimization, parsimony, phylogenetics, Ecology, Evolutionary biology

Abstract

Phylogenetics has been foundational to SARS-CoV-2 research and public health policy, assisting in genomic surveillance, contact tracing, and assessing emergence and spread of new variants. However, phylogenetic analyses of SARS-CoV-2 have often relied on tools designed for de novo phylogenetic inference, in which all data are collected before any analysis is performed and the phylogeny is inferred once from scratch. SARS-CoV-2 data sets do not fit this mold. There are currently over 14 million sequenced SARS-CoV-2 genomes in online databases, with tens of thousands of new genomes added every day. Continuous data collection, combined with the public health relevance of SARS-CoV-2, invites an "online" approach to phylogenetics, in which new samples are added to existing phylogenetic trees every day. The extremely dense sampling of SARS-CoV-2 genomes also invites a comparison between likelihood and parsimony approaches to phylogenetic inference. Maximum likelihood (ML) and pseudo-ML methods may be more accurate when there are multiple changes at a single site on a single branch, but this accuracy comes at a large computational cost, and the dense sampling of SARS-CoV-2 genomes means that these instances will be extremely rare because each internal branch is expected to be extremely short. Therefore, it may be that approaches based on maximum parsimony (MP) are sufficiently accurate for reconstructing phylogenies of SARS-CoV-2, and their simplicity means that they can be applied to much larger data sets. Here, we evaluate the performance of de novo and online phylogenetic approaches, as well as ML, pseudo-ML, and MP frameworks for inferring large and dense SARS-CoV-2 phylogenies. Overall, we find that online phylogenetics produces similar phylogenetic trees to de novo analyses for SARS-CoV-2, and that MP optimization with UShER and matOptimize produces equivalent SARS-CoV-2 phylogenies to some of the most popular ML and pseudo-ML inference tools. MP optimization with UShER and matOptimize is thousands of times faster than presently available implementations of ML and online phylogenetics is faster than de novo inference. Our results therefore suggest that parsimony-based methods like UShER and matOptimize represent an accurate and more practical alternative to established ML implementations for large SARS-CoV-2 phylogenies and could be successfully applied to other similar data sets with particularly dense sampling and short branch lengths.

Published

2023

4. A lung-specific mutational signature enables inference of viral and bacterial respiratory niche.

Author

Ruis, Christopher, Peacock, Thomas P, Polo, Luis M, Masone, Diego, Alvarez, Maria Soledad, Hinrichs, Angie S, Turakhia, Yatish, Cheng, Ye, McBroome, Jakob, Corbett-Detig, Russell, Parkhill, Julian, and Floto, R Andres

Subjects

Lung, Humans, Bacteria, Mutation, COVID-19, SARS-CoV-2, genomics, mutational spectrum, transmission, Immunization, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Genetics, Microbiology

Abstract

Exposure to different mutagens leaves distinct mutational patterns that can allow inference of pathogen replication niches. We therefore investigated whether SARS-CoV-2 mutational spectra might show lineage-specific differences, dependent on the dominant site(s) of replication and onwards transmission, and could therefore rapidly infer virulence of emergent variants of concern (VOCs). Through mutational spectrum analysis, we found a significant reduction in G>T mutations in the Omicron variant, which replicates in the upper respiratory tract (URT), compared to other lineages, which replicate in both the URT and lower respiratory tract (LRT). Mutational analysis of other viruses and bacteria indicates a robust, generalizable association of high G>T mutations with replication within the LRT. Monitoring G>T mutation rates over time, we found early separation of Omicron from Beta, Gamma and Delta, while mutational patterns in Alpha varied consistent with changes in transmission source as social restrictions were lifted. Mutational spectra may be a powerful tool to infer niches of established and emergent pathogens.

Published

2023

5. The UCSC Genome Browser database: 2023 update

Author

Nassar, Luis R, Barber, Galt P, Benet-Pagès, Anna, Casper, Jonathan, Clawson, Hiram, Diekhans, Mark, Fischer, Clay, Gonzalez, Jairo Navarro, Hinrichs, Angie S, Lee, Brian T, Lee, Christopher M, Muthuraman, Pranav, Nguy, Beagan, Pereira, Tiana, Nejad, Parisa, Perez, Gerardo, Raney, Brian J, Schmelter, Daniel, Speir, Matthew L, Wick, Brittney D, Zweig, Ann S, Haussler, David, Kuhn, Robert M, Haeussler, Maximilian, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Networking and Information Technology R&D (NITRD), Biotechnology, 1.5 Resources and infrastructure (underpinning), 2.6 Resources and infrastructure (aetiology), Humans, COVID-19, Databases, Genetic, Genomics, Internet, Phylogeny, SARS-CoV-2, Software, Web Browser, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

The UCSC Genome Browser (https://genome.ucsc.edu) is an omics data consolidator, graphical viewer, and general bioinformatics resource that continues to serve the community as it enters its 23rd year. This year has seen an emphasis in clinical data, with new tracks and an expanded Recommended Track Sets feature on hg38 as well as the addition of a single cell track group. SARS-CoV-2 continues to remain a focus, with regular annotation updates to the browser and continued curation of our phylogenetic sequence placing tool, hgPhyloPlace, whose tree has now reached over 12M sequences. Our GenArk resource has also grown, offering over 2500 hubs and a system for users to request any absent assemblies. We have expanded our bigBarChart display type and created new ways to visualize data via bigRmsk and dynseq display. Displaying custom annotations is now easier due to our chromAlias system which eliminates the requirement for renaming sequence names to the UCSC standard. Users involved in data generation may also be interested in our new tools and trackDb settings which facilitate the creation and display of their custom annotations.

Published

2023

6. The UCSC Genome Browser database: 2022 update

Author

Lee, Brian T, Barber, Galt P, Benet-Pagès, Anna, Casper, Jonathan, Clawson, Hiram, Diekhans, Mark, Fischer, Clay, Gonzalez, Jairo Navarro, Hinrichs, Angie S, Lee, Christopher M, Muthuraman, Pranav, Nassar, Luis R, Nguy, Beagan, Pereira, Tiana, Perez, Gerardo, Raney, Brian J, Rosenbloom, Kate R, Schmelter, Daniel, Speir, Matthew L, Wick, Brittney D, Zweig, Ann S, Haussler, David, Kuhn, Robert M, Haeussler, Maximilian, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Bioengineering, Biotechnology, Networking and Information Technology R&D (NITRD), Cancer, Coronaviruses, Human Genome, Animals, Databases, Genetic, Genome, Human, Humans, Phylogeny, Polymerase Chain Reaction, SARS-CoV-2, User-Computer Interface, Web Browser, Exome Sequencing, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

The UCSC Genome Browser, https://genome.ucsc.edu, is a graphical viewer for exploring genome annotations. The website provides integrated tools for visualizing, comparing, analyzing, and sharing both publicly available and user-generated genomic datasets. Data highlights this year include a collection of easily accessible public hub assemblies on new organisms, now featuring BLAT alignment and PCR capabilities, and new and updated clinical tracks (gnomAD, DECIPHER, CADD, REVEL). We introduced a new Track Sets feature and enhanced variant displays to aid in the interpretation of clinical data. We also added a tool to rapidly place new SARS-CoV-2 genomes in a global phylogenetic tree enabling researchers to view the context of emerging mutations in our SARS-CoV-2 Genome Browser. Other new software focuses on usability features, including more informative mouseover displays and new fonts.

Published

2022

7. A Daily-Updated Database and Tools for Comprehensive SARS-CoV-2 Mutation-Annotated Trees

Author

McBroome, Jakob, Thornlow, Bryan, Hinrichs, Angie S, Kramer, Alexander, De Maio, Nicola, Goldman, Nick, Haussler, David, Corbett-Detig, Russell, and Turakhia, Yatish

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Evolutionary Biology, Genetics, Coronaviruses, COVID-19, Evolution, Molecular, Humans, Mutation, Phylogeny, SARS-CoV-2, Software, SARS-CoV-2 phylogenetics, genomic surveillance, Biochemistry and Cell Biology, Biochemistry and cell biology, Evolutionary biology

Abstract

The vast scale of SARS-CoV-2 sequencing data has made it increasingly challenging to comprehensively analyze all available data using existing tools and file formats. To address this, we present a database of SARS-CoV-2 phylogenetic trees inferred with unrestricted public sequences, which we update daily to incorporate new sequences. Our database uses the recently proposed mutation-annotated tree (MAT) format to efficiently encode the tree with branches labeled with parsimony-inferred mutations, as well as Nextstrain clade and Pango lineage labels at clade roots. As of June 9, 2021, our SARS-CoV-2 MAT consists of 834,521 sequences and provides a comprehensive view of the virus' evolutionary history using public data. We also present matUtils-a command-line utility for rapidly querying, interpreting, and manipulating the MATs. Our daily-updated SARS-CoV-2 MAT database and matUtils software are available at http://hgdownload.soe.ucsc.edu/goldenPath/wuhCor1/UShER_SARS-CoV-2/ and https://github.com/yatisht/usher, respectively.

