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Effects of dietary protein and energy levels on digestive enzyme activities and electrolyte composition in the small intestinal fluid of geese
Author(s) -
Yang Jing,
Yang Lin,
Wang Yongchang,
Zhai Shuangshuang,
Wang Shenshen,
Yang Zhipeng,
Wang Wence
Publication year - 2017
Publication title -
animal science journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.606
H-Index - 38
eISSN - 1740-0929
pISSN - 1344-3941
DOI - 10.1111/asj.12557
Subject(s) - amylase , digestive enzyme , protease , trypsin , chemistry , enzyme , electrolyte , composition (language) , factorial experiment , medicine , biochemistry , food science , biology , zoology , linguistics , philosophy , electrode , statistics , mathematics
The present study was conducted to evaluate the effects of dietary protein and energy levels on digestive enzymes and electrolyte composition in jejunum of geese. A 3×3 factorial and completely randomized design was adopted with three protein levels and three energy levels. The experiment included four replicates for each treatment, and three geese for each replicate. Isovolumetric supernate from centrifugal jejuna fluid were mixed in each replicate. Activities of digestive enzymes and ions were analyzed. The results showed trypsin and chymotrypsin activities were significantly increased with increasing of dietary protein and energy levels ( P <0.05). The concentrations of Ca 2+ and pH value were significantly decreased by increased dietary protein and energy levels. However, no significant differences were found for the activities of amylase and cellulase, as well as the concentration of Na + among groups with different protein and energy levels. In conclusion, digesta enzymes and electrolytes in the small intestine adapted to the protein and energy levels. The activities of protease, rather than amylase and cellulase were induced with increasing of protein and energy levels. The imbalance of positive and negative ions was possibly adjusted by the fluctuant concentrations of K + , Cl ‐ and Ca 2+ for maintaining normal physiological function.

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