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Literature summary for 2.5.1.2 extracted from
- Phylogeny and foraging mode correspond with thiaminase activity in freshwater fishes Potential links to environmental factors (2019), Freshw. Sci., 38, 605-615 .
No PubMed abstract available
Organism
| Organism | UniProt | Comment | Textmining |
|---|---|---|---|
| Alosa pseudoharengus | - |
- |
- |
| Campostoma anomalum | - |
- |
- |
| Catostomus commersonii | - |
- |
- |
| Dorosoma cepedianum | - |
- |
- |
| Etheostoma olmstedi | - |
- |
- |
| Exoglossum maxillingua | - |
- |
- |
| Fundulus diaphanus | - |
- |
- |
| Luxilus cornutus | - |
- |
- |
| Notropis hudsonius | - |
- |
- |
| Rhinichthys cataractae | - |
- |
- |
| Semotilus corporalis | - |
- |
- |
Synonyms
| Synonyms | Comment | Organism |
|---|---|---|
| thiaminase I | - |
Notropis hudsonius |
| thiaminase I | - |
Catostomus commersonii |
| thiaminase I | - |
Alosa pseudoharengus |
| thiaminase I | - |
Fundulus diaphanus |
| thiaminase I | - |
Campostoma anomalum |
| thiaminase I | - |
Luxilus cornutus |
| thiaminase I | - |
Exoglossum maxillingua |
| thiaminase I | - |
Semotilus corporalis |
| thiaminase I | - |
Rhinichthys cataractae |
| thiaminase I | - |
Etheostoma olmstedi |
| thiaminase I | - |
Dorosoma cepedianum |
General Information
| General Information | Comment | Organism |
|---|---|---|
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Notropis hudsonius |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Catostomus commersonii |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Alosa pseudoharengus |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Fundulus diaphanus |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Campostoma anomalum |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Luxilus cornutus |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Exoglossum maxillingua |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Semotilus corporalis |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Rhinichthys cataractae |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Etheostoma olmstedi |
| evolution | thiaminase activity is generally higher in the basal teleosts (clupeids, cyprinids, and catostomids) than in the more derived neoteleosts (percids and centrarchids). Thus, thiaminase activity may be a function of trait selection over evolutionary time | Dorosoma cepedianum |
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