Department of Medical Biochemistry and Biophysics, Karolinska Institutet, Stockholm, Sweden.
Chem Biol Interact. 2011 May 30;191(1-3):2-7. doi: 10.1016/j.cbi.2011.01.028. Epub 2011 Feb 1.
Mammalian alcohol dehydrogenase (ADH) can be divided into six classes, ADH1-ADH6, according to primary structure and function, where the classes are further subdivided into isozymes and allelic forms. With the increasing amount of available genomic data a general pattern is possible to trace within the mammalian ADH gene and protein families. The transcriptional order for the ADH genes in all mammalian genomes is the same (ADH4-ADH1-ADH6-ADH5-ADH2-ADH3), but the cluster is found on different chromosomes in different species. However, in primates only ADH1-ADH5 are present, where the loss of ADH6 may have occurred simultaneously as the split into ADH1 isoforms. ADH3, also denoted glutathione-dependent formaldehyde dehydrogenase and S-nitrosoglutathione reductase, is identified as the last gene in the ADH transcriptional order, but several pseudogenes for ADH3 have been traced at other chromosomes. The flanking genes outside the ADH genome are similar or identical for all species showing that a larger DNA region has been duplicated and further evolved. However, the only entirely completed ADH genomes are those from primates and rodents. The latest identified ADH forms, ADH5 (class V) and ADH6 (class VI), are truly different classes and both are very diverged in contrast to ADH3, which is the most conserved class of all ADHs. ADH5 and ADH6 have been identified at the gene and transcriptional levels only, and their functions are still an enigma.
哺乳动物的醇脱氢酶(ADH)可根据一级结构和功能分为六类,即 ADH1-ADH6,其中的每类又进一步分为同工酶和等位基因形式。随着越来越多的基因组数据可用,在哺乳动物 ADH 基因和蛋白家族中可以追踪到一个普遍的模式。所有哺乳动物基因组中 ADH 基因的转录顺序相同(ADH4-ADH1-ADH6-ADH5-ADH2-ADH3),但该基因簇在不同物种的不同染色体上。然而,在灵长类动物中仅存在 ADH1-ADH5,其中 ADH6 的缺失可能与 ADH1 同工酶的分化同时发生。ADH3 也被称为谷胱甘肽依赖的甲醛脱氢酶和 S-亚硝酰谷胱甘肽还原酶,被鉴定为 ADH 转录顺序中的最后一个基因,但在其他染色体上已追踪到几个 ADH3 的假基因。ADH 基因组外的侧翼基因在所有物种中相似或相同,表明更大的 DNA 区域已被复制并进一步进化。然而,唯一完全完成的 ADH 基因组来自灵长类动物和啮齿类动物。最新鉴定的 ADH 形式 ADH5(第五类)和 ADH6(第六类)是真正不同的类别,与 ADH3 相比,它们的差异非常大,ADH3 是所有 ADH 中最保守的类别。ADH5 和 ADH6 仅在基因和转录水平上被鉴定,其功能仍不清楚。