Published

2021

8. GenArk: towards a million UCSC genome browsers

Author

Clawson, Hiram, Lee, Brian T., Raney, Brian J., Barber, Galt P., Casper, Jonathan, Diekhans, Mark, Fischer, Clay, Gonzalez, Jairo Navarro, Hinrichs, Angie S., Lee, Christopher M., Nassar, Luis R., Perez, Gerardo, Wick, Brittney, Schmelter, Daniel, Speir, Matthew L., Armstrong, Joel, Zweig, Ann S., Kuhn, Robert M., Kirilenko, Bogdan M., Hiller, Michael, Haussler, David, Kent, W. James, and Haeussler, Maximilian

Published

2023

9. Ultrafast Sample placement on Existing tRees (UShER) enables real-time phylogenetics for the SARS-CoV-2 pandemic

Author

Turakhia, Yatish, Thornlow, Bryan, Hinrichs, Angie S, De Maio, Nicola, Gozashti, Landen, Lanfear, Robert, Haussler, David, and Corbett-Detig, Russell

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Infectious Diseases, Emerging Infectious Diseases, Coronaviruses, Biotechnology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Algorithms, COVID-19, Computational Biology, Databases, Genetic, Genome, Viral, Humans, Molecular Sequence Annotation, Mutation, Phylogeny, SARS-CoV-2, Software, Web Browser, Medical and Health Sciences, Developmental Biology, Agricultural biotechnology, Bioinformatics and computational biology

Abstract

As the SARS-CoV-2 virus spreads through human populations, the unprecedented accumulation of viral genome sequences is ushering in a new era of 'genomic contact tracing'-that is, using viral genomes to trace local transmission dynamics. However, because the viral phylogeny is already so large-and will undoubtedly grow many fold-placing new sequences onto the tree has emerged as a barrier to real-time genomic contact tracing. Here, we resolve this challenge by building an efficient tree-based data structure encoding the inferred evolutionary history of the virus. We demonstrate that our approach greatly improves the speed of phylogenetic placement of new samples and data visualization, making it possible to complete the placements under the constraints of real-time contact tracing. Thus, our method addresses an important need for maintaining a fully updated reference phylogeny. We make these tools available to the research community through the University of California Santa Cruz SARS-CoV-2 Genome Browser to enable rapid cross-referencing of information in new virus sequences with an ever-expanding array of molecular and structural biology data. The methods described here will empower research and genomic contact tracing for SARS-CoV-2 specifically for laboratories worldwide.

Published

2021

10. The UCSC Genome Browser database: 2021 update

Author

Gonzalez, Jairo Navarro, Zweig, Ann S, Speir, Matthew L, Schmelter, Daniel, Rosenbloom, Kate R, Raney, Brian J, Powell, Conner C, Nassar, Luis R, Maulding, Nathan D, Lee, Christopher M, Lee, Brian T, Hinrichs, Angie S, Fyfe, Alastair C, Fernandes, Jason D, Diekhans, Mark, Clawson, Hiram, Casper, Jonathan, Benet-Pagès, Anna, Barber, Galt P, Haussler, David, Kuhn, Robert M, Haeussler, Maximilian, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Networking and Information Technology R&D (NITRD), Human Genome, Biotechnology, Animals, COVID-19, Computational Biology, Data Curation, Databases, Genetic, Epidemics, Genome, Genomics, Humans, Internet, Mice, Molecular Sequence Annotation, SARS-CoV-2, Software, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

For more than two decades, the UCSC Genome Browser database (https://genome.ucsc.edu) has provided high-quality genomics data visualization and genome annotations to the research community. As the field of genomics grows and more data become available, new modes of display are required to accommodate new technologies. New features released this past year include a Hi-C heatmap display, a phased family trio display for VCF files, and various track visualization improvements. Striving to keep data up-to-date, new updates to gene annotations include GENCODE Genes, NCBI RefSeq Genes, and Ensembl Genes. New data tracks added for human and mouse genomes include the ENCODE registry of candidate cis-regulatory elements, promoters from the Eukaryotic Promoter Database, and NCBI RefSeq Select and Matched Annotation from NCBI and EMBL-EBI (MANE). Within weeks of learning about the outbreak of coronavirus, UCSC released a genome browser, with detailed annotation tracks, for the SARS-CoV-2 RNA reference assembly.

Published

2021

11. The UCSC Genome Browser database: 2021 update.

Author

Navarro Gonzalez, Jairo, Zweig, Ann S, Speir, Matthew L, Schmelter, Daniel, Rosenbloom, Kate R, Raney, Brian J, Powell, Conner C, Nassar, Luis R, Maulding, Nathan D, Lee, Christopher M, Lee, Brian T, Hinrichs, Angie S, Fyfe, Alastair C, Fernandes, Jason D, Diekhans, Mark, Clawson, Hiram, Casper, Jonathan, Benet-Pagès, Anna, Barber, Galt P, Haussler, David, Kuhn, Robert M, Haeussler, Maximilian, and Kent, W James

Subjects

Animals, Humans, Mice, Computational Biology, Genomics, Genome, Internet, Software, Databases, Genetic, Epidemics, Molecular Sequence Annotation, Data Curation, COVID-19, SARS-CoV-2, Developmental Biology, Environmental Sciences, Biological Sciences, Information and Computing Sciences

Abstract

For more than two decades, the UCSC Genome Browser database (https://genome.ucsc.edu) has provided high-quality genomics data visualization and genome annotations to the research community. As the field of genomics grows and more data become available, new modes of display are required to accommodate new technologies. New features released this past year include a Hi-C heatmap display, a phased family trio display for VCF files, and various track visualization improvements. Striving to keep data up-to-date, new updates to gene annotations include GENCODE Genes, NCBI RefSeq Genes, and Ensembl Genes. New data tracks added for human and mouse genomes include the ENCODE registry of candidate cis-regulatory elements, promoters from the Eukaryotic Promoter Database, and NCBI RefSeq Select and Matched Annotation from NCBI and EMBL-EBI (MANE). Within weeks of learning about the outbreak of coronavirus, UCSC released a genome browser, with detailed annotation tracks, for the SARS-CoV-2 RNA reference assembly.

Published

2021

12. Stability of SARS-CoV-2 phylogenies.

Author

Turakhia, Yatish, De Maio, Nicola, Thornlow, Bryan, Gozashti, Landen, Lanfear, Robert, Walker, Conor R, Hinrichs, Angie S, Fernandes, Jason D, Borges, Rui, Slodkowicz, Greg, Weilguny, Lukas, Haussler, David, Goldman, Nick, and Corbett-Detig, Russell

Subjects

Genetics, Developmental Biology

Abstract

The SARS-CoV-2 pandemic has led to unprecedented, nearly real-time genetic tracing due to the rapid community sequencing response. Researchers immediately leveraged these data to infer the evolutionary relationships among viral samples and to study key biological questions, including whether host viral genome editing and recombination are features of SARS-CoV-2 evolution. This global sequencing effort is inherently decentralized and must rely on data collected by many labs using a wide variety of molecular and bioinformatic techniques. There is thus a strong possibility that systematic errors associated with lab-or protocol-specific practices affect some sequences in the repositories. We find that some recurrent mutations in reported SARS-CoV-2 genome sequences have been observed predominantly or exclusively by single labs, co-localize with commonly used primer binding sites and are more likely to affect the protein-coding sequences than other similarly recurrent mutations. We show that their inclusion can affect phylogenetic inference on scales relevant to local lineage tracing, and make it appear as though there has been an excess of recurrent mutation or recombination among viral lineages. We suggest how samples can be screened and problematic variants removed, and we plan to regularly inform the scientific community with our updated results as more SARS-CoV-2 genome sequences are shared (https://virological.org/t/issues-with-sars-cov-2-sequencing-data/473 and https://virological.org/t/masking-strategies-for-sars-cov-2-alignments/480). We also develop tools for comparing and visualizing differences among very large phylogenies and we show that consistent clade- and tree-based comparisons can be made between phylogenies produced by different groups. These will facilitate evolutionary inferences and comparisons among phylogenies produced for a wide array of purposes. Building on the SARS-CoV-2 Genome Browser at UCSC, we present a toolkit to compare, analyze and combine SARS-CoV-2 phylogenies, find and remove potential sequencing errors and establish a widely shared, stable clade structure for a more accurate scientific inference and discourse.

