Two viraj proteins involved in the proteolytic processing of the cowpea mosaic virus polyproteins

Vos, Pieter; Verver, J.; Jaegle, Martine; Wellink, J.; Kammen, A. van; Goldbach, Rob

doi:10.1093/nar/16.5.1967

Cited by 86 publications

(56 citation statements)

References 21 publications

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“…The 58K and/or 48K proteins were also found in small electron-dense areas close to the end of the tubules, but not in the large electron-dense areas which are made up of non-structural B R N A products (Wellink et al, 1988). These small electron-dense areas associated with tubules may be the s i t e where virus-containing tubules are formed.…”

Section: Short Communicationmentioning

confidence: 88%

“…Furthermore, these proteins were detected in small electron-dense areas near the tail-end of the tubules. The possible function of these structures in virus movement from cell to cell is discussed.The bipartite genome of cowpea mosaic virus (CPMV) consists of two positive single-stranded RNA molecules (B and M RNA) that each contain only one large open reading frame and are translated into polyproteins which are cleaved by a B RNA-encoded protease into functional proteins (Goldbach & van Kammen, 1985;Vos et al, 1988). B RNA encodes all the functions necessary for replication of the RNAs (Goldbach et al, 1980;Eggen & van Kammen, 1988) and is able to replicate independently of the M RNA in cowpea protoplasts (Rezelman et al, 1982).…”

mentioning

confidence: 99%

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Evidence for the Involvement of the 58K and 48K Proteins in the Intercellular Movement of Cowpea Mosaic Virus

Lent¹,

Wellink

Goldbach³

1990

Journal of General Virology

136

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Infection of cowpea cells with cowpea mosaic virus (CPMV) is accompanied by the appearance of tubular structures containing virus-like particles which protrude from or penetrate the cell wall. Immunogold labelling of sections of infected cells using antisera against a CPMV M RNA translation products, and Protein A -g o l d , showed that the 58K and/or 48K tentative transport proteins of CPMV were located in or on these tubular structures. Furthermore, these proteins were detected in small electron-dense areas near the tail-end of the tubules. The possible function of these structures in virus movement from cell to cell is discussed.The bipartite genome of cowpea mosaic virus (CPMV) consists of two positive single-stranded RNA molecules (B and M RNA) that each contain only one large open reading frame and are translated into polyproteins which are cleaved by a B RNA-encoded protease into functional proteins (Goldbach & van Kammen, 1985;Vos et al., 1988). B RNA encodes all the functions necessary for replication of the RNAs (Goldbach et al., 1980;Eggen & van Kammen, 1988) and is able to replicate independently of the M RNA in cowpea protoplasts (Rezelman et al., 1982). The M RNA is translated in vitro into two overlapping polyproteins of Mr 105K and 95K (Vos et al., 1984), which are processed proteolytically to give the overlapping 58K and 48K non-structural proteins and, via a 60K precursor, the 37K and 23K coat proteins and Fig. 1). Rezelman et aL (1989) showed recently that these proteins are also produced in CPMV-infected cowpea protoplasts.Although the B RNA can replicate independently of M RNA in protoplasts, M RNA is essential for infection of plants (Rezelman et al., 1982). Using infectious transcripts of the M RNA, WeUink & van Kammen (1989) showed that mutations and deletions in the coding regions of both 58K/48K proteins and the capsid proteins prevented systemic infection in cowpea plants. These results suggest that both the 58K/48K proteins and the coat proteins of CPMV are indispensable for cell-tocell movement of the virus and also that CPMV is transported as particles and not as naked RNA.To study the possible involvement of M RNA products in virus movement we detected these products in sections of infected cells by the binding of specific antisera to antigens as shown by its reaction with Protein A-gold.To achieve a near-simultaneous infection of the cells in secondary leaves of cowpea plants (Vigna unguiculata cv. California Blackeye), plants were given a differential temperature treatment (DTT) after inoculation of the primary leaves with 1 mg/ml of purified CPMV in 0.01 M-phosphate buffer pH 7.0 (Dawson & Schlegel, 1976).

