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Infectious in vivo Transcripts from a Full-length Clone of Soybean mosaic virus Strain G5H
Seo, Jang-Kyun,Lee, Hyeok-Geun,Choi, Hong-Soo,Lee, Su-Heon,Kim, Kook-Hyung The Korean Society of Plant Pathology 2009 Plant Pathology Journal Vol.25 No.1
An infectious full-length clone of Soybean mosaic virus (SMV) strain G5H was constructed under the control of the cauliflower mosaic virus 35S promoter. The cloned SMV G5H established infections upon simple rub-inoculation of soybean leaves with intact plasmid DNA. We demonstrated that this SMV G5H infectious DNA clone caused typical characteristic symptoms and virulence of SMV strain G5H in twelve tested soybean cultivars. Soybean cultivars Lee74, Somyungkong and Sowonkong developed systemic mosaic symptom while Kwanggyo, Taekwangkong, Hwangkeumkong and Geumjeongkong-l showed systemic necrosis. In contrast, Geumjeongkong-2, Jinpumkong-2, L29, V94-5152 and Ogden showed resistant response against SMV-G5H infection. We also determined full-length sequence of cloned SMV-G5H. The phyogenetic analyses reveal that SMV-G5H is most closely related to SMV-G5, and support that SMV-G5H might be derived from SMV-G5 by recombination rather than mutation.
Seo, Jang-Kyun,Ohshima, Kazusato,Lee, Hyeok-Geun,Son, Moonil,Choi, Hong-Soo,Lee, Su-Heon,Sohn, Seong-Han,Kim, Kook-Hyung Elsevier 2009 Virology Vol.393 No.1
<P><B>Abstract</B></P><P>The complete genomes of 30 <I>Soybean mosaic virus</I> (SMV) isolates and strains were sequenced in this study. Together with fourteen previously reported sequences, we analyzed the genetic structure of the SMV population. Analyses of genetic diversity showed that different genomic regions of SMV are under different evolutionary constraints and that there was no significant genetic differentiation between East Asian and North American populations of SMV. Phylogenetic analyses revealed a significant correlation between phylogeny of the cylindrical inclusion (CI) gene of SMV and SMV resistance gene 3 (<I>Rsv3</I>)-relating pathogenicity of SMV, suggesting CI might be a pathogenic determinant in <I>Rsv3</I>-mediated disease response. Interestingly, recombination analyses identified 19 ‘clear’ recombination events in the SMV population. Furthermore, as several resistance-breaking strains were identified as recombinants, it appears that recombination might contribute to overcome host resistance in SMV–soybean pathosystem. Our finding suggests that recombination as well as mutation is an important evolutionary process in the genetic diversification of SMV population.</P>
SEO, JANG-KYUN,KANG, SUNG-HWAN,SEO, BO YOON,JUNG, JIN KYO,KIM, KOOK-HYUNG Blackwell Publishing Ltd 2010 MOLECULAR PLANT PATHOLOGY Vol.11 No.2
<P>SUMMARY</P><P><I>Soybean mosaic virus</I> (SMV), a member of the genus <I>Potyvirus</I>, is transmitted by aphids in a non-persistent manner. It has been well documented that the helper component-proteinase (HC-Pro) plays a role as a ‘bridge’ between virion particles and aphid stylets in the aphid transmission of potyviruses. Several motifs, including the KITC and PTK motifs on HC-Pro and the DAG motif on the coat protein (CP), have been found to be involved in aphid transmission. Previously, we have shown strong interaction between SMV CP and HC-Pro in a yeast two-hybrid system (YTHS). In this report, we further analysed this CP–HC-Pro interaction based on YTHS and an <I>in vivo</I> binding assay to identify crucial amino acid residues for this interaction. Through this genetic approach, we identified two additional amino acid residues (H256 on CP and R455 on HC-Pro), as well as G12 on the DAG motif, crucial for the CP–HC-Pro interaction. We introduced mutations into the identified residues using an SMV infectious clone and showed that these mutations affected the efficiency of aphid transmission of SMV. We also investigated the involvement of the PTK and DAG motifs in the CP–HC-Pro interaction and aphid transmission of SMV. Our results support the concept that physical interaction between CP and HC-Pro is important for potyviral aphid transmission. Based on the combination of our current results with previous findings, the possibility that aphid transmission may be regulated by more complex molecular interactions than the simple involvement of HC-Pro as a bridge is discussed.</P>
Seo, Jang-Kyun,Kang, Minji,Kwak, Hae-Ryun,Kim, Mi-Kyeong,Kim, Chang-Seok,Lee, Su-Heon,Kim, Jeong-Soo,Choi, Hong-Soo Springer-Verlag 2015 Archives of virology Vol.160 No.2
