a. sahan Et Al. , "MELATONIN ADMINISTRATION REORGANIZES CAVERNOUS TISSUE UPREGULATES SIRT 1 GENES AND DECREASES OXIDATIVE DAMAGE IN DIABETIC RATS," AUA , 2016
sahan, a. Et Al. 2016. MELATONIN ADMINISTRATION REORGANIZES CAVERNOUS TISSUE UPREGULATES SIRT 1 GENES AND DECREASES OXIDATIVE DAMAGE IN DIABETIC RATS. AUA .
sahan, a., AKBAL, C., TAVUKÇU, H. H., ÇETİNEL, Ş., TANIDIR, Y., KABASAKAL, L., ... ÇEVİK, Ö.(2016). MELATONIN ADMINISTRATION REORGANIZES CAVERNOUS TISSUE UPREGULATES SIRT 1 GENES AND DECREASES OXIDATIVE DAMAGE IN DIABETIC RATS . AUA
sahan, ahmet Et Al. "MELATONIN ADMINISTRATION REORGANIZES CAVERNOUS TISSUE UPREGULATES SIRT 1 GENES AND DECREASES OXIDATIVE DAMAGE IN DIABETIC RATS," AUA, 2016
sahan, ahmet Et Al. "MELATONIN ADMINISTRATION REORGANIZES CAVERNOUS TISSUE UPREGULATES SIRT 1 GENES AND DECREASES OXIDATIVE DAMAGE IN DIABETIC RATS." AUA , 2016
sahan, a. Et Al. (2016) . "MELATONIN ADMINISTRATION REORGANIZES CAVERNOUS TISSUE UPREGULATES SIRT 1 GENES AND DECREASES OXIDATIVE DAMAGE IN DIABETIC RATS." AUA .
@conferencepaper{conferencepaper, author={ahmet sahan Et Al. }, title={MELATONIN ADMINISTRATION REORGANIZES CAVERNOUS TISSUE UPREGULATES SIRT 1 GENES AND DECREASES OXIDATIVE DAMAGE IN DIABETIC RATS}, congress name={AUA}, city={}, country={}, year={2016}}