Journal club papers: Rozdiel medzi revíziami
Riadok 1: | Riadok 1: | ||
A detailed description of the journal club activity is included in the [[Rules#Journal club|course rules]]. | A detailed description of the journal club activity is included in the [[Rules#Journal club|course rules]]. | ||
− | + | Please submit your preferences regarding these papers using '''[https://forms.gle/K7BZJD5fA3wRmmXk8 this form]''' until Wednesday '''18.10.2023, 22:00'''. In the form, include '''numbers of three papers from this list''' in the order of preference. | |
− | Please submit your preferences regarding these papers using '''[https://forms.gle/K7BZJD5fA3wRmmXk8 this form]''' until Wednesday ''' | + | |
* Students from the same study program will typically not be in the same group. | * Students from the same study program will typically not be in the same group. | ||
* Preferences submitted earlier will be considered with higher preference. | * Preferences submitted earlier will be considered with higher preference. | ||
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− | + | 1. Curry, K.D., Wang, Q., Nute, M.G., Tyshaieva, A., Reeves, E., Soriano, S., Wu, Q., Graeber, E., Finzer, P., Mendling, W. and Savidge, T., 2022. Emu: species-level microbial community profiling of full-length 16S rRNA Oxford Nanopore sequencing data. Nature methods, 19(7), pp.845-853. https://doi.org/10.1038/s41592-022-01520-4 | |
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− | + | 2. Edgar, R.C., Taylor, J., Lin, V., Altman, T., Barbera, P., Meleshko, D., Lohr, D., Novakovsky, G., Buchfink, B., Al-Shayeb, B. and Banfield, J.F., 2022. Petabase-scale sequence alignment catalyses viral discovery. Nature, 602(7895), pp.142-147. | |
− | + | https://doi.org/10.1038/s41586-021-04332-2 | |
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+ | 3. Bradley, P., Den Bakker, H.C., Rocha, E.P., McVean, G. and Iqbal, Z., 2019. Ultrafast search of all deposited bacterial and viral genomic data. Nature biotechnology, 37(2), pp.152-159. https://doi.org/10.1038/s41587-018-0010-1 | ||
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+ | 4. Lunter G (2007). "Probabilistic whole-genome alignments reveal high indel rates in the human and mouse genomes.". Bioinformatics 23 (13): i289-96. https://doi.org/10.1093/bioinformatics/btm185 | ||
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+ | 5. Wapinski I, Pfeffer A, Friedman N, Regev A (2007). "Natural history and evolutionary principles of gene duplication in fungi". Nature 449 (7158): 54-61. https://doi.org/10.1038/nature06107 (check also the [http://www.nature.com/nature/journal/v449/n7158/suppinfo/nature06107.html Online supplement]) | ||
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+ | 6. Clamp M, Fry B, Kamal M, Xie X, Cuff J, Lin MF et al. (2007). "Distinguishing protein-coding and noncoding genes in the human genome.". Proc Natl Acad Sci U S A 104 (49): 19428-33. https://doi.org/10.1073/pnas.0709013104 | ||
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+ | 7. Harbison CT, Gordon DB, Lee TI, Rinaldi NJ, Macisaac KD, Danford TW et al. (2004). "Transcriptional regulatory code of a eukaryotic genome.". Nature 431 (7004): 99-104. https://doi.org/10.1038/nature02800 | ||
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+ | 8. Huang, K.L., Scott, A.D., Zhou, D.C., Wang, L.B., Weerasinghe, A., Elmas, A., Liu, R., Wu, Y., Wendl, M.C., Wyczalkowski, M.A. and Baral, J., 2021. Spatially interacting phosphorylation sites and mutations in cancer. Nature communications, 12(1), p.2313. https://doi.org/10.1038/s41467-021-22481-w | ||
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+ | 9. Gordon DE, Hiatt J, Bouhaddou M, Rezelj VV, Ulferts S, Braberg H, Jureka AS, Obernier K, Guo JZ, Batra J, Kaake RM. Comparative host-coronavirus protein interaction networks reveal pan-viral disease mechanisms. Science. 2020 Dec 4;370(6521). https://doi.org/10.1126/science.abe9403 |
Verzia zo dňa a času 08:54, 11. október 2023
A detailed description of the journal club activity is included in the course rules.
Please submit your preferences regarding these papers using this form until Wednesday 18.10.2023, 22:00. In the form, include numbers of three papers from this list in the order of preference.
- Students from the same study program will typically not be in the same group.
- Preferences submitted earlier will be considered with higher preference.
1. Curry, K.D., Wang, Q., Nute, M.G., Tyshaieva, A., Reeves, E., Soriano, S., Wu, Q., Graeber, E., Finzer, P., Mendling, W. and Savidge, T., 2022. Emu: species-level microbial community profiling of full-length 16S rRNA Oxford Nanopore sequencing data. Nature methods, 19(7), pp.845-853. https://doi.org/10.1038/s41592-022-01520-4
2. Edgar, R.C., Taylor, J., Lin, V., Altman, T., Barbera, P., Meleshko, D., Lohr, D., Novakovsky, G., Buchfink, B., Al-Shayeb, B. and Banfield, J.F., 2022. Petabase-scale sequence alignment catalyses viral discovery. Nature, 602(7895), pp.142-147.
https://doi.org/10.1038/s41586-021-04332-2
3. Bradley, P., Den Bakker, H.C., Rocha, E.P., McVean, G. and Iqbal, Z., 2019. Ultrafast search of all deposited bacterial and viral genomic data. Nature biotechnology, 37(2), pp.152-159. https://doi.org/10.1038/s41587-018-0010-1
4. Lunter G (2007). "Probabilistic whole-genome alignments reveal high indel rates in the human and mouse genomes.". Bioinformatics 23 (13): i289-96. https://doi.org/10.1093/bioinformatics/btm185
5. Wapinski I, Pfeffer A, Friedman N, Regev A (2007). "Natural history and evolutionary principles of gene duplication in fungi". Nature 449 (7158): 54-61. https://doi.org/10.1038/nature06107 (check also the Online supplement)
6. Clamp M, Fry B, Kamal M, Xie X, Cuff J, Lin MF et al. (2007). "Distinguishing protein-coding and noncoding genes in the human genome.". Proc Natl Acad Sci U S A 104 (49): 19428-33. https://doi.org/10.1073/pnas.0709013104
7. Harbison CT, Gordon DB, Lee TI, Rinaldi NJ, Macisaac KD, Danford TW et al. (2004). "Transcriptional regulatory code of a eukaryotic genome.". Nature 431 (7004): 99-104. https://doi.org/10.1038/nature02800
8. Huang, K.L., Scott, A.D., Zhou, D.C., Wang, L.B., Weerasinghe, A., Elmas, A., Liu, R., Wu, Y., Wendl, M.C., Wyczalkowski, M.A. and Baral, J., 2021. Spatially interacting phosphorylation sites and mutations in cancer. Nature communications, 12(1), p.2313. https://doi.org/10.1038/s41467-021-22481-w
9. Gordon DE, Hiatt J, Bouhaddou M, Rezelj VV, Ulferts S, Braberg H, Jureka AS, Obernier K, Guo JZ, Batra J, Kaake RM. Comparative host-coronavirus protein interaction networks reveal pan-viral disease mechanisms. Science. 2020 Dec 4;370(6521). https://doi.org/10.1126/science.abe9403