Abstract
Cross protection is the phenomenon through which a mild strain virus suppresses symptoms induced by a closely related severe strain virus in infected plants. Hibiscus latent Singapore virus (HLSV) and Tobacco mosaic virus (TMV) are species within the genus tobamovirus. HLSV can protect Nicotiana benthamiana against TMV-U1 strain, resulting in mild symptoms instead of severe systemic necrosis. The mechanism of cross protection between HLSV and TMV is unknown. In the past, some researchers suggest that the protecting virus strain might occupy virus-specific replication sites within a cell leaving no room for the challenge virus. Quantitative real-time RT-PCR was performed to detect viral RNA levels during cross protection. HLSV accumulation increased in cross protected plants compared with that of single HLSV infected plants, while TMV decreased in cross protected plants. This suggests that there is a competition for host factors between HLSV and TMV for replication. To investigate the mechanism under the cross protection between HLSV and TMV, microarray analysis was conducted to examine the transcriptional levels of global host genes during cross protection, using Tobacco Gene Expression Microarray, 4x44 k slides. The transcriptional level of some host genes corresponded to accumulation level of TMV. Some host genes were up-regulated only by HLSV. Tobamovirus multiplication gene 1 (TOM1), essential for tobamovirus multiplication, was involved in competition for replication by HLSV and TMV during cross protection. Both HLSV and TMV accumulation decreased when NbTOM1 was silenced. A large quantity of HLSV resulted in decreased TMV accumulation in HLSV+TMV (100:1) co-infection. These results indicate that host genes involved in the plant defense response and virus multiplication are up-regulated by challenge virus TMV but not by protecting virus HLSV during cross protection.
Highlights
Cross protection is a phenomenon through which a mild strain virus suppresses symptoms induced by a closely related severe strain virus in infected plants [1,2,3,4]
Tobacco mosaic virus (TMV) was inoculated into N. benthamiana leaves which were inoculated with Hibiscus latent Singapore virus (HLSV) 12 days earlier
We found that HLSV can cross protect N. benthamiana against TMV, resulting in milder symptoms
Summary
Cross protection is a phenomenon through which a mild strain virus suppresses symptoms induced by a closely related severe strain virus in infected plants [1,2,3,4]. Earlier studies reviewed the mechanism of cross protection between the wild type strain and its mutants or different strains from the same virus strain [1,5,6,7,8,9]. The mechanisms of cross protection among strains of the same virus have been well described as coat protein (CP)-mediated resistance, replicase-mediated cross protection or RNA silencing [2,10,11,12]. Cross protection has been studied using two different tobamoviruses, instead of two strains. Wild type Sunn-hemp mosaic virus (SHMV) could protect host against a SHMV mutant encapsidated with Tobacco mosaic virus C (TMV-C) CP and provided weak protection against TMV-C [13]. It was shown that Brome mosaic virus (BMV) CP could encapsidate TMV
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