| Name | Type | Owner | Description | Date | Organisms | Contigs | Features |
|---|---|---|---|---|---|---|---|
| Binning | Rose Kantor | Kantor et. al. 2015. "Bioreactor microbial ecosystems for thiocyanate and cyanide degradation unraveled with genome-resolved metagenomics." Environmental Microbiology. | 01/20/2014 | 84 | 13766 | 284393 | |
| Analysis | Tomas Hessler | SCN microorganism genomes from 92 SCN binning projects as of April 2021, dereplicated at 95% ANI. | 04/14/2021 | 310 | 40603 | 1265669 | |
| Binning | Rose Kantor | Kantor et. al. 2015. "Bioreactor microbial ecosystems for thiocyanate and cyanide degradation unraveled with genome-resolved metagenomics." Environmental Microbiology | 01/20/2014 | 50 | 3999 | 106663 | |
| Analysis | Rohan Sachdeva | SCN18 dereplicated genomes | 06/21/2019 | 232 | 84269 | 977318 | |
| Analysis | Rose Kantor | De-replicated genomes. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T.). DOI: 10.1021/acs.est.6b0... | 07/06/2015 | 233 | 22793 | 655081 | |
| Binning | Rose Kantor | sample T0_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.est.6... | 10/02/2014 | 117 | 49170 | 343872 | |
| Binning | Rose Kantor | sample NH4_T4_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 09/24/2015 | 78 | 52062 | 323299 | |
| Binning | Rose Kantor | sample NH4_T4_P metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.es... | 09/28/2015 | 112 | 82814 | 460567 | |
| Binning | Rose Kantor | sample NH4_T1_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 06/03/2015 | 113 | 66095 | 468600 | |
| Binning | Rose Kantor | sample NH4_T2_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 10/13/2015 | 117 | 70426 | 487314 | |
| Binning | Rose Kantor | sample NH4_T2_P metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.es... | 03/17/2015 | 44 | 95405 | 416981 | |
| Binning | Rose Kantor | sample NH4_T3_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 10/12/2015 | 69 | 43383 | 308485 | |
| Binning | Rose Kantor | sample NH4_T3_P metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.es... | 10/12/2015 | 84 | 87636 | 430952 | |
| Binning | Rose Kantor | sample SCN_T4_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 10/08/2015 | 161 | 58810 | 499550 | |
| Binning | Rose Kantor | sample SCN_T1_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 06/05/2015 | 65 | 32477 | 221106 | |
| Binning | Rose Kantor | sample SCN_T2_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 09/21/2015 | 79 | 36636 | 296453 | |
| Binning | Rose Kantor | sample SCN_T2_P metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.es... | 10/12/2015 | 110 | 58604 | 317125 | |
| Binning | Rose Kantor | sample SCN_T3_BF metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.e... | 05/12/2015 | 76 | 33918 | 263774 | |
| Binning | Rose Kantor | sample T0_P metagenome. Kantor et al. 2017. "Genome-resolved meta-omics ties microbial dynamics to process performance in biotechnology for thiocyanate degradation" (ES+T). DOI: 10.1021/acs.est.6b... | 04/06/2015 | 120 | 77569 | 437683 | |
| Binning | Sumayah Rahman | Rahman et al 2017. "Genome-resolved metagenomics of a bioremediation system for degradation of thiocyanate in mine water containing suspended solid tailings." MicrobiologyOpen. | 11/25/2015 | 87 | 51785 | 252045 | |
| Binning | Sumayah Rahman | Rahman et al 2017. "Genome-resolved metagenomics of a bioremediation system for degradation of thiocyanate in mine water containing suspended solid tailings." MicrobiologyOpen. | 11/30/2015 | 77 | 32363 | 231173 | |
| Analysis | Sumayah Rahman | Rahman et al 2017. "Genome-resolved metagenomics of a bioremediation system for degradation of thiocyanate in mine water containing suspended solid tailings." MicrobiologyOpen. | 01/25/2016 | 89 | 12242 | 115381 |
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