Deacetylation and enhancement of digestibility

J.S.D. Bacon, A. Chesson, A.H. Gordon
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引用次数: 21

Abstract

The nylon bag technique has been used to study the effects of various reagents on the digestion of grass cell walls and straws in the sheep rumen. A large proportion of the acetyl groups were removed by sodium alkoxides in alcoholic solution with appreciable improvement in digestibility. Aqueous sodium hydroxide removed virtually all the acetyl, producing a correspondingly greater improvement.

When straw was treated with increasing amounts of sodium hydroxide, up to 10 g/ 100 g straw, the enhancement of digestibility was linear but not the release of acetyl; 2 g/100 g removed half the acetyl groups. After extraction with neutral detergent solution, followed by chlorite delignification, about 70% of the acetyl groups were left; sodium hydroxide treatment then had no effect upon the rate or extent of digestion of this residue.

Physical methods, based on X-ray diffraction and infrared absorption, showed that the degree of order of the cellulose component, which sets an upper limit to its rate of digestion, was not affected by concentrations of sodium hydroxide up to 20 g/100 g straw, more than sufficient to produce the maximum enhancement of digestibility.

Both electron micrography and chemical analysis indicated that the major components of the cell wall were removed simultaneously. It is concluded that the effects of basic reagents must be sought in the lignin-hemicellulose fraction of the cell wall, and that both covalent and hydrogen bonds may be responsible for its resistance to digestion.

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去乙酰化和提高消化率
采用尼龙袋法研究了不同试剂对绵羊瘤胃内草细胞壁和秸秆消化的影响。在酒精溶液中,大量的乙酰基被醇氧化钠去除,消化率明显提高。氢氧化钠水溶液几乎除去了所有的乙酰基,相应地产生了更大的改善。随着氢氧化钠用量的增加,达到10 g/ 100 g,秸秆的消化率呈线性增加,但乙酰基的释放量没有增加;2 g/100 g去除了一半的乙酰基。用中性洗涤液提取后,再进行亚氯酸盐脱木质素处理,乙酰基残留约70%;氢氧化钠处理对这种残留物的消化速度和程度没有影响。基于x射线衍射和红外吸收的物理方法表明,纤维素组分的有序度是其消化率的上限,高达20 g/100 g秸秆的氢氧化钠浓度不受影响,足以产生最大的消化率提高。电镜和化学分析表明,细胞壁的主要成分同时被去除。由此得出结论,碱性试剂的作用必须在细胞壁的木质素-半纤维素部分中寻找,共价键和氢键可能是其抗消化的原因。
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Author index Subject index Announcements Toxicity of ammonia to plants Growth impact of O3, NO2 and/or SO2 on Platanus occidentalis
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