Olins P O, Bauer S C, Braford-Goldberg S, Sterbenz K, Polazzi J O, Caparon M H, Klein B K, Easton A M, Paik K, Klover J A
Searle R & D, Monsanto Company, St. Louis, Missouri 63198, USA.
J Biol Chem. 1995 Oct 6;270(40):23754-60. doi: 10.1074/jbc.270.40.23754.
A deletion variant of human interleukin-3, hIL-3(15-125), was produced in the periplasmic space of Escherichia coli and had full activity in an AML193.1.3 cell proliferation assay. Libraries of random single-amino acid substitutions were constructed at each of 105 positions in the gene for hIL-3(15-125). Approximately eight single-site substitutions at each position were produced in osmotic shock fractions and screened for activity. 15 mutants were found with bioactivity of 5-26-fold greater than that of native hIL-3. The majority of amino acids in hIL-3(15-125) could be substituted without substantial loss of activity. Substitution of residues predicted to be in the hydrophobic core of the protein often resulted in reduced activity and/or low accumulation levels. Only five residues predicted to be on the surface of the protein were intolerant of substitution and hence are candidates for sites of interaction with the receptor. We therefore propose that the majority of residues in hIL-3 serve a structural role and permit the display of a few key residues in the correct configuration for recognition by the receptor.
人白细胞介素-3(hIL-3)的缺失变体hIL-3(15 - 125) 在大肠杆菌的周质空间中产生,并在AML193.1.3细胞增殖试验中具有完全活性。在hIL-3(15 - 125) 基因的105个位置上分别构建了随机单氨基酸取代文库。通过渗透休克组分产生每个位置约8个单位点取代,并筛选活性。发现15个突变体的生物活性比天然hIL-3高5至26倍。hIL-3(15 - 125) 中的大多数氨基酸可以被取代而不会大幅丧失活性。预计位于蛋白质疏水核心的残基被取代通常会导致活性降低和/或积累水平低。预计仅位于蛋白质表面的五个残基不耐受取代,因此是与受体相互作用位点的候选者。因此,我们提出hIL-3中的大多数残基起结构作用,并允许以正确的构象展示一些关键残基以供受体识别。