Published

2020

13. The UCSC SARS-CoV-2 Genome Browser.

Author

Fernandes, Jason D, Hinrichs, Angie S, Clawson, Hiram, Gonzalez, Jairo Navarro, Lee, Brian T, Nassar, Luis R, Raney, Brian J, Rosenbloom, Kate R, Nerli, Santrupti, Rao, Arjun A, Schmelter, Daniel, Fyfe, Alastair, Maulding, Nathan, Zweig, Ann S, Lowe, Todd M, Ares, Manuel, Corbet-Detig, Russ, Kent, W James, Haussler, David, and Haeussler, Maximilian

Subjects

Humans, Pneumonia, Viral, Coronavirus Infections, Genome, Viral, Internet, Databases, Genetic, Pandemics, Betacoronavirus, COVID-19, SARS-CoV-2, Biological Sciences, Medical and Health Sciences, Developmental Biology

Published

2020

14. UCSC Genome Browser enters 20th year

Author

Lee, Christopher M, Barber, Galt P, Casper, Jonathan, Clawson, Hiram, Diekhans, Mark, Gonzalez, Jairo Navarro, Hinrichs, Angie S, Lee, Brian T, Nassar, Luis R, Powell, Conner C, Raney, Brian J, Rosenbloom, Kate R, Schmelter, Daniel, Speir, Matthew L, Zweig, Ann S, Haussler, David, Haeussler, Maximilian, Kuhn, Robert M, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, Cancer, Cancer Genomics, Databases, Genetic, Genome, Human, Genomics, Humans, Internet, Software, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

The University of California Santa Cruz Genome Browser website (https://genome.ucsc.edu) enters its 20th year of providing high-quality genomics data visualization and genome annotations to the research community. In the past year, we have added a new option to our web BLAT tool that allows search against all genomes, a single-cell expression viewer (https://cells.ucsc.edu), a 'lollipop' plot display mode for high-density variation data, a RESTful API for data extraction and a custom-track backup feature. New datasets include Tabula Muris single-cell expression data, GeneHancer regulatory annotations, The Cancer Genome Atlas Pan-Cancer variants, Genome Reference Consortium Patch sequences, new ENCODE transcription factor binding site peaks and clusters, the Database of Genomic Variants Gold Standard Variants, Genomenon Mastermind variants and three new multi-species alignment tracks.

Published

2020

15. The UCSC Genome Browser database: 2025 update.

Author

Perez, Gerardo, Barber, Galt P, Benet-Pages, Anna, Casper, Jonathan, Clawson, Hiram, Diekhans, Mark, Fischer, Clay, Gonzalez, Jairo Navarro, Hinrichs, Angie S, Lee, Christopher M, Nassar, Luis R, Raney, Brian J, Speir, Matthew L, van Baren, Marijke J, Vaske, Charles J, Haussler, David, Kent, W James, and Haeussler, Maximilian

Published

2025

16. The UCSC Genome Browser database: 2019 update

Author

Haeussler, Maximilian, Zweig, Ann S, Tyner, Cath, Speir, Matthew L, Rosenbloom, Kate R, Raney, Brian J, Lee, Christopher M, Lee, Brian T, Hinrichs, Angie S, Gonzalez, Jairo Navarro, Gibson, David, Diekhans, Mark, Clawson, Hiram, Casper, Jonathan, Barber, Galt P, Haussler, David, Kuhn, Robert M, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Cancer, Human Genome, Cancer Genomics, Biotechnology, Bioengineering, Animals, Chromosome Mapping, Databases, Genetic, Genome, Genome, Human, Genomics, Humans, Molecular Sequence Annotation, Software, Web Browser, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

The UCSC Genome Browser (https://genome.ucsc.edu) is a graphical viewer for exploring genome annotations. For almost two decades, the Browser has provided visualization tools for genetics and molecular biology and continues to add new data and features. This year, we added a new tool that lets users interactively arrange existing graphing tracks into new groups. Other software additions include new formats for chromosome interactions, a ChIP-Seq peak display for track hubs and improved support for HGVS. On the annotation side, we have added gnomAD, TCGA expression, RefSeq Functional elements, GTEx eQTLs, CRISPR Guides, SNPpedia and created a 30-way primate alignment on the human genome. Nine assemblies now have RefSeq-mapped gene models.

Published

2019

17. The UCSC Genome Browser database: 2018 update

Author

Casper, Jonathan, Zweig, Ann S, Villarreal, Chris, Tyner, Cath, Speir, Matthew L, Rosenbloom, Kate R, Raney, Brian J, Lee, Christopher M, Lee, Brian T, Karolchik, Donna, Hinrichs, Angie S, Haeussler, Maximilian, Guruvadoo, Luvina, Gonzalez, Jairo Navarro, Gibson, David, Fiddes, Ian T, Eisenhart, Christopher, Diekhans, Mark, Clawson, Hiram, Barber, Galt P, Armstrong, Joel, Haussler, David, Kuhn, Robert M, and Kent, W James

Subjects

Genetics, Human Genome, CRISPR-Cas Systems, Data Display, Databases, Genetic, Gene Regulatory Networks, Genome, Genome, Human, Humans, Molecular Sequence Annotation, Terminology as Topic, User-Computer Interface, Web Browser, Environmental Sciences, Biological Sciences, Information and Computing Sciences, Developmental Biology

Abstract

The UCSC Genome Browser (https://genome.ucsc.edu) provides a web interface for exploring annotated genome assemblies. The assemblies and annotation tracks are updated on an ongoing basis-12 assemblies and more than 28 tracks were added in the past year. Two recent additions are a display of CRISPR/Cas9 guide sequences and an interactive navigator for gene interactions. Other upgrades from the past year include a command-line version of the Variant Annotation Integrator, support for Human Genome Variation Society variant nomenclature input and output, and a revised highlighting tool that now supports multiple simultaneous regions and colors.

Published

2018

18. The UCSC Genome Browser database: 2017 update

Author

Tyner, Cath, Barber, Galt P, Casper, Jonathan, Clawson, Hiram, Diekhans, Mark, Eisenhart, Christopher, Fischer, Clayton M, Gibson, David, Gonzalez, Jairo Navarro, Guruvadoo, Luvina, Haeussler, Maximilian, Heitner, Steve, Hinrichs, Angie S, Karolchik, Donna, Lee, Brian T, Lee, Christopher M, Nejad, Parisa, Raney, Brian J, Rosenbloom, Kate R, Speir, Matthew L, Villarreal, Chris, Vivian, John, Zweig, Ann S, Haussler, David, Kuhn, Robert M, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Bioengineering, Networking and Information Technology R&D (NITRD), Biotechnology, Human Genome, 1.5 Resources and infrastructure (underpinning), Animals, Computational Biology, Databases, Genetic, Genome, Genomics, Humans, Molecular Sequence Annotation, Search Engine, Software, Web Browser, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

Since its 2001 debut, the University of California, Santa Cruz (UCSC) Genome Browser (http://genome.ucsc.edu/) team has provided continuous support to the international genomics and biomedical communities through a web-based, open source platform designed for the fast, scalable display of sequence alignments and annotations landscaped against a vast collection of quality reference genome assemblies. The browser's publicly accessible databases are the backbone of a rich, integrated bioinformatics tool suite that includes a graphical interface for data queries and downloads, alignment programs, command-line utilities and more. This year's highlights include newly designed home and gateway pages; a new 'multi-region' track display configuration for exon-only, gene-only and custom regions visualization; new genome browsers for three species (brown kiwi, crab-eating macaque and Malayan flying lemur); eight updated genome assemblies; extended support for new data types such as CRAM, RNA-seq expression data and long-range chromatin interaction pairs; and the unveiling of a new supported mirror site in Japan.

Published

2017

19. The unified proposal for classification of human respiratory syncytial virus below the subgroup level

Author

Goya, Stephanie, primary, Ruis, Christopher, additional, Neher, Richard A., additional, Meijer, Adam, additional, Aziz, Ammar, additional, Hinrichs, Angie S., additional, von Gottberg, Anne, additional, Roemer, Cornelius, additional, Amoako, Daniel G., additional, Acuna, Dolores, additional, McBroome, Jakob, additional, Otieno, James R., additional, Bhiman, Jinal N., additional, Everatt, Josie, additional, Munoz-Escalante, Juan C., additional, Ramaekers, Kaat, additional, Duggan, Kate, additional, Presser, Lance D., additional, Urbanska, Laura, additional, Venter, Marietjie, additional, Wolter, Nicole, additional, Peret, Teresa C. T., additional, Salimi, Vahid, additional, Potdar, Varsha, additional, Borges, Vitor, additional, and Viegas, Mariana, additional

Published

2024

20. A framework for automated scalable designation of viral pathogen lineages from genomic data

Author

McBroome, Jakob, primary, de Bernardi Schneider, Adriano, additional, Roemer, Cornelius, additional, Wolfinger, Michael T., additional, Hinrichs, Angie S., additional, O’Toole, Aine Niamh, additional, Ruis, Christopher, additional, Turakhia, Yatish, additional, Rambaut, Andrew, additional, and Corbett-Detig, Russell, additional

Published

2024

21. UCSC Data Integrator and Variant Annotation Integrator

Author

Hinrichs, Angie S, Raney, Brian J, Speir, Matthew L, Rhead, Brooke, Casper, Jonathan, Karolchik, Donna, Kuhn, Robert M, Rosenbloom, Kate R, Zweig, Ann S, Haussler, David, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Bioengineering, Animals, Databases, Genetic, Genome, Genomics, Humans, Internet, Software, Mathematical Sciences, Information and Computing Sciences, Bioinformatics, Biological sciences, Information and computing sciences, Mathematical sciences

Abstract

UnlabelledTwo new tools on the UCSC Genome Browser web site provide improved ways of combining information from multiple datasets, optionally including the user's own custom track data and/or data from track hubs. The Data Integrator combines columns from multiple data tracks, showing all items from the first track along with overlapping items from the other tracks. The Variant Annotation Integrator is tailored to adding functional annotations to variant calls; it offers a more restricted set of underlying data tracks but adds predictions of each variant's consequences for any overlapping or nearby gene transcript. When available, it optionally adds additional annotations including effect prediction scores from dbNSFP for missense mutations, ENCODE regulatory summary tracks and conservation scores.Availability and implementationThe web tools are freely available at http://genome.ucsc.edu/ and the underlying database is available for download at http://hgdownload.cse.ucsc.edu/ The software (written in C and Javascript) is available from https://genome-store.ucsc.edu/ and is freely available for academic and non-profit usage; commercial users must obtain a license.Contactangie@soe.ucsc.eduSupplementary informationSupplementary data are available at Bioinformatics online.

