Genome mining tools: Difference between revisions
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Some useful genome mining resources are listed below: | Some useful genome mining resources are listed below: | ||
<strong>antiSMASH</strong>:<sup>1</sup> | [https://antismash.secondarymetabolites.org/#!/start <strong>antiSMASH</strong>]:<sup>1</sup> (antibiotics and Secondary Metabolite Analysis Shell) | ||
* | *Identification and annotation of secondary metabolite gene clusters | ||
*[https://twitter.com/antiSMASH_dev Twitter] | |||
<strong>PRISM</strong>:<sup>2</sup> | [http://grid.adapsyn.com/prism/#!/prism <strong>PRISM</strong>]:<sup>2</sup> (PRediction Informatics for Secondary Metabolism) | ||
*Identification of nonribosomal peptides, type I and II polyketides and RiPPs | |||
<strong>BAGEL</strong>:<sup>3</sup> | [http://bagel4.molgenrug.nl/ <strong>BAGEL</strong>]:<sup>3</sup> | ||
* Identification of gene clusters for bacteriocins and RiPPs | |||
<strong>CLUSEAN</strong>:<sup>4</sup> | [https://omictools.com/clusean-tool <strong>CLUSEAN</strong>]:<sup>4</sup> | ||
*Annotation and analysis of secondary metabolite gene clusters | |||
<strong>ClusterFinder</strong>:<sup>5</sup> | [https://github.com/petercim/ClusterFinder <strong>ClusterFinder</strong>]:<sup>5</sup> | ||
*Identification of secondary metabolite gene clusters | |||
<strong> | [https://arts3.ziemertlab.com/ <strong>ARTS</strong>]:<sup>6</sup> (Antibiotic Resistant Target Seeker) | ||
*Genome mining for secondary metabolites and potential antibiotics based on antibiotic resistance targets | |||
<strong> | [https://sourceforge.net/projects/secmetdb/ <strong>2metDB</strong>]:<sup>7</sup> | ||
*Genome mining for polyketides and nonribosomal peptides | |||
<strong> | [http://pks.kaist.ac.kr/pkminer/ <strong>PKMiner</strong>]:<sup>8</sup> | ||
*Genome mining for type II polyketide synthases | |||
<strong> | [http://www.nii.ac.in/sbspks2.html <strong>SBSPKS</strong>]:<sup>9</sup> | ||
*Sequence analysis of polyketide synthases | |||
<strong> | [http://www.nii.ac.in/~priyesh/lantipepDB/new_predictions/index.php <strong>RiPPMINER</strong>]:<sup>10</sup> | ||
*Genome mining and deciphering chemical structures of RiPPs | |||
<strong> | [http://www.ripprodeo.org/manual.html <strong>RODEO</strong>]:<sup>11</sup> (Rapid ORF Description and Evaluation Online) | ||
*Identification of biosynthetic gene clusters and prediction of RiPP precursor peptides | |||
<strong> | [https://github.com/streptomyces/ripper <strong>RiPPER</strong>]:<sup>12</sup> | ||
*Identification of RiPP precursor peptides and biosynthetic gene clusters | |||
[https://omictools.com/big-scape-tool <strong>BiG-SCAPE</strong>] | |||
[https://github.com/nselem/EvoMining/wiki <strong>EvoMining</strong>] | |||
<strong>EvoMining</strong> | |||
