Complementary-sense DNA Research Articles

Quantification of Virion-Sense and Complementary-Sense DNA Strands of Circular Single-Stranded DNA Viruses.

Circular ssDNA viruses are ubiquitous and can be found in both prokaryotes and eukaryotes. To understand the interaction of ssDNA viruses with their hosts, it is important to characterize the dynamics of viral sense (VS) and complementary-sense (CS) viral strands during the infection process. Here, we present a simple and rapid protocol that allows sensitive and accurate determination of the VS and CS strands generated during viral infection.The method consists of a two-step qPCR in which the first step uses a strand-specific (CS or VS) labeled primer and T4 DNA polymerase that lacks strand displacement activity and makes a single copy per VS or CS strand. Next, the T4 DNA polymerase and unincorporated oligonucleotides are removed by a silica membrane spin column. Finally, the purified VS or CS strands are quantified by qPCR in a second step in which amplification uses a tag primer and a specific primer. Absolute quantification of VS and CS strands is obtained by extrapolating the Cq data to a standard curve of ssDNA, which can be generated by phagemid expression. Quantification of VS and CS strands of two geminiviruses in infections of Solanum lycopersicum (tomato) and Nicotiana benthamiana plants using this method is shown.

The C5 protein encoded by Ageratum leaf curl Sichuan virus is a virulence factor and contributes to the virus infection.

Earlier reports have indicated that begomoviruses encode four proteins (AC1/C1, AC2/C2, AC3/C3, and AC4/C4 proteins) using complementary‐sense DNA as the template. In recent years, several reports have shown that some begomoviruses also encode an AC5/C5 protein from the complementary DNA strand, and these AC5/C5 proteins play different roles in virus infections. Here, we provide evidence showing that Ageratum leaf curl Sichuan virus (ALCScV), a monopartite begomovirus, also encodes a C5 protein that is important for disease symptom formation and can affect viral replication. Infection of Nicotiana benthamiana plants with a potato virus X (PVX)‐based vector carrying the ALCScV C5 gene resulted in more severe disease symptoms and higher virus accumulation levels. ALCScV C5 protein can be found in the cytoplasm and the nucleus. Furthermore, this protein is also a suppressor of posttranscriptional gene silencing. Mutational analysis showed that knockout of C5 gene expression significantly reduced ALCScV‐induced disease symptoms and virus accumulation, while expression of the C5 gene using the PVX‐based vector enhanced ALCScV accumulation in coinfected N. benthamiana plants.

The AC5 protein encoded by Mungbean yellow mosaic India virus is a pathogenicity determinant that suppresses RNA silencing-based antiviral defenses.

It is generally accepted that begomoviruses in the family Geminiviridae encode four proteins (from AC1/C1 to AC4/C4) using the complementary-sense DNA as template. Although AC5/C5 coding sequences are increasingly annotated in databases for many begomoviruses, the evolutionary relationships and functions of this putative protein in viral infection are obscure. Here, we demonstrate several important functions of the AC5 protein of a bipartite begomovirus, Mungbean yellow mosaic India virus (MYMIV). Mutational analyses and transgenic expression showed that AC5 plays a critical role in MYMIV infection. Ectopic expression of AC5 from a Potato virus X (PVX) vector resulted in severe mosaic symptoms followed by a hypersensitive-like response in Nicotiana benthamiana. Furthermore, MYMIV AC5 effectively suppressed post-transcriptional gene silencing induced by single-stranded but not double-stranded RNA. AC5 was also able to reverse transcriptional gene silencing of a green fluorescent protein transgene by reducing methylation of promoter sequences, probably through repressing expression of a CHH cytosine methyltransferase (DOMAINS REARRANGED METHYLTRANSFERASE2) in N.benthamiana. Our results demonstrate that MYMIV AC5 is a pathogenicity determinant and a potent RNA silencing suppressor that employs novel mechanisms to suppress antiviral defenses, and suggest that the AC5 function may be conserved among many begomoviruses.

A sensitive method for the quantification of virion-sense and complementary-sense DNA strands of circular single-stranded DNA viruses.

