Close

MINERVA: A facile strategy for SARS-CoV-2 whole genome deep sequencing of clinical samples

Chen Chen, Jizhou Li, Lin Di, Qiuyu Jing, Pengcheng Du, Chuan Song, Jiarui Li, Qiong Li, Yunlong Cao, Sunney Xie, Angela Ruohao Wu, Hui Zeng, Yanyi Huang, Jianbin Wang

Posted on: 28 April 2020 , updated on: 22 November 2021

Preprint posted on 25 April 2020

Article now published in Molecular Cell at http://dx.doi.org/10.1016/j.molcel.2020.11.030

Learning from the past and preparing for the future: Development of a swift and easy RNA sequencing technique on rapidly evolving viral strains

Selected by Yasmin Lau

Background
In a matter of months, the cases of SARS-CoV-2 have transformed from an outbreak within a small community in Wuhan into a global pandemic, causing over 200,000 deaths worldwide as of today. Undoubtedly, SARS-CoV-2 has spread on an exponential scale, which has drastically increased the demand for medical resources, clinical testing and research.

Previously, conventional next-generation sequencing has been implemented on building viral whole genome libraries. This method utilizes double-strand DNA ligation (dsDL) steps based on the viral RNA (1) and ultimately extracts the meta transcriptome of one virus species from a patient sample. While this conventional workflow is effective in capturing the viral meta transcriptome, it is often costly and time consuming as it requires lengthy hands-on protocols. Due to the low abundance of the virus in patient samples (2), it is not uncommon that additional steps are required for target enrichment to achieve higher coverage of the genome. Given that coronaviruses like SARS-CoV-2 are rapidly evolving, these time-consuming and laborious protocols pose limitations for routine and large-volume use.

In this preprint, the authors describe an optimized viral RNA sequencing technique MINERVA (Metagenomic RNA enrichment viral sequencing). This technique couples a previously reported methodology SHERRY (Sequencing Hetero RNA-DNA hybrid) with a fast sequence enrichment protocol.

Key Findings
MINERVA is a two-stage strategy involving SHERRY, then target enrichment
The first stage that already reduces timely hands-on steps compared to conventional RNA-seq methods is the SHERRY protocol. Instead of standard ligation of dsDNA fragments which requires several purification steps, SHERRY introduces the transposase Tn5 from bacteria which tags RNA/DNA fragments, cut dsDNA and ligate these fragments to adaptors (1). Subsequently, this creates a library of RNA/DNA hybrids which are then amplified with PCR (1).

The second stage is target enrichment. This involves quantification of SARS-CoV-2 in the sequencing library with qPCR, pooling, and then hybridization of RNA probes as bait with the amplified  to target the post-RT-PCR dsDNA, thus enriching the sequences of interest (Fig. 1).

Figure 1: The MINERVA workflow including SHERRY and subsequent target enrichment

Use of MINERVA resulted in higher SARS-CoV-2 genome coverage than in conventional sequencing techniques involving dsDL
Following sequencing using both MINERVA and dsDL, both libraries contained low but detectable levels of SARS-CoV-2 sequences. However, it was found that the viral sequence ratio in MINERVA libraries was higher than that of dsDL. Moreover, while only performing SHERRY yielded a relatively low viral ratio and depth (number of reads per sample), performing MINERVA afterwards augmented the sequence ratio by 10,000-fold. When including RT-qPCR data, there were higher coverage and depth from MINERVA than dsDL taken from pharyngeal, sputum and stool samples based on Ct values.

MINERVA can be used to detect SARS-CoV-2 genetic variants
Previous studies have shown that different genetic variants of coronaviruses can exist within the same host. The authors therefore sought to investigate the performance of MINERVA in detecting these in 85 samples from COVID19 patients. Several mutations were identified within the viral sequence, in which C241T, C3037T, C11408T and A23403G were present in the most samples out of the 85. Variant allele frequencies were also plotted for each sample. Some samples were found to only have one mutation of two high-linked positions; for example, 13 were found to have T28144C, but only 7 of these also had C8782T. Considering this data, it was concluded that MINERVA can indeed detect genetic variants of SARS-CoV-2 within the same sample.

Why I like this preprint
I first heard about SARS-CoV-2 in December 2019 from a family member in Hong Kong. Initially, this topic was considered and discussed mostly in a light-hearted manner by many people around me in the UK, myself included. Little did we know that this virus would spread so rapidly and exponentially. At this moment in time, it is essential to utilise all we can to advance the research on understanding the viral genome and identify possible routes of vaccine development.

