Pub. Date : 2005 Jan
PMID : 15492118
10 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
| 1 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 2 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 3 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 4 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 5 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 6 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 7 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 8 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 9 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |
| 10 | Biochemical studies confirmed that B2AR/B2AR-ala homomeric complexes form more readily than DOR/B2AR heteromers in expression-matched cell clones and support the hypothesis that B2AR/B2AR-ala complexes are not disrupted by agonist. | Alanine | adrenoceptor beta 2 | Homo sapiens |