Circular single-stranded DNA (ssDNA) viruses are the smallest viruses known to infect eukaryotes. High recombination and mutation rates have conferred these viruses with an evolutionary potential that has facilitated their emergence. Their damaging effects on livestock (circoviruses) and crops (geminiviruses and nanoviruses), and the ubiquity of anelloviruses in human populations and other mammalian species, have resulted in increased interest in better understanding their epidemiology and infection mechanisms. Circular ssDNA viral replication involves the synthesis of dsDNA intermediates containing complementary-sense (CS) and virion-sense (VS) strands. Precise quantification of VS and CS accumulation during viral infections can provide insights into the molecular mechanisms underlying viral replication and the host invasion process. Although qPCR protocols for quantifying viral molecules exist, none of them discriminate VS and CS strands. Here, using a two-step qPCR protocol we have quantified VS and CS molecule accumulation during the infection process of Tomato yellow leaf curl virus (TYLCV) and Tomato yellow leaf curl Sardinia virus (TYLCSV) (genus Begomovirus, family Geminiviridae). Our results show that the VS/CS strand ratio and overall dsDNA amounts vary throughout the infection process. Moreover, we show that these values depend on the virus-host combination, and that most CS strands are present as double-stranded molecules.

Identification and molecular characterization of a single-stranded circular DNA virus with similarities to Sclerotinia sclerotiorum hypovirulence-associated DNA virus 1

A putative circular single-stranded DNA (ssDNA) virus was recovered from Hypericum japonicum collected in Vietnam. The viral isolate was tentatively named Hypericum japonicum-associated circular DNA virus (HJasCV). HJasCV shares 58.7-65.4% nucleotide sequence identity with Sclerotinia sclerotiorum hypovirulence-associated DNA virus 1 (SsHADV-1) and SsHADV-1-like viruses. Like this group of viruses, the genome of HJasCV (2 200 nt) has two large ORFs, one in the virion-sense and the other in the complementary-sense DNA. The proteins encoded in the virion-sense and complementary-sense ORFs share 39-46 % and 45-67 % amino acid sequence identity with the putative capsid and replication-associated proteins (Reps), respectively, of SsHADV-1 and SsHADV-1-like viruses. The putative Rep of HJasCV contains all of the motifs related to rolling-circle replication. Its 111-bp intergenic region (IR) contains a hairpin structure with a geminivirus-like nonanucleotide sequence, TAATGTTAT, at the apex of the loop. Phylogenetic analysis revealed that HJasCV forms a monophyletic clade with SsHADV-1 and SsHADV-1-like viruses.

Molecular characterization of a novel monopartite begomovirus isolated from Pouzolzia zeylanica in China

The complete genome sequence of a monopartite begomovirus isolate TY01 was obtained from diseased Pouzolzia zeylanica plants exhibiting golden mosaic symptoms in Baise, Guangxi Province, China. It consisted of 2723 nucleotides (nt) and encoded two ORFs (CP and AV2) in the virion-sense DNA and five ORFs (AC1-AC5) in the complementary-sense DNA. Compared with the DNA-A sequences of other begomoviruses, it has the highest (78.5%) nucleotide sequence identity with ageratum yellow vein virus (AYVV) isolate AFSP6D from Thailand, which is less than the 89% identity in the complete genome that has been defined as the threshold value for demarcation of species in the genus Begomovirus, family Geminiviridae. Phylogenetic analysis showed that TY01 was grouped in a separate clade from the other 28 begomovirus isolates. These results indicate that isolate TY01 is a member of a novel Begomovirus species, for which the name "Pouzolzia golden mosaic virus" (PGMV) is proposed.

