Casteels P, Ampe C, Riviere L, Van Damme J, Elicone C, Fleming M, Jacobs F, Tempst P
Plant Genetic Systems NV, Gent, Belgium.
Eur J Biochem. 1990 Jan 26;187(2):381-6. doi: 10.1111/j.1432-1033.1990.tb15315.x.
Honeybee (Apis mellifera) are frequently exposed to and likely to be infected by plant-associated bacteria. We mimicked this process by injecting bees with live bacteria and isolated five induced antibacterial substances by comparative liquid chromatographic mapping of the hemolymph. Three of these antibiotics belong to a unique family of small (18 amino acids) peptides: the apidaecins [Casteels et al. (1989) EMBO J. 8, 2387-2391]. We have now characterized a fourth bee immune response peptide. The complete sequence was established by Edman degradation of the peptide and fragments thereof. It is 34 amino acids long and contains 10 proline residues. The amino-terminal half is related to the apidaecins; similar proline motifs are also present in the amino-terminal quarter of the much longer fly diptericins. The newly identified peptide's broad spectrum, lower specific activities against Gram-negative plant pathogens and its inability to inhibit bacterial growth at medium ionic strength are different from the apidaecins. Moreover, the highest observed specific activity was against an apidaecin-resistant Xanthomonas strain. In contrast to the immediate action of apidaecins, bactericidal activity is delayed. We propose the name 'abaecin' for this new antibacterial response peptide.
蜜蜂(西方蜜蜂)经常接触并可能感染与植物相关的细菌。我们通过给蜜蜂注射活细菌来模拟这一过程,并通过对血淋巴进行比较液相色谱图谱分析,分离出了五种诱导产生的抗菌物质。其中三种抗生素属于一个独特的小(18个氨基酸)肽家族:蜜蜂抗菌肽[卡斯特尔斯等人(1989年)《欧洲分子生物学组织杂志》8卷,2387 - 2391页]。我们现在已经鉴定出了第四种蜜蜂免疫反应肽。通过对该肽及其片段进行埃德曼降解确定了其完整序列。它有34个氨基酸长,含有10个脯氨酸残基。氨基末端的一半与蜜蜂抗菌肽相关;在长得多的果蝇双翅肽的氨基末端四分之一中也存在类似的脯氨酸基序。新鉴定出的肽具有广谱性,对革兰氏阴性植物病原体的比活性较低,并且在中等离子强度下无法抑制细菌生长,这与蜜蜂抗菌肽不同。此外,观察到的最高比活性是针对一株对蜜蜂抗菌肽耐药的黄单胞菌菌株。与蜜蜂抗菌肽的即时作用相反,其杀菌活性具有延迟性。我们为这种新的抗菌反应肽提议命名为“阿巴菌素”。
