2010
DOI: 10.1099/vir.0.018994-0
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Sequential mutations associated with adaptation of human cytomegalovirus to growth in cell culture

Abstract: Mutations that occurred during adaptation of human cytomegalovirus to cell culture were monitored by isolating four strains from clinical samples, passaging them in various cell types and sequencing ten complete virus genomes from the final passages. Mutational dynamics were assessed by targeted sequencing of intermediate passages and the original clinical samples. Gene RL13 and the UL128 locus (UL128L, consisting of genes UL128, UL130 and UL131A) mutated in all strains. Mutations in RL13 occurred in fibroblas… Show more

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Cited by 186 publications
(243 citation statements)
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“…Passage of EHV‐1 (Allen, Yeargan, et al., 1983; Bonass et al., 1994) and other herpesviruses (Dargan et al., 2010; Tyler et al., 2007) in vitro is known to select mutants that have a growth advantage over wild‐type virus. The majority of viruses analysed in the present study were sequenced at passage 3 or 4 after their original isolation from the animals, to minimize the extent of adaptation, but it is possible that mutations occurred in vitro .…”
Section: Discussionmentioning
confidence: 99%
“…Passage of EHV‐1 (Allen, Yeargan, et al., 1983; Bonass et al., 1994) and other herpesviruses (Dargan et al., 2010; Tyler et al., 2007) in vitro is known to select mutants that have a growth advantage over wild‐type virus. The majority of viruses analysed in the present study were sequenced at passage 3 or 4 after their original isolation from the animals, to minimize the extent of adaptation, but it is possible that mutations occurred in vitro .…”
Section: Discussionmentioning
confidence: 99%
“…These findings led to the conclusion that the lack of HCMV transmission to leukocytes and HUVEC infection are markers of HCMV attenuation [47]. Interestingly, sequential mutations associated with the adaptation of human cytomegalovirus to growth in HELF cultures have been shown to be associated with greater virus yields [48].…”
Section: Hcmv Leukocyte and Endothelial Cell Tropismmentioning
confidence: 97%
“…The genetic determinants of EC-and leuko-tropism remained elusive until 2004, when a 2-year collaborative investigation by researchers from Pavia (Italy) and Munich (Germany) provided evidence that the UL131-128 locus (UL128L) [48] within the ULb¢ region of the HCMV genome is indispensable for virus replication in ECs and virus transmission to leukocytes [6]. At the beginning of this study, the following findings were critical in directing interest to the ULb¢ region as a prime candidate: (i) the loss of EC-and leuko-tropism in the laboratory strains, Towne and AD169, was associated with the loss of the great majority of ULb¢ [52,53]; (ii) the low-passaged strain Toledo, which was shown to be tropism-deficient [51], was found to display an inversion of ULb¢ [53]; and (iii) extensive propagation of EC-and leuko-tropic clinical isolates in HELFs was found to be consistently associated with the selection of tropism-deficient variants [37,45,[54][55][56] in the presence of only minor variations in the relevant viral genomes.…”
Section: Genetic Determinants Of Endothelial Cells and Leukocyte Tropismmentioning
confidence: 99%
“…Spontaneous defects clearly arise elsewhere in the HCMV genome, yet their significance is only occasionally defined functionally (13,18,26,27). Indeed, whole-genome sequencing of multiple clinical strains following growth in vitro reveals that clinical HCMV genomes invariably mutate whether passaged in fibroblasts, epithelial cells, or endothelial cells (28).…”
Section: Introductionmentioning
confidence: 99%