SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2

Oliver Eales; Andrew J. Page; Leonardo de Oliveira Martins; Haowei Wang; Barbara Bodinier; David Haw; Jakob Jonnerby; Christina Atchison; Samuel C. Robson; Thomas R. Connor; Nicholas J. Loman; Tanya Golubchik; Rocio T.Martinez Nunez; David Bonsall; Andrew Rambaut; Luke B. Snell; Rich Livett; Catherine Ludden; Sally Corden; Eleni Nastouli; Gaia Nebbia; Ian Johnston; Katrina Lythgoe; M. Estee Torok; Ian G. Goodfellow; Jacqui A. Prieto; Kordo Saeed; David K. Jackson; Catherine Houlihan; Dan Frampton; William L. Hamilton; Adam A. Witney; Giselda Bucca; Cassie F. Pope; Catherine Moore; Emma C. Thomson; Ewan M. Harrison; Colin P. Smith; Fiona Rogan; Shaun M. Beckwith; Abigail Murray; Dawn Singleton; Kirstine Eastick; Liz A. Sheridan; Paul Randell; Leigh M. Jackson; Cristina V. Ariani; Sónia Gonçalves; Sally Forrest; Jonathan Ball

doi:10.1186/s12879-022-07628-4

SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2

Oliver Eales, Andrew J. Page, Leonardo de Oliveira Martins, Haowei Wang, Barbara Bodinier, David Haw, Jakob Jonnerby, Christina Atchison, Samuel C. Robson, Thomas R. Connor, Nicholas J. Loman, Tanya Golubchik, Rocio T.Martinez Nunez, David Bonsall, Andrew Rambaut, Luke B. Snell, Rich Livett, Catherine Ludden, Sally Corden, Eleni NastouliGaia Nebbia, Ian Johnston, Katrina Lythgoe, M. Estee Torok, Ian G. Goodfellow, Jacqui A. Prieto, Kordo Saeed, David K. Jackson, Catherine Houlihan, Dan Frampton, William L. Hamilton, Adam A. Witney, Giselda Bucca, Cassie F. Pope, Catherine Moore, Emma C. Thomson, Ewan M. Harrison, Colin P. Smith, Fiona Rogan, Shaun M. Beckwith, Abigail Murray, Dawn Singleton, Kirstine Eastick, Liz A. Sheridan, Paul Randell, Leigh M. Jackson, Cristina V. Ariani, Sónia Gonçalves, Sally Forrest, Jonathan Ball

Liverpool School of Tropical Medicine

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

Background: Since the emergence of SARS-CoV-2, evolutionary pressure has driven large increases in the transmissibility of the virus. However, with increasing levels of immunity through vaccination and natural infection the evolutionary pressure will switch towards immune escape. Genomic surveillance in regions of high immunity is crucial in detecting emerging variants that can more successfully navigate the immune landscape. Methods: We present phylogenetic relationships and lineage dynamics within England (a country with high levels of immunity), as inferred from a random community sample of individuals who provided a self-administered throat and nose swab for rt-PCR testing as part of the REal-time Assessment of Community Transmission-1 (REACT-1) study. During round 14 (9 September–27 September 2021) and 15 (19 October–5 November 2021) lineages were determined for 1322 positive individuals, with 27.1% of those which reported their symptom status reporting no symptoms in the previous month. Results: We identified 44 unique lineages, all of which were Delta or Delta sub-lineages, and found a reduction in their mutation rate over the study period. The proportion of the Delta sub-lineage AY.4.2 was increasing, with a reproduction number 15% (95% CI 8–23%) greater than the most prevalent lineage, AY.4. Further, AY.4.2 was less associated with the most predictive COVID-19 symptoms (p = 0.029) and had a reduced mutation rate (p = 0.050). Both AY.4.2 and AY.4 were found to be geographically clustered in September but this was no longer the case by late October/early November, with only the lineage AY.6 exhibiting clustering towards the South of England. Conclusions: As SARS-CoV-2 moves towards endemicity and new variants emerge, genomic data obtained from random community samples can augment routine surveillance data without the potential biases introduced due to higher sampling rates of symptomatic individuals.

