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Cloning and identification of a novel β-carotene hydroxylase gene from Haematococcus pluvialis and its function in Escherichia coli

Danqiong Huang, Wenfu Liu, Anguo Li, Zhangli Hu, Jiangxin Wang, Chaogang Wang

2021Algal Research25 citationsDOIOpen Access PDF

Abstract

Haematococcus pluvialis is a freshwater microalga distributed worldwide and is considered as the best natural source of astaxanthin for human absorption. In this study, a novel β-carotene hydroxylase (HpCrtR-b2) was discovered from an Iso-Seq database of H. pluvialis and was cloned by RT-PCR using designed specific primers. As a comparison, HpCrtR-b1 gene previously reported by other researchers was also cloned. Sequencing results suggested that HpCrtR-b2 gene was 1177 bp in length encoding 297 amino acids, which only has 73% identities with HpCrtR-b1 gene encoding 292 amino acids. Further analysis of deduced amino acids revealed that HpCrtR-b2 contains the signature FA_hydroxylase domain and histidine-rich motifs as HpCrtR-b1. It is interesting that a chloroplast transit peptide was predicted in HpCrtR-b2 while a mitochondrial transit peptide was in HpCrtR-b1, indicating two HpCrtR-b genes might have different specific function. The hetero-expression analysis suggested that HpCrtR-b2 gene has the enzyme activity to convert β-carotene into zeaxanthin. The HPLC quantification experiments showed that E. coli transformants harboring HpCrtR-b2 produced significant higher amount of zeaxanthin than that harboring HpCrtR-b1 and even produced 1.5 times of zeaxanthin than that harboring CrtZ (a bacterium derived β-carotene hydroxylase). Therefore, the novel β-carotene hydroxylase gene found in this study provides a more efficient pathway for zeaxanthin biosynthesis and might contribute to other carotenoids biosynthesis with higher productivity.

Topics & Concepts

Haematococcus pluvialisZeaxanthinAstaxanthinBiochemistryBiologyGeneEscherichia coliAmino acidLuteinBiosynthesisCarotenoidAlgal biology and biofuel productionAntioxidant Activity and Oxidative StressPhotosynthetic Processes and Mechanisms