摘要：

Since Schiff base and its metal complexes are of antibacterial and anticancer bioactivity, it has been a research subject of much interest. It is reported that Cu(Ⅱ)-SG could inhibite the synthesis of O₂^- markedly and could also combine with the salmn sperm DNA. The paper repored that by using microcalorimetric method The growth meloabolism of E.coli at different temperature and reacted upon by Cu(Ⅱ)-SG. The power-time curves of E.coli reacted with Cu(Ⅲ)-SG at different temperature has been determined by LKB2277 Microcalorimetric Monitor and the multiplication rate constant k, generation time G,bacterial growth inhibition ratio I,total thermogenetic quantity Q, the heat quantity of a single bacterium. Q₀ and the heat quantity of a single bacterium per minute Q₀ have also been calculated. On the basis of k~T data, the formula Lnk~1/T has graphically obtained and activation energy Ea and pre-exponential factor A have been calculated. According to the parameters of the growth metabolism of E.coli,some linear relationships have been derived. The paper provides a discussion about the growth metabolism of E.coli reacted upon by Cu(Ⅱ)-SG at different temperature, and it is found that、and t_r can be used to characterize bacterial growth metabolism and the antibacterial activity of Cu(Ⅱ)-SG at different temperature.

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