<P>The complete genome sequence of a new virus isolated from a motherwort plant exhibiting yellow mottle, mild mosaic, and stunting symptoms in Andong, Korea, was determined. The genome of this virus is composed of two single-stranded RNAs (7068 and 4963 nucleotides in length, respectively) carrying poly(A) tails. RNA1 contains one large open reading frame (RNA1-ORF1), while two potential ORFs (RNA2-ORF1 and RNA2-ORF2) were found in RNA2. BLAST searches of protein databases showed that RNA1-ORF1 and RNA2-ORF2 have maximum amino acid sequence identities of 53??% and 57??% to the RNA1-ORF1 and RNA2-ORF2, respectively, of lettuce necrotic leaf curl virus (LNLCV, a recently identified torradovirus). Phylogenetic analysis provided further evidence that the virus identified in this study is probably a member of a new species in the genus Torradovirus. The name 'motherwort yellow mottle virus' (MYMoV) is proposed for this new virus.</P>
Jang-Kyun Seo,Sun-Jung Kwon,Won Kyong Cho,Hong-Soo Choi,Kook-Hyung Kim 한국육종학회 2015 한국육종학회 심포지엄 Vol.2015 No.07
Effector-triggered immunity (ETI) is an active immune response triggered by interactions between host resistance proteins and their cognate effectors. Although ETI is often associated with the hypersensitive response (HR), various R genes mediate an HR-independent process known as extreme resistance (ER). In the soybean-Soybean mosaic virus (SMV) pathosystem, the strain-specific CI protein of SMV functions as an effector of Rsv3-mediated ER. In this study, we used the soybean (Rsv3)-SMV (CI) pathosystem to gain insight into the molecular signaling pathway involved in ER. We used genome-wide transcriptome analysis to identify a subset of the type 2C protein phophatase (PP2C) genes that are specifically up-regulated in Rsv3-mediated ER. Gain-of-function analysis of the most significantly expressed soybean PP2C gene, GmPP2C3a, showed that ABA-induced GmPP2C3a functions as a key regulator of Rsv3-mediated ER. Our results further suggest that the primary mechanism of ER against viruses is the inhibition of viral cell-to-cell movement by callose deposition in an ABA signaling-dependent manner.
Seo, Jang-Kyun,Lim, Won-Seok,Jeong, Ji-Hye,Yoo, Young-Bok,Yie, Se-Won,Kim, Kook-Hyung The Korean Society of Plant Pathology 2004 Plant Pathology Journal Vol.20 No.3
The partial nucleotide sequences of the genomic dsRNA mycovirus infecting Pleurotus ostreatus isolates ASI2223 and Suhan were determined and compared with those of mycoviruses belonging to partitiviruses and totiviruses. Partial nucleotide sequences of the purified dsRNA from ASI2223 and Suhan showed RNA-dependent RNA polymerase sequences that are closely related to those of partitiviruses, including Fusarium poae virus 1, Fusarium solani virus, Rhizoctoniasolani virus, Discula destructiva virus 2, and Oyster mushroom isometric virus 2. Specific primers were designed for RT-PCR detection of dsRNA viruses from the P. ostreatus isolate ASI2223 and Suhan. Two virus specific primer sets were found to specifically detect each virus among six sets of designed oligonucleotide primers. Collectively, these results suggest that dsRNA mycoviruses from P. ostreatus isolates ASI2223 and Suhan belong to the family Partitiviridae, although, they are not the same virus species. Our results also suggest that these virus-specific primer sets can be employed for the specific detection of each viral sequence in infected tissues.
Seo, Jang-Kyun,Hwang, Sung-Hyun,Kang, Sung-Hwan,Choi, Hong-Soo,Lee, Su-Heon,Sohn, Seong-Han,Kim, Kook-Hyung The Korean Society of Plant Pathology 2007 Plant Pathology Journal Vol.23 No.4
Interactions between viral proteins and host proteins are essential for virus replication. Especially, translation of viral genes completely depends on the host machinery. In potyviruses, interactions of genome-linked viral protein (VPg) with host translation factors including eIF4E, eIF(iso)4E, and poly(A)-binding protein (PABP) has previously been characterized. In this study, we investigated interactions between Soybean mosaic virus (SMV) viral proteins and host translation factors by yeast two-hybrid system. SMV VPg interacted with eIF4E, eIF(iso)4E, and PABP in yeast two-hybrid system, while SMV helper component proteinase (HC-pro) interacted with neither of those proteins. The interaction between SMV NIb and PABP was also detected. These results are consistent with those reported previously in other potyviruses. Interestingly, we found reproducible and specific interactions between SMV coat protein (CP) and PABP. Deletion analysis showed that the region of CP comprising amino acids 116 to 206 and the region of PABP comprising amino acids 520 to 580 are involved in CP/PABP interactions. Soybean library screening with SMV NIb by yeast two-hybrid assay also identified several soybean proteins including chlorophyll a/b binding preprotein, photo-system I-N subunit, ribulose 1,5-biphosphate carboxylase, ST-LSI protein, translation initiation factor 1, TIR-NBS type R protein, RNA binding protein, ubiquitin, and LRR protein kinase. Altogether, these results suggest that potyviral replicase may comprise a multi-protein complex with PABP, CP, and other host factors.