Molecular Characterization of a Distinct Begomovirus Species and its Associated Satellite DNA Isolated from Malvastrum Coromandelianum in China

A virus isolate Y160 was obtained from Malvastrum coromandelianum showing yellow vein symptoms in Baoshan, Yunnan province of China. The complete nucleotide sequence of DNA-A was determined, it contains 2747 nucleotides and has typical genomic organization of a begomovirus. Comparisons show that the total DNA-A of Y160 has the highest sequence identity (82.2%) with that of Malvastrum yellow vein virus-[Y47] (AJ457824), while less than 77.6% identities are found when compared with the other begomoviruses. The molecular data show that Y160 is a distinct begomovirus species, for which the name Malvastrum yellow vein Yunnan virus (MYVYNV) is proposed. Satellite DNA molecule (Y160beta) was found to be associated with Y160 using the abutting primers beta 0l and beta 02 specific for DNA beta. Y160beta consists of 1350 nucleotides, with a functional ORF (beta C1) in complementary-sense DNA. Y160beta has the highest sequence identity (73.5%) with DNA beta molecule associated with Malvastrum yellow vein virus-[Y47] (AJ421482).

Zwitterionic Oligonucleotides: A Study on Binding Properties of 2′-O-Aminohexyl Modifications

2′-O-Aminohexyl side chains provide excellent conditions for zwitterionic interstrand and intrastrand interactions of oligonucleotides. 2′-O-Aminoalkylated phosphoramidites of adenosine and uridine were synthesized and incorporated in increasing number into homo adenosine and homo uridine/thymidine dodecamers, respectively. CD spectra of these dodecamers with complementary sense DNA exhibited a B-DNA type structure. While duplex stability values of all tested oligonucleotides were lower than those of the native oligonucleotides, they were significantly higher than those of 2′-O-heptyl modified oligonucleotides. The destabilization amounted to 0.9, 1.5, and 2.7°C per modification for 2′-O-aminohexyl adenosine, 2′-O-aminohexyl uridine, and 2′-O-heptyl adenosine substitutions. These findings are pointing to a duplex stabilizing effect of the interaction of side chain amino groups with backbone phosphoric acid.

Malvastrum yellow vein virus, a newBegomovirus species associated with satellite DNA molecule

Virus isolate Y47 was obtained fromMalvastrum coromandelianum showing yellow vein symptom in Honghe, Yunnan Province. The complete nucleotide sequence of DNA-A was determined, it contains 2731 nucleotides, having typical genomic organization of a begomovirus, encoding 6 ORFs with 2 ORFs [AV1(CP) and AV2] in virionsense DNA and 4 ORFs (AC1–AC4) in complementarysense DNA. Comparisons show that the total DNA-A of Y47 has the highest sequence identity (77%) with that ofOkra yellow vein mosaic virus- [201] (AJ002451), while less than 76% identities are found when compared with other begomoviruses. The molecular data show that virus isolate Y47 is a distinct begomovirus species, for which the nameMalvastrum yellow vein virus is proposed. Satellite DNA molecule (Y47β) was found to be associated with Y47 using the primers (beta01 and beta02) specific for DNAβ. Y47β consists of 1348 nucleotides, with a functional ORF (C1) in complementary-sense DNA. Y47β has 62%–67% sequence identity with DNAβ molecule associated withCotton leaf curl Multan virus orCotton leaf curl Rajasthan virus, while lower than 46% sequence identities are found when compared with other reported DNAβ molecules. Relationship dendrograms show that DNAβ molecules are co-evolved with their help begomoviruses.

Molecular characterization ofTomato yellow leaf curl China virus and its satellite DNA isolated from tobacco

Virus isolates, Y8, Y36 and Y38, were obtained from tobacco plants showing leaf curl symptoms in Honghe, Yunnan Province. In reactions with 14 monoclonal antibodies raised againstBegomovirus particles, Y8, Y36 and Y38 had similar antigenic reaction in TAS-ELISA asTomato yellow leaf curl China virus (TYLCCNV). The complete DNA-A nucleotide sequences of Y8, Y36 and Y38 were determined and they contain 2727, 2730 and 2730 nucleotides, respectively. Each of the DNA-A sequences has a typicalBegomovirus genome organization encoding 6 ORFs with 2 ORFs [AVl(CP) and AV2] in virion-sense DNA and 4 ORFs (AC1 to AC4) in complementary-sense DNA. Comparisons with total DNA-A, intergenic region and deduced amino acid sequences of individual ORFs show that Y8, Y36 and Y38 are isolates of TYLCCNV. Satellite DNA molecules (DNAβ) were found to be associated with Y8, Y36 and Y38, which consist of 1338, 1339 and 1338 nucleotides, respectively. Comparisons show that these DNAβ molecules share 98%–99% sequence identities on nucleotide level and have a common ORF (designated Cl) encoding 126 amino acids on the complementary strand.