Original language	English
Article number	647
Journal	BMC Infectious Diseases
Volume	22
Issue number	1
DOIs	https://doi.org/10.1186/s12879-022-07628-4
Publication status	Published - 1 Dec 2022

Keywords

COVID-19
Delta variant
Genetic diversity
Mutation
SARS-CoV-2
Transmission advantage

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Eales, O., Page, A. J., de Oliveira Martins, L., Wang, H., Bodinier, B., Haw, D., Jonnerby, J., Atchison, C., Robson, S. C., Connor, T. R., Loman, N. J., Golubchik, T., Nunez, R. T. M., Bonsall, D., Rambaut, A., Snell, L. B., Livett, R., Ludden, C., Corden, S., ... Ball, J. (2022). SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2. BMC Infectious Diseases, 22(1), Article 647. https://doi.org/10.1186/s12879-022-07628-4

@article{455352c24f6549c38037e369ef60105e,

title = "SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2",

abstract = "Background: Since the emergence of SARS-CoV-2, evolutionary pressure has driven large increases in the transmissibility of the virus. However, with increasing levels of immunity through vaccination and natural infection the evolutionary pressure will switch towards immune escape. Genomic surveillance in regions of high immunity is crucial in detecting emerging variants that can more successfully navigate the immune landscape. Methods: We present phylogenetic relationships and lineage dynamics within England (a country with high levels of immunity), as inferred from a random community sample of individuals who provided a self-administered throat and nose swab for rt-PCR testing as part of the REal-time Assessment of Community Transmission-1 (REACT-1) study. During round 14 (9 September–27 September 2021) and 15 (19 October–5 November 2021) lineages were determined for 1322 positive individuals, with 27.1\% of those which reported their symptom status reporting no symptoms in the previous month. Results: We identified 44 unique lineages, all of which were Delta or Delta sub-lineages, and found a reduction in their mutation rate over the study period. The proportion of the Delta sub-lineage AY.4.2 was increasing, with a reproduction number 15\% (95\% CI 8–23\%) greater than the most prevalent lineage, AY.4. Further, AY.4.2 was less associated with the most predictive COVID-19 symptoms (p = 0.029) and had a reduced mutation rate (p = 0.050). Both AY.4.2 and AY.4 were found to be geographically clustered in September but this was no longer the case by late October/early November, with only the lineage AY.6 exhibiting clustering towards the South of England. Conclusions: As SARS-CoV-2 moves towards endemicity and new variants emerge, genomic data obtained from random community samples can augment routine surveillance data without the potential biases introduced due to higher sampling rates of symptomatic individuals.",

keywords = "COVID-19, Delta variant, Genetic diversity, Mutation, SARS-CoV-2, Transmission advantage",

author = "Oliver Eales and Page, \{Andrew J.\} and \{de Oliveira Martins\}, Leonardo and Haowei Wang and Barbara Bodinier and David Haw and Jakob Jonnerby and Christina Atchison and Robson, \{Samuel C.\} and Connor, \{Thomas R.\} and Loman, \{Nicholas J.\} and Tanya Golubchik and Nunez, \{Rocio T.Martinez\} and David Bonsall and Andrew Rambaut and Snell, \{Luke B.\} and Rich Livett and Catherine Ludden and Sally Corden and Eleni Nastouli and Gaia Nebbia and Ian Johnston and Katrina Lythgoe and Torok, \{M. Estee\} and Goodfellow, \{Ian G.\} and Prieto, \{Jacqui A.\} and Kordo Saeed and Jackson, \{David K.\} and Catherine Houlihan and Dan Frampton and Hamilton, \{William L.\} and Witney, \{Adam A.\} and Giselda Bucca and Pope, \{Cassie F.\} and Catherine Moore and Thomson, \{Emma C.\} and Harrison, \{Ewan M.\} and Smith, \{Colin P.\} and Fiona Rogan and Beckwith, \{Shaun M.\} and Abigail Murray and Dawn Singleton and Kirstine Eastick and Sheridan, \{Liz A.\} and Paul Randell and Jackson, \{Leigh M.\} and Ariani, \{Cristina V.\} and S{\'o}nia Gon{\c c}alves and Sally Forrest and Jonathan Ball",

