Pub. Date : 2020 Mar 9
PMID : 32182932
6 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | The Cl, TBP, and water enable cellulose dissolution by working together to form a cooperative mechanism capable of separating the cellulose strands from the bundle. | Cellulose | TATA-box binding protein | Homo sapiens |
| 2 | The Cl, TBP, and water enable cellulose dissolution by working together to form a cooperative mechanism capable of separating the cellulose strands from the bundle. | Cellulose | TATA-box binding protein | Homo sapiens |
| 3 | The TBP-peeling cellulose strand has a uniquely favorable and potentially net negative pairwise energy contribution in the TBPCl-water solution, which may partially explain why it is capable of dissolving cellulose at moderate temperatures and high water concentrations. | tetrabutylphosphonium | TATA-box binding protein | Homo sapiens |
| 4 | The TBP-peeling cellulose strand has a uniquely favorable and potentially net negative pairwise energy contribution in the TBPCl-water solution, which may partially explain why it is capable of dissolving cellulose at moderate temperatures and high water concentrations. | Water | TATA-box binding protein | Homo sapiens |
| 5 | The TBP-peeling cellulose strand has a uniquely favorable and potentially net negative pairwise energy contribution in the TBPCl-water solution, which may partially explain why it is capable of dissolving cellulose at moderate temperatures and high water concentrations. | Cellulose | TATA-box binding protein | Homo sapiens |
| 6 | The TBP-peeling cellulose strand has a uniquely favorable and potentially net negative pairwise energy contribution in the TBPCl-water solution, which may partially explain why it is capable of dissolving cellulose at moderate temperatures and high water concentrations. | Water | TATA-box binding protein | Homo sapiens |