Comparative Structures and Evolution of Vertebrate Carboxyl Ester Lipase (CEL) Genes and Proteins with a Major Role in Reverse Cholesterol Transport.

Cholesterol Pub Date : 2011-01-01 Epub Date: 2011-11-21 DOI:10.1155/2011/781643
Roger S Holmes, Laura A Cox
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引用次数: 25

Abstract

Bile-salt activated carboxylic ester lipase (CEL) is a major triglyceride, cholesterol ester and vitamin ester hydrolytic enzyme contained within pancreatic and lactating mammary gland secretions. Bioinformatic methods were used to predict the amino acid sequences, secondary and tertiary structures and gene locations for CEL genes, and encoded proteins using data from several vertebrate genome projects. A proline-rich and O-glycosylated 11-amino acid C-terminal repeat sequence (VNTR) previously reported for human and other higher primate CEL proteins was also observed for other eutherian mammalian CEL sequences examined. In contrast, opossum CEL contained a single C-terminal copy of this sequence whereas CEL proteins from platypus, chicken, lizard, frog and several fish species lacked the VNTR sequence. Vertebrate CEL genes contained 11 coding exons. Evidence is presented for tandem duplicated CEL genes for the zebrafish genome. Vertebrate CEL protein subunits shared 53-97% sequence identities; demonstrated sequence alignments and identities for key CEL amino acid residues; and conservation of predicted secondary and tertiary structures with those previously reported for human CEL. Phylogenetic analyses demonstrated the relationships and potential evolutionary origins of the vertebrate CEL family of genes which were related to a nematode carboxylesterase (CES) gene and five mammalian CES gene families.

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在逆向胆固醇转运中起主要作用的脊椎动物羧基酯脂肪酶(CEL)基因和蛋白质的比较结构和进化。
胆盐活化羧酸酯脂肪酶(CEL)是存在于胰腺和哺乳期乳腺分泌物中的一种主要的甘油三酯、胆固醇酯和维生素酯水解酶。利用生物信息学方法预测CEL基因的氨基酸序列、二级和三级结构和基因位置,并利用多个脊椎动物基因组计划的数据编码蛋白质。先前报道的富含脯氨酸和o -糖基化的11氨基酸c末端重复序列(VNTR)在人类和其他高等灵长类动物的CEL蛋白中也被观察到。相比之下,负鼠的CEL含有该序列的单个c端拷贝,而鸭嘴兽、鸡、蜥蜴、青蛙和几种鱼类的CEL蛋白则缺乏VNTR序列。脊椎动物细胞基因包含11个编码外显子。证据提出串联重复CEL基因斑马鱼基因组。脊椎动物细胞蛋白亚基具有53-97%的序列一致性;证明了关键CEL氨基酸残基的序列比对和身份;预测的二级和三级结构与先前报道的人类CEL的保守性。系统发育分析证实了与线虫羧酸酯酶(CES)基因和5个哺乳动物CES基因家族相关的脊椎动物CEL基因家族的关系和潜在的进化起源。
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