# Medema, M.H., Blin, K., Cimermancic, P., de Jager, V., Zakrzewski, P., Fischbach, M.A., Weber, T., Takano, E., Breitling, R. (2011) antiSMASH: rapid identification, annotation and analysis of secondary metabolite biosynthesis gene clusters in bacterial and fungal genome sequences. <em>Nucleic Acids Research</em>, 1; 39 doi: 10.1093/nar/gkr466 | # Medema, M.H., Blin, K., Cimermancic, P., de Jager, V., Zakrzewski, P., Fischbach, M.A., Weber, T., Takano, E., Breitling, R. (2011) antiSMASH: rapid identification, annotation and analysis of secondary metabolite biosynthesis gene clusters in bacterial and fungal genome sequences. <em>Nucleic Acids Research</em>, 1; 39 doi: 10.1093/nar/gkr466 | ||
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# Weber, T., Rausch, C., Lopez, P., Hoof, I., Gaykova, V., Huson, D. H., Wohlleben, W. (2009) CLUSEAN: a computer-based framework for the automated analysis of bacterial secondary metabolite biosynthetic gene clusters. <em>Journal of Biotechnology</em>, 140:13-7 doi: 10.1016/j.jbiotec.2009.01.007 | # Weber, T., Rausch, C., Lopez, P., Hoof, I., Gaykova, V., Huson, D. H., Wohlleben, W. (2009) CLUSEAN: a computer-based framework for the automated analysis of bacterial secondary metabolite biosynthetic gene clusters. <em>Journal of Biotechnology</em>, 140:13-7 doi: 10.1016/j.jbiotec.2009.01.007 | ||
# Cimermancic, P., Medema, M.H., Claesen, J., Kurita, K., Wieland Brown, L.C., Mavrommatis, K., Pati, A., Godfrey, P.A., Koehrsen, M., Clardy, J., Birren, B.W., Takano, E., Sali, A., Linington, R.G., Fischbach, M.A. Insights into secondary metabolism from a global analysis of prokaryotic biosynthetic gene clusters. (2014) <em>Cell</em>, 158:412-21 doi: 10.1016/j.cell.2014.06.034 | # Cimermancic, P., Medema, M.H., Claesen, J., Kurita, K., Wieland Brown, L.C., Mavrommatis, K., Pati, A., Godfrey, P.A., Koehrsen, M., Clardy, J., Birren, B.W., Takano, E., Sali, A., Linington, R.G., Fischbach, M.A. Insights into secondary metabolism from a global analysis of prokaryotic biosynthetic gene clusters. (2014) <em>Cell</em>, 158:412-21 doi: 10.1016/j.cell.2014.06.034 | ||
# Alanjary, M., Kronmiller, B., Adamek, M., Blin, K., Weber, T., Huson, D., Philmus, B., Ziemert, N. (2017) The Antibiotic Resistant Target Seeker (ARTS), an exploration engine for antibiotic cluster prioritization and novel drug target discovery. <em>Nucleic Acids Research</em>, 3;45(W1):W42-W48 doi: 10.1093/nar/gkx360 | # Alanjary, M., Kronmiller, B., Adamek, M., Blin, K., Weber, T., Huson, D., Philmus, B., Ziemert, N. (2017) The Antibiotic Resistant Target Seeker (ARTS), an exploration engine for antibiotic cluster prioritization and novel drug target discovery. <em>Nucleic Acids Research</em>, 3;45(W1):W42-W48 doi: 10.1093/nar/gkx360 | ||
# Bachmann, B. O., and Ravel, J., (2009) Chapter 8. Methods for in silico prediction of microbial polyketide and nonribosomal peptide biosynthetic pathways from DNA sequence data. <em>Methods in Enzymology</em>, 458:181-217 doi: 10.1016/S0076-6879(09)04808-3 | # Bachmann, B. O., and Ravel, J., (2009) Chapter 8. Methods for in silico prediction of microbial polyketide and nonribosomal peptide biosynthetic pathways from DNA sequence data. <em>Methods in Enzymology</em>, 458:181-217 doi: 10.1016/S0076-6879(09)04808-3 |
Revision as of 13:28, 16 August 2019
Actinobacteria are talented producers of secondary metabolites, many of which have useful biological activities. Thanks to the development of many targeted genome mining tools for bacteria, we can now identify previously uncharacterised biosynthetic gene clusters (BGCs) for natural products.
