Koebnik R, Braun V
Mikrobiologie II, Universität Tübingen, Germany.
J Bacteriol. 1993 Feb;175(3):826-39. doi: 10.1128/jb.175.3.826-839.1993.
The FhuA receptor in the outer membrane of Escherichia coli K-12 is involved in the uptake of ferrichrome, colicin M, and the antibiotic albomycin and in infection by phages T1, T5, and phi 80. Fragments of up to 16 amino acid residues were inserted into FhuA and used to determine FhuA active sites and FhuA topology in the outer membrane. For this purpose antibiotic resistance boxes flanked by symmetric polylinkers were inserted into fhuA and subsequently partially deleted. Additional in-frame insertions were generated by mutagenesis with transposon Tn1725. The 68 FhuA protein derivatives examined contained segments of 4, 8, 12, 16, and 22 additional amino acid residues at 34 different locations from residues 5 to 646 of the mature protein. Most of the FhuA derivatives were found in normal amounts in the outer membrane fraction. Half of these were fully active toward all ligands, demonstrating proper insertion into the outer membrane. Seven of the 12- and 16-amino-acid-insertion derivatives (at residues 378, 402, 405, 415, 417, 456, and 646) were active toward all of the ligands and could be cleaved by subtilisin in whole cells, suggesting a surface location of the extra loops at sites which did not affect FhuA function. Two mutants were sensitive to subtilisin (insertions at residues 511 and 321) but displayed a strongly reduced sensitivity to colicin M and to phages phi 80 and T1. Four of the insertion derivatives (at residues 162, 223, 369, and 531) were cleaved only in spheroplasts and probably form loops at the periplasmic side of the outer membrane. The number and size of the proteolytic fragments indicate cleavage at or close to the sites of insertion, which has been proved for five insertions by amino acid sequencing. Most mutants with functional defects were affected in their sensitivity to all ligands, yet frequently to different degrees. Some mutants showed a specifically altered sensitivity to a few ligands; for example, mutant 511-04 was partially resistant only to colicin M, mutant 241-04 was reduced in ferrichrome and albomycin uptake and showed a reduced colicin M sensitivity, and mutant 321-04 was fully resistant to phage T1 and partially resistant to phage phi 80. The altered residues define preferential binding sites for these ligands. Insertions of 4 to 16 residues at positions 69, 70, 402, 530, 564, and 572 resulted in strongly reduced amounts of FhuA in the outer membrane fraction, varying in function from fully active to inactive. These results provide the basis for a model of FhuA organization in the outer membrane.
大肠杆菌K-12外膜中的FhuA受体参与铁载体、大肠菌素M和抗生素白霉素的摄取,以及噬菌体T1、T5和φ80的感染。将多达16个氨基酸残基的片段插入FhuA中,用于确定FhuA的活性位点和其在外膜中的拓扑结构。为此,将两侧带有对称多克隆位点的抗生素抗性盒插入fhuA,随后进行部分缺失。通过转座子Tn1725诱变产生额外的框内插入。所检测的68种FhuA蛋白衍生物在成熟蛋白第5至646位的34个不同位置含有4、8、12、16和22个额外的氨基酸残基片段。大多数FhuA衍生物在外膜组分中的含量正常。其中一半对所有配体都具有完全活性,表明它们正确插入了外膜。12和16个氨基酸插入衍生物中的7种(位于第378、402、405、415、417、456和646位)对所有配体都有活性,并且可以在完整细胞中被枯草杆菌蛋白酶切割,这表明额外环位于不影响FhuA功能的表面位点。两个突变体对枯草杆菌蛋白酶敏感(插入在第511和321位),但对大肠菌素M以及噬菌体φ80和T1的敏感性大大降低。4种插入衍生物(位于第162、223、369和531位)仅在原生质球中被切割,可能在外膜的周质侧形成环。蛋白水解片段的数量和大小表明在插入位点或其附近发生了切割,通过氨基酸测序已证实5个插入位点的情况。大多数具有功能缺陷的突变体对所有配体的敏感性都受到影响,但程度往往不同。一些突变体对少数配体表现出特异性改变的敏感性;例如,突变体511-04仅对大肠菌素M部分耐药,突变体241-04对铁载体和白霉素的摄取减少,对大肠菌素M的敏感性降低,突变体321-04对噬菌体T1完全耐药,对噬菌体φ80部分耐药。这些改变的残基定义了这些配体的优先结合位点。在第69、70、402、530、564和572位插入4至16个残基导致外膜组分中FhuA的含量大幅降低,其功能从完全活性到无活性不等。这些结果为外膜中FhuA组织模型提供了基础。
