An efficient method for isolating large quantity and high quality RNA from oleaginous microalgae for transcriptome sequencing

Transcriptome analysis requires a large quantity of high-quality DNase-treated RNA for poly(A)+ mRNA isolation and sequencing. This could be problematic in many oleaginous microalgal species that harbor strong cell walls and accumulate high lipid content. Using 'Scenedesmus obliquus', a mi...

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Bibliographic Details
Published in:Plant omics 2016-03, Vol.9 (2), p.126-135
Main Authors: Suttangkakul, Anongpat, Juntawong, Piyada, Sirikhachornkit, Anchalee, Yaisumlee, Chonlada, Jariyachawalid, Kanidtha, Kangwansaichol, Kunn, Apisitwanich, Somsak, Vuttipongchaikij, Supachai
Format: Article
Language:English
Subjects:
Biotechnology
Crop yields
Experiments
Microalgae
Plant gene isolation
Plants
RNA
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Summary:Transcriptome analysis requires a large quantity of high-quality DNase-treated RNA for poly(A)+ mRNA isolation and sequencing. This could be problematic in many oleaginous microalgal species that harbor strong cell walls and accumulate high lipid content. Using 'Scenedesmus obliquus', a microalga with high oil content and potential as a source of algal biofuel, we assessed the efficiency of four RNA isolation methods: direct extraction using TriPure, mechanical breakage using either freeze-thawed with bead beating or grinding in liquid nitrogen followed by TriPure, and grinding in liquid nitrogen before using Qiagen RNeasy Plant Mini Kit. Liquid nitrogen grinding with TriPure method gave the best RNA yields at 15.15 mug mg-1 cell dry weight and around148.9 mug total RNA from 100 ml culture of 'S. obliquus'. Despite lower yields, RNA isolation of oil accumulating cells (around22% w/w lipid content) provided around68.1 mug total RNA with the yield of 1.70 mug mg-1 cell dry weight. Transcriptome sequencing and de novo assembly with the average contig length of 824 bp reflected high quality of RNA obtained using this method. The RNA isolation protocol was tested on six other oleaginous microalgae including 'Chlamydomonas reinhardtii, S. acuminatus, Chorella vulgaris, Chlorococcum humicola, Tetradesmus cumbricus' and 'Coelastrum' sp. and yielded 0.86 - 5.42 mug mg-1 cell dry weight. For large scale RNA isolation from microalgae, grinding with liquid nitrogen before TriPure provided the best yield and quality. This finding helps simplify RNA isolation for upcoming transcriptome analyses in microalgae.
ISSN:1836-0661
1836-3644
DOI:10.21475/poj.160902.p7617x