U.S. Department of Agriculture, Agricultural Research Service, Crop Genetics and Breeding Research Unit, 115 Coastal Way, Tifton, GA, 31793, USA.
U.S. Department of Agriculture, Agricultural Research Service, Crop Genetics and Breeding Research Unit, 115 Coastal Way, Tifton, GA, 31793, USA.
Comput Biol Chem. 2019 Jun;80:1-9. doi: 10.1016/j.compbiolchem.2019.02.009. Epub 2019 Feb 26.
The Arabidopsis ECERIFERUM1 (CER1) protein is a decarbonylase that converts fatty acid metabolites into alkanes. Alkanes are components of waxes in the plant cuticle, a waterproof barrier serving to protect land plants from both biotic and abiotic stimuli. CER1 enzymes can be used to produce alternative and sustainable hydrocarbons in eukaryotic systems. In this report we identified 193 CER1 and 128 CER3 sequences from 56 land plants respectively. CER1 and CER3 proteins have high amino acid similarity and both are involved in alkane synthesis in Arabidopsis. The common homologues of CER1 and CER3 genes were identified in three species of chlorophytes, which may be one of the earliest plant taxa that possess CER1 and CER3 genes. To facilitate potential applications, the 3-dimensional structure and conserved motifs of CER1 proteins were also characterized. CER1 and CER3 proteins are structurally similar, but CER1 proteins have more conserved histidine-containing motifs common to fatty acid hydroxylases and stearoyl-CoA desaturases. There was no significant loss or gain of protein motifs after ancient and recent duplications, suggesting that varied properties of CER1 proteins may be associated with less-conserved regions. Among 56 land plants, the codon-based assessments of selection modes revealed that neither entire proteins nor individual amino acids of CER1 proteins were significantly subjected to positive selection, indicating that CER1 proteins are highly conserved throughout evolution.
拟南芥 ECERIFERUM1(CER1)蛋白是一种脱羧酶,可将脂肪酸代谢物转化为烷烃。烷烃是植物角质层蜡的组成部分,是一种防水屏障,可保护陆地植物免受生物和非生物刺激。CER1 酶可用于真核系统中产生替代和可持续的碳氢化合物。在本报告中,我们分别从 56 种陆地植物中鉴定出 193 种 CER1 和 128 种 CER3 序列。CER1 和 CER3 蛋白具有很高的氨基酸相似性,并且都参与拟南芥中烷烃的合成。在三种绿藻中鉴定出 CER1 和 CER3 基因的共同同源物,这可能是最早具有 CER1 和 CER3 基因的植物类群之一。为了便于潜在应用,还对 CER1 蛋白的三维结构和保守基序进行了表征。CER1 和 CER3 蛋白结构相似,但 CER1 蛋白具有更多保守的组氨酸残基,这些组氨酸残基存在于脂肪酸羟化酶和硬脂酰辅酶 A 去饱和酶中。在古老和近代复制后,没有明显的蛋白质基序丢失或获得,这表明 CER1 蛋白的不同性质可能与不太保守的区域有关。在 56 种陆地植物中,基于密码子的选择模式评估表明,CER1 蛋白的整个蛋白质或单个氨基酸都没有受到显著的正选择,这表明 CER1 蛋白在整个进化过程中都高度保守。