Published

2016

22. The UCSC Genome Browser database: 2016 update

Author

Speir, Matthew L, Zweig, Ann S, Rosenbloom, Kate R, Raney, Brian J, Paten, Benedict, Nejad, Parisa, Lee, Brian T, Learned, Katrina, Karolchik, Donna, Hinrichs, Angie S, Heitner, Steve, Harte, Rachel A, Haeussler, Maximilian, Guruvadoo, Luvina, Fujita, Pauline A, Eisenhart, Christopher, Diekhans, Mark, Clawson, Hiram, Casper, Jonathan, Barber, Galt P, Haussler, David, Kuhn, Robert M, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, 1.5 Resources and infrastructure (underpinning), Generic health relevance, Animals, Databases, Genetic, Disease, Genes, Genome, Genomics, Humans, Mice, Molecular Sequence Annotation, Software, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

For the past 15 years, the UCSC Genome Browser (http://genome.ucsc.edu/) has served the international research community by offering an integrated platform for viewing and analyzing information from a large database of genome assemblies and their associated annotations. The UCSC Genome Browser has been under continuous development since its inception with new data sets and software features added frequently. Some release highlights of this year include new and updated genome browsers for various assemblies, including bonobo and zebrafish; new gene annotation sets; improvements to track and assembly hub support; and a new interactive tool, the "Data Integrator", for intersecting data from multiple tracks. We have greatly expanded the data sets available on the most recent human assembly, hg38/GRCh38, to include updated gene prediction sets from GENCODE, more phenotype- and disease-associated variants from ClinVar and ClinGen, more genomic regulatory data, and a new multiple genome alignment.

Published

2016

23. The UCSC Genome Browser database: 2015 update

Author

Rosenbloom, Kate R, Armstrong, Joel, Barber, Galt P, Casper, Jonathan, Clawson, Hiram, Diekhans, Mark, Dreszer, Timothy R, Fujita, Pauline A, Guruvadoo, Luvina, Haeussler, Maximilian, Harte, Rachel A, Heitner, Steve, Hickey, Glenn, Hinrichs, Angie S, Hubley, Robert, Karolchik, Donna, Learned, Katrina, Lee, Brian T, Li, Chin H, Miga, Karen H, Nguyen, Ngan, Paten, Benedict, Raney, Brian J, Smit, Arian FA, Speir, Matthew L, Zweig, Ann S, Haussler, David, Kuhn, Robert M, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, 1.5 Resources and infrastructure (underpinning), Generic health relevance, Animals, Cricetinae, Databases, Nucleic Acid, Dogs, Ebolavirus, Gene Expression, Genome, Genomics, Internet, Mice, Molecular Sequence Annotation, Phenotype, Rats, Software, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

Launched in 2001 to showcase the draft human genome assembly, the UCSC Genome Browser database (http://genome.ucsc.edu) and associated tools continue to grow, providing a comprehensive resource of genome assemblies and annotations to scientists and students worldwide. Highlights of the past year include the release of a browser for the first new human genome reference assembly in 4 years in December 2013 (GRCh38, UCSC hg38), a watershed comparative genomics annotation (100-species multiple alignment and conservation) and a novel distribution mechanism for the browser (GBiB: Genome Browser in a Box). We created browsers for new species (Chinese hamster, elephant shark, minke whale), 'mined the web' for DNA sequences and expanded the browser display with stacked color graphs and region highlighting. As our user community increasingly adopts the UCSC track hub and assembly hub representations for sharing large-scale genomic annotation data sets and genome sequencing projects, our menu of public data hubs has tripled.

Published

2015

24. Navigating protected genomics data with UCSC Genome Browser in a Box.

Author

Haeussler, Maximilian, Raney, Brian J, Hinrichs, Angie S, Clawson, Hiram, Zweig, Ann S, Karolchik, Donna, Casper, Jonathan, Speir, Matthew L, Haussler, David, and Kent, W James

Abstract

Genome Browser in a Box (GBiB) is a small virtual machine version of the popular University of California Santa Cruz (UCSC) Genome Browser that can be run on a researcher's own computer. Once GBiB is installed, a standard web browser is used to access the virtual server and add personal data files from the local hard disk. Annotation data are loaded on demand through the Internet from UCSC or can be downloaded to the local computer for faster access. Availability and Implementation: Software downloads and installation instructions are freely available for non-commercial use at https://genome-store.ucsc.edu/. GBiB requires the installation of open-source software VirtualBox, available for all major operating systems, and the UCSC Genome Browser, which is open source and free for non-commercial use. Commercial use of GBiB and the Genome Browser requires a license (http://genome.ucsc.edu/license/).genome@soe.ucsc.edu.

Published

2014

25. The UCSC Genome Browser database: 2024 update

Author

Raney, Brian J, primary, Barber, Galt P, additional, Benet-Pagès, Anna, additional, Casper, Jonathan, additional, Clawson, Hiram, additional, Cline, Melissa S, additional, Diekhans, Mark, additional, Fischer, Clayton, additional, Navarro Gonzalez, Jairo, additional, Hickey, Glenn, additional, Hinrichs, Angie S, additional, Kuhn, Robert M, additional, Lee, Brian T, additional, Lee, Christopher M, additional, Le Mercier, Phillipe, additional, Miga, Karen H, additional, Nassar, Luis R, additional, Nejad, Parisa, additional, Paten, Benedict, additional, Perez, Gerardo, additional, Schmelter, Daniel, additional, Speir, Matthew L, additional, Wick, Brittney D, additional, Zweig, Ann S, additional, Haussler, David, additional, Kent, W James, additional, and Haeussler, Maximilian, additional

Published

2023

26. The UCSC Genome Browser database: 2014 update

Author

Karolchik, Donna, Barber, Galt P, Casper, Jonathan, Clawson, Hiram, Cline, Melissa S, Diekhans, Mark, Dreszer, Timothy R, Fujita, Pauline A, Guruvadoo, Luvina, Haeussler, Maximilian, Harte, Rachel A, Heitner, Steve, Hinrichs, Angie S, Learned, Katrina, Lee, Brian T, Li, Chin H, Raney, Brian J, Rhead, Brooke, Rosenbloom, Kate R, Sloan, Cricket A, Speir, Matthew L, Zweig, Ann S, Haussler, David, Kuhn, Robert M, and Kent, W James

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, Human Genome, 1.5 Resources and infrastructure (underpinning), Generic health relevance, Alleles, Animals, Databases, Genetic, Genome, Genome, Human, Genomics, Humans, Internet, Mice, Molecular Sequence Annotation, Polymorphism, Single Nucleotide, Sequence Alignment, Software, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

The University of California Santa Cruz (UCSC) Genome Browser (http://genome.ucsc.edu) offers online public access to a growing database of genomic sequence and annotations for a large collection of organisms, primarily vertebrates, with an emphasis on the human and mouse genomes. The Browser's web-based tools provide an integrated environment for visualizing, comparing, analysing and sharing both publicly available and user-generated genomic data sets. As of September 2013, the database contained genomic sequence and a basic set of annotation 'tracks' for ∼90 organisms. Significant new annotations include a 60-species multiple alignment conservation track on the mouse, updated UCSC Genes tracks for human and mouse, and several new sets of variation and ENCODE data. New software tools include a Variant Annotation Integrator that returns predicted functional effects of a set of variants uploaded as a custom track, an extension to UCSC Genes that displays haplotype alleles for protein-coding genes and an expansion of data hubs that includes the capability to display remotely hosted user-provided assembly sequence in addition to annotation data. To improve European access, we have added a Genome Browser mirror (http://genome-euro.ucsc.edu) hosted at Bielefeld University in Germany.