year = "2022",

month = dec,

day = "1",

doi = "10.1186/s12879-022-07628-4",

language = "English",

volume = "22",

journal = "BMC Infectious Diseases",

issn = "1471-2334",

publisher = "BioMed Central Ltd",

number = "1",

}

Eales, O, Page, AJ, de Oliveira Martins, L, Wang, H, Bodinier, B, Haw, D, Jonnerby, J, Atchison, C, Robson, SC, Connor, TR, Loman, NJ, Golubchik, T, Nunez, RTM, Bonsall, D, Rambaut, A, Snell, LB, Livett, R, Ludden, C, Corden, S, Nastouli, E, Nebbia, G, Johnston, I, Lythgoe, K, Torok, ME, Goodfellow, IG, Prieto, JA, Saeed, K, Jackson, DK, Houlihan, C, Frampton, D, Hamilton, WL, Witney, AA, Bucca, G, Pope, CF, Moore, C, Thomson, EC, Harrison, EM, Smith, CP, Rogan, F, Beckwith, SM, Murray, A, Singleton, D, Eastick, K, Sheridan, LA, Randell, P, Jackson, LM, Ariani, CV, Gonçalves, S, Forrest, S & Ball, J 2022, 'SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2', BMC Infectious Diseases, vol. 22, no. 1, 647. https://doi.org/10.1186/s12879-022-07628-4

SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2. / Eales, Oliver; Page, Andrew J.; de Oliveira Martins, Leonardo et al.
In: BMC Infectious Diseases, Vol. 22, No. 1, 647, 01.12.2022.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2

AU - Eales, Oliver

AU - Page, Andrew J.

AU - de Oliveira Martins, Leonardo

AU - Wang, Haowei

AU - Bodinier, Barbara

AU - Haw, David

AU - Jonnerby, Jakob

AU - Atchison, Christina

AU - Robson, Samuel C.

AU - Connor, Thomas R.

AU - Loman, Nicholas J.

AU - Golubchik, Tanya

AU - Nunez, Rocio T.Martinez

AU - Bonsall, David

AU - Rambaut, Andrew

AU - Snell, Luke B.

AU - Livett, Rich

AU - Ludden, Catherine

AU - Corden, Sally

AU - Nastouli, Eleni

AU - Nebbia, Gaia

AU - Johnston, Ian

AU - Lythgoe, Katrina

AU - Torok, M. Estee

AU - Goodfellow, Ian G.

AU - Prieto, Jacqui A.

AU - Saeed, Kordo

AU - Jackson, David K.

AU - Houlihan, Catherine

AU - Frampton, Dan

AU - Hamilton, William L.

AU - Witney, Adam A.

AU - Bucca, Giselda

AU - Pope, Cassie F.

AU - Moore, Catherine

AU - Thomson, Emma C.

AU - Harrison, Ewan M.

AU - Smith, Colin P.

AU - Rogan, Fiona

AU - Beckwith, Shaun M.

AU - Murray, Abigail

AU - Singleton, Dawn

AU - Eastick, Kirstine

AU - Sheridan, Liz A.

AU - Randell, Paul

AU - Jackson, Leigh M.

AU - Ariani, Cristina V.