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Section: Short Communicationmentioning

confidence: 88%

mentioning

confidence: 99%

Evidence for the Involvement of the 58K and 48K Proteins in the Intercellular Movement of Cowpea Mosaic Virus

Lent¹,

Wellink

Goldbach³

1990

Journal of General Virology

136

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“…Therefore M RNA multiplication seems to be essential for the detection of primary translation products. It is probably also important that the viral protease responsible for processing the polyproteins is present at much lower amounts than at later stages of infection (Vos et al, 1988). At these later times it was possible to detect the polyproteins only when ZnC12 was used to inhibit the viral protease (Wellink et al, 1987).…”

Section: Discussionmentioning

confidence: 99%

“…The expression of the two positive-stranded RNAs of cowpea mosaic virus (CPMV) has been studied extensively both in vitro and in vivo (Goldbach & van Kammen, 1985;Wellink et al, 1987;Vos et aL, 1988). Both RNAs are translated into polyproteins that are cleaved by a B RNA-encoded protease into functional proteins (Vos et aL, 1988).…”

Section: Introductionmentioning

confidence: 99%

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Expression of Cowpea Mosaic Virus M RNA in Cowpea Protoplasts

Rezelman

Kammen

Wellink

1989

Journal of General Virology

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SUMMARYCowpea mosaic virus (CPMV) M RNA is translated in vitro into two polyproteins of Mr values 105000 (105K) and 95K. Using antiserum against the small capsid protein VP23, these proteins have now been detected in cowpea protoplasts, a few hours after inoculation with CPMV. These proteins could also be detected at later stages of infection, but only when proteolytic processing was inhibited by the addition of ZnCI> Using antiserum against a synthetic peptide, corresponding to a part of the overlapping C-terminal ends of the 58K and 48K proteins, the 58K protein, which is the aminoterminal cleavage product of the 105K protein, was found in the cytoplasmic fraction of infected protoplasts. The 48K protein, derived from the 95K protein, was detected in both the cytoplasmic and membrane fractions of protoplasts. The presence of the 105K, 95K, 58K and 48K proteins in CPMV-infected protoplasts indicates that separate initiation codons on the M RNA are used in vivo to produce the 105K and 95K polyproteins, as demonstrated in vitro.

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A second proteinase encoded by a plant potyvirus genome.

et al. 1989

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The RNA genome of tobacco etch virus (TEV) encodes a large polyprotein precursor that is processed to mature proteins by virus‐specific proteinases. Cleavage sites located within the carboxyl‐terminal two‐thirds of the polyprotein are processed by a TEV‐encoded 49 kd proteinase, while the enzyme(s) responsible for cleaving the remaining sites has not been found. In this study, a second TEV‐encoded proteinase has been identified based on cell‐free expression of defined RNA transcripts. The boundaries of this proteinase have been delineated by deletion analysis and site‐directed mutagenesis. The proteolytically active domain has been localized to the carboxyl‐terminal half of the 56 kd aphid‐transmission helper component. A cleavage site that is recognized by this proteinase has been identified in the polyprotein adjacent to the carboxyl‐terminus of the enzyme, and the proteinase appears to cleave by an autocatalytic mechanism. Proteolysis in vitro occurs between a Gly‐Gly dipeptide as determined by radiochemical sequencing at the amino‐terminus of the proteolytic product.

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Two viraj proteins involved in the proteolytic processing of the cowpea mosaic virus polyproteins

Cited by 86 publications

References 21 publications

Evidence for the Involvement of the 58K and 48K Proteins in the Intercellular Movement of Cowpea Mosaic Virus

Evidence for the Involvement of the 58K and 48K Proteins in the Intercellular Movement of Cowpea Mosaic Virus

Expression of Cowpea Mosaic Virus M RNA in Cowpea Protoplasts

A second proteinase encoded by a plant potyvirus genome.

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