You are free to use all graphics produced by this website in your published work or on other websites, there is no need to contact us to request permission, see the license page for details. +
+But the UCSC Genome Browser is exclusively funded by NIH and if research articles do not cite or mention us, we cannot report the citations and it is harder for NIH to justify funding one of the -few long-term and stable resources in genomics. +few stable resources in genomics that you can rely on.
-So you can do us a great favor if you cite the most recent NAR paper, the one -at the top of this . At the moment, the most recent paper has the PMID 36420891 and -the DOI 10.1093/nar/gkac1072. In addition, you can include a reference to the Genome +At the moment, the most recent UCSC Genome Browser paper has the PMID 36420891, + DOI 10.1093/nar/gkac1072. In addition, you can include a reference to the Genome Browser website in your manuscript: http://genome.ucsc.edu or mention in the text that you used the "UCSC Genome Browser". To cite just one of our computational tools, see the reference section below.
While doing this, you can check if the genome coordinates in your paper are clear to the readers and if you specified the genome assembly that you used. One cannot mention the genome assembly too often. Computational biologists will appreciate if your supplemental files with genome annotations -include the genome assembly identifier directly in the file name. We try to -keep the identifiers short, currently they are "hg19" and "hg38". In a similar -vein, references to nucleotides ideally have the full chromosome position in -your publication text somewhere or in a supplemental table, and not only the -position on the transcript and or coding sequence, as transcript models can -change a lot. +include the genome assembly identifier directly in the file name. We keep these +identifiers short, currently they are "hg19" and "hg38" for the most common +human assemblies. In a similar vein, references to nucleotides ideally have the +full chromosome position in your publication text somewhere or in a +supplemental table, and not only the position on the transcript and or coding +sequence, as transcript models can change a lot.
To make this even easier, when refering to a gene or genomic location, you can use the menu "My Data > My Sessions", to generate a short, stable link to your current genome browser view for your publication. In this way, readers can jump from your publication to this genome location and get their view configured for your particular message. You can even add your own annotations to the UCSC Genome Browser, either as very simple text labels, by pasting a line like "chr1 1 1000 my_annotation" into the box found under "My Data > Custom -Tracks" or by loading all genomics results into the browser via Track Hubs. + Tracks" or by loading all your genomics results into the browser with +Track Hubs.
++Most recent UCSC Genome Browser publication: +Nassar et al. + +The UCSC Genome Browser database: 2023 update. +Nucleic Acids Research 2023 PMID: 36420891, DOI: 10.1093/nar/gkac1072 +
+-
Original UCSC Genome Browser publication: Kent WJ, Sugnet CW, Furey TS, Roskin KM, Pringle TH, Zahler AM, Haussler D. The human genome browser at UCSC. Genome Res. 2002 Jun;12(6):996-1006.
Genome Browser screenshots: Journal-quality screenshots of the Genome Browser can be produced by using the View ->PDF utility in the top navigation bar from the tracks page. When including a screenshot in your manuscript, reference http://genome.ucsc.edu in the caption and cite the most recent Genome Browser paper in the manuscript. As mentioned above, we recommend including a My Data > My Sesssion URL of your screenshot to allow readers to interact with your data and get more information.
@@ -94,23 +106,23 @@ UCSC Genome Browser. Bioinformatics. 2014 Apr 1;30(7):1003-5. Epub 2013 Nov 13.UCSC Gene Sorter: Kent WJ, Hsu F, Karolchik D, Kuhn RM, Clawson H, Trumbower H, Haussler D. Exploring relationships and mining data with the UCSC Gene Sorter. Genome Res. 2005 May;15(5):737-41.
UCSC SARS-CoV-2 Genome Browser Fernandes JD, Hinrichs AS, Clawson H, et al. The UCSC SARS-CoV-2 Genome Browser. Nat Genet. 2020 Sept 9; 52:991-998.
-Other genome assemblies: +Other genome assemblies: Manuscripts that include the use of Genome Browser assembly data from organisms other than human should, e.g. one of the thousands of GenArk assemblies that we provide, should cite the relevant sequencing paper. Usually this information can be found on the assembly description that appears when the genome is selected on our gateway page or on the NCBI GenBank BioProject page of the assembly.