Conserved Nuclear Localization Signal in NS2 Protein of Bombyx Mori Bidensovirus: A Potential Invertebrate ssDNA Virus Trait

Bombyx mori bidensovirus (BmBDV), a significant pathogen in the sericulture industry, holds a unique taxonomic position due to its distinct segmented single-stranded DNA (ssDNA) genome and the presence of a self-encoding DNA polymerase. However, the functions of viral non-structural proteins, such as NS2, remain unknown. This protein is hypothesized to play a role in viral replication and pathogenesis. To investigate its structure and function, we employed phylogenetic analysis, subcellular localization, mutational analysis, and a dual-luciferase reporter system to characterize the nuclear localization signal (NLS) within NS2 and its effect on viral promoter activity. Additionally, co-immunoprecipitation and mass spectrometry were utilized to identify host proteins interacting with NS2. We identified a functional bipartite NLS in NS2, validated the combination pattern of key amino acids, and demonstrated its role in regulating viral promoter activity. Furthermore, we identified potential NLSs in NS2 homologs in other invertebrate ssDNA viruses based on sequence analysis. We also revealed interactions between NS2 and host nuclear transport proteins, suggesting that it plays a role in nuclear transport and viral replication. This research underscores the importance of NS2's NLS in BmBDV's life cycle and its potential conservation across invertebrate ssDNA viruses, providing insights into virus-host interactions and avenues for antiviral strategy development.

Detection of Porcine Bocavirus From a Child With Acute Respiratory Tract Infection

Porcine bocavirus is a recently discovered virus classified within the Bocavirus genus. We present a case of upper respiratory tract infection associated with porcine bocavirus in a 3-year-old child who was in close contact with hogs in northeastern Iran. To the best of our knowledge, this is the first report on the human porcine bocavirus infection.

A novel recombinant genome of minute virus of canines in China

In this study, we determined almost all of the genome sequence of minute virus of canines (MVC) strain CDK47/2017 and performed phylogenetic analysis with this isolate and other MVC isolates. The genome of CDK47/2017 has the following characteristics: 1) The amino acid sequence of the NS1 protein is similar to that of the novel strain 15D009/KT241026.1, which has 17 identical amino acid changes and two identical amino acid insertions compared with other known MVC strains. These two strains clustered in a unique branch in an NSI-based phylogenetic tree. 2) Phylogenetic analysis based on the NP1 protein showed that strain CDK47/2017clustered in an independent branch with strains 15D009/KT241026.1 and HM-6/AB158475.1, both of which has 10 identical amino acid changes compared with other known MVC strains. 3) Eight unique amino acid substitutions of the CDK47/2017 capsid protein resulted in it forming a unique branch in the phylogenetic tree. 4) Recombination events were identified between the 3' end of the NS1 gene and 5' end of NP1 gene. Together, these characteristics suggest that strain CDK47/2017 represents a novel MVC strain that is distinct from all known MVC strains with sequences in the GenBank database. This contributes to a greater understanding of the genetic evolution of MVC.

The role of nuclear localization signal in parvovirus life cycle

Parvoviruses are small, non-enveloped viruses with an approximately 5.0 kb, single-stranded DNA genome. Usually, the parvovirus capsid gene contains one or more nuclear localization signals (NLSs), which are required for guiding the virus particle into the nucleus through the nuclear pore. However, several classical NLSs (cNLSs) and non-classical NLSs (ncNLSs) have been identified in non-structural genes, and the ncNLSs can also target non-structural proteins into the nucleus. In this review, we have summarized recent research findings on parvovirus NLSs. The capsid protein of the adeno-associated virus has four potential nuclear localization sequences, named basic region 1 (BR), BR2, BR3 and BR4. BR3 was identified as an NLS by fusing it with green fluorescent protein. Moreover, BR3 and BR4 are required for infectivity and virion assembly. In Protoparvovirus, the canine parvovirus has a common cNLS located in the VP1 unique region, similar to parvovirus minute virus of mice (MVM) and porcine parvovirus. Moreover, an ncNLS is found in the C-terminal region of MVM VP1/2. Parvovirus B19 also contains an ncNLS in the C-terminal region of VP1/2, which is essential for the nuclear transport of VP1/VP2. Approximately 1 or 2 cNLSs and 1 ncNLS have been reported in the non-structural protein of bocaviruses. Understanding the role of the NLS in the process of parvovirus infection and its mechanism of nuclear transport will contribute to the development of therapeutic vaccines and novel antiviral medicines.