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与溶血性贫血相关的人类醛缩酶A缺乏症:由单个碱基突变导致的热不稳定醛缩酶。

Human aldolase A deficiency associated with a hemolytic anemia: thermolabile aldolase due to a single base mutation.

作者信息

Kishi H, Mukai T, Hirono A, Fujii H, Miwa S, Hori K

机构信息

Department of Biochemistry, Saga Medical School, Japan.

出版信息

Proc Natl Acad Sci U S A. 1987 Dec;84(23):8623-7. doi: 10.1073/pnas.84.23.8623.

DOI:10.1073/pnas.84.23.8623
PMID:2825199
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC299598/
Abstract

Fructose-1,6-bisphosphate aldolase A (fructose-bisphosphate aldolase; EC 4.1.2.13) deficiency is an autosomal recessive disorder associated with hereditary hemolytic anemia. To clarify the molecular mechanism of the deficiency at the nucleotide level, we have cloned aldolase A cDNA from a patient's poly(A)+ RNA that was expressed in cultured lymphoblastoid cells. Nucleotide analysis of the patient's aldolase A cDNA showed a substitution of a single nucleotide (adenine to guanine) at position 386 in a coding region. As a result, the 128th amino acid, aspartic acid, was replaced with glycine (GAT to GGT). Furthermore, change of the second letter of the aspartic acid codon extinguished a F ok I restriction site (GGATG to GGGTG). Southern blot analysis of the genomic DNA showed the patient carried a homozygous mutation inherited from his parents. When compared with normal human aldolase A, the patient's enzyme from erythrocytes and from cultured lymphoblastoid cells was found to be highly thermolabile, suggesting that this mutation causes a functional defect of the enzyme. To further examine this possibility, the thermal stability of aldolase A of the patient and of a normal control, expressed in Escherichia coli using expression plasmids, was determined. The results of E. coli expression of the mutated aldolase A enzyme confirmed the thermolabile nature of the abnormal enzyme. The Asp-128 is conserved in aldolase A, B, and C of eukaryotes, including an insect, Drosophila, suggesting that the Asp-128 of the aldolase A protein is likely to be an amino acid residue with a crucial role in maintaining the correct spatial structure or in performing the catalytic function of the enzyme.

摘要

果糖-1,6-二磷酸醛缩酶A(果糖二磷酸醛缩酶;EC 4.1.2.13)缺乏症是一种与遗传性溶血性贫血相关的常染色体隐性疾病。为了在核苷酸水平阐明该缺乏症的分子机制,我们从一名患者的聚腺苷酸加尾RNA中克隆了醛缩酶A互补DNA(cDNA),该RNA在培养的淋巴母细胞中表达。对患者醛缩酶A cDNA的核苷酸分析显示,编码区第386位有一个单核苷酸替换(腺嘌呤替换为鸟嘌呤)。结果,第128位氨基酸天冬氨酸被甘氨酸取代(GAT替换为GGT)。此外,天冬氨酸密码子第二个字母的改变消除了一个FokI限制性酶切位点(GGATG变为GGGTG)。基因组DNA的Southern印迹分析表明,该患者携带从其父母遗传而来的纯合突变。与正常人的醛缩酶A相比,发现该患者红细胞和培养的淋巴母细胞中的酶对热高度不稳定,这表明该突变导致了酶的功能缺陷。为了进一步研究这种可能性,使用表达质粒在大肠杆菌中表达了患者和正常对照的醛缩酶A,并测定了其热稳定性。突变的醛缩酶A酶在大肠杆菌中的表达结果证实了该异常酶对热不稳定的特性。天冬氨酸-128在包括昆虫果蝇在内的真核生物的醛缩酶A、B和C中是保守的,这表明醛缩酶A蛋白的天冬氨酸-128可能是一个在维持酶的正确空间结构或执行催化功能方面起关键作用的氨基酸残基。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9c/299598/3b38bdeaf8e0/pnas00338-0460-b.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9c/299598/37ea6cf9f792/pnas00338-0460-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9c/299598/3b38bdeaf8e0/pnas00338-0460-b.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9c/299598/37ea6cf9f792/pnas00338-0460-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aa9c/299598/3b38bdeaf8e0/pnas00338-0460-b.jpg

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