Identification of a novel DNA molecule associated with To-bacco leaf curl virus

A circular DNA molecule, designated as DNAβ, was identified in tobacco plants infected with Tobacco leaf curl virus (TLCV) isolates Y5 and Y8 by PCR using primers based on the conserved region of the two reported DNAβ sequences of whitefly-transmitted geminiviruses (WTGs). The complete nucleotide sequences of DNAβ of Y5 and Y8 (TLCV DNAβ) were determined. Y5 DNAβ comprises 1333 nucleotides encoding 8 predicted ORFs with 4 ORFs in virion-sense DNA and 4 ORFs in complementary-sense DNA; Y8 DNAβ consists of 1338 nucleotides encoding 7 predicted ORFs with 4 ORFs in virion-sense DNA and 3 ORFs in complementary-sense DNA. TLCV DNAβ has little sequence homology to DNA-A of TLCV., except that it shares conserved TAATATTAC loop sequence with TLCV DNA-A. Sequence comparison showed that Y5 DNAβ shared 85% sequence homology with Y8 DNAβ, and both Y5 DNAβ and Y8 DNAβ had relatively low sequence identity (51%–65%) with the reported DNAβ molecules associated with Ageratum yellow vein virus and Cotton leaf curl virus. The immunotrapping PCR and whitefly transmission tests showed that DNAβ molecule could be encapsidated in virus particle and transmitted by Bemisia tabaci. This is the first report of DNAβ associated with WTGs in China.

Tobacco curly shoot virus isolated in Yunnan is a distinct spe-cies of Begomovirus

Virus isolate Y1 was obtained from tobacco showing curly shoot symptoms in Baoshan, Yunnan Province. Whitefly transmission test and virion morphology observation showed that it is a begomovirus. In reactions with 14 monoclonal antibodies raised against begomoviruses, Y1 was readily differentiated from begomoviruses reported in China, Pakistan and India. The complete nucleotide sequence of DNA-A was determined, it contains 2746 nucleotides, with two ORFs in virion-sense DNA and four ORFs in complementary-sense DNA. Comparisons with total DNA-A, intergenic region and deduced amino acid sequences of individual ORFs showed that Yl is a distinct Begomovirus species, for which the name Tobacco curly shoot virus (TCSV) is proposed. The total DNA-A of TCSV is most closely related to that of Tomato leaf curl virus from India (85% sequence identity). In contrast, the deduced coat protein of TCSV is most like that of Cotton leaf curl virus 72b isolate from Pakistan (98% amino acid sequence identity).

Transcriptional Analysis of the Virion-Sense Genes of the Geminivirus Beet Curly Top Virus

The genome of the geminivirus beet curly top virus (BCTV) consists of a single circular DNA containing overlapping open reading frames (ORFs) located on both the virion-sense and complementary-sense DNA strands. To investigate the expression of these ORFs, RNA extracted from infected Nicotiana benthamiana and Beta vulgaris has been examined for the presence of viral transcripts. An abundant 1.1-kb virion-sense polyadenylated RNA and four complementary-sense polyadenylated RNAs of 1.7, 1.5, 1.3, and 0.7 kb have been identified by northern blot hybridization, confirming the bidirectional transcription strategy implied by the arrangement of ORFs. We previously demonstrated that two overlapping virion-sense ORFs are involved in coat protein synthesis (ORF V1) and viral single-stranded DNA accumulation (ORF V2). Mutants of a third virion-sense ORF (ORF V3), located upstream and overlapping ORFs V1 and V2, retain the ability to replicate efficiently in N. benthamiana leaf discs but produce an asymptomatic infection in N. benthamiana and B. vulgaris at low frequency, associated with reduced levels of viral DNA compared to wild-type infection. Our data support the recent suggestion that ORF V3 participates in virus movement. The 1.1 kb virion-sense RNA comprises a population of overlapping transcripts with 5′ termini suitably positioned for the expression of ORFs V1, V2, and V3. The overlapping arrangement of the transcripts and juxtaposition of putative regulatory elements could provide a means for the temporal control of virion-sense gene expression.

