木聚糖酶和β-葡聚糖酶联合使用对保育猪肠道健康和生长的营养和功能作用研究

IF 7 1区农林科学 Q1 Agricultural and Biological Sciences

Journal of Animal Science and Biotechnology Pub Date : 2024-05-05 DOI:10.1186/s40104-024-01021-8

Hyunjun Choi, Yesid Garavito Duarte, Guilherme A. M. Pasquali, Sung Woo Kim

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引用次数: 0

摘要

木聚糖酶和β-葡聚糖酶组合（XG）可水解抗营养物质的可溶性非淀粉多糖。本研究旨在评估增加 XG 水平对保育猪肠道健康和生长性能的影响。40 头猪（6.5 ± 0.4 kg）被分配到 5 种日粮处理中，分 3 个阶段饲喂 35 天（分别为 11、9 和 15 天）。基础日粮主要包括玉米、豆粕和玉米酒糟（含溶解物），含有植酸酶（750 FTU/kg），并添加了 5 种水平的 XG：(1) 0；(2) 280 TXU/kg木聚糖酶和 125 TGU/kgβ-葡聚糖酶；(3) 560 和 250；(4) 840 和 375；或 (5) 1,120 和 500。对生长性能进行了测定。第 35 天，对所有猪实施安乐死，收集空肠粘膜、空肠消化液、空肠组织和回肠消化液，以确定增加 XG 水平和 XG 摄入量对肠道健康的影响。XG摄入量的增加会使空肠消化液的粘度呈二次下降趋势（P = 0.059）（最小值：1.74 mPa-s，751/335（TXU/TGU）/kg）。XG摄入量的增加会使空肠粘膜中的前鞭毛虫科（最低：630/281 (TXU/TGU)/kg 时为 0.6%）呈四倍下降（P < 0.05）。增加 XG 的摄入量会使空肠粘膜中的乳酸菌（最高：608/271 (TXU/TGU)/kg 时为 40.3%）呈四倍增长（P < 0.05）。增加 XG 的摄入量会使空肠粘膜中的螺旋杆菌（最少：560/250 (TXU/TGU)/kg 时为 1.6%）呈四分法减少（P < 0.05）。增加 XG 的摄入量会使空肠 IgG 呈线性下降趋势（P = 0.073），并使空肠绒毛高度与隐窝深度比呈二次方上升趋势（P = 0.085）（最大值：560/250 (TXU/TGU)/kg 时为 2.62）。增加 XG 的摄入量往往会线性增加干物质（P = 0.087）和乙醚提取物（P = 0.065）的回肠表观消化率。增加木聚糖摄入量可线性提高平均日增重（P < 0.05）。木聚糖酶和β-葡聚糖酶的联合使用可水解非淀粉多糖部分，对空肠粘膜相关微生物群起到积极的调节作用。增加这些酶组合的摄入量可能会降低消化液粘度和空肠的体液免疫反应，从而改善肠道结构和回肠对营养物质的消化率，最终改善保育猪的生长状况。在 550 至 800 TXU/kg木聚糖酶和 250 至 360 TGU/kgβ-葡聚糖酶的组合中，有益效果最大。

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Investigation of the nutritional and functional roles of a combinational use of xylanase and β-glucanase on intestinal health and growth of nursery pigs

Xylanase and β-glucanase combination (XG) hydrolyzes soluble non-starch polysaccharides that are anti-nutritional compounds. This study aimed to evaluate the effects of increasing levels of XG on intestinal health and growth performance of nursery pigs. Forty pigs (6.5 ± 0.4 kg) were assigned to 5 dietary treatments and fed for 35 d in 3 phases (11, 9, and 15 d, respectively). Basal diets mainly included corn, soybean meal, and corn distiller’s dried grains with solubles, contained phytase (750 FTU/kg), and were supplemented with 5 levels of XG at (1) 0, (2) 280 TXU/kg xylanase and 125 TGU/kg β-glucanase, (3) 560 and 250, (4) 840 and 375, or (5) 1,120 and 500, respectively. Growth performance was measured. On d 35, all pigs were euthanized and jejunal mucosa, jejunal digesta, jejunal tissues, and ileal digesta were collected to determine the effects of increasing XG levels and XG intake on intestinal health. Increasing XG intake tended to quadratically decrease (P = 0.059) viscosity of jejunal digesta (min: 1.74 mPa·s at 751/335 (TXU/TGU)/kg). Increasing levels of XG quadratically decreased (P < 0.05) Prevotellaceae (min: 0.6% at 630/281 (TXU/TGU)/kg) in the jejunal mucosa. Increasing XG intake quadratically increased (P < 0.05) Lactobacillaceae (max: 40.3% at 608/271 (TXU/TGU)/kg) in the jejunal mucosa. Increasing XG intake quadratically decreased (P < 0.05) Helicobacteraceae (min: 1.6% at 560/250 (TXU/TGU)/kg) in the jejunal mucosa. Increasing levels of XG tended to linearly decrease (P = 0.073) jejunal IgG and tended to quadratically increase (P = 0.085) jejunal villus height to crypt depth ratio (max: 2.62 at 560/250 (TXU/TGU)/kg). Increasing XG intake tended to linearly increase the apparent ileal digestibility of dry matter (P = 0.087) and ether extract (P = 0.065). Increasing XG intake linearly increased (P < 0.05) average daily gain. A combinational use of xylanase and β-glucanase would hydrolyze the non-starch polysaccharides fractions, positively modulating the jejunal mucosa-associated microbiota. Increased intake of these enzyme combination possibly reduced digesta viscosity and humoral immune response in the jejunum resulting in improved intestinal structure, and ileal digestibility of nutrients, and finally improving growth of nursery pigs. The beneficial effects were maximized at a combination of 550 to 800 TXU/kg xylanase and 250 to 360 TGU/kg β-glucanase.

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来源期刊

Journal of Animal Science and Biotechnology AGRICULTURE, DAIRY & ANIMAL SCIENCE-

CiteScore

9.90

自引率

2.90%

发文量

822

审稿时长

17 weeks

期刊介绍： Journal of Animal Science and Biotechnology is an open access, peer-reviewed journal that encompasses all aspects of animal science and biotechnology. That includes domestic animal production, animal genetics and breeding, animal reproduction and physiology, animal nutrition and biochemistry, feed processing technology and bioevaluation, animal biotechnology, and meat science.