Pub. Date : 2001 Aug
PMID : 11404184
5 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | Given that CPT I was not only present at a much lower concentration but also has an appreciably lower affinity for acyl-CoAs than ACBP, it is proposed that CPT I is capable of interacting directly with ACBP-acyl-CoA binary complexes. | Acyl Coenzyme A | diazepam binding inhibitor | Rattus norvegicus |
| 2 | Given that CPT I was not only present at a much lower concentration but also has an appreciably lower affinity for acyl-CoAs than ACBP, it is proposed that CPT I is capable of interacting directly with ACBP-acyl-CoA binary complexes. | Acyl Coenzyme A | diazepam binding inhibitor | Rattus norvegicus |
| 3 | This is supported by the fact that the enzyme activity correlated with the concentration of ACBP-bound acyl-CoA but not the free acyl-CoA. | Acyl Coenzyme A | diazepam binding inhibitor | Rattus norvegicus |
| 4 | A transfer of acyl-CoA from ACBP-acyl-CoA binary complexes to CPT I could be a result of the enzyme inducing a conformational alteration in the ACBP leading to the release of acyl-CoA. | Acyl Coenzyme A | diazepam binding inhibitor | Rattus norvegicus |
| 5 | A transfer of acyl-CoA from ACBP-acyl-CoA binary complexes to CPT I could be a result of the enzyme inducing a conformational alteration in the ACBP leading to the release of acyl-CoA. | Acyl Coenzyme A | diazepam binding inhibitor | Rattus norvegicus |