Published

2014

27. G-NEST: a gene neighborhood scoring tool to identify co-conserved, co-expressed genes

Author

Lemay, Danielle G, Martin, William F, Hinrichs, Angie S, Rijnkels, Monique, German, J Bruce, Korf, Ian, and Pollard, Katherine S

Abstract

Abstract Background In previous studies, gene neighborhoods—spatial clusters of co-expressed genes in the genome—have been defined using arbitrary rules such as requiring adjacency, a minimum number of genes, a fixed window size, or a minimum expression level. In the current study, we developed a Gene Neighborhood Scoring Tool (G-NEST) which combines genomic location, gene expression, and evolutionary sequence conservation data to score putative gene neighborhoods across all possible window sizes simultaneously. Results Using G-NEST on atlases of mouse and human tissue expression data, we found that large neighborhoods of ten or more genes are extremely rare in mammalian genomes. When they do occur, neighborhoods are typically composed of families of related genes. Both the highest scoring and the largest neighborhoods in mammalian genomes are formed by tandem gene duplication. Mammalian gene neighborhoods contain highly and variably expressed genes. Co-localized noisy gene pairs exhibit lower evolutionary conservation of their adjacent genome locations, suggesting that their shared transcriptional background may be disadvantageous. Genes that are essential to mammalian survival and reproduction are less likely to occur in neighborhoods, although neighborhoods are enriched with genes that function in mitosis. We also found that gene orientation and protein-protein interactions are partially responsible for maintenance of gene neighborhoods. Conclusions Our experiments using G-NEST confirm that tandem gene duplication is the primary driver of non-random gene order in mammalian genomes. Non-essentiality, co-functionality, gene orientation, and protein-protein interactions are additional forces that maintain gene neighborhoods, especially those formed by tandem duplicates. We expect G-NEST to be useful for other applications such as the identification of core regulatory modules, common transcriptional backgrounds, and chromatin domains. The software is available at http://docpollard.org/software.html

Published

2012

28. The bovine lactation genome: insights into the evolution of mammalian milk.

Author

Lemay, Danielle G, Lynn, David J, Martin, William F, Neville, Margaret C, Casey, Theresa M, Rincon, Gonzalo, Kriventseva, Evgenia V, Barris, Wesley C, Hinrichs, Angie S, Molenaar, Adrian J, Pollard, Katherine S, Maqbool, Nauman J, Singh, Kuljeet, Murney, Regan, Zdobnov, Evgeny M, Tellam, Ross L, Medrano, Juan F, German, J Bruce, and Rijnkels, Monique

Subjects

Mammary Glands, Animal, Chromosomes, Mammalian, Milk, Animals, Mammals, Cattle, Humans, Milk Proteins, Chromosome Mapping, Computational Biology, Evolution, Molecular, Phylogeny, Lactation, Quantitative Trait Loci, Genome, Databases, Genetic, Female, Mammary Glands, Animal, Chromosomes, Mammalian, Evolution, Molecular, Databases, Genetic, Bioinformatics, Environmental Sciences, Biological Sciences, Information and Computing Sciences

Abstract

BackgroundThe newly assembled Bos taurus genome sequence enables the linkage of bovine milk and lactation data with other mammalian genomes.ResultsUsing publicly available milk proteome data and mammary expressed sequence tags, 197 milk protein genes and over 6,000 mammary genes were identified in the bovine genome. Intersection of these genes with 238 milk production quantitative trait loci curated from the literature decreased the search space for milk trait effectors by more than an order of magnitude. Genome location analysis revealed a tendency for milk protein genes to be clustered with other mammary genes. Using the genomes of a monotreme (platypus), a marsupial (opossum), and five placental mammals (bovine, human, dog, mice, rat), gene loss and duplication, phylogeny, sequence conservation, and evolution were examined. Compared with other genes in the bovine genome, milk and mammary genes are: more likely to be present in all mammals; more likely to be duplicated in therians; more highly conserved across Mammalia; and evolving more slowly along the bovine lineage. The most divergent proteins in milk were associated with nutritional and immunological components of milk, whereas highly conserved proteins were associated with secretory processes.ConclusionsAlthough both copy number and sequence variation contribute to the diversity of milk protein composition across species, our results suggest that this diversity is primarily due to other mechanisms. Our findings support the essentiality of milk to the survival of mammalian neonates and the establishment of milk secretory mechanisms more than 160 million years ago.

Published

2009

29. SARS-CoV-2 lineage assignments using phylogenetic placement/UShER are superior to pangoLEARN machine learning method

Author

de Bernardi Schneider, Adriano, primary, Su, Michelle, additional, Hinrichs, Angie S, additional, Wang, Jade, additional, Amin, Helly, additional, Bell, John, additional, Wadford, Debra A, additional, O'Toole, Áine, additional, Scher, Emily, additional, Perry, Marc D, additional, Turakhia, Yatish, additional, De Maio, Nicola, additional, Hughes, Scott, additional, and Corbett-Detig, Russ, additional

Published

2023

30. GenArk: Towards a million UCSC Genome Browsers

Author

Clawson, Hiram, primary, Lee, Brian T, additional, Barber, Galt P, additional, Casper, Jonathan, additional, Diekhans, Mark, additional, Fischer, Clay, additional, Gonzalez, Jairo Navarro, additional, Hinrichs, Angie S, additional, Lee, Christopher M, additional, Nassar, Luis R, additional, Perez, Gerardo, additional, Wick, Brittney, additional, Schmelter, Daniel, additional, Speir, Matthew L, additional, Armstrong, Joel, additional, Zweig, Ann S, additional, Kuhn, Robert M, additional, Kirilenko, Bogdan M, additional, Hiller, Michael, additional, Kent, William J, additional, Haussler, David, additional, and Haeussler, Maximilian, additional

Published

2023

31. Automated Agnostic Designation of Pathogen Lineages

Author

McBroome, Jakob, primary, de Bernardi Schneider, Adriano, additional, Roemer, Cornelius, additional, Wolfinger, Michael T., additional, Hinrichs, Angie S, additional, O'Toole, Aine N, additional, Ruis, Chris, additional, Turakhia, Yatish, additional, Rambaut, Andrew, additional, and Corbett-Detig, Russell, additional

Published

2023

32. The UCSC Genome Browser database: 2023 update

Author

Nassar, Luis R, primary, Barber, Galt P, additional, Benet-Pagès, Anna, additional, Casper, Jonathan, additional, Clawson, Hiram, additional, Diekhans, Mark, additional, Fischer, Clay, additional, Gonzalez, Jairo Navarro, additional, Hinrichs, Angie S, additional, Lee, Brian T, additional, Lee, Christopher M, additional, Muthuraman, Pranav, additional, Nguy, Beagan, additional, Pereira, Tiana, additional, Nejad, Parisa, additional, Perez, Gerardo, additional, Raney, Brian J, additional, Schmelter, Daniel, additional, Speir, Matthew L, additional, Wick, Brittney D, additional, Zweig, Ann S, additional, Haussler, David, additional, Kuhn, Robert M, additional, Haeussler, Maximilian, additional, and Kent, W James, additional

Published

2022

33. Mutational spectra distinguish SARS-CoV-2 replication niches

Author

Ruis, Christopher, primary, Peacock, Thomas P., additional, Polo, Luis Mariano, additional, Masone, Diego, additional, Alvarez, Maria Soledad, additional, Hinrichs, Angie S., additional, Turakhia, Yatish, additional, Cheng, Ye, additional, McBroome, Jakob, additional, Corbett-Detig, Russell, additional, Parkhill, Julian, additional, and Floto, R. Andres, additional

Published

2022

34. Online Phylogenetics using Parsimony Produces Slightly Better Trees and is Dramatically More Efficient for Large SARS-CoV-2 Phylogenies than de novo and Maximum-Likelihood Approaches

Author

Thornlow, Bryan, primary, Kramer, Alexander, additional, Ye, Cheng, additional, De Maio, Nicola, additional, McBroome, Jakob, additional, Hinrichs, Angie S., additional, Lanfear, Robert, additional, Turakhia, Yatish, additional, and Corbett-Detig, Russell, additional

Published

2021

35. Navigating protected genomics data with UCSC Genome Browser in a Box

Author

Haeussler, Maximilian, Raney, Brian J., Hinrichs, Angie S., Clawson, Hiram, Zweig, Ann S., Karolchik, Donna, Casper, Jonathan, Speir, Matthew L., Haussler, David, and Kent, James W.

Published

2015

36. UCSC Genome Browser database: 2023 update.

Author

Nassar, Luis R, Barber, Galt P, Benet-Pagès, Anna, Casper, Jonathan, Clawson, Hiram, Diekhans, Mark, Fischer, Clay, Gonzalez, Jairo Navarro, Hinrichs, Angie S, Lee, Brian T, Lee, Christopher M, Muthuraman, Pranav, Nguy, Beagan, Pereira, Tiana, Nejad, Parisa, Perez, Gerardo, Raney, Brian J, Schmelter, Daniel, Speir, Matthew L, and Wick, Brittney D

Published

2023

37. The UCSC Genome Browser database: 2022 update

Author

Lee, Brian T, primary, Barber, Galt P, additional, Benet-Pagès, Anna, additional, Casper, Jonathan, additional, Clawson, Hiram, additional, Diekhans, Mark, additional, Fischer, Clay, additional, Gonzalez, Jairo Navarro, additional, Hinrichs, Angie S, additional, Lee, Christopher M, additional, Muthuraman, Pranav, additional, Nassar, Luis R, additional, Nguy, Beagan, additional, Pereira, Tiana, additional, Perez, Gerardo, additional, Raney, Brian J, additional, Rosenbloom, Kate R, additional, Schmelter, Daniel, additional, Speir, Matthew L, additional, Wick, Brittney D, additional, Zweig, Ann S, additional, Haussler, David, additional, Kuhn, Robert M, additional, Haeussler, Maximilian, additional, and Kent, W James, additional