This preprint introduces an optimised strategy for RNA sequencing which is built upon previous techniques. It utilises the high throughput aspects of classical RNA-seq protocols, while expediting the process with SHERRY without compromising meta-transcriptomic information. Not only does it provide a more practical approach in routine sequencing for the current pandemic, it also brings us one step closer to prepare for future potential pandemics.

Questions for authors

1. Considering the data from genetic variants sequenced with MINERVA in SARS-CoV-2, as well as previous beta coronaviruses like SARS-CoV and MERS, is there a way to predict the likelihood of specific mutations for any future corona viruses?

2. It was mentioned that meta-transcriptomic information is lost during the initial steps of RT-PCR in conventional dsDL. Given that MINERVA also requires RT-PCR, are there any differences in the SHERRY RT-PCR compared to dsDL that overcomes this problem?

References

  1. Di, L.; Sun, Y.; Liu, L. et al. RNA sequencing by direct tagmentation of RNA/DNA hybrids. Natl. Acad. Sci. USA 2020, 117(6), 2886-2893.
  2. Wolfel, R.; Corman, V.M.; Guggemos, W. et al. Virological assessment of hospitalized patients with COVID-2019. Nature 2020.

 

doi: https://doi.org/10.1242/prelights.19673

Read preprint (No Ratings Yet)

Have your say

Your email address will not be published. Required fields are marked *

This site uses Akismet to reduce spam. Learn how your comment data is processed.

Sign up to customise the site to your preferences and to receive alerts

Register here

Also in the biochemistry category:

Triglyceride metabolism controls inflammation and APOE4-associated disease states in microglia

Roxan A. Stephenson, Kory R. Johnson, Linling Cheng, et al.

Selected by 22 August 2024

Gustavo Stelzer, Marcus Oliveira

Biochemistry

Impaired 26S proteasome causes learning and memory deficiency and induces neuroinflammation mediated by NF-κB in mice

Christa C. Huber, Eduardo Callegari, Maria Paez, et al.

Selected by 22 August 2024

Gustavo Stelzer, Marcus Oliveira

Biochemistry

Notch3 is a genetic modifier of NODAL signalling for patterning asymmetry during mouse heart looping

Tobias Holm Bønnelykke, Marie-Amandine Chabry, Emeline Perthame, et al.

Selected by 06 June 2024

Bhaval Parmar

Developmental Biology

Also in the molecular biology category:

Green synthesized silver nanoparticles from Moringa: Potential for preventative treatment of SARS-CoV-2 contaminated water

Adebayo J. Bello, Omorilewa B. Ebunoluwa, Rukayat O. Ayorinde, et al.

Selected by 14 November 2024

Safieh Shah, Benjamin Dominik Maier

Epidemiology

Non-disruptive inducible labeling of ER-membrane contact sites using the Lamin B Receptor

Laura Downie, Nuria Ferrandiz, Megan Jones, et al.

Selected by 15 October 2024

Jonathan Townson

Cell Biology

HIF1A contributes to the survival of aneuploid and mosaic pre-implantation embryos

Estefania Sanchez-Vasquez, Marianne E. Bronner, Magdalena Zernicka-Goetz

Selected by 11 October 2024

Anchel De Jaime Soguero

Developmental Biology

preLists in the biochemistry category:

BSCB-Biochemical Society 2024 Cell Migration meeting

This preList features preprints that were discussed and presented during the BSCB-Biochemical Society 2024 Cell Migration meeting in Birmingham, UK in April 2024. Kindly put together by Sara Morais da Silva, Reviews Editor at Journal of Cell Science.

 



List by Reinier Prosee

Peer Review in Biomedical Sciences

Communication of scientific knowledge has changed dramatically in recent decades and the public perception of scientific discoveries depends on the peer review process of articles published in scientific journals. Preprints are key vehicles for the dissemination of scientific discoveries, but they are still not properly recognized by the scientific community since peer review is very limited. On the other hand, peer review is very heterogeneous and a fundamental aspect to improve it is to train young scientists on how to think critically and how to evaluate scientific knowledge in a professional way. Thus, this course aims to: i) train students on how to perform peer review of scientific manuscripts in a professional manner; ii) develop students' critical thinking; iii) contribute to the appreciation of preprints as important vehicles for the dissemination of scientific knowledge without restrictions; iv) contribute to the development of students' curricula, as their opinions will be published and indexed on the preLights platform. The evaluations will be based on qualitative analyses of the oral presentations of preprints in the field of biomedical sciences deposited in the bioRxiv server, of the critical reports written by the students, as well as of the participation of the students during the preprints discussions.