AU - Gonçalves, Sónia

AU - Forrest, Sally

AU - Ball, Jonathan

PY - 2022/12/1

Y1 - 2022/12/1

N2 - Background: Since the emergence of SARS-CoV-2, evolutionary pressure has driven large increases in the transmissibility of the virus. However, with increasing levels of immunity through vaccination and natural infection the evolutionary pressure will switch towards immune escape. Genomic surveillance in regions of high immunity is crucial in detecting emerging variants that can more successfully navigate the immune landscape. Methods: We present phylogenetic relationships and lineage dynamics within England (a country with high levels of immunity), as inferred from a random community sample of individuals who provided a self-administered throat and nose swab for rt-PCR testing as part of the REal-time Assessment of Community Transmission-1 (REACT-1) study. During round 14 (9 September–27 September 2021) and 15 (19 October–5 November 2021) lineages were determined for 1322 positive individuals, with 27.1% of those which reported their symptom status reporting no symptoms in the previous month. Results: We identified 44 unique lineages, all of which were Delta or Delta sub-lineages, and found a reduction in their mutation rate over the study period. The proportion of the Delta sub-lineage AY.4.2 was increasing, with a reproduction number 15% (95% CI 8–23%) greater than the most prevalent lineage, AY.4. Further, AY.4.2 was less associated with the most predictive COVID-19 symptoms (p = 0.029) and had a reduced mutation rate (p = 0.050). Both AY.4.2 and AY.4 were found to be geographically clustered in September but this was no longer the case by late October/early November, with only the lineage AY.6 exhibiting clustering towards the South of England. Conclusions: As SARS-CoV-2 moves towards endemicity and new variants emerge, genomic data obtained from random community samples can augment routine surveillance data without the potential biases introduced due to higher sampling rates of symptomatic individuals.

AB - Background: Since the emergence of SARS-CoV-2, evolutionary pressure has driven large increases in the transmissibility of the virus. However, with increasing levels of immunity through vaccination and natural infection the evolutionary pressure will switch towards immune escape. Genomic surveillance in regions of high immunity is crucial in detecting emerging variants that can more successfully navigate the immune landscape. Methods: We present phylogenetic relationships and lineage dynamics within England (a country with high levels of immunity), as inferred from a random community sample of individuals who provided a self-administered throat and nose swab for rt-PCR testing as part of the REal-time Assessment of Community Transmission-1 (REACT-1) study. During round 14 (9 September–27 September 2021) and 15 (19 October–5 November 2021) lineages were determined for 1322 positive individuals, with 27.1% of those which reported their symptom status reporting no symptoms in the previous month. Results: We identified 44 unique lineages, all of which were Delta or Delta sub-lineages, and found a reduction in their mutation rate over the study period. The proportion of the Delta sub-lineage AY.4.2 was increasing, with a reproduction number 15% (95% CI 8–23%) greater than the most prevalent lineage, AY.4. Further, AY.4.2 was less associated with the most predictive COVID-19 symptoms (p = 0.029) and had a reduced mutation rate (p = 0.050). Both AY.4.2 and AY.4 were found to be geographically clustered in September but this was no longer the case by late October/early November, with only the lineage AY.6 exhibiting clustering towards the South of England. Conclusions: As SARS-CoV-2 moves towards endemicity and new variants emerge, genomic data obtained from random community samples can augment routine surveillance data without the potential biases introduced due to higher sampling rates of symptomatic individuals.

KW - COVID-19

KW - Delta variant

KW - Genetic diversity

KW - Mutation

KW - SARS-CoV-2

KW - Transmission advantage

U2 - 10.1186/s12879-022-07628-4

DO - 10.1186/s12879-022-07628-4

M3 - Article

SN - 1471-2334

VL - 22

JO - BMC Infectious Diseases

JF - BMC Infectious Diseases

IS - 1

M1 - 647

ER -

Eales O, Page AJ, de Oliveira Martins L, Wang H, Bodinier B, Haw D et al. SARS-CoV-2 lineage dynamics in England from September to November 2021: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2: high diversity of Delta sub-lineages and increased transmissibility of AY.4.2. BMC Infectious Diseases. 2022 Dec 1;22(1):647. doi: 10.1186/s12879-022-07628-4