Published

2021

38. Discovery of functional elements in 12 Drosophila genomes using evolutionary signatures

Author

Stark, Alexander, Lin, Michael F., Kheradpour, Pouya, Pedersen, Jakob S., Parts, Leopold, Carlson, Joseph W., Crosby, Madeline A., Rasmussen, Matthew D., Roy, Sushmita, Deoras, Ameya N., Ruby, J. Graham, Brennecke, Julius, Hodges, Emily, Hinrichs, Angie S., Caspi, Anat, Paten, Benedict, Park, Seung-Won, Han, Mira V., Maeder, Morgan L., Polansky, Benjamin J., Robson, Bryanne E., Aerts, Stein, van Helden, Jacques, Hassan, Bassem, Gilbert, Donald G., Eastman, Deborah A., Rice, Michael, Weir, Michael, Hahn, Matthew W., Park, Yongkyu, Dewey, Colin N., Pachter, Lior, Kent, W. James, Haussler, David, Lai, Eric C., Bartel, David P., Hannon, Gregory J., Kaufman, Thomas C., Eisen, Michael B., Clark, Andrew G., Smith, Douglas, Celniker, Susan E., Gelbart, William M., and Kellis, Manolis

Published

2007

39. Evolution of genes and genomes on the Drosophila phylogeny

Author

Clark, Andrew G., Eisen, Michael B., Smith, Douglas R., Bergman, Casey M., Oliver, Brian, Markow, Therese A., Kaufman, Thomas C., Kellis, Manolis, Gelbart, William, Iyer, Venky N., Pollard, Daniel A., Sackton, Timothy B., Larracuente, Amanda M., Singh, Nadia D., Abad, Jose P., Abt, Dawn N., Adryan, Boris, Aguade, Montserrat, Akashi, Hiroshi, Anderson, Wyatt W., Aquadro, Charles F., Ardell, David H., Arguello, Roman, Artieri, Carlo G., Barbash, Daniel A., Barker, Daniel, Barsanti, Paolo, Batterham, Phil, Batzoglou, Serafim, Begun, Dave, Bhutkar, Arjun, Blanco, Enrico, Bosak, Stephanie A., Bradley, Robert K., Brand, Adrianne D., Brent, Michael R., Brooks, Angela N., Brown, Randall H., Butlin, Roger K., Caggese, Corrado, Calvi, Brian R., Bernardo de Carvalho, A., Caspi, Anat, Castrezana, Sergio, Celniker, Susan E., Chang, Jean L., Chapple, Charles, Chatterji, Sourav, Chinwalla, Asif, Civetta, Alberto, Clifton, Sandra W., Comeron, Josep M., Costello, James C., Coyne, Jerry A., Daub, Jennifer, David, Robert G., Delcher, Arthur L., Delehaunty, Kim, Do, Chuong B., Ebling, Heather, Edwards, Kevin, Eickbush, Thomas, Evans, Jay D., Filipski, Alan, Findeiß, Sven, Freyhult, Eva, Fulton, Lucinda, Fulton, Robert, Garcia, Ana C. L., Gardiner, Anastasia, Garfield, David A., Garvin, Barry E., Gibson, Greg, Gilbert, Don, Gnerre, Sante, Godfrey, Jennifer, Good, Robert, Gotea, Valer, Gravely, Brenton, Greenberg, Anthony J., Griffiths-Jones, Sam, Gross, Samuel, Guigo, Roderic, Gustafson, Erik A., Haerty, Wilfried, Hahn, Matthew W., Halligan, Daniel L., Halpern, Aaron L., Halter, Gillian M., Han, Mira V., Heger, Andreas, Hillier, LaDeana, Hinrichs, Angie S., Holmes, Ian, Hoskins, Roger A., Hubisz, Melissa J., Hultmark, Dan, Huntley, Melanie A., Jaffe, David B., Jagadeeshan, Santosh, Jeck, William R., Johnson, Justin, Jones, Corbin D., Jordan, William C., Karpen, Gary H., Kataoka, Eiko, Keightley, Peter D., Kheradpour, Pouya, Kirkness, Ewen F., Koerich, Leonardo B., Kristiansen, Karsten, Kudrna, Dave, Kulathinal, Rob J., Kumar, Sudhir, Kwok, Roberta, Lander, Eric, Langley, Charles H., Lapoint, Richard, Lazzaro, Brian P., Lee, So-Jeong, Levesque, Lisa, Li, Ruiqiang, Lin, Chiao-Feng, Lin, Michael F., Lindblad-Toh, Kerstin, Llopart, Ana, Long, Manyuan, Low, Lloyd, Lozovsky, Elena, Lu, Jian, Luo, Meizhong, Machado, Carlos A., Makalowski, Wojciech, Marzo, Mar, Matsuda, Muneo, Matzkin, Luciano, McAllister, Bryant, McBride, Carolyn S., McKernan, Brendan, McKernan, Kevin, Mendez-Lago, Maria, Minx, Patrick, Mollenhauer, Michael U., Montooth, Kristi, Mount, Stephen M., Mu, Xu, Myers, Eugene, Negre, Barbara, Newfeld, Stuart, Nielsen, Rasmus, Noor, Mohamed A. F., O'Grady, Patrick, Pachter, Lior, Papaceit, Montserrat, Parisi, Matthew J., Parisi, Michael, Parts, Leopold, Pedersen, Jakob S., Pesole, Graziano, Phillippy, Adam M., Ponting, Chris P., Pop, Mihai, Porcelli, Damiano, Powell, Jeffrey R., Prohaska, Sonja, Pruitt, Kim, Puig, Marta, Quesneville, Hadi, Ravi Ram, Kristipati, Rand, David, Rasmussen, Matthew D., Reed, Laura K., Reenan, Robert, Reily, Amy, Remington, Karin A., Rieger, Tania T., Ritchie, Michael G., Robin, Charles, Rogers, Yu-Hui, Rohde, Claudia, Rozas, Julio, Rubenfield, Marc J., Ruiz, Alfredo, Russo, Susan, Salzberg, Steven L., Sanchez-Gracia, Alejandro, Saranga, David J., Sato, Hajime, Schaeffer, Stephen W., Schatz, Michael C., Schlenke, Todd, Schwartz, Russell, Segarra, Carmen, Singh, Rama S., Sirot, Laura, Sirota, Marina, Sisneros, Nicholas B., Smith, Chris D., Smith, Temple F., Spieth, John, Stage, Deborah E., Stark, Alexander, Stephan, Wolfgang, Strausberg, Robert L., Strempel, Sebastian, Sturgill, David, Sutton, Granger, Sutton, Granger G., Tao, Wei, Teichmann, Sarah, Tobari, Yoshiko N., Tomimura, Yoshihiko, Tsolas, Jason M., Valente, Vera L. S., Venter, Eli, Craig Venter, J., Vicario, Saverio, Vieira, Filipe G., Vilella, Albert J., Villasante, Alfredo, Walenz, Brian, Wang, Jun, Wasserman, Marvin, Watts, Thomas, Wilson, Derek, Wilson, Richard K., Wing, Rod A., Wolfner, Mariana F., Wong, Alex, Ka-Shu Wong, Gane, Wu, Chung-I, Wu, Gabriel, Yamamoto, Daisuke, Yang, Hsiao-Pei, Yang, Shiaw-Pyng, Yorke, James A., Yoshida, Kiyohito, Zdobnov, Evgeny, Zhang, Peili, Zhang, Yu, Zimin, Aleksey V., Baldwin, Jennifer, Abdouelleil, Amr, Abdulkadir, Jamal, Abebe, Adal, Abera, Brikti, Abreu, Justin, Christophe Acer, St, Aftuck, Lynne, Alexander, Allen, An, Peter, Anderson, Erica, Anderson, Scott, Arachi, Harindra, Azer, Marc, Bachantsang, Pasang, Barry, Andrew, Bayul, Tashi, Berlin, Aaron, Bessette, Daniel, Bloom, Toby, Blye, Jason, Boguslavskiy, Leonid, Bonnet, Claude, Boukhgalter, Boris, Bourzgui, Imane, Brown, Adam, Cahill, Patrick, Channer, Sheridon, Cheshatsang, Yama, Chuda, Lisa, Citroen, Mieke, Collymore, Alville, Cooke, Patrick, Costello, Maura, D'Aco, Katie, Daza, Riza, De Haan, Georgius, DeGray, Stuart, DeMaso, Christina, Dhargay, Norbu, Dooley, Kimberly, Dooley, Erin, Doricent, Missole, Dorje, Passang, Dorjee, Kunsang, Dupes, Alan, Elong, Richard, Falk, Jill, Farina, Abderrahim, Faro, Susan, Ferguson, Diallo, Fisher, Sheila, Foley, Chelsea D., Franke, Alicia, Friedrich, Dennis, Gadbois, Loryn, Gearin, Gary, Gearin, Christina R., Giannoukos, Georgia, Goode, Tina, Graham, Joseph, Grandbois, Edward, Grewal, Sharleen, Gyaltsen, Kunsang, Hafez, Nabil, Hagos, Birhane, Hall, Jennifer, Henson, Charlotte, Hollinger, Andrew, Honan, Tracey, Huard, Monika D., Hughes, Leanne, Hurhula, Brian, Erii Husby, M, Kamat, Asha, Kanga, Ben, Kashin, Seva, Khazanovich, Dmitry, Kisner, Peter, Lance, Krista, Lara, Marcia, Lee, William, Lennon, Niall, Letendre, Frances, LeVine, Rosie, Lipovsky, Alex, Liu, Xiaohong, Liu, Jinlei, Liu, Shangtao, Lokyitsang, Tashi, Lokyitsang, Yeshi, Lubonja, Rakela, Lui, Annie, MacDonald, Pen, Magnisalis, Vasilia, Maru, Kebede, Matthews, Charles, McCusker, William, McDonough, Susan, Mehta, Teena, Meldrim, James, Meneus, Louis, Mihai, Oana, Mihalev, Atanas, Mihova, Tanya, Mittelman, Rachel, Mlenga, Valentine, Montmayeur, Anna, Mulrain, Leonidas, Navidi, Adam, Naylor, Jerome, Negash, Tamrat, Nguyen, Thu, Nguyen, Nga, Nicol, Robert, Norbu, Choe, Norbu, Nyima, Novod, Nathaniel, O'Neill, Barry, Osman, Sahal, Markiewicz, Eva, Oyono, Otero L., Patti, Christopher, Phunkhang, Pema, Pierre, Fritz, Priest, Margaret, Raghuraman, Sujaa, Rege, Filip, Reyes, Rebecca, Rise, Cecil, Rogov, Peter, Ross, Keenan, Ryan, Elizabeth, Settipalli, Sampath, Shea, Terry, Sherpa, Ngawang, Shi, Lu, Shih, Diana, Sparrow, Todd, Spaulding, Jessica, Stalker, John, Stange-Thomann, Nicole, Stavropoulos, Sharon, Stone, Catherine, Strader, Christopher, Tesfaye, Senait, Thomson, Talene, Thoulutsang, Yama, Thoulutsang, Dawa, Topham, Kerri, Topping, Ira, Tsamla, Tsamla, Vassiliev, Helen, Vo, Andy, Wangchuk, Tsering, Wangdi, Tsering, Weiand, Michael, Wilkinson, Jane, Wilson, Adam, Yadav, Shailendra, Young, Geneva, Yu, Qing, Zembek, Lisa, Zhong, Danni, Zimmer, Andrew, Zwirko, Zac, Alvarez, Pablo, Brockman, Will, Butler, Jonathan, Chin, CheeWhye, Grabherr, Manfred, Kleber, Michael, Mauceli, Evan, and MacCallum, Iain

