Effect of different phytases derived from E. coli AppA gene on the performance, bone mineralisation and nutrient digestibility of broiler chicken

Q3 Agricultural and Biological Sciences

Journal of Applied Animal Nutrition Pub Date : 2019-01-01 DOI:10.1017/JAN.2019.6

K. Kozłowski, L. Nollet, A. Lanckriet, E. Vanderbeke, P. Mielnik, N. Outchkourov, S. Petkov

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引用次数: 2

Abstract

This study evaluated the effects of three different thermostable phytase variants, based on the AppA gene fromE. coli(AppAT1, AppAT2 and AppAT3) on growth performance, nutrient digestibility and bone mineralisation in broiler chickens at inclusion levels of 250 and 500 FTU/kg. The eight treatment groups included a positive control (PC) which was sufficient in Ca and P, a negative control (NC, the same basal formulation as the PC, but reduced in Ca and P), and NC supplemented with AppAT1 at 250 and 500 FTU/kg (AppAT1-250 and AppAT1-500), AppAT2 at 250 and 500 FTU/kg (AppAT2-250 and AppAT2-500) and with AppAT3 at 250 and 500 FTU/kg (AppAT3-250 and AppAT3-500). Over the entire feeding period, body weight (BW) and average daily gain (ADG) were significantly higher in the PC group, with all phytase supplemented groups being statistically the same, compared to the NC group. Feed conversion (FCR) for the PC-fed birds (1.479) was significantly (P<0.05) better compared to the NC birds (1.582) and those fed the AppAT3-250 diet (1.523). Reduced levels of Ca and P in the NC group led to significantly (P<0.05) lower tibia ash (40.9%) compared to the PC group (47.4%). Birds fed the phytase diets had significantly higher tibia ash compared to the NC birds, with those from the AppAT2-500 and AppAT3-500 groups being statistically the same as the PC group. Diets AppAT1-500, AppAT2-250, AppAT2-500 and AppAT3-500 significantly increased Ca digestibility compared to the NC. Apparent total track digestibility (ATTD) of P was improved for AppAT1-500 and AppAT2-250. The ATTD of Ca and P for all of the phytase supplemented groups reached the same level of the PC and AppAT1-500 group. It was concluded that adding any of the phytases tested, especially when included at 500 FTU/kg to a feed reduced in Ca and P, led to improved performance and bone mineralisation back to the same levels as seen for the Ca and P sufficient diet.

查看原文本刊更多论文

大肠杆菌AppA基因衍生植酸酶对肉鸡生产性能、骨矿化和营养物质消化率的影响

本研究基于来自me的AppA基因，评估了三种不同的耐热植酸酶变体的效果。在250和500 FTU/kg添加水平下，大肠杆菌(AppAT1、AppAT2和AppAT3)对肉鸡生长性能、营养物质消化率和骨矿化的影响。8个处理组包括Ca和P含量充足的阳性对照(PC)、Ca和P含量减少的阴性对照(NC，与PC相同的基础配方，但Ca和P含量减少)、250和500 FTU/kg的AppAT1 (AppAT1-250和AppAT1-500)、250和500 FTU/kg的AppAT2 (AppAT2-250和AppAT2-500)和250和500 FTU/kg的AppAT3 (AppAT3-250和AppAT3-500)。在整个饲喂期内，PC组的体重(BW)和平均日增重(ADG)均显著高于NC组，且各植酸酶添加组的差异均具有统计学意义。pc饲粮的饲料系数(FCR)为1.479，显著(P<0.05)优于NC饲粮的1.582和AppAT3-250饲粮的1.523。NC组钙、磷水平降低导致胫骨灰分(40.9%)显著低于PC组(47.4%)(P<0.05)。植酸酶组的胫骨灰分显著高于对照组，AppAT2-500组和AppAT3-500组的胫骨灰分与PC组的胫骨灰分在统计学上相同。饲粮AppAT1-500、AppAT2-250、AppAT2-500和AppAT3-500与NC相比显著提高了钙消化率。AppAT1-500和AppAT2-250提高了磷的表观总径迹消化率。各植酸酶添加组的钙和磷的ATTD均达到PC组和AppAT1-500组的水平。综上所述，添加任何一种所测试的植酸酶，特别是在钙磷含量降低的饲料中添加500 FTU/kg的植酸酶，可以提高生产性能，使骨矿化恢复到与钙磷含量充足的饲料相同的水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Applied Animal Nutrition Agricultural and Biological Sciences-Animal Science and Zoology

CiteScore

2.50

自引率

0.00%

发文量

审稿时长

10 weeks