Alphasatellite Explained
Alphasatellites are a single-stranded DNA family of satellite viruses that depend on the presence of another virus (helper viruses) to replicate their genomes. As such, they have minimal genomes with very low genomic redundancy. The genome is a single circular single strand DNA molecule.[1] The first alphasatellites were described in 1999 and were associated with cotton leaf curl disease and Ageratum yellow vein disease.[2] [3] As begomoviruses are being characterised at the molecular level an increasing number of alphasatellites are being described.
These viruses were earlier known as DNA 1 components.[4]
These viruses are generally found in the Old World. A number have been isolated from the New World but their association with their host viruses is still being studied.
Genome
The genome is between 1300 and 1400 nucleotides in length and has three conserved features: a hairpin structure, a single open reading frame (ORF) and an adenine rich region.[5]
The hairpin structure has a loop that includes the nonanucleotide, TAGTATTAC, which is common to nanoviruses and differs from the TAATATTAC sequence of geminiviruses by one nucleotide. In both geminiviruses and nanoviruses this sequence contains the origin of replication (ori) and is nicked by the rolling circle replication initiator protein to initiate viral DNA replication. On the basis of the hairpin structures alphasatellites can be divided into 5 clades.[6]
The open reading frame encodes a rolling circle replication initiator protein (Rep) similar to that found in the nanoviruses. The encoded protein is 32–37 kilodalton in molecular weight with ~320 amino acids. It is highly conserved with 86.3–100.0% amino acid sequence identity between isolates.
The adenine rich region is immediately downstream of the rep gene and is approximately 153–169 nucleotides in length with an adenine content of between 52.3–58.4%. Phylogenectic analysis of this region shows that they can be divided into three clades which correspond to those found on phylogenetic analysis of the entire genome.[6] This portion of the genome appears to be redundant.[7]
A putative second ORF in the genome of an alphasatellite virus has been described.[8] The significance of this finding (if any) is not known.
Recombination occurs between alphasatellites.[9]
Virology
There are no distinctive virions because the viral genomes are encapsidated within the coat protein of the helper virus.
Alphasatellites associated with the begomoviruses require a begomovirus for movement in plants and insect transmission but are capable of self replication in host plants. They do not appear to cause disease in plants or to alter the course of infection by the begomovirus. They may be able to reduce the severity of an infection by the begomoviruses.[10] [11]
Alphasatellites have also been described in association with Nanoviridae. These tend to be slightly shorter (1100–1300 nucleotides) but to encode proteins in addition to the rep gene. Because of the multiple component genome of the Nanoviridae these were not initially recognised as distinct genomes.[12] [13] [14]
Alphasatellites may be the target of RNA silencing.[15]
Taxonomy
Alphasatellites are grouped together in the family Alphasatellitidae. This family has three subfamilies, 18 genera, and 85 species. The following subfamilies and genera are recognized (-satellitinae denotes subfamily and -satellite denotes genus):[16]
- Geminialphasatellitinae
- Ageyesisatellite
- Clecrusatellite
- Colecusatellite
- Draflysatellite
- Gosmusatellite
- Somasatellite
- Whiflysatellite
- Nanoalphasatellitinae
- Clostunsatellite
- Fabenesatellite
- Milvetsatellite
- Mivedwarsatellite
- Sophoyesatellite
- Subclovsatellite
- Petromoalphasatellitinae
- Babusatellite
- Cocosatellite
- Coprasatellite
- Kobbarisatellite
- Muscarsatellite
Evolution
Given the similarities between the rep proteins of the alphasatellites and the nanoviruses, it is likely that the alphasatellites evolved from the nanoviruses.[6]
Uses
These viruses have been used in the development of viral gene silencing studies.[17]
External links
Notes and References
- Silva . Jorge Miguel . Pratas . Diogo . Caetano . Tânia . Matos . Sérgio . 2022-08-11 . The complexity landscape of viral genomes . GigaScience . en . 11 . giac079 . 10.1093/gigascience/giac079 . 2047-217X . 9366995 . 35950839.
- Saunders K, Stanley J . A nanovirus-like DNA component associated with yellow vein disease of Ageratum conyzoides: evidence for interfamilial recombination between plant DNA viruses . Virology . 264 . 1 . 142–52 . November 1999 . 10544139 . 10.1006/viro.1999.9948 . free .
- Mansoor S, Khan SH, Bashir A . Identification of a novel circular single-stranded DNA associated with cotton leaf curl disease in Pakistan . Virology . 259 . 1 . 190–9 . June 1999 . 10364503 . 10.1006/viro.1999.9766 . etal. free .