Some useful genome mining resources are listed below:
antiSMASH:1 (antibiotics and Secondary Metabolite Analysis Shell)
- Identification and annotation of secondary metabolite gene clusters
PRISM:2 (PRediction Informatics for Secondary Metabolism)
- Identification of nonribosomal peptides, type I and II polyketides and RiPPs
BAGEL:3
- Identification of gene clusters for bacteriocins and RiPPs
CLUSEAN:4
- Annotation and analysis of secondary metabolite gene clusters
- Identification of secondary metabolite gene clusters
ARTS:6 (Antibiotic Resistant Target Seeker)
- Genome mining for secondary metabolites and potential antibiotics based on antibiotic resistance targets
2metDB:7
- Genome mining for polyketides and nonribosomal peptides
PKMiner:8
- Genome mining for type II polyketide synthases
SBSPKS:9
- Sequence analysis of polyketide synthases
RiPPMINER:10
- Genome mining and deciphering chemical structures of RiPPs
RODEO:11 (Rapid ORF Description and Evaluation Online)
- Identification of biosynthetic gene clusters and prediction of RiPP precursor peptides
RiPPER:12
- Identification of RiPP precursor peptides and biosynthetic gene clusters
- Medema, M.H., Blin, K., Cimermancic, P., de Jager, V., Zakrzewski, P., Fischbach, M.A., Weber, T., Takano, E., Breitling, R. (2011) antiSMASH: rapid identification, annotation and analysis of secondary metabolite biosynthesis gene clusters in bacterial and fungal genome sequences. Nucleic Acids Research, 1; 39 doi: 10.1093/nar/gkr466
- Skinnider, M.A., Merwin, N. J., Johnston, C. W., Magarvey, N. A. (2017) PRISM 3: expanded prediction of natural product chemical structures from microbial genomes. et al, Nucleic Acids Research, doi: 10.1093/nar/gkx320
- Van Heel, A.J., de Jong, A., Song, C., Viel, J. H., Kok, J., Kuipers, O. P. (2018) BAGEL4: a user-friendly web server to thoroughly mine RiPPs and bacteriocins. Nucleic Acids Research, 2;46 doi: org/10.1093/nar/gky383.
- Weber, T., Rausch, C., Lopez, P., Hoof, I., Gaykova, V., Huson, D. H., Wohlleben, W. (2009) CLUSEAN: a computer-based framework for the automated analysis of bacterial secondary metabolite biosynthetic gene clusters. Journal of Biotechnology, 140:13-7 doi: 10.1016/j.jbiotec.2009.01.007
- Cimermancic, P., Medema, M.H., Claesen, J., Kurita, K., Wieland Brown, L.C., Mavrommatis, K., Pati, A., Godfrey, P.A., Koehrsen, M., Clardy, J., Birren, B.W., Takano, E., Sali, A., Linington, R.G., Fischbach, M.A. Insights into secondary metabolism from a global analysis of prokaryotic biosynthetic gene clusters. (2014) Cell, 158:412-21 doi: 10.1016/j.cell.2014.06.034
- Alanjary, M., Kronmiller, B., Adamek, M., Blin, K., Weber, T., Huson, D., Philmus, B., Ziemert, N. (2017) The Antibiotic Resistant Target Seeker (ARTS), an exploration engine for antibiotic cluster prioritization and novel drug target discovery. Nucleic Acids Research, 3;45(W1):W42-W48 doi: 10.1093/nar/gkx360
- Bachmann, B. O., and Ravel, J., (2009) Chapter 8. Methods for in silico prediction of microbial polyketide and nonribosomal peptide biosynthetic pathways from DNA sequence data. Methods in Enzymology, 458:181-217 doi: 10.1016/S0076-6879(09)04808-3
- Kim, J., and Yi, G.S. (2012) PKMiner: a database for exploring type II polyketide synthases. BMC Microbiology, 8;12:169. doi: 10.1186/1471-2180-12-169.
- Anand, S., Prasad, M.V., Yadav, G., Kumar, N., Shehara, J., Ansari, M.Z., Mohanty, D. (2010) SBSPKS: structure based sequence analysis of polyketide synthases. Nucleic Acids Research, 38(Web Server issue):W487-96. doi: 10.1093/nar/gkq340.
- Agrawal, P., Khater, S., Gupta, M., Sain, N., Mohanty, D. (2017) RiPPMiner: a bioinformatics resource for deciphering chemical structures of RiPPs based on prediction of cleavage and cross-links. Nucleic Acids Research, 3;45 doi: 10.1093/nar/gkx408.
- Tietz, J. I., Schwalen, C.J., Patel, P.S., Maxson, T., Blair, P.M., Tai, H.C., Zakai, U.I., Mitchell, D.A. (2017) A new genome-mining tool redefines the lasso peptide biosynthetic landscape. Nature Chemical Biology, 13(5):470-478 doi: 10.1038/nchembio.2319.
- Santos-Aberturas, J., Chandra, G., Frattaruolo, L., Lacret, R., Pham, T. H., Vior, N. M., Eyles, T. H., Truman, A. W. (2019) Uncovering the unexplored diversity of thioamidated ribosomal peptides in Actinobacteria using the RiPPER genome mining tool. Nucleic Acids Research, 47;(9):4624–4637 doi: 10.1093/nar/gkz192