Subjects

Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): Drosophila 12 Genomes Consortium; Project Leaders; Andrew G. Clark (corresponding author) [1]; Michael B. Eisen (corresponding author) [2, 3]; Douglas R. Smith (corresponding author) [4]; Casey M. Bergman (corresponding [...]

Published

2007

40. Identification and analysis of functional elements in 1% of the human genome by the ENCODE pilot project

Author

Birney, Ewan, Stamatoyannopoulos, John A., Dutta, Anindya, Guigo, Roderic, Gingeras, Thomas R., Margulies, Elliott H., Weng, Zhiping, Snyder, Michael, Dermitzakis, Emmanouil T., Thurman, Robert E., Kuehn, Michael S., Taylor, Christopher M., Neph, Shane, Koch, Christoph M., Asthana, Saurabh, Malhotra, Ankit, Adzhubei, Ivan, Greenbaum, Jason A., Andrews, Robert M., Flicek, Paul, Boyle, Patrick J., Cao, Hua, Carter, Nigel P., Clelland, Gayle K., Davis, Sean, Day, Nathan, Dhami, Pawandeep, Dillon, Shane C., Dorschner, Michael O., Fiegler, Heike, Giresi, Paul G., Goldy, Jeff, Hawrylycz, Michael, Haydock, Andrew, Humbert, Richard, James, Keith D., Johnson, Brett E., Johnson, Ericka M., Frum, Tristan T., Rosenzweig, Elizabeth R., Karnani, Neerja, Lee, Kirsten, Lefebvre, Gregory C., Navas, Patrick A., Neri, Fidencio, Parker, Stephen C. J., Sabo, Peter J., Sandstrom, Richard, Shafer, Anthony, Vetrie, David, Weaver, Molly, Wilcox, Sarah, Yu1, Man, Collins, Francis S., Dekker, Job, Lieb, Jason D., Tullius, Thomas D., Crawford, Gregory E., Sunyaev, Shamil, Noble, William S., Dunham, Ian, Denoeud, France, Reymond, Alexandre, Kapranov, Philipp, Rozowsky, Joel, Zheng, Deyou, Castelo, Robert, Frankish, Adam, Harrow, Jennifer, Ghosh, Srinka, Sandelin, Albin, Hofacker, Ivo L., Baertsch, Robert, Keefe, Damian, Dike, Sujit, Cheng, Jill, Hirsch, Heather A., Sekinger, Edward A., Lagarde, Julien, Abril, Josep F., Shahab, Atif, Flamm, Christoph, Fried, Claudia, Hackermuller, Jorg, Hertel, Jana, Lindemeyer, Manja, Missal, Kristin, Tanzer, Andrea, Washietl, Stefan, Korbel, Jan, Emanuelsson, Olof, Pedersen, Jakob S., Holroyd, Nancy, Taylor, Ruth, Swarbreck, David, Matthews, Nicholas, Dickson, Mark C., Thomas, Daryl J., Weirauch, Matthew T., Gilbert, James, Drenkow, Jorg, Bell, Ian, Zhao, XiaoDong, Srinivasan, K.G., Sung, Wing-Kin, Ooi, Hong Sain, Chiu, Kuo Ping, Foissac, Sylvain, Alioto, Tyler, Brent, Michael, Pachter, Lior, Tress, Michael L., Valencia, Alfonso, Choo, Siew Woh, Choo, Chiou Yu, Ucla, Catherine, Manzano, Caroline, Wyss, Carine, Cheung, Evelyn, Clark, Taane G., Brown, James B., Ganesh, Madhavan, Patel, Sandeep, Tammana, Hari, Chrast, Jacqueline, Henrichsen, Charlotte N., Kai, Chikatoshi, Kawai, Jun, Nagalakshmi, Ugrappa, Wu, Jiaqian, Lian, Zheng, Lian, Jin, Newburger, Peter, Zhang, Xueqing, Bickel, Peter, Mattick, John S., Carninci, Piero, Hayashizaki, Yoshihide, Weissman, Sherman, Hubbard, Tim, Myers, Richard M., Rogers, Jane, Stadler, Peter F., Lowe, Todd M., Wei, Chia-Lin, Ruan, Yijun, Struhl, Kevin, Gerstein, Mark, Antonarakis, Stylianos E., Fu, Yutao, Green, Eric D., Karaoz, Ulaş, Siepel, Adam, Taylor, James, Liefer, Laura A., Wetterstrand, Kris A., Good, Peter J., Feingold, Elise A., Guyer, Mark S., Cooper, Gregory M., Asimenos, George, Dewey, Colin N., Hou, Minmei, Nikolaev, Sergey, Montoya-Burgos, Juan I., Loytynoja, Ari, Whelan, Simon, Pardi, Fabio, Massingham, Tim, Huang, Haiyan, Zhang, Nancy R., Holmes, Ian, Mullikin, James C., Ureta-Vidal, Abel, Paten, Benedict, Seringhaus, Michael, Church, Deanna, Rosenbloom, Kate, Kent, W. James, Stone, Eric A., Batzoglou, Serafim, Goldman, Nick, Hardison, Ross C., Haussler, David, Miller, Webb, Sidow, Arend, Trinklein, Nathan D., Zhang, Zhengdong D., Barrera, Leah, Stuart, Rhona, King, David C., Ameur, Adam, Enroth, Stefan, Bieda, Mark C., Kim, Jonghwan, Bhinge, Akshay A., Jiang, Nan, Liu, Jun, Yao, Fei, Vega, Vinsensius B., Lee, Charlie W.H., Ng, Patrick, Yang, Annie, Moqtaderi, Zarmik, Zhu, Zhou, Xu, Xiaoqin, Squazzo, Sharon, Oberley, Matthew J., Inman, David, Singer, Michael A., Richmond, Todd A., Munn, Kyle J., Rada-Iglesias, Alvaro, Wallerman, Ola, Komorowski, Jan, Fowler, Joanna C., Couttet, Phillippe, Bruce, Alexander W., Dovey, Oliver M., Ellis, Peter D., Langford, Cordelia F., Nix, David A., Euskirchen, Ghia, Hartman, Stephen, Urban, Alexander E., Kraus, Peter, Van Calcar, Sara, Heintzman, Nate, Hoon Kim, Tae, Wang, Kun, Qu, Chunxu, Hon, Gary, Luna, Rosa, Glass, Christopher K., Rosenfeld, M. Geoff, Aldred, Shelley Force, Cooper, Sara J., Halees, Anason, Lin, Jane M., Shulha, Hennady P., Zhang, Xiaoling, Xu, Mousheng, Haidar, Jaafar N. S., Yu, Yong, Birney*, Ewan, Iyer, Vishwanath R., Green, Roland D., Wadelius, Claes, Farnham, Peggy J., Ren, Bing, Harte, Rachel A., Hinrichs, Angie S., Trumbower, Heather, Clawson, Hiram, Hillman-Jackson, Jennifer, Zweig, Ann S., Smith, Kayla, Thakkapallayil, Archana, Barber, Galt, Kuhn, Robert M., Karolchik, Donna, Armengol, Lluis, Bird, Christine P., de Bakker, Paul I. W., Kern, Andrew D., Lopez-Bigas, Nuria, Martin, Joel D., Stranger, Barbara E., Woodroffe, Abigail, Davydov, Eugene, Dimas, Antigone, Eyras, Eduardo, Hallgrimsdottir, Ingileif B., Huppert, Julian, Zody, Michael C., Abecasis, Goncalo R., Estivill, Xavier, Bouffard, Gerard G., Guan, Xiaobin, Hansen, Nancy F., Idol, Jacquelyn R., Maduro, Valerie V.B., Maskeri, Baishali, McDowell, Jennifer C., Park, Morgan, Thomas, Pamela J., Young, Alice C., Blakesley, Robert W., Baylor College of Medicine, Human Genome Sequencing Center, Muzny, Donna M., Sodergren, Erica, Wheeler, David A., Worley, Kim C., Jiang, Huaiyang, Weinstock, George M., Gibbs, Richard A., Graves, Tina, Fulton, Robert, Mardis, Elaine R., Wilson, Richard K., Clamp, Michele, Cuff, James, Gnerre, Sante, Jaffe, David B., Chang, Jean L., Lindblad-Toh, Kerstin, Lander, Eric S., Koriabine, Maxim, Nefedov, Mikhail, Osoegawa, Kazutoyo, Yoshinaga, Yuko, Zhu, Baoli, and de Jong, Pieter J.

