Camaschella C, Serra A, Saglio G, Baiget M, Malgaretti N, Mantovani R, Ottolenghi S
Blood. 1987 Aug;70(2):593-6.
Spanish delta beta zero-thalassemia, a mild thalassemic condition characterized by increased level of hemoglobin (Hb) F production during adult life, is known to be due to a large deletion starting within the beta globin gene cluster and extending beyond the 3' breakpoint of any other similar deletional defects so far identified. By molecular cloning and by genomic mapping we now demonstrate that the deletion of Spanish delta beta zero-thalassemia ends at approximately 11 and 17 kilobases (kb) downstream to the 3' endpoints of black hereditary persistence of fetal hemoglobin (HPFH) type 1 and 2, respectively. As suggested by the complete characterization of this and other deletional defects involving the beta globin gene cluster, the 5' and 3' breakpoints of several deletions cluster in rather restricted DNA areas, further strengthening the idea that common molecular mechanisms may operate in causing these deletions.
西班牙δβ0地中海贫血是一种轻度地中海贫血病症,其特征是成年期血红蛋白(Hb)F生成水平升高,已知这是由于一个大的缺失所致,该缺失起始于β珠蛋白基因簇内,并延伸至迄今所鉴定的任何其他类似缺失缺陷的3'断点之外。通过分子克隆和基因组定位,我们现在证明西班牙δβ0地中海贫血的缺失分别在1型和2型胎儿血红蛋白(HPFH)黑色遗传性持续存在的3'端点下游约11和17千碱基(kb)处终止。正如对涉及β珠蛋白基因簇的这一及其他缺失缺陷的完整表征所表明的那样,几个缺失的5'和3'断点聚集在相当有限的DNA区域,进一步强化了这样一种观点,即共同的分子机制可能在导致这些缺失中起作用。