反刍动物非蛋白氮化合物的代谢与利用研究进展

IF 0.7 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE
D. Zurak, K. Kljak, J. Aladrović
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引用次数: 0

摘要

独特的胃生理使反刍动物能够利用任何形式的膳食氮(N)作为蛋白质来源。反刍动物对氮的需要量可分为微生物发酵需要量和宿主对氨基酸的需要量。反刍动物的日粮通常含有非蛋白氮(NPN)化合物,这是一组不是蛋白质但可以被瘤胃微生物转化为蛋白质的成分。因此,反刍动物日粮中NPN化合物可作为瘤胃微生物蛋白合成所必需的氨态氮(nh3 -N)的替代来源。MCP是反刍动物代谢蛋白的重要组成部分,在一定的生产条件下,可能是组织和产品合成的唯一氨基酸来源。以这种方式,反刍动物利用NPN化合物而不需要酶进行降解。在反刍动物营养中使用NPN化合物可以增加饲料消耗和利用率,并替代蛋白质补充剂,从而提高生产的成本效益。然而,突然补充或过量消耗NPN会对MCP合成、饲料消化和动物生产产生负面影响。另一方面,它可能导致动物中毒,并将大量氮释放到环境中。对瘤胃氮代谢的了解,以及对其利用的优化,为反刍动物日粮中NPN化合物的有益作用设定了条件,而不会对动物健康和环境产生不利影响。因此,本研究的目的是总结反刍动物NPN化合物的代谢和利用的最新文献数据
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metabolism and utilisation of non-protein nitrogen compounds in ruminants: a review
Unique stomach physiology allows ruminants to utilise any form of dietary nitrogen (N) as a protein source. Ruminant N requirements can be divided into N requirements for microbial fermentation and host requirements for amino acids. Ruminant diets often contain non-protein nitrogen (NPN) compounds, a group of components that are not proteins but can be converted to proteins by rumen microbes. Therefore, NPN compounds in ruminant diets serve as alternative sources of ammoniacal nitrogen (NH 3 -N), which is necessary for the synthesis of microbial protein (MCP) in the rumen. MCP is an important component of metabolizable protein for ruminants and, under certain production conditions, may be the only amino acid source for synthesis of tissues and products. In this manner, ruminants utilise NPN compounds without having enzymes for their degradation. The use of NPN compounds in ruminant nutrition allows for an increase in feed consumption and utilisation, as well as the substitution of protein supplements, which in turn leads to more cost-effective production. However, abrupt supplementation or excessive consumption of NPN could negatively affect MCP synthesis, feed digestion, and animal production. On the other hand, it may lead to animal poisoning and the release of large amounts of N into the environment. Knowledge of N metabolism in the rumen, as well as optimization of its utilisation, sets the conditions for the presumed beneficial effects of NPN compounds in ruminant diets, without adverse effects on animal health and the environment. Therefore, the aim of this study was to summarize the recent literature data on the metabolism and utilisation of NPN compounds in ruminants
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来源期刊
Journal of Central European Agriculture
Journal of Central European Agriculture AGRICULTURE, DAIRY & ANIMAL SCIENCE-
CiteScore
1.40
自引率
14.30%
发文量
46
审稿时长
50 weeks
期刊介绍: - General agriculture - Animal science - Plant science - Environment in relation to agricultural production, land use and wildlife management - Agricultural economics and rural development
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