Subjects

Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

Author(s): The ENCODE Project Consortium; Analysis Coordination; Ewan Birney (corresponding author) [1]; John A. Stamatoyannopoulos (corresponding author) [2]; Anindya Dutta (corresponding author) [3]; Roderic Guigó (corresponding author) [4, 5]; Thomas [...]

Published

2007

41. A new SARS-CoV-2 lineage that shares mutations with known Variants of Concern is rejected by automated sequence repository quality control

Author

Thornlow, Bryan, primary, Hinrichs, Angie S., additional, Jain, Miten, additional, Dhillon, Namrita, additional, La, Scott, additional, Kapp, Joshua D., additional, Anigbogu, Ikenna, additional, Cassatt-Johnstone, Molly, additional, McBroome, Jakob, additional, Haeussler, Maximilian, additional, Turakhia, Yatish, additional, Chang, Terren, additional, Olsen, Hugh E, additional, Sanford, Jeremy, additional, Stone, Michael, additional, Vaske, Olena, additional, Bjork, Isabel, additional, Akeson, Mark, additional, Shapiro, Beth, additional, Haussler, David, additional, Kilpatrick, A. Marm, additional, and Corbett-Detig, Russell, additional

Published

2021

42. A daily-updated database and tools for comprehensive SARS-CoV-2 mutation-annotated trees

Author

McBroome, Jakob, primary, Thornlow, Bryan, additional, Hinrichs, Angie S., additional, De Maio, Nicola, additional, Goldman, Nick, additional, Haussler, David, additional, Corbett-Detig, Russell, additional, and Turakhia, Yatish, additional

Published

2021

43. The UCSC Genome Browser database: extensions and updates 2013

Author

Meyer, Laurence R., Zweig, Ann S., Hinrichs, Angie S., Karolchik, Donna, Kuhn, Robert M., Wong, Matthew, Sloan, Cricket A., Rosenbloom, Kate R., Roe, Greg, Rhead, Brooke, Raney, Brian J., Pohl, Andy, Malladi, Venkat S., Li, Chin H., Lee, Brian T., Learned, Katrina, Kirkup, Vanessa, Hsu, Fan, Heitner, Steve, Harte, Rachel A., Haeussler, Maximilian, Guruvadoo, Luvina, Goldman, Mary, Giardine, Belinda M., Fujita, Pauline A., Dreszer, Timothy R., Diekhans, Mark, Cline, Melissa S., Clawson, Hiram, Barber, Galt P., Haussler, David, and Kent, James W.

Published

2013

44. The UCSC Genome Browser database: extensions and updates 2011

Author

Dreszer, Timothy R., Karolchik, Donna, Zweig, Ann S., Hinrichs, Angie S., Raney, Brian J., Kuhn, Robert M., Meyer, Laurence R., Wong, Mathew, Sloan, Cricket A., Rosenbloom, Kate R., Roe, Greg, Rhead, Brooke, Pohl, Andy, Malladi, Venkat S., Li, Chin H., Learned, Katrina, Kirkup, Vanessa, Hsu, Fan, Harte, Rachel A., Guruvadoo, Luvina, Goldman, Mary, Giardine, Belinda M., Fujita, Pauline A., Diekhans, Mark, Cline, Melissa S., Clawson, Hiram, Barber, Galt P., Haussler, David, and James Kent, W.

Published

2012

45. ENCODE whole-genome data in the UCSC Genome Browser: update 2012

Author

Rosenbloom, Kate R., Dreszer, Timothy R., Long, Jeffrey C., Malladi, Venkat S., Sloan, Cricket A., Raney, Brian J., Cline, Melissa S., Karolchik, Donna, Barber, Galt P., Clawson, Hiram, Diekhans, Mark, Fujita, Pauline A., Goldman, Mary, Gravell, Robert C., Harte, Rachel A., Hinrichs, Angie S., Kirkup, Vanessa M., Kuhn, Robert M., Learned, Katrina, Maddren, Morgan, Meyer, Laurence R., Pohl, Andy, Rhead, Brooke, Wong, Matthew C., Zweig, Ann S., Haussler, David, and Kent, W. James

Published

2012

46. The UCSC Genome Browser database: update 2011

Author

Fujita, Pauline A., Rhead, Brooke, Zweig, Ann S., Hinrichs, Angie S., Karolchik, Donna, Cline, Melissa S., Goldman, Mary, Barber, Galt P., Clawson, Hiram, Coelho, Antonio, Diekhans, Mark, Dreszer, Timothy R., Giardine, Belinda M., Harte, Rachel A., Hillman-Jackson, Jennifer, Hsu, Fan, Kirkup, Vanessa, Kuhn, Robert M., Learned, Katrina, Li, Chin H., Meyer, Laurence R., Pohl, Andy, Raney, Brian J., Rosenbloom, Kate R., Smith, Kayla E., Haussler, David, and Kent, W. James

Published

2011

47. ENCODE whole-genome data in the UCSC genome browser (2011 update)

Author

Raney, Brian J., Cline, Melissa S., Rosenbloom, Kate R., Dreszer, Timothy R., Learned, Katrina, Barber, Galt P., Meyer, Laurence R., Sloan, Cricket A., Malladi, Venkat S., Roskin, Krishna M., Suh, Bernard B., Hinrichs, Angie S., Clawson, Hiram, Zweig, Ann S., Kirkup, Vanessa, Fujita, Pauline A., Rhead, Brooke, Smith, Kayla E., Pohl, Andy, Kuhn, Robert M., Karolchik, Donna, Haussler, David, and Kent, W. James

Published

2011

48. The UCSC Genome Browser database: 2021 update

Author

Navarro Gonzalez, Jairo, primary, Zweig, Ann S, additional, Speir, Matthew L, additional, Schmelter, Daniel, additional, Rosenbloom, Kate R, additional, Raney, Brian J, additional, Powell, Conner C, additional, Nassar, Luis R, additional, Maulding, Nathan D, additional, Lee, Christopher M, additional, Lee, Brian T, additional, Hinrichs, Angie S, additional, Fyfe, Alastair C, additional, Fernandes, Jason D, additional, Diekhans, Mark, additional, Clawson, Hiram, additional, Casper, Jonathan, additional, Benet-Pagès, Anna, additional, Barber, Galt P, additional, Haussler, David, additional, Kuhn, Robert M, additional, Haeussler, Maximilian, additional, and Kent, W James, additional

Published

2020

49. Ultrafast Sample Placement on Existing Trees (UShER) Empowers Real-Time Phylogenetics for the SARS-CoV-2 Pandemic

Author

Turakhia, Yatish, primary, Thornlow, Bryan, additional, Hinrichs, Angie S., additional, De Maio, Nicola, additional, Gozashti, Landen, additional, Lanfear, Robert, additional, Haussler, David, additional, and Corbett-Detig, Russell, additional

Published

2020

50. Stability of SARS-CoV-2 Phylogenies

Author

Turakhia, Yatish, primary, Thornlow, Bryan, additional, Gozashti, Landen, additional, Hinrichs, Angie S., additional, Fernandes, Jason D., additional, Haussler, David, additional, and Corbett-Detig, Russell, additional

Published

2020