Strauch S, Wichert B, Greef J M, Hillegeist D, Zeyner A, Liesegang A
Institute of Animal Nutrition, Vetsuisse-Faculty, University of Zurich, Zurich, Switzerland.
Institute for Crop and Soil Science, Julius Kuehn Institute, Federal Research Centre for Cultivated Plants, Braunschweig, Germany.
J Anim Physiol Anim Nutr (Berl). 2017 Jun;101 Suppl 1:51-58. doi: 10.1111/jpn.12635.
The aim of this study was to improve an in vitro system in order to gather optimized information on the digestion of different forages in the horse's upper gastrointestinal tract. Therefore, foregut digestion of several forages was simulated in vitro (Part 1). The effect of different pH values on in vitro fructan degradation of two selected grasses (Part 2) was tested subsequently. Part 1: We hypothesized that our system produces representative results simulating digestive processes in the upper alimentary tract, but neglects microbial fermentation. In vitro digestion of six forages (grass mixture for horses, grass mixture for cows (GMC), tall fescue, English perennial ryegrass (ER), white clover, lucerne) was performed in two phases with pepsin and pancreatin. The results are consistent with current data from in vivo studies, including a degradation of crude protein and monosaccharides as well as a relative increase in fibres. Interestingly, a loss of fructan was measured in two feedstuffs (ER/GMC: 4.1/4.4% DM fructan before and 0.59/0.00% DM after simulated foregut digestion). Part 2: As fructans are thought not to be fragmented by digestive enzymes, another hypothesis was developed: acidic hydrolysis leads to a degradation of fructans. To evaluate the influence of gastric pH on the digestion of fructan and protein, different pH values (2, 3 and 4) were adjusted in a second series of in vitro foregut digestion trials with ER and GMC. As expected, the highest degradation of protein was seen at the lowest pH (protein in ER/GMC at pH 2: 6.11/8.28% DM and at pH 4: 7.73/10.64% DM), whereas fructan degradation was highest at pH 4 (fructan in ER/GMC at pH 2: 1.63/1.95% DM and at pH 4: 1.31/0.91% DM). We presume that not only acidic hydrolysis but also plant enzymes cause the loss of fructans in an acidic environment.
本研究的目的是改进体外系统,以便获取关于马的上消化道中不同草料消化的优化信息。因此,在体外模拟了几种草料的前肠消化(第1部分)。随后测试了不同pH值对两种选定草料体外果聚糖降解的影响(第2部分)。第1部分:我们假设我们的系统能够产生模拟上消化道消化过程的代表性结果,但忽略了微生物发酵。用胃蛋白酶和胰蛋白酶分两个阶段对六种草料(马用混合草、牛用混合草(GMC)、高羊茅、英国多年生黑麦草(ER)、白三叶、苜蓿)进行体外消化。结果与当前体内研究数据一致,包括粗蛋白和单糖的降解以及纤维的相对增加。有趣的是,在两种饲料中检测到果聚糖损失(ER/GMC:模拟前肠消化前干物质果聚糖含量为4.1/4.4%,消化后为0.59/0.00%)。第2部分:由于认为果聚糖不会被消化酶分解,因此提出了另一个假设:酸性水解会导致果聚糖降解。为了评估胃pH值对果聚糖和蛋白质消化的影响,在第二系列的体外前肠消化试验中,用ER和GMC将pH值调节为不同值(2、3和4)。正如预期的那样,在最低pH值下蛋白质降解最高(ER/GMC中pH值为2时蛋白质含量为6.11/8.28%干物质,pH值为4时为7.73/10.64%干物质),而果聚糖降解在pH值为4时最高(ER/GMC中pH值为2时果聚糖含量为1.63/1.95%干物质,pH值为4时为1.31/0.91%干物质)。我们推测,不仅酸性水解,植物酶也会在酸性环境中导致果聚糖损失。
