Wiśniewska, Z.; Nollet, L.; Lanckriet, A.; Vanderbeke, E.; Petkov, S.; Outchkourov, N.; Kasprowicz-Potocka, M.; Zaworska-Zakrzewska, A.; Kaczmarek, S.A.
Effect of Phytase Derived from the E. coli AppA Gene on Weaned Piglet Performance, Apparent Total Tract Digestibility and Bone Mineralization. Animals 2020, 10, 121.
https://doi.org/10.3390/ani10010121
AMA Style
Wiśniewska Z, Nollet L, Lanckriet A, Vanderbeke E, Petkov S, Outchkourov N, Kasprowicz-Potocka M, Zaworska-Zakrzewska A, Kaczmarek SA.
Effect of Phytase Derived from the E. coli AppA Gene on Weaned Piglet Performance, Apparent Total Tract Digestibility and Bone Mineralization. Animals. 2020; 10(1):121.
https://doi.org/10.3390/ani10010121
Chicago/Turabian Style
Wiśniewska, Zuzanna, Lode Nollet, Anouk Lanckriet, Erik Vanderbeke, Spas Petkov, Nikolay Outchkourov, Małgorzata Kasprowicz-Potocka, Anita Zaworska-Zakrzewska, and Sebastian A. Kaczmarek.
2020. "Effect of Phytase Derived from the E. coli AppA Gene on Weaned Piglet Performance, Apparent Total Tract Digestibility and Bone Mineralization" Animals 10, no. 1: 121.
https://doi.org/10.3390/ani10010121
APA Style
Wiśniewska, Z., Nollet, L., Lanckriet, A., Vanderbeke, E., Petkov, S., Outchkourov, N., Kasprowicz-Potocka, M., Zaworska-Zakrzewska, A., & Kaczmarek, S. A.
(2020). Effect of Phytase Derived from the E. coli AppA Gene on Weaned Piglet Performance, Apparent Total Tract Digestibility and Bone Mineralization. Animals, 10(1), 121.
https://doi.org/10.3390/ani10010121
