Abstract
BackgroundAs a typical retrovirus, the evolution of Avian leukosis virus subgroup J (ALV-J) in different infectious ecosystems is not characterized, what we know is there are a cloud of diverse variants, namely quasispecies with considerable genetic diversity. This study is to explore the selection of infectious ecosystems on dominant variants and their evolutionary dynamics of ALV-J between DF1 cells and specific-pathogen-free (SPF) chickens. High-throughput sequencing platforms provide an approach for detecting quasispecies diversity more fully.ResultsAn average of about 20,000 valid reads were obtained from two variable regions of gp85 gene and LTR-U3 region from each sample in different infectious ecosystems. The top 10 dominant variants among ALV-J from chicken plasmas, DF1 cells and liver tumor were completely different from each other. Also there was a difference of shannon entropy and global selection pressure values (ω) in different infectious ecosystems. In the plasmas of two chickens, a large portion of quasispecies contained a 3-peptides “LSD” repeat insertion that was only less than 0.01% in DF1 cell culture supernatants. In parallel studies, the LTR-U3 region of ALV-J from the chicken plasmas demonstrated more variants with mutations in their transcription regulatory elements than those from DF1 cells.ConclusionsOur data taken together suggest that the molecular epidemiology based on isolated ALV-J in cell culture may not represent the true evolution of virus in chicken flocks in the field. The biological significance of the “LSD” insert and mutations in LTR-U3 needs to be further studied.Electronic supplementary materialThe online version of this article (doi:10.1186/s12917-016-0902-6) contains supplementary material, which is available to authorized users.
Highlights
As a typical retrovirus, the evolution of Avian leukosis virus subgroup J (ALV-J) in different infectious ecosystems is not characterized, what we know is there are a cloud of diverse variants, namely quasispecies with considerable genetic diversity
The results suggested there might be some selective pressures on quasispecies of both gp85-A, gp85-B and LTR-U3 fragments when ALV-J from the original liver inoculum (Ori) replicated in chickens or in DF1 cell cultures
It is clear that the Ori was liver suspension and its ALV-J quasispecies mainly replicated in liverassociated cells, viruses in chicken plasmas or cell culture supernatant came from all kinds of sensitive cells in the body or replicated only in DF1 cells after the Ori was infected chickens or cell cultures
Summary
The evolution of Avian leukosis virus subgroup J (ALV-J) in different infectious ecosystems is not characterized, what we know is there are a cloud of diverse variants, namely quasispecies with considerable genetic diversity. Avian leukosis virus (ALV) is an oncogenic retrovirus that induced lymphoid tumors in chickens and its genomic structure and molecular characteristics are well defined. It plays a critical role in the discoveries of reverse transcriptase, v-oncogenes and proto-oncogenes [1]. To understand molecular epidemiology of ALV-J among different types of chickens with various genetic backgrounds in many parts of the world, more than 200 ALV-J isolates have been subsequently sequenced and compared with gp region of
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