Sheng‐Ren Sun scite author profile

Sugarcane bacilliform viruses (SCBV; genus Badnavirus; family Caulimoviridae) are a threat to the global exchange of sugarcane germplasm. To investigate the prevalence and genetic diversity of SCBV across major Chinese sugarcane-growing areas, a total of 280 sugarcane leaf tissue samples collected from six provinces in China, 25 from three states in the USA and five from Queensland, Australia, were tested for the presence of SCBV by polymerase chain reaction (PCR) using newly designed degenerate primers targeting a 720-base pair (bp) fragment of the reverse transcriptase/ribonuclease H (RT/RNase H) genomic region. PCR-amplified fragments from 94 SCBV-positive samples were then cloned, sequenced and analysed for their genetic diversity. The results revealed a considerable haplotype diversity within individual SCBV isolates. Recombination analyses showed weak signatures of recombination among some of the SCBV sequences. Phylogenetic analysis revealed the segregation of global SCBV isolates into three major monophyletic clades encompassing 18 subgroups, including five previously undescribed subgroups named as SCBV-N to -R. Population genetic analysis data indicated that relatively low levels of genetic exchange have occurred between SCBV populations from different sugarcane production regions of the world. Together with the new set of degenerate SCBV-specific primers designed in this study, our results will advance the understanding of SCBV population structure in a semi-perennial host plant and aid the screening of global sugarcane germplasm to minimize the spread of genetic variants of the virus via contaminated plant materials.

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Molecular characterization of two divergent variants of sugarcane bacilliform viruses infecting sugarcane in China

Sun

Damaj²,

Alabi³

et al. 2016

Eur J Plant Pathol

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Genomic variability and molecular evolution of Asian isolates of sugarcane streak mosaic virus

Liang

Alabi²,

Damaj³

et al. 2016

Arch Virol

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Sugarcane streak mosaic virus (SCSMV), an economically important causal agent of mosaic disease of sugarcane, is a member of the newly created genus Poacevirus in the family Potyviridae. In this study, we report the molecular characterization of three new SCSMV isolates from China (YN-YZ211 and HN-YZ49) and Myanmar (MYA-Formosa) and their genetic variation and phylogenetic relationship to SCSMV isolates from Asia and the type members of the family Potyviridae. The complete genome of each of the three isolates was determined to be 9781 nucleotides (nt) in size, excluding the 3' poly(A) tail. Phylogenetic analysis of the complete polyprotein amino acid (aa) sequences (3130 aa) revealed that all SCSMV isolates clustered into a phylogroup specific to the genus Poacevirus and formed two distinct clades designated as group I and group II. Isolates YN-YZ211, HN-YZ49 and MYA-Formosa clustered into group I, sharing 96.8-99.5 % and 98.9-99.6 % nt (at the complete genomic level) and aa (at the polyprotein level) identity, respectively, among themselves and 81.2-98.8 % and 94.0-99.6 % nt (at the complete genomic level) and aa (at the polyprotein level) identity, respectively, with the corresponding sequences of seven Asian SCSMV isolates. Population genetic analysis revealed greater between-group (0.190 ± 0.004) than within-group (group I = 0.025 ± 0.001 and group II = 0.071 ± 0.003) evolutionary divergence values, further supporting the results of the phylogenetic analysis. Further analysis indicated that natural selection might have contributed to the evolution of isolates belonging to the two identified SCSMV clades, with infrequent genetic exchanges occurring between them over time. These findings provide a comprehensive analysis of the population genetic structure and driving forces for the evolution of SCSMV with implications for global exchange of sugarcane germplasm.

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A novel Sugarcane bacilliform virus promoter confers gene expression preferentially in the vascular bundle and storage parenchyma of the sugarcane culm

