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Publications
in Top 10% Journal Percentiles
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56.3%
Corporate
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8.8%
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funding
£5m+
Data for 2020-2025 from SciVal
Selected Publications
2021
1.
Woodward, Alison; Pandele, Alina; Abdelrazig, Salah; Ortori, Catherine A; Khan, Iqbal; Uribe, Marcos Castellanos; May, Sean; Barrett, David A; Grundy, Richard G; Kim, Dong-Hyun; Rahman, Ruman
Integrated metabolomics and transcriptomics using an optimised dual extraction process to study human brain cancer cells and tissues Journal Article
In: Metabolites, vol. 11, no. 4, pp. 240, 2021.
Abstract | Tags: Cancer, dual-extraction, integrated omics, metabolite, RNA
@article{Woodward2021-wy,
title = {Integrated metabolomics and transcriptomics using an optimised
dual extraction process to study human brain cancer cells and
tissues},
author = {Alison Woodward and Alina Pandele and Salah Abdelrazig and Catherine A Ortori and Iqbal Khan and Marcos Castellanos Uribe and Sean May and David A Barrett and Richard G Grundy and Dong-Hyun Kim and Ruman Rahman},
year = {2021},
date = {2021-04-01},
journal = {Metabolites},
volume = {11},
number = {4},
pages = {240},
publisher = {MDPI AG},
abstract = {The integration of untargeted metabolomics and transcriptomics
from the same population of cells or tissue enhances the
confidence in the identified metabolic pathways and
understanding of the enzyme-metabolite relationship. Here, we
optimised a simultaneous extraction method of metabolites/lipids
and RNA from ependymoma cells (BXD-1425). Relative to
established RNA (mirVana kit) or metabolite (sequential solvent
addition and shaking) single extraction methods, four
dual-extraction techniques were evaluated and compared
(methanol:water:chloroform ratios): cryomill/mirVana (1:1:2);
cryomill-wash/Econospin (5:1:2); rotation/phenol-chloroform
(9:10:1); Sequential/mirVana (1:1:3). All methods extracted the
same metabolites, yet rotation/phenol-chloroform did not extract
lipids. Cryomill/mirVana and sequential/mirVana recovered the
highest amounts of RNA, at 70 and 68% of that recovered with
mirVana kit alone. sequential/mirVana, involving RNA extraction
from the interphase of our established sequential solvent
addition and shaking metabolomics-lipidomics extraction method,
was the most efficient approach overall. Sequential/mirVana was
applied to study a) the biological effect caused by acute serum
starvation in BXD-1425 cells and b) primary ependymoma tumour
tissue. We found (a) 64 differentially abundant metabolites and
28 differentially expressed metabolic genes, discovering four
gene-metabolite interactions, and (b) all metabolites and 62%
lipids were above the limit of detection, and RNA yield was
sufficient for transcriptomics, in just 10 mg of tissue.},
keywords = {Cancer, dual-extraction, integrated omics, metabolite, RNA},
pubstate = {published},
tppubtype = {article}
}
The integration of untargeted metabolomics and transcriptomics
from the same population of cells or tissue enhances the
confidence in the identified metabolic pathways and
understanding of the enzyme-metabolite relationship. Here, we
optimised a simultaneous extraction method of metabolites/lipids
and RNA from ependymoma cells (BXD-1425). Relative to
established RNA (mirVana kit) or metabolite (sequential solvent
addition and shaking) single extraction methods, four
dual-extraction techniques were evaluated and compared
(methanol:water:chloroform ratios): cryomill/mirVana (1:1:2);
cryomill-wash/Econospin (5:1:2); rotation/phenol-chloroform
(9:10:1); Sequential/mirVana (1:1:3). All methods extracted the
same metabolites, yet rotation/phenol-chloroform did not extract
lipids. Cryomill/mirVana and sequential/mirVana recovered the
highest amounts of RNA, at 70 and 68% of that recovered with
mirVana kit alone. sequential/mirVana, involving RNA extraction
from the interphase of our established sequential solvent
addition and shaking metabolomics-lipidomics extraction method,
was the most efficient approach overall. Sequential/mirVana was
applied to study a) the biological effect caused by acute serum
starvation in BXD-1425 cells and b) primary ependymoma tumour
tissue. We found (a) 64 differentially abundant metabolites and
28 differentially expressed metabolic genes, discovering four
gene-metabolite interactions, and (b) all metabolites and 62%
lipids were above the limit of detection, and RNA yield was
sufficient for transcriptomics, in just 10 mg of tissue.
from the same population of cells or tissue enhances the
confidence in the identified metabolic pathways and
understanding of the enzyme-metabolite relationship. Here, we
optimised a simultaneous extraction method of metabolites/lipids
and RNA from ependymoma cells (BXD-1425). Relative to
established RNA (mirVana kit) or metabolite (sequential solvent
addition and shaking) single extraction methods, four
dual-extraction techniques were evaluated and compared
(methanol:water:chloroform ratios): cryomill/mirVana (1:1:2);
cryomill-wash/Econospin (5:1:2); rotation/phenol-chloroform
(9:10:1); Sequential/mirVana (1:1:3). All methods extracted the
same metabolites, yet rotation/phenol-chloroform did not extract
lipids. Cryomill/mirVana and sequential/mirVana recovered the
highest amounts of RNA, at 70 and 68% of that recovered with
mirVana kit alone. sequential/mirVana, involving RNA extraction
from the interphase of our established sequential solvent
addition and shaking metabolomics-lipidomics extraction method,
was the most efficient approach overall. Sequential/mirVana was
applied to study a) the biological effect caused by acute serum
starvation in BXD-1425 cells and b) primary ependymoma tumour
tissue. We found (a) 64 differentially abundant metabolites and
28 differentially expressed metabolic genes, discovering four
gene-metabolite interactions, and (b) all metabolites and 62%
lipids were above the limit of detection, and RNA yield was
sufficient for transcriptomics, in just 10 mg of tissue.
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