High expression levels of the helper component proteinase (HC(pro)), a known virus suppressor of ... more High expression levels of the helper component proteinase (HC(pro)), a known virus suppressor of RNA silencing, were attained in Nicotiana benthamiana transformed with the HC(pro) cistron of Potato virus A (PVA, genus Potyvirus). No spontaneous silencing of the HC(pro) transgene was observed, in contrast to the PVA coat protein (CP)-encoding transgene in other transgenic lines. HC(pro)-transgenic plants were initially susceptible to PVA and were systemically infected by 14 days post-inoculation (p.i.) but, 1 to 2 weeks later, the new expanding leaves at positions +6 and +7 above the inoculated leaf showed a peculiar recovery phenotype. Leaf tips (the oldest part of the leaf) were chlorotic and contained high titres of PVA, whereas the rest of the leaf was symptomless and contained greatly reduced or non-detectable levels of viral RNA, CP and transgene mRNA. The spatial recovery phenotype suggests that RNA silencing is initiated in close proximity to meristematic tissues. Leaves at p...
High levels of resistance to Potato virus A (PVA, genus Potyvirus), indicated by absence of detec... more High levels of resistance to Potato virus A (PVA, genus Potyvirus), indicated by absence of detectable infection in inoculated leaves, were attained in Nicotiana benthamiana transformed with a construct expressing the PVA 5'-untranslated region fused with the coat protein (CP)-encoding sequence. Low steady-state levels of the transgene transcripts were detected. Resistance was PVA-specific and did not protect the plants against infection with Potato virus Y (PVY, genus Potyvirus). Consequently, the steady-state levels of the CP-transgene mRNA were greatly elevated in the plants infected with PVY, and plants became susceptible to infection with PVA. These data show that virus resistance obtained by expressing regions of a plant virus genome in transgenic plants may be suppressed following infection with another virus that evades the virus-specific resistance.
The complete nucleotide sequence (6043 nt) of RNA 1 from Potato mop-top virus (PMTV-Sw), the type... more The complete nucleotide sequence (6043 nt) of RNA 1 from Potato mop-top virus (PMTV-Sw), the type member of the genus Pomovirus, was determined. The first (5'-terminal) open reading frame (ORF 1) encodes a predicted protein of 148 kDa. ORF 2 extends through the opal stop codon of ORF 1 producing a predicted readthrough protein of 206 kDa which resembles the RNA-dependent RNA polymerases (RdRp) of other fungal-transmitted viruses. It includes a methyltransferase, a helicase and a GDD RdRp motif, respectively. Phylogenetic analyses of RdRps indicated that PMTV is most closely related to Beet soil-borne virus (genus Pomovirus), Broad bean necrosis virus (genus Pomovirus) and Soil-borne wheat mosaic virus (genus Furovirus), and is more distantly related to the other viruses of the former furovirus group. The 5' and 3' termini of RNA 1 in PMTV contained untranslated regions (UTR) of 114 nt and 489 nt, respectively. The 3'-UTR of RNA 1 contained a tRNA-like structure, whic...
Phytophthora infestans is the oomycete pathogen responsible for the devastating late blight disea... more Phytophthora infestans is the oomycete pathogen responsible for the devastating late blight disease on potato and tomato. There is presently an intense research focus on the role(s) of effectors in promoting late blight disease development. However, little is known about how they are regulated, or how diversity in their expression may be generated among different isolates. Here we present data from investigation of RNA silencing processes, characterized by non-coding small RNA molecules (sRNA) of 19-40 nt. From deep sequencing of sRNAs we have identified sRNAs matching numerous RxLR and Crinkler (CRN) effector protein genes in two isolates differing in pathogenicity. Effector gene-derived sRNAs were present in both isolates, but exhibited marked differences in abundance, especially for CRN effectors. Small RNAs in P. infestans grouped into three clear size classes of 21, 25/26 and 32 nt. Small RNAs from all size classes mapped to RxLR effector genes, but notably 21 nt sRNAs were the predominant size class mapping to CRN effector genes. Some effector genes, such as PiAvr3a, to which sRNAs were found, also exhibited differences in transcript accumulation between the two isolates. The P. infestans genome is rich in transposable elements, and the majority of sRNAs of all size classes mapped to these sequences, predominantly to long terminal repeat (LTR) retrotransposons. RNA silencing of Dicer and Argonaute genes provided evidence that generation of 21 nt sRNAs is Dicer-dependent, while accumulation of longer sRNAs was impacted by silencing of Argonaute genes. Additionally, we identified six microRNA (miRNA) candidates from our sequencing data, their precursor sequences from the genome sequence, and target mRNAs. These miRNA candidates have features characteristic of both plant and metazoan miRNAs.
