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IntroductionThe impact of COVID-19 vaccination on disease in the community has been limited, as a result of both SARS-CoV-2 Variants of Concern that partially escape vaccine-induced immunity. We sought to characterise symptoms and viral loads over the course of COVID-19 infection in otherwise-healthy vaccinated adults, representative of the general population, to assess whether current self-isolation guidance remains justified. MethodsIn a prospective, observational cohort study, healthy vaccinated UK adults who reported a positive PCR or lateral flow test, self-swabbed on alternate days until day 10. We compared symptoms and viral kinetics between infections caused by VOCs Delta and Omicron (sub-variants BA.1 and BA.2) and investigated applicability of UK NHS isolation guidelines to these newer VOCs. Results373 infection episodes were reported among 349 participants. Across VOCs, symptom duration was similar, however symptom profiles differed significantly among infections caused by Delta, Omicron BA.1 and BA.2. Anosmia was reported in <10% of participants with BA.1 and BA.2, compared to 42% with Delta infection, coryza fatigue and myalgia predominated. Most notably, viral load trajectories and peaks did not differ between Delta, BA.1 and BA.2, irrespective of symptom severity, VOC or vaccination status. ConclusionCOVID-19 isolation guidance should not differ based on symptom severity or febrile illness and must remain under review as new SARS-CoV-2 VOCs emerge and population immunity changes. Our study emphasises the ongoing transmission risk of Omicron sub-variants in vaccinated adults with mild symptoms that may extend beyond current isolation periods. summaryWe provide prospective characterisation of COVID-19 caused by Delta and Omicron BA.1 and BA.2 in healthy, vaccinated adults. A minority of adults report symptoms that would mandate self-isolation, despite having equally high viral shedding across VOCs that persisted beyond ten days.
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Two mutations occurred in SARS-CoV-2 early during the COVID-19 pandemic that have come to define circulating virus lineages1: first a change in the spike protein (D614G) that defines the B.1 lineage and second, a double substitution in the nucleocapsid protein (R203K, G204R) that defines the B.1.1 lineage, which has subsequently given rise to three Variants of Concern: Alpha, Gamma and Omicron. While the latter mutations appear unremarkable at the protein level, there are dramatic implications at the nucleotide level: the GGG[->]AAC substitution generates a new Transcription Regulatory Sequence (TRS) motif, driving SARS-CoV-2 to express a novel subgenomic mRNA (sgmRNA) encoding a truncated C-terminal portion of nucleocapsid (N.iORF3), which is an inhibitor of type I interferon production. We find that N.iORF3 also emerged independently within the Iota variant, and further show that additional TRS motifs have convergently evolved to express novel sgmRNAs; notably upstream of Spike within the nsp16 coding region of ORF1b, which is expressed during human infection. Our findings demonstrate that SARS-CoV-2 is undergoing evolutionary changes at the functional RNA level in addition to the amino acid level, reminiscent of eukaryotic evolution. Greater attention to this aspect in the assessment of emerging strains of SARS-CoV-2 is warranted.