Kozloff L M, Lute M, Crosby L K
J Virol. 1975 Dec;16(6):1391-400. doi: 10.1128/JVI.16.6.1391-1400.1975.
Two different proteins with high affinities for the pteridine ring of folic acid have been used to determine the location of this portion of the folate molecule in the tail plate of T4D and other T-even bacteriophage particles. The two proteins used were (i) antibody specific for folic acid and (ii) the folate-binding protein from bovine milk. Both proteins were examined for their effect on various intact and incomplete phage particles. Intact T2H was weakly inactivated by the antiserum but not by the milk protein. No other intact T-even phage, including T4D, was affected by these two proteins. When incomplete T4D particles were exposed in an in vitro morphogenesis system, it was found that neither of the two proteins affected either the addition of the long tail fibers to fiberless particles or the addition of tail cores to tail plates. On the other hand, these two proteins specifically blocked the addition of T4D gene 11 product to the bottom of T4D baseplates. After the addition of the gene 11 protein, these two reagents did not inhibit the further addition of the gene 12 protein to the baseplate. It can be concluded that the phage folic acid is a tightly bound baseplate constituent and that the pteridine portion of the folic acid is largely covered by the gene 11 protein.
两种对叶酸蝶啶环具有高亲和力的不同蛋白质已被用于确定叶酸分子的这一部分在T4D和其他T偶数噬菌体颗粒尾板中的位置。所使用的两种蛋白质分别是:(i)对叶酸具有特异性的抗体,以及(ii)来自牛乳的叶酸结合蛋白。研究了这两种蛋白质对各种完整和不完整噬菌体颗粒的影响。完整的T2H被抗血清轻微灭活,但未被乳蛋白灭活。包括T4D在内的其他完整T偶数噬菌体均不受这两种蛋白质的影响。当在体外形态发生系统中暴露不完整的T4D颗粒时,发现这两种蛋白质均不影响无尾丝颗粒添加长尾丝或尾板添加尾芯。另一方面,这两种蛋白质特异性地阻断了T4D基因11产物添加到T4D基板底部。在添加基因11蛋白后,这两种试剂并不抑制基因12蛋白进一步添加到基板上。可以得出结论,噬菌体叶酸是紧密结合的基板成分,并且叶酸的蝶啶部分在很大程度上被基因11蛋白覆盖。