Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining

Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining

Oleaginous microalga Chlorella is a promising microbial cell factory for producing lipids, transesterifiable to biodiesel, and phytochemical, high-value molecules (HVMs). To better understand the stress-induced oleaginous mechanism of Chlorella sp. FC2 IITG that closely matches with Chlorella soroki...

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Main Authors: Vineeta Rai, Sandip Kumar Patel, Muthusivaramapandian Muthuraj, Mayuri Gandhi, Debasish Das, Sanjeeva Srivastava
Format: Article
Language:English
Published: Green Wave Publishing of Canada 2021-03-01
Series:Biofuel Research Journal
Subjects:
chlorella sp. fc2 iitg
metabolomic profiling
multi-omics analysis
nitrogen-limitation
time-course study
biodiesel
Online Access:https://www.biofueljournal.com/article_127174_22162507eb02112746ad2ceb7911a302.pdf
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spelling doaj-08075bce249643d598a55406b43e4aa92021-02-28T16:42:12ZengGreen Wave Publishing of CanadaBiofuel Research Journal2292-87822292-87822021-03-01811330134110.18331/BRJ2021.8.1.4127174Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefiningVineeta Rai0Sandip Kumar Patel1Muthusivaramapandian Muthuraj2Mayuri Gandhi3Debasish Das4Sanjeeva Srivastava5Department of Biosciences and Bioengineering, Wadhwani Research Center for Biosciences and Bioengineering, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India.Department of Biosciences and Bioengineering, Wadhwani Research Center for Biosciences and Bioengineering, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India.Department of Biosciences and Bioengineering, Centre for Energy, Indian Institute of Technology Guwahati, Assam 781039, India.Centre for Research in Nanotechnology & Science, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India.Department of Biosciences and Bioengineering, Centre for Energy, Indian Institute of Technology Guwahati, Assam 781039, India.Department of Biosciences and Bioengineering, Wadhwani Research Center for Biosciences and Bioengineering, Indian Institute of Technology Bombay, Powai, Mumbai 400076, India.Oleaginous microalga Chlorella is a promising microbial cell factory for producing lipids, transesterifiable to biodiesel, and phytochemical, high-value molecules (HVMs). To better understand the stress-induced oleaginous mechanism of Chlorella sp. FC2 IITG that closely matches with Chlorella sorokiniana based on 18s rRNA gene sequence, we performed 'Algomics' by systematically integrating metabolomics and proteomics data in response to time-resolved nitrogen-limitation: 40 h (mild), 88 h (moderate), and 120 h (severe). Ten HVMs belonging to four biological classes: triacylglycerol (TAG), polyunsaturated fatty acids (PUFA), phytosterols, and terpenoids were annotated using untargeted metabolomics and MS/MS fragmentation pattern match to the spectral library. In particular, the study evidenced 4× and 6× increased accumulation of two different PUFA: 9(S)HpOTrE and dihomo-gamma-linolenic acid, respectively, in nitrogen-limitation conditions. Co-extraction of TAG and PUFA could lower the biodiesel production cost for feasible commercialization. The investigation found a maximum accumulation of TAG 59:10 at 40 h, while that for TAG 54:4 was recorded at 88 h, which suggests different TAG species could be induced by regulating nitrogen-limitation severity. Elevated ꞵ-oxidation, glycolysis, and tricarboxylic acid (TCA) cycle identified in proteomics analysis could provide the substrates, phosphoenolpyruvate, pyruvate, and acetyl CoA, for different phytochemical accumulation in response to nitrogen limitation. The multiomics data unraveled a metabolic tug-of-war ongoing between biomass and storage lipid (TAG) accumulation during nitrogen-limitation, which involved multiple processes including hindered CO2 fixation, the supply of energy, reductants, and carbon reallocation from proteins and membrane lipids. These findings provide distinct oleaginous mechanisms in non-model microalgae, Chlorella sp. FC2 IITG, and engineerable targets for microalgal trait improvements.https://www.biofueljournal.com/article_127174_22162507eb02112746ad2ceb7911a302.pdfchlorella sp. fc2 iitgmetabolomic profilingmulti-omics analysisnitrogen-limitationtime-course studybiodiesel
collection DOAJ
language English
format Article
sources DOAJ
author Vineeta Rai
Sandip Kumar Patel
Muthusivaramapandian Muthuraj
Mayuri Gandhi
Debasish Das
Sanjeeva Srivastava
spellingShingle Vineeta Rai
Sandip Kumar Patel
Muthusivaramapandian Muthuraj
Mayuri Gandhi
Debasish Das
Sanjeeva Srivastava
Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining
Biofuel Research Journal
chlorella sp. fc2 iitg
metabolomic profiling
multi-omics analysis
nitrogen-limitation
time-course study
biodiesel
author_facet Vineeta Rai
Sandip Kumar Patel
Muthusivaramapandian Muthuraj
Mayuri Gandhi
Debasish Das
Sanjeeva Srivastava
author_sort Vineeta Rai
title Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining
title_short Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining
title_full Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining
title_fullStr Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining
title_full_unstemmed Systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining
title_sort systematic metabolome profiling and multi-omics analysis of the nitrogen-limited non-model oleaginous algae for biorefining
publisher Green Wave Publishing of Canada
series Biofuel Research Journal
issn 2292-8782
2292-8782
publishDate 2021-03-01
description Oleaginous microalga Chlorella is a promising microbial cell factory for producing lipids, transesterifiable to biodiesel, and phytochemical, high-value molecules (HVMs). To better understand the stress-induced oleaginous mechanism of Chlorella sp. FC2 IITG that closely matches with Chlorella sorokiniana based on 18s rRNA gene sequence, we performed 'Algomics' by systematically integrating metabolomics and proteomics data in response to time-resolved nitrogen-limitation: 40 h (mild), 88 h (moderate), and 120 h (severe). Ten HVMs belonging to four biological classes: triacylglycerol (TAG), polyunsaturated fatty acids (PUFA), phytosterols, and terpenoids were annotated using untargeted metabolomics and MS/MS fragmentation pattern match to the spectral library. In particular, the study evidenced 4× and 6× increased accumulation of two different PUFA: 9(S)HpOTrE and dihomo-gamma-linolenic acid, respectively, in nitrogen-limitation conditions. Co-extraction of TAG and PUFA could lower the biodiesel production cost for feasible commercialization. The investigation found a maximum accumulation of TAG 59:10 at 40 h, while that for TAG 54:4 was recorded at 88 h, which suggests different TAG species could be induced by regulating nitrogen-limitation severity. Elevated ꞵ-oxidation, glycolysis, and tricarboxylic acid (TCA) cycle identified in proteomics analysis could provide the substrates, phosphoenolpyruvate, pyruvate, and acetyl CoA, for different phytochemical accumulation in response to nitrogen limitation. The multiomics data unraveled a metabolic tug-of-war ongoing between biomass and storage lipid (TAG) accumulation during nitrogen-limitation, which involved multiple processes including hindered CO2 fixation, the supply of energy, reductants, and carbon reallocation from proteins and membrane lipids. These findings provide distinct oleaginous mechanisms in non-model microalgae, Chlorella sp. FC2 IITG, and engineerable targets for microalgal trait improvements.
topic chlorella sp. fc2 iitg
metabolomic profiling
multi-omics analysis
nitrogen-limitation
time-course study
biodiesel
url https://www.biofueljournal.com/article_127174_22162507eb02112746ad2ceb7911a302.pdf
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