Resistance to the pomovirus Potato mop-top virus (PMTV) was studied in potato (Solanum tuberosum ... more Resistance to the pomovirus Potato mop-top virus (PMTV) was studied in potato (Solanum tuberosum cv. Saturna) and Nicotiana benthamiana transformed with the coat protein (CP) gene of PMTV. The incidence of PMTV infections was reduced in tubers of the CP-transgenic potatoes grown in the field in soil infested with the viruliferous vector, Spongospora subterranea. However, in those tubers that were infected, all three virus RNAs were detected and virus titres were high. The CP-transgenic N. benthamiana plants were inoculated with PMTV using two methods. Following mechanical inoculation of leaves, no RNA 3 (the CP-encoding RNA homologous to the transgene) was detected in leaves, but in some plants low amounts of RNA 3 were detected in roots; RNA 2 was readily detected in leaves and roots of several plants. Inoculation of roots using viruliferous S. subterranea resulted in infection of roots in all plants and the three PMTV RNAs were detected. However, no systemic movement of PMTV from ...
The triple gene block (TGB) of barley stripe mosaic virus (BSMV), coding for viral movement prote... more The triple gene block (TGB) of barley stripe mosaic virus (BSMV), coding for viral movement proteins (MPs), was replaced by the single MP gene of red clover necrotic mosaic virus (RCNMV). Accumulation of the hybrid virus in barley plants (the selective host for BSMV) was reduced compared to BSMV. The hybrid virus induced small necrotic local lesions on Chenopodium amaranticolor leaves and did not infect Nicotiana clevelandii (the selective host for RCNMV). The hybrid virus accumulated in the inoculated leaves of Nicotiana benthamiana, but not in the upper noninoculated leaves. Thus the RCNMV MP gene substituted for the BSMV TGB in cell-to-cell movement, but not in systemic spread. Hybrid virus movement was efficient only in N. benthamiana, the common host for BSMV and RCNMV. These data point to the involvement of host-specific factors in the function of virus-coded transport determinants.
High expression levels of the helper component proteinase (HC(pro)), a known virus suppressor of ... more High expression levels of the helper component proteinase (HC(pro)), a known virus suppressor of RNA silencing, were attained in Nicotiana benthamiana transformed with the HC(pro) cistron of Potato virus A (PVA, genus Potyvirus). No spontaneous silencing of the HC(pro) transgene was observed, in contrast to the PVA coat protein (CP)-encoding transgene in other transgenic lines. HC(pro)-transgenic plants were initially susceptible to PVA and were systemically infected by 14 days post-inoculation (p.i.) but, 1 to 2 weeks later, the new expanding leaves at positions +6 and +7 above the inoculated leaf showed a peculiar recovery phenotype. Leaf tips (the oldest part of the leaf) were chlorotic and contained high titres of PVA, whereas the rest of the leaf was symptomless and contained greatly reduced or non-detectable levels of viral RNA, CP and transgene mRNA. The spatial recovery phenotype suggests that RNA silencing is initiated in close proximity to meristematic tissues. Leaves at p...
High levels of resistance to Potato virus A (PVA, genus Potyvirus), indicated by absence of detec... more High levels of resistance to Potato virus A (PVA, genus Potyvirus), indicated by absence of detectable infection in inoculated leaves, were attained in Nicotiana benthamiana transformed with a construct expressing the PVA 5'-untranslated region fused with the coat protein (CP)-encoding sequence. Low steady-state levels of the transgene transcripts were detected. Resistance was PVA-specific and did not protect the plants against infection with Potato virus Y (PVY, genus Potyvirus). Consequently, the steady-state levels of the CP-transgene mRNA were greatly elevated in the plants infected with PVY, and plants became susceptible to infection with PVA. These data show that virus resistance obtained by expressing regions of a plant virus genome in transgenic plants may be suppressed following infection with another virus that evades the virus-specific resistance.
