本文对小麦锈病治疗剂对氨基苯磺酸进行了内吸、运转、分布、抑菌机制、抑菌浓度以及对小麦的毒性等方面的研究和讨论。该药剂的内吸及其在麦叶内的运转,主要是单纯的扩散现象。酸度、温度、湿度和药液浓度对于内吸速度的影响,都可以用数学程式来说明;本文提供了几个经验公式作为参考。从药剂对于病菌体内某些酶的亲和力的考察,以及药剂内吸的自显影图片中放射斑的形状,可以推想病区和菌体,有生物化学性的内吸作用存在。通过对氨基苯甲酸消除药效的试验,提供了一项程式来估计药剂对于寄生菌体内某种酶的相对亲和力。本试验又证明该药剂对于麦苗的毒性可以为矿物质养分所消除。并指出,钙、镁和钾三种元素的解毒途径有各不相同之处。 In this paper, we studied and discussed the adsorption, transformation, antibacterial mechanism, bacteriostatic concentration and toxicity to wheat of sulfanilic acid, which is the therapeutic agent of wheat rust. The drug’s internal absorption and its operation in the wheat leaves, mainly a simple phenomenon of proliferation. The effects of acidity, temperature, humidity, and solution concentration on the rate of aspiration can be described in terms of mathematical formulas. Several empirical formulas are provided for reference. From the agent for the bacteria in the body of some of the enzyme affinity examination, as well as self-absorbed pharmaceutical agents in the picture of the shape of the radiation spot, you can infer the ward and bacteria, biochemical endocytosis exists. A trial to determine the relative affinity of an agent for an enzyme in a parasitic bacterium was provided by the para-aminobenzoate elimination pharmacodynamic test. This test also proves that the toxicity of the agent to wheat seedlings can be eliminated by mineral nutrients. And pointed out that calcium, magnesium and potassium detoxification of the three elements have different ways.