- Stanley J . Subviral DNAs associated with geminivirus disease complexes . Vet. Microbiol. . 98 . 2 . 121–9 . February 2004 . 14741124 . 10.1016/j.vetmic.2003.10.005.
- Briddon RW, Bull SE, Amin I . Diversity of DNA 1: a satellite-like molecule associated with monopartite begomovirus-DNA beta complexes . Virology . 324 . 2 . 462–74 . July 2004 . 15207631 . 10.1016/j.virol.2004.03.041 . etal. free .
- Xie Y, Wu P, Liu P, Gong H, Zhou X . Characterization of alphasatellites associated with monopartite begomovirus/betasatellite complexes in Yunnan, China . Virol. J. . 7 . 178 . 2010 . 20678232 . 2922188 . 10.1186/1743-422X-7-178 . free .
- Shahid MS, Ali L, Andleeb S . The function of the a-rich region of the alphasatellite associated with the cotton leaf curl disease in Pakistan . EurAsia J BioSci . 3 . 152–6 . 2009 . 2014-03-08 . https://web.archive.org/web/20140308064028/http://ejobios.com/pdf/EJOB-9-12-3,19,152-156.pdf . 2014-03-08 . dead .
- Romay G, Chirinos D, Geraud-Pouey F, Desbiez C . Association of an atypical alphasatellite with a bipartite New World begomovirus . Arch. Virol. . 155 . 11 . 1843–7 . November 2010 . 20665058 . 10.1007/s00705-010-0760-7 . 20039085 .
- Kumar J, Kumar A, Roy JK, Tuli R, Khan JA . Identification and molecular characterization of begomovirus and associated satellite DNA molecules infecting Cyamopsis tetragonoloba . Virus Genes . 41 . 1 . 118–25 . August 2010 . 20405195 . 10.1007/s11262-010-0482-7 . 6790138 .
- Idris AM, Shahid MS, Briddon RW, Khan AJ, Zhu JK, Brown JK . An unusual alphasatellite associated with monopartite begomoviruses attenuates symptoms and reduces betasatellite accumulation . J. Gen. Virol. . 92 . Pt 3 . 706–17 . March 2011 . 21084498 . 10.1099/vir.0.025288-0 . pdf . free .
- Nawaz-Ul-Rehman MS, Nahid N, Mansoor S, Briddon RW, Fauquet CM . Post-transcriptional gene silencing suppressor activity of two non-pathogenic alphasatellites associated with a begomovirus . Virology . 405 . 2 . 300–8 . September 2010 . 20598726 . 10.1016/j.virol.2010.06.024 . free .
- Katul L, Maiss E, Vetten HJ . Sequence analysis of a faba bean necrotic yellows virus DNA component containing a putative replicase gene . J. Gen. Virol. . 76 . Pt 2 . 475–9 . February 1995 . 7844570 . 10.1099/0022-1317-76-2-475 . pdf . free .
- Katul L, Timchenko T, Gronenborn B, Vetten HJ . Ten distinct circular ssDNA components, four of which encode putative replication-associated proteins, are associated with the faba bean necrotic yellows virus genome . J. Gen. Virol. . 79 . Pt 12 . 3101–9 . December 1998 . 9880028 . 10.1099/0022-1317-79-12-3101 . pdf . free .
- Sano Y, Wada M, Hashimoto Y, Matsumoto T, Kojima M . Sequences of ten circular ssDNA components associated with the milk vetch dwarf virus genome . J. Gen. Virol. . 79 . Pt 12 . 3111–8 . December 1998 . 9880029 . pdf . 10.1099/0022-1317-79-12-3111 . free .
- Amin I, Hussain K, Akbergenov R . Suppressors of RNA silencing encoded by the components of the cotton leaf curl begomovirus-betasatellite complex . Mol. Plant Microbe Interact. . 24 . 8 . 973–83 . August 2011 . 21751853 . 10.1094/MPMI-01-11-0001 . etal. free .
- Web site: Virus Taxonomy: 2022 Release . International Committee on Taxonomy of Viruses (ICTV) . 14 August 2023 . en . March 2023.
- Huang CJ, Zhang T, Li FF, Zhang XY, Zhou XP . Development and application of an efficient virus-induced gene silencing system in Nicotiana tabacum using geminivirus alphasatellite . J Zhejiang Univ Sci B . 12 . 2 . 83–92 . February 2011 . 21265040 . 3030953 . 10.1631/jzus.B1000157 .