RNA-primed complementary-sense DNA synthesis of the geminivirus African cassava mosaic virus.

The plant DNA virus African cassava mosaic virus (ACMV) is believed to replicate by a rolling circle mechanism. To investigate complementary-sense DNA (lagging strand) synthesis, we have analysed the heterogenous form of complementary-sense DNA (H3 DNA) from infected Nicotiana benthamiana by two-dimensional agarose gel electrophoresis and blot hybridisation. The presence of an RNA moeity is demonstrated by comparison of results for nucleic acids resolved on neutral/alkaline and neutral/formamide gels, suggesting that complementary-sense DNA synthesis on the virus-sense single-stranded DNA template is preceded by the synthesis of an RNA primer. Hybridisation with probes to specific parts of ACMV DNA A genome indicates that synthesis of the putative RNA primer initiates between nucleotides 2581-221, a region that includes intergenic sequences that have been implicated in geminivirus DNA replication and the control of gene expression.

Analysis of the potential promoter sequences of African cassava mosaic virus by transient expression of the beta-glucuronidase gene

DNA fragments from promoter regions of the geminivirus, African cassava mosaic virus, were cloned into pG1, a vector based on pUC18, producing transcriptional fusions with the beta-glucuronidase (GUS) gene and nopaline synthase termination sequence. The activity of each promoter construct was assessed by analysing the transient expression of GUS in Nicotiana clevelandii protoplasts. The results demonstrated that constructs containing the common region of DNA A showed much stronger promoter activity in the complementary sense than in the viral sense. These results were supported by the analysis of promoter activity in transgenic N. benthamiana plants. In comparison, in protoplasts a region upstream of the AC2 open reading frame was shown to have moderate promoter activity. Unlike DNA A, the complementary sense DNA B promoter constructs had weak activity; the viral sense DNA B promoter constructs appeared to be regulated by host factors. The implications of these results for the regulation of early and late genes are discussed.

DNA forms of the geminivirus African cassava mosaic virus consistent with a rolling circle mechanism of replication

We have analysed DNA from African cassava mosaic virus (ACMV)-infected Nicotiana benthamiana by two-dimensional agarose gel electrophoresis and detected ACMV-specific DNAs by blot-hybridisation. ACMV DNA forms including the previously characterised single-stranded, open-circular, linear and supercoiled DNAs along with five previously uncharacterised heterogeneous DNAs (H1-H5) were resolved. The heterogeneous DNAs were characterised by their chromatographic properties on BND-cellulose and their ability to hybridise to strand-specific and double-stranded probes. The data suggest a rolling circle mechanism of DNA replication, based on the sizes and strand specificity of the heterogeneous single-stranded DNA forms and their electrophoretic properties in relation to genome length single-stranded DNAs. Second-strand synthesis on a single-stranded virus-sense template is evident from the position of heterogeneous subgenomic complementary-sense DNA (H3) associated with genome-length virus-sense template (VT) DNA. The position of heterogeneous virus-sense DNA (H5), ranging in size from one to two genome lengths, is consistent with its association with genome-length complementary-sense template (CT) DNA, reflecting virus-sense strand displacement during replication from a double-stranded intermediate. The absence of subgenomic complementary-sense DNA associated with the displaced virus-sense strand suggests that replication proceeds via an obligate single-stranded intermediate. The other species of heterogeneous DNAs comprised concatemeric single-stranded virus-sense DNA (H4), and double-stranded or partially single-stranded DNA (H1 and H2).