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Literature summary for 1.14.99.39 extracted from
- Distribution and diversity of archaeal ammonia monooxygenase genes associated with corals (2007), Appl. Environ. Microbiol., 73, 5642-5647.
Natural Substrates/ Products (Substrates)
| Natural Substrates | Organism | Comment (Nat. Sub.) | Natural Products | Comment (Nat. Pro.) | Rev. | Reac. |
|---|---|---|---|---|---|---|
| additional information | uncultured crenarchaeote | ammonia oxidation is the first and rate-limiting step of chemoautotrophic nitrification | ? | - |
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Organism
| Organism | UniProt | Comment | Textmining |
|---|---|---|---|
| uncultured crenarchaeote | A5H9Z0 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5H9Z1 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5H9Z2 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5H9Z3 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5H9Z4 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5H9Z5 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5H9Z7 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA00 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA01 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA02 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA03 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA04 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA05 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA06 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA07 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA09 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA11 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA13 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA14 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA15 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA16 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA18 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA19 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA20 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA21 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA22 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA23 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA24 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA25 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA26 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA28 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA30 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA31 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA32 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA37 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA39 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA41 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA42 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA44 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA45 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA46 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA47 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA48 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA49 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA50 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA51 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA52 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA54 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA56 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA57 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA58 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA59 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA60 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA61 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA62 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA63 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA64 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA66 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA67 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA68 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA69 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA72 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA74 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA76 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA77 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA79 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA82 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA83 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA86 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA88 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA89 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA92 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA94 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA95 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA97 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HA98 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAA0 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAA1 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAA4 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAA5 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAA6 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAA7 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAA9 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB0 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB1 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB3 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB4 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB6 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB7 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB8 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAB9 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAC0 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAC8 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAC9 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAD1 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAD9 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAE2 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAE3 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAE5 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAE6 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAE7 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAE8 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAF0 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAF1 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAF2 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAF3 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAF6 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAF7 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAF8 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAG1 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAG2 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAG3 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAG4 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAG8 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAH1 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAH4 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAH5 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAH7 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAH9 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAI2 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAI3 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAI4 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAI7 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAI8 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAI9 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAJ2 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAJ3 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
| uncultured crenarchaeote | A5HAJ5 | fragment; multiple DNA samples drawn from nine coral species and four different reef locations are PCR screened for archaeal and bacterial amoA genes, and archaeal amoA gene sequences are obtained from five different species of coral collected in Bocas del Toro, Panama. The 210 coral-associated archaeal amoA sequences recovered in the study are broadly distributed phylogenetically, with most only distantly related to previously reported sequences from coastal/estuarine sediments and oceanic water columns | - |
Substrates and Products (Substrate)
| Substrates | Comment Substrates | Organism | Products | Comment (Products) | Rev. | Reac. |
|---|---|---|---|---|---|---|
| additional information | ammonia oxidation is the first and rate-limiting step of chemoautotrophic nitrification | uncultured crenarchaeote | ? | - |
? | |
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Release 2023.1 (January 2023)
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