 



List by Marcus Oliveira et al.

CellBio 2022 – An ASCB/EMBO Meeting

This preLists features preprints that were discussed and presented during the CellBio 2022 meeting in Washington, DC in December 2022.

 



List by Nadja Hümpfer et al.

20th “Genetics Workshops in Hungary”, Szeged (25th, September)

In this annual conference, Hungarian geneticists, biochemists and biotechnologists presented their works. Link: http://group.szbk.u-szeged.hu/minikonf/archive/prg2021.pdf

 



List by Nándor Lipták

Fibroblasts

The advances in fibroblast biology preList explores the recent discoveries and preprints of the fibroblast world. Get ready to immerse yourself with this list created for fibroblasts aficionados and lovers, and beyond. Here, my goal is to include preprints of fibroblast biology, heterogeneity, fate, extracellular matrix, behavior, topography, single-cell atlases, spatial transcriptomics, and their matrix!

 



List by Osvaldo Contreras

ASCB EMBO Annual Meeting 2019

A collection of preprints presented at the 2019 ASCB EMBO Meeting in Washington, DC (December 7-11)

 



List by Madhuja Samaddar et al.

EMBL Seeing is Believing – Imaging the Molecular Processes of Life

Preprints discussed at the 2019 edition of Seeing is Believing, at EMBL Heidelberg from the 9th-12th October 2019

 



List by Dey Lab

Cellular metabolism

A curated list of preprints related to cellular metabolism at Biorxiv by Pablo Ranea Robles from the Prelights community. Special interest on lipid metabolism, peroxisomes and mitochondria.

 



List by Pablo Ranea Robles

MitoList

This list of preprints is focused on work expanding our knowledge on mitochondria in any organism, tissue or cell type, from the normal biology to the pathology.

 



List by Sandra Franco Iborra

Also in the molecular biology category:

2024 Hypothalamus GRC

This 2024 Hypothalamus GRC (Gordon Research Conference) preList offers an overview of cutting-edge research focused on the hypothalamus, a critical brain region involved in regulating homeostasis, behavior, and neuroendocrine functions. The studies included cover a range of topics, including neural circuits, molecular mechanisms, and the role of the hypothalamus in health and disease. This collection highlights some of the latest advances in understanding hypothalamic function, with potential implications for treating disorders such as obesity, stress, and metabolic diseases.

 



List by Nathalie Krauth

BSCB-Biochemical Society 2024 Cell Migration meeting

This preList features preprints that were discussed and presented during the BSCB-Biochemical Society 2024 Cell Migration meeting in Birmingham, UK in April 2024. Kindly put together by Sara Morais da Silva, Reviews Editor at Journal of Cell Science.

 



List by Reinier Prosee

‘In preprints’ from Development 2022-2023

A list of the preprints featured in Development's 'In preprints' articles between 2022-2023

 



List by Alex Eve, Katherine Brown

CSHL 87th Symposium: Stem Cells

Preprints mentioned by speakers at the #CSHLsymp23

 



List by Alex Eve

9th International Symposium on the Biology of Vertebrate Sex Determination

This preList contains preprints discussed during the 9th International Symposium on the Biology of Vertebrate Sex Determination. This conference was held in Kona, Hawaii from April 17th to 21st 2023.

 



List by Martin Estermann

Alumni picks – preLights 5th Birthday

This preList contains preprints that were picked and highlighted by preLights Alumni - an initiative that was set up to mark preLights 5th birthday. More entries will follow throughout February and March 2023.

 



List by Sergio Menchero et al.

CellBio 2022 – An ASCB/EMBO Meeting

This preLists features preprints that were discussed and presented during the CellBio 2022 meeting in Washington, DC in December 2022.

 



List by Nadja Hümpfer et al.

EMBL Synthetic Morphogenesis: From Gene Circuits to Tissue Architecture (2021)

A list of preprints mentioned at the #EESmorphoG virtual meeting in 2021.

 



List by Alex Eve

FENS 2020

A collection of preprints presented during the virtual meeting of the Federation of European Neuroscience Societies (FENS) in 2020

 



List by Ana Dorrego-Rivas

ECFG15 – Fungal biology

Preprints presented at 15th European Conference on Fungal Genetics 17-20 February 2020 Rome

 



List by Hiral Shah

ASCB EMBO Annual Meeting 2019

A collection of preprints presented at the 2019 ASCB EMBO Meeting in Washington, DC (December 7-11)

 



List by Madhuja Samaddar et al.

Lung Disease and Regeneration

This preprint list compiles highlights from the field of lung biology.

 



List by Rob Hynds
Close