Beard, M. B. Et Al. 2000. UCR1 and UCR2 domains unique to the cAMP-specific phosphodiesterase family form a discrete module via electrostatic interactions. Journal of Biological Chemistry , vol.275, no.14 , 10349-10358.

Beard, M. B., Olsen, A. E., Jones, R. E., Erdogan, S., Houslay, M. D., & Bolger, G. B., (2000). UCR1 and UCR2 domains unique to the cAMP-specific phosphodiesterase family form a discrete module via electrostatic interactions. Journal of Biological Chemistry , vol.275, no.14, 10349-10358.

Beard, Matthew Et Al. "UCR1 and UCR2 domains unique to the cAMP-specific phosphodiesterase family form a discrete module via electrostatic interactions," Journal of Biological Chemistry , vol.275, no.14, 10349-10358, 2000

Beard, Matthew B. Et Al. "UCR1 and UCR2 domains unique to the cAMP-specific phosphodiesterase family form a discrete module via electrostatic interactions." Journal of Biological Chemistry , vol.275, no.14, pp.10349-10358, 2000

Beard, M. B. Et Al. (2000) . "UCR1 and UCR2 domains unique to the cAMP-specific phosphodiesterase family form a discrete module via electrostatic interactions." Journal of Biological Chemistry , vol.275, no.14, pp.10349-10358.

@article{article, author={Matthew B. Beard Et Al. }, title={UCR1 and UCR2 domains unique to the cAMP-specific phosphodiesterase family form a discrete module via electrostatic interactions}, journal={Journal of Biological Chemistry}, year=2000, pages={10349-10358} }