Lajara R, Galgani J P, Dempsher D P, Bier D M, Rotwein P
Department of Internal Medicine, Washington University School of Medicine, St. Louis, Missouri 63110.
J Clin Endocrinol Metab. 1990 Mar;70(3):687-92. doi: 10.1210/jcem-70-3-687.
In an attempt to identify genetic lesions contributing to human growth disorders, we evaluated a prospectively recruited group of children with growth failure for mutations in the insulin-like growth factor-I (IGF-I) gene. Two complementary approaches were used: Southern blot analysis to examine the large scale organization of the gene, and a solution hybridization, nuclease protection assay to identify small alterations, such as point mutations. From a total of 61 subjects studied, 52 had no organic basis for their short stature. Analysis of chromosomal DNA from these individuals failed to reveal any variation in the IGF-I gene except for a HindIII site polymorphism which maps near the 3' end of the last IGF-I exon. No single nucleotide substitutions were found within IGF-I-coding regions. Since the frequency of the length polymorphism was the same for both normal-sized and short individuals, it is unlikely to be associated with growth abnormalities. Our results suggest that there is minimal DNA sequence variability in the human IGF-I gene and that mutations in IGF-I exons are infrequent causes of growth failure.
为了确定导致人类生长障碍的基因损伤,我们对一组前瞻性招募的生长发育迟缓儿童进行了胰岛素样生长因子-I(IGF-I)基因突变评估。我们采用了两种互补方法:Southern印迹分析以检查该基因的大规模组织结构,以及溶液杂交核酸酶保护试验以鉴定微小改变,如点突变。在总共研究的61名受试者中,52名身材矮小无器质性病因。对这些个体的染色体DNA分析未发现IGF-I基因有任何变异,仅发现一个HindIII位点多态性,其位于IGF-I最后一个外显子3'端附近。在IGF-I编码区内未发现单核苷酸替代。由于正常身材和身材矮小个体的长度多态性频率相同,因此它不太可能与生长异常相关。我们的结果表明,人类IGF-I基因的DNA序列变异性极小,且IGF-I外显子突变并非生长发育迟缓的常见原因。