Gao

Damaj²,

Park³

et al. 2017

Biotechnol Biofuels

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Background Saccharum species such as sugarcane and energy cane are key players in the expanding bioeconomy for sugars, bioenergy, and production of high-value proteins. Genomic tools such as culm-regulated promoters would be of great value in terms of improving biomass characteristics through enhanced carbon metabolism for sugar accumulation and/or fiber content for biofuel feedstock. Unlike the situation in dicots, monocot promoters currently used are limited and mostly derived from highly expressed constitutive plant genes and viruses. In this study, a novel promoter region of Sugarcane bacilliform virus (SCBV; genus Badnavirus, family Caulimoviridae), SCBV21 was cloned and mapped by deletion analysis and functionally characterized transiently in monocot and dicot species and stably in sugarcane.ResultsIn silico analysis of SCBV21 [1816 base pair (bp)] identified two putative promoter regions (PPR1 and PPR2) with transcription start sites (TSS1 and TSS2) and two TATA-boxes (TATAAAT and ATATAA), and several vascular-specific and regulatory elements. Deletion analysis revealed that the 710 bp region spanning PPR2 (with TSS2 and ATATAA) at the 3′ end of SCBV21 retained the full promoter activity in both dicots and monocots, as shown by transient expression of the enhanced yellow fluorescent protein (EYFP) gene. In sugarcane young leaf segments, SCBV21 directed a 1.8- and 2.4-fold higher transient EYFP expression than the common maize ubiquitin 1 (Ubi1) and Cauliflower mosaic virus 35S promoters, respectively. In transgenic sugarcane, SCBV21 conferred a preferential expression of the β-glucuronidase (GUS) gene in leaves and culms and specifically in the culm storage parenchyma surrounding the vascular bundle and in vascular phloem cells. Among the transgenic events and tissues characterized in this study, the SCBV21 promoter frequently produced higher GUS activity than the Ubi1 or 35S promoters in a manner that was not obviously correlated with the transgene copy number.ConclusionsThe newly developed plant viral SCBV21 promoter is distinct from the few existing SCBV promoters in its sequence and expression pattern. The potential of SCBV21 as a tissue-regulated promoter with a strong activity in the culm vascular bundle and its storage parenchyma makes it useful in sugarcane engineering for improved carbon metabolism, increased bioenergy production, and enhanced stress tolerance.Electronic supplementary materialThe online version of this article (doi:10.1186/s13068-017-0850-9) contains supplementary material, which is available to authorized users.

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Genetic Variability and Molecular Evolution of Maize Yellow Mosaic Virus Populations from Different Geographic Origins

Sun

Chen

et al. 2021

Plant Disease

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Maize yellow mosaic virus (MaYMV) hosted in various gramineous plants was assigned to the genus Polerovirus (family Luteoviridae) in 2018. However, little is known about its genetic diversity and population structure. In this study, 509 sugarcane leaf samples with mosaic symptoms were collected in 2017-2019 from eight sugarcane-growing provinces in China. RT-PCR results revealed that four positive-sense RNA viruses were found to infect sugarcane, and the incidence of MaYMV among samples from Fujian, Sichuan, and Guangxi provinces was 52.1%, 9.8%, and 2.5%, respectively. Based on 82 partial MaYMV sequences and 46 whole-genome sequences from different host plants, phylogenetic analysis revealed that MaYMV populations are very closely associated with their source geographical regions (China, Africa, and South America). Pairwise identity analysis showed significant variability in genome sequences among MaYMV isolates with genomic nucleotide identities of 91.1-99.9%. In addition to codon mutations, insertions/deletions also contributed to genetic variability in individual coding regions, especially in the readthrough protein (P3-P5 fusion protein). Low gene flow and significant genetic differentiation of MaYMV were observed among the three geographical populations, suggesting that environmental adaptation is an important evolutionary force that shapes the genetic structure of MaYMV. Genes in the MaYMV genome were subject to strong negative or purification selection during evolution, except for the movement protein (MP), which was under positive selection pressure. This finding suggests that the MP may play an important role in MaYMV evolution. Taken together, our findings provide basic information for the development of an integrated disease management strategy against MaYMV.

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Sheng‐Ren Sun

Prevalence and RT/RNase H Genealogy of Sugarcane Bacilliform Virus Isolates from China

Molecular characterization of two divergent variants of sugarcane bacilliform viruses infecting sugarcane in China

Genomic variability and molecular evolution of Asian isolates of sugarcane streak mosaic virus

A novel Sugarcane bacilliform virus promoter confers gene expression preferentially in the vascular bundle and storage parenchyma of the sugarcane culm

Genetic Variability and Molecular Evolution of Maize Yellow Mosaic Virus Populations from Different Geographic Origins

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