Automatic annotation of organellar genomes with DOGMA (original) (raw)
Journal Article
,
Search for other works by this author on:
,
Search for other works by this author on:
Search for other works by this author on:
Revision received:
05 May 2004
PDF Navbar Search Filter Mobile Enter search term Search
Abstract
Summary: The Dual Organellar GenoMe Annotator (DOGMA) automates the annotation of organellar (plant chloroplast and animal mitochondrial) genomes. It is a Web-based package that allows the use of BLAST searches against a custom database, and conservation of basepairing in the secondary structure of animal mitochondrial tRNAs to identify and annotate genes. DOGMA provides a graphical user interface for viewing and editing annotations. Annotations are stored on our password-protected server to enable repeated sessions of working on the same genome. Finished annotations can be extracted for direct submission to GenBank.
Availability: http://phylocluster.biosci.utexas.edu/dogma/
Supplementary information: Detailed documentation and tutorials for annotating both animal mitochondrial and plant chloroplast genomes can be found on the DOGMA home page.
*
To whom correspondence should be addressed.
Author notes
1Department of Computer Sciences and 2Section of Integrative Biology, Institute of Cellular and Molecular Biology, University of Texas at Austin, Austin, TX 78712, USA and 3DOE Joint Genome Institute, 2800 Mitchell Drive, Walnut Creek, CA 94598, USA
Bioinformatics vol. 20 issue 17 © Oxford University Press 2004; all rights reserved.
Citations
Views
Altmetric
Metrics
Total Views 7,850
5,566 Pageviews
2,284 PDF Downloads
Since 11/1/2016
| Month: | Total Views: |
|---|---|
| November 2016 | 5 |
| December 2016 | 4 |
| January 2017 | 11 |
| February 2017 | 32 |
| March 2017 | 22 |
| April 2017 | 34 |
| May 2017 | 65 |
| June 2017 | 42 |
| July 2017 | 41 |
| August 2017 | 38 |
| September 2017 | 31 |
| October 2017 | 38 |
| November 2017 | 39 |
| December 2017 | 94 |
| January 2018 | 129 |
| February 2018 | 94 |
| March 2018 | 91 |
| April 2018 | 128 |
| May 2018 | 87 |
| June 2018 | 79 |
| July 2018 | 80 |
| August 2018 | 98 |
| September 2018 | 70 |
| October 2018 | 86 |
| November 2018 | 127 |
| December 2018 | 116 |
| January 2019 | 132 |
| February 2019 | 88 |
| March 2019 | 150 |
| April 2019 | 155 |
| May 2019 | 281 |
| June 2019 | 112 |
| July 2019 | 105 |
| August 2019 | 117 |
| September 2019 | 77 |
| October 2019 | 64 |
| November 2019 | 66 |
| December 2019 | 51 |
| January 2020 | 74 |
| February 2020 | 78 |
| March 2020 | 61 |
| April 2020 | 82 |
| May 2020 | 42 |
| June 2020 | 65 |
| July 2020 | 68 |
| August 2020 | 70 |
| September 2020 | 78 |
| October 2020 | 90 |
| November 2020 | 703 |
| December 2020 | 57 |
| January 2021 | 90 |
| February 2021 | 91 |
| March 2021 | 216 |
| April 2021 | 133 |
| May 2021 | 75 |
| June 2021 | 67 |
| July 2021 | 75 |
| August 2021 | 86 |
| September 2021 | 49 |
| October 2021 | 49 |
| November 2021 | 70 |
| December 2021 | 67 |
| January 2022 | 63 |
| February 2022 | 56 |
| March 2022 | 87 |
| April 2022 | 82 |
| May 2022 | 96 |
| June 2022 | 83 |
| July 2022 | 67 |
| August 2022 | 57 |
| September 2022 | 78 |
| October 2022 | 49 |
| November 2022 | 65 |
| December 2022 | 48 |
| January 2023 | 59 |
| February 2023 | 87 |
| March 2023 | 75 |
| April 2023 | 74 |
| May 2023 | 66 |
| June 2023 | 72 |
| July 2023 | 44 |
| August 2023 | 53 |
| September 2023 | 67 |
| October 2023 | 77 |
| November 2023 | 75 |
| December 2023 | 94 |
| January 2024 | 66 |
| February 2024 | 95 |
| March 2024 | 59 |
| April 2024 | 46 |
| May 2024 | 59 |
| June 2024 | 48 |
| July 2024 | 53 |
| August 2024 | 43 |
| September 2024 | 46 |
| October 2024 | 46 |
×
Email alerts
Citing articles via
More from Oxford Academic