Kaartinen M, Pelkonen J, Mäkelä O
Eur J Immunol. 1986 Jan;16(1):98-105. doi: 10.1002/eji.1830160119.
Seventeen monoclonal anti-2-phenyloxazolone antibodies from the early (day 7) primary response were partially sequenced with an mRNA method. Ten antibodies expressed the VH-Ox1 gene. The remaining seven express at least four but probably six different germ-line VH genes belonging to Dildrop's groups 1, 5, 6 and 7 (Immunol. Today 1984. 5: 85). Two of them have been met before in other antibodies, one (group 6) in J606 and the other (group 7) in antibodies to the influenza virus hemagglutinin. Eleven kappa chains were partially sequenced and five of them (all VH-Ox1 antibodies) express the V kappa-Ox1 gene. One expresses another germ-line gene of the V kappa-Ox1 family, one the V kappa 89.4 gene, three the V kappa 45.1 gene and one a new V kappa gene. The V kappa 45.1 gene was found to form anti-phOx antibodies with two new VH genes. The frequency of somatic mutations in day 7 antibodies was estimated by comparing germ-line sequences and antibody sequences. It is low (one mutation per 2500 nucleotides sequenced), twenty times lower than in antibodies obtained a week later. Two anti-idiotype antisera (495 and 260) are useful in the typing of monoclonal antibodies. 260 bound only to antibodies coded by both VH-Ox1 and V kappa-Ox1 genes. 495 bound strongly to antibodies coded by the VH-Ox1 gene and weakly to antibodies coded by the (related) VH101 gene regardless of the light chain partner.
采用mRNA方法对17种来自早期(第7天)初次反应的抗2-苯基恶唑酮单克隆抗体进行了部分测序。10种抗体表达VH-Ox1基因。其余7种抗体至少表达4种但可能是6种不同的种系VH基因,属于迪尔卓普分类的1、5、6和7组(《免疫学今讯》1984年。5:85)。其中两种在其他抗体中曾出现过,一种(6组)在J606中出现,另一种(7组)在抗流感病毒血凝素的抗体中出现。对11条κ链进行了部分测序,其中5条(均为VH-Ox1抗体)表达Vκ-Ox1基因。一条表达Vκ-Ox1家族的另一个种系基因,一条表达Vκ89.4基因,三条表达Vκ45.1基因,一条表达一个新的Vκ基因。发现Vκ45.1基因与两个新的VH基因一起形成抗phOx抗体。通过比较种系序列和抗体序列来估计第7天抗体中体细胞突变的频率。该频率较低(每2500个测序核苷酸中有一个突变),比一周后获得的抗体低20倍。两种抗独特型抗血清(495和260)可用于单克隆抗体的分型。260仅与由VH-Ox1和Vκ-Ox1基因编码的抗体结合。495与由VH-Ox1基因编码的抗体强烈结合,与由(相关的)VH101基因编码的抗体弱结合,而与轻链伙伴无关。
