Southern Regional Research Center, United States Department of Agriculture-Agricultural Research Service, 1100 Robert E. Lee Blvd., New Orleans, LA 70124, USA.
Plant Sci. 2013 Apr;203-204:79-88. doi: 10.1016/j.plantsci.2012.12.009. Epub 2013 Jan 9.
Acyl-CoA binding proteins (ACBPs) have been identified in most branches of life, and play various roles in lipid metabolism, among other functions. Plants contain multiple classes of ACBP genes. The most diverse group is the class III proteins. Tung tree (Vernicia fordii) contains two such genes, designated VfACBP3A and VfACBP3B. The two proteins are significantly different in length and sequence. Analysis of tung ACBP3 genes revealed significant evolution, suggesting relatively ancient divergence of the two genes from a common ancestor. Phylogenetic comparisons of multiple plant class III proteins suggest that this group is the most evolutionarily dynamic class of ACBP. Both tung ACBP3 genes are expressed at similar levels in most tissues tested, but ACBP3A is stronger in leaves. Three-dimensional modeling predictions confirmed the presence of the conserved four α-helix bundle acyl-CoA binding (ACB); however, other regions of these proteins likely fold much differently. Acyl-CoA binding assays revealed different affinities for different acyl-CoAs, possibly contradicting the redundancy of function suggested by the gene expression studies. Subcellular targeting of transiently-expressed plant ACBP3 proteins contradicted earlier studies, and suggested that at least some class III ACBPs may be predominantly targeted to endoplasmic reticulum membranes, with little or no targeting to the apoplast.
酰基辅酶 A 结合蛋白(ACBPs)存在于大多数生命形式中,在脂质代谢等功能中发挥着各种作用。植物中含有多种 ACBP 基因。最具多样性的一组是 III 类蛋白。油桐(Vernicia fordii)含有两种这样的基因,分别命名为 VfACBP3A 和 VfACBP3B。这两种蛋白质在长度和序列上有显著差异。对油桐 ACBP3 基因的分析表明,它们发生了显著的进化,表明这两个基因相对古老,是从一个共同祖先分化而来的。对多种植物 III 类蛋白质的系统发育比较表明,该组是 ACBP 中进化最活跃的一类。在大多数测试的组织中,两种油桐 ACBP3 基因的表达水平相似,但 ACBP3A 在叶片中更强。三维建模预测证实了保守的四α-螺旋束酰基辅酶 A 结合(ACB)的存在;然而,这些蛋白质的其他区域可能折叠方式大不相同。酰基辅酶 A 结合测定显示了不同酰基辅酶 A 的不同亲和力,这可能与基因表达研究表明的功能冗余相矛盾。瞬时表达的植物 ACBP3 蛋白的亚细胞靶向与早期的研究相矛盾,表明至少一些 III 类 ACBPs 可能主要靶向内质网膜,而很少或没有靶向质外体。