The complete nucleotide sequence (6043 nt) of RNA 1 from Potato mop-top virus (PMTV-Sw), the type... more The complete nucleotide sequence (6043 nt) of RNA 1 from Potato mop-top virus (PMTV-Sw), the type member of the genus Pomovirus, was determined. The first (5'-terminal) open reading frame (ORF 1) encodes a predicted protein of 148 kDa. ORF 2 extends through the opal stop codon of ORF 1 producing a predicted readthrough protein of 206 kDa which resembles the RNA-dependent RNA polymerases (RdRp) of other fungal-transmitted viruses. It includes a methyltransferase, a helicase and a GDD RdRp motif, respectively. Phylogenetic analyses of RdRps indicated that PMTV is most closely related to Beet soil-borne virus (genus Pomovirus), Broad bean necrosis virus (genus Pomovirus) and Soil-borne wheat mosaic virus (genus Furovirus), and is more distantly related to the other viruses of the former furovirus group. The 5' and 3' termini of RNA 1 in PMTV contained untranslated regions (UTR) of 114 nt and 489 nt, respectively. The 3'-UTR of RNA 1 contained a tRNA-like structure, whic...
Phytophthora infestans is the oomycete pathogen responsible for the devastating late blight disea... more Phytophthora infestans is the oomycete pathogen responsible for the devastating late blight disease on potato and tomato. There is presently an intense research focus on the role(s) of effectors in promoting late blight disease development. However, little is known about how they are regulated, or how diversity in their expression may be generated among different isolates. Here we present data from investigation of RNA silencing processes, characterized by non-coding small RNA molecules (sRNA) of 19-40 nt. From deep sequencing of sRNAs we have identified sRNAs matching numerous RxLR and Crinkler (CRN) effector protein genes in two isolates differing in pathogenicity. Effector gene-derived sRNAs were present in both isolates, but exhibited marked differences in abundance, especially for CRN effectors. Small RNAs in P. infestans grouped into three clear size classes of 21, 25/26 and 32 nt. Small RNAs from all size classes mapped to RxLR effector genes, but notably 21 nt sRNAs were the predominant size class mapping to CRN effector genes. Some effector genes, such as PiAvr3a, to which sRNAs were found, also exhibited differences in transcript accumulation between the two isolates. The P. infestans genome is rich in transposable elements, and the majority of sRNAs of all size classes mapped to these sequences, predominantly to long terminal repeat (LTR) retrotransposons. RNA silencing of Dicer and Argonaute genes provided evidence that generation of 21 nt sRNAs is Dicer-dependent, while accumulation of longer sRNAs was impacted by silencing of Argonaute genes. Additionally, we identified six microRNA (miRNA) candidates from our sequencing data, their precursor sequences from the genome sequence, and target mRNAs. These miRNA candidates have features characteristic of both plant and metazoan miRNAs.
Resistance to the pomovirus Potato mop-top virus (PMTV) was studied in potato (Solanum tuberosum ... more Resistance to the pomovirus Potato mop-top virus (PMTV) was studied in potato (Solanum tuberosum cv. Saturna) and Nicotiana benthamiana transformed with the coat protein (CP) gene of PMTV. The incidence of PMTV infections was reduced in tubers of the CP-transgenic potatoes grown in the field in soil infested with the viruliferous vector, Spongospora subterranea. However, in those tubers that were infected, all three virus RNAs were detected and virus titres were high. The CP-transgenic N. benthamiana plants were inoculated with PMTV using two methods. Following mechanical inoculation of leaves, no RNA 3 (the CP-encoding RNA homologous to the transgene) was detected in leaves, but in some plants low amounts of RNA 3 were detected in roots; RNA 2 was readily detected in leaves and roots of several plants. Inoculation of roots using viruliferous S. subterranea resulted in infection of roots in all plants and the three PMTV RNAs were detected. However, no systemic movement of PMTV from ...
The triple gene block (TGB) of barley stripe mosaic virus (BSMV), coding for viral movement prote... more The triple gene block (TGB) of barley stripe mosaic virus (BSMV), coding for viral movement proteins (MPs), was replaced by the single MP gene of red clover necrotic mosaic virus (RCNMV). Accumulation of the hybrid virus in barley plants (the selective host for BSMV) was reduced compared to BSMV. The hybrid virus induced small necrotic local lesions on Chenopodium amaranticolor leaves and did not infect Nicotiana clevelandii (the selective host for RCNMV). The hybrid virus accumulated in the inoculated leaves of Nicotiana benthamiana, but not in the upper noninoculated leaves. Thus the RCNMV MP gene substituted for the BSMV TGB in cell-to-cell movement, but not in systemic spread. Hybrid virus movement was efficient only in N. benthamiana, the common host for BSMV and RCNMV. These data point to the involvement of host-specific factors in the function of virus-coded transport determinants.
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