A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo

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A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo. / Martínez-Salas, Encarnación; Sáiz, Juan Carlos; Dávila, Mercedes; Belsham, Graham J.; Domingo, Esteban.

In: Journal of Virology, Vol. 67, No. 7, 07.1993, p. 3748-3755.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Martínez-Salas, E, Sáiz, JC, Dávila, M, Belsham, GJ & Domingo, E 1993, 'A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo', Journal of Virology, vol. 67, no. 7, pp. 3748-3755.

APA

Martínez-Salas, E., Sáiz, J. C., Dávila, M., Belsham, G. J., & Domingo, E. (1993). A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo. Journal of Virology, 67(7), 3748-3755.

Vancouver

Martínez-Salas E, Sáiz JC, Dávila M, Belsham GJ, Domingo E. A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo. Journal of Virology. 1993 Jul;67(7):3748-3755.

Author

Martínez-Salas, Encarnación ; Sáiz, Juan Carlos ; Dávila, Mercedes ; Belsham, Graham J. ; Domingo, Esteban. / A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo. In: Journal of Virology. 1993 ; Vol. 67, No. 7. pp. 3748-3755.

Bibtex

@article{e89a151ae20c4ca1a80d7cf8f73006b8,
title = "A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo",
abstract = "Mutants of foot-and-mouth disease virus (FMDV) with altered biological properties can be selected during the course of persistent infection of BHK-21 cells with FMDV C-S8c1 (J. C. de la Torre, E. Mart{\'i}nez-Salas, J. D{\'i}ez, A. Villaverde, F. Gebauer, E. Rocha, M. D{\'a}vila, and E. Domingo, J. Virol. 62:2050-2058, 1988). Two nucleotide substitutions, U to C at position -376 and A to G at position -15, (counting as +1 the A of the first functional AUG), were fixed within the internal ribosome entry site (IRES) of R100, the virus rescued after 100 passages of the carrier BHK-21 cells. IRES-directed cap-independent protein synthesis was quantitated by using bicistronic constructs of the form chloramphenicol acetyltransferase gene-IRES-luciferase gene. The IRES from R100 was 1.5- to 5-fold more active than that of C-S8c1 in directing cap-independent luciferase synthesis. This enhanced translational activity was observed when the RNAs were transcribed either in the nucleus or in the cytoplasm by a weak or a strong promoter, respectively. C-S8c1 and R100 IRES elements were functional in both FMDV-sensitive and FMDV-resistant cells (including persistently infected R cells), indicating that factors mediating cap-independent protein synthesis are not limited in any of the analyzed cell lines. Constructs in which each of the two mutations in the R100 IRES were analyzed separately indicate that the transition at position -376 is responsible for the enhanced activity of the R100 IRES. By estimating the effect that an increase in the initial translation efficiency may have on subsequent RNA replication steps, we suggest that the modifications in the IRES elements can account for the previously described hypervirulence of FMDV R100 for BHK-21 cells. The results show that a single point mutation in an IRES element of a picornavirus can cause an increase in translation efficiency.",
author = "Encarnaci{\'o}n Mart{\'i}nez-Salas and S{\'a}iz, {Juan Carlos} and Mercedes D{\'a}vila and Belsham, {Graham J.} and Esteban Domingo",
year = "1993",
month = jul,
language = "English",
volume = "67",
pages = "3748--3755",
journal = "Journal of Virology",
issn = "0022-538X",
publisher = "American Society for Microbiology",
number = "7",

}

RIS

TY - JOUR

T1 - A single nucleotide substitution in the internal ribosome entry site of foot-and-mouth disease virus leads to enhanced cap-independent translation in vivo

AU - Martínez-Salas, Encarnación

AU - Sáiz, Juan Carlos

AU - Dávila, Mercedes

AU - Belsham, Graham J.

AU - Domingo, Esteban

PY - 1993/7

Y1 - 1993/7

N2 - Mutants of foot-and-mouth disease virus (FMDV) with altered biological properties can be selected during the course of persistent infection of BHK-21 cells with FMDV C-S8c1 (J. C. de la Torre, E. Martínez-Salas, J. Díez, A. Villaverde, F. Gebauer, E. Rocha, M. Dávila, and E. Domingo, J. Virol. 62:2050-2058, 1988). Two nucleotide substitutions, U to C at position -376 and A to G at position -15, (counting as +1 the A of the first functional AUG), were fixed within the internal ribosome entry site (IRES) of R100, the virus rescued after 100 passages of the carrier BHK-21 cells. IRES-directed cap-independent protein synthesis was quantitated by using bicistronic constructs of the form chloramphenicol acetyltransferase gene-IRES-luciferase gene. The IRES from R100 was 1.5- to 5-fold more active than that of C-S8c1 in directing cap-independent luciferase synthesis. This enhanced translational activity was observed when the RNAs were transcribed either in the nucleus or in the cytoplasm by a weak or a strong promoter, respectively. C-S8c1 and R100 IRES elements were functional in both FMDV-sensitive and FMDV-resistant cells (including persistently infected R cells), indicating that factors mediating cap-independent protein synthesis are not limited in any of the analyzed cell lines. Constructs in which each of the two mutations in the R100 IRES were analyzed separately indicate that the transition at position -376 is responsible for the enhanced activity of the R100 IRES. By estimating the effect that an increase in the initial translation efficiency may have on subsequent RNA replication steps, we suggest that the modifications in the IRES elements can account for the previously described hypervirulence of FMDV R100 for BHK-21 cells. The results show that a single point mutation in an IRES element of a picornavirus can cause an increase in translation efficiency.

AB - Mutants of foot-and-mouth disease virus (FMDV) with altered biological properties can be selected during the course of persistent infection of BHK-21 cells with FMDV C-S8c1 (J. C. de la Torre, E. Martínez-Salas, J. Díez, A. Villaverde, F. Gebauer, E. Rocha, M. Dávila, and E. Domingo, J. Virol. 62:2050-2058, 1988). Two nucleotide substitutions, U to C at position -376 and A to G at position -15, (counting as +1 the A of the first functional AUG), were fixed within the internal ribosome entry site (IRES) of R100, the virus rescued after 100 passages of the carrier BHK-21 cells. IRES-directed cap-independent protein synthesis was quantitated by using bicistronic constructs of the form chloramphenicol acetyltransferase gene-IRES-luciferase gene. The IRES from R100 was 1.5- to 5-fold more active than that of C-S8c1 in directing cap-independent luciferase synthesis. This enhanced translational activity was observed when the RNAs were transcribed either in the nucleus or in the cytoplasm by a weak or a strong promoter, respectively. C-S8c1 and R100 IRES elements were functional in both FMDV-sensitive and FMDV-resistant cells (including persistently infected R cells), indicating that factors mediating cap-independent protein synthesis are not limited in any of the analyzed cell lines. Constructs in which each of the two mutations in the R100 IRES were analyzed separately indicate that the transition at position -376 is responsible for the enhanced activity of the R100 IRES. By estimating the effect that an increase in the initial translation efficiency may have on subsequent RNA replication steps, we suggest that the modifications in the IRES elements can account for the previously described hypervirulence of FMDV R100 for BHK-21 cells. The results show that a single point mutation in an IRES element of a picornavirus can cause an increase in translation efficiency.

UR - http://www.scopus.com/inward/record.url?scp=0027289282&partnerID=8YFLogxK

M3 - Journal article

C2 - 8389904

AN - SCOPUS:0027289282

VL - 67

SP - 3748

EP - 3755

JO - Journal of Virology

JF - Journal of Virology

SN - 0022-538X

IS - 7

ER -

ID: 381222441