EBERs are nonpolyadenylated, untranslated RNAs either 167 or 172 nucleotides long (Rosa transcription and purified them as described previously (Sumpter luciferase as an internal control), along with 10 g (+) or 20 g (++) of IB- plasmid. in cells with latent EBV contamination (Rymo, 1979). EBERs are nonpolyadenylated, untranslated RNAs either 167 or 172 nucleotides long (Rosa transcription and purified them as explained previously (Sumpter luciferase as an internal control), along with 10 g (+) or 20 g (++) of IB- plasmid. After 36 h, luciferase activity was quantified in cell lysates using a Dual-Luciferase reporter assay system (Promega). Results are shown as the meansstandard errors from three impartial experiments. (E) Phosphorylation of IRF-3 in EBV-negative Daudi cells stably expressing RIG-I. RIG-I- or GFP- (5 106 cells each) expressing stable clones were transfected with 30 g of luciferase as an internal control) were obtained commercially (BD Biosciences, San Jose, CA), and pIB-, a specific inhibitor of NF-B, was a kind gift of Bill Sugden (Mitchell and Sugden, 1995). Endotoxin-free plasmid DNA was prepared by using an endo-free Mega Prep kit (Invitrogen). For transient or stable expression of plasmids, we performed electroporation. Stable transfectants expressing full-length RIG-I (RIG-I), helicase-deleted RIG-I (N-RIG), CARD-deleted RIG-I (C-RIG), and GFP clones were selected by culturing with 1000 g/ml of G418 (Sigma). Computer virus production and contamination For EBER-positive EBV and EBER-negative EBV production, we followed the protocol explained earlier (Yajima synthesis of EBERs and RNA transfection EBER1 and EBER2 were amplified from LCL (Akata) and cloned into pGEMT easy vector (Promega, Madison, WI). From pGEMT/EBER1 and pGEMT/EBER2, T7 promoter-tagged (at the 5 end) EBER1 and EBER2 were synthesized by PCR (primer pairs: EBER1, 5-TGT AAT ACG Take action CAC TAT AGG GAC CTA CGC TGC CCT AGA GGT TTT GCT; 5-AAA ACA TGC GGA CCA GC; EBER2, 5-TGT AAT ACG Take action CAC TAT AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC). One microgram of purified DNA (PCR product) was used as a template per reaction, and transcription was carried out for 6 h following the manufacturer’s protocol (Epicenter, Madison, WI). Purified EBER1 and EBER2 (3 g each) before and after RNase A treatment were checked in 5% denaturing polyacrylamide gel and by RTCPCR. For RNA transfection, EBER1, EBER2, EBER1 and EBER2 together (1:1), or polyI:C (30 g each) was transfected by electroporation. RNA extraction and RTCPCR analysis Reverse transcription was carried out with oligo-dT primer using total cellular RNA. For EBERs, gene-specific 3 end primers were used. One-tenth of cDNA was subjected Dynorphin A (1-13) Acetate Dynorphin A (1-13) Acetate to PCR using primers specific for IFN- (5-ATC CAG CAG ATC TTC AAT CT; 5-AAG AAA AAG ATC TCA TGA TT; 35 cycles), IFN- (5-GAT TCA TCG AGC Take action GGC TGG; 5-CTT CAG GTA ATG CAG AAT CC; 30 cycles), TLR3 (5-TCA CTT GCT CAT TCT CCC TT; 5-GAC CTC TCC ATT CCT GGC; 35 cycles), ISG15 (5-GGT GGA CAA ATG CGA CGA AC; 5-ATG CTG GTG GAG GCC CTT AG; 28 cycles), ISG56 (5-TAG CCA ACA TGT CCT CAC AGA C; 5-TCT TCT ACC Take action GGT TTC ATG C; 30 cycles), EBER1 (5-AGG ACC TAC GCT GCC CTA GA; 5-AAA ACA TGC GGA CCA GC; 18 cycles), EBER2 (5-AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC; 18 cycles), RIG-I (5-GCA TAT TGA CTG GAC GTG GCA; 5-CAG TCA TGG CTG CAG TTC TGT C; 30 cycles), EBNA2 (5-GCT GCT ACG CAT TAG AGA CC; 5-CAG CAC TGG CGT GTG ACG TGG TGT AAA GTT; 35 cycles), IRF-3 (5-CACAGCAGGAGGATTTCGG;.Cell lysates were treated with RNase T1 and RNase A to remove unbound RNAs and immunoprecipitated with anti-GFP antibody. gene products, including six EBV nuclear antigens (EBNA1, EBNA2, EBNA3A, EBNA3B, EBNA3C, and EBNA-LP), three latent membrane proteins (LMP1, LMP2A, and LMP2B), BamH1-A rightward transcripts (BARTs), and two EBV-encoded small RNAs (EBER1 and EBER2) (Kieff and Rickinson, 2001). EBERs are the most abundant viral transcripts in cells with latent EBV contamination (Rymo, 1979). EBERs are nonpolyadenylated, untranslated RNAs either 167 or 172 nucleotides long (Rosa transcription and purified them as explained previously (Sumpter luciferase as an internal control), along with 10 g (+) or 20 g (++) of IB- plasmid. After 36 h, luciferase activity was quantified in cell lysates using a Dual-Luciferase reporter assay system (Promega). Results are shown as the meansstandard errors from three impartial experiments. (E) Phosphorylation of IRF-3 in EBV-negative Daudi cells stably expressing RIG-I. RIG-I- or GFP- (5 106 cells each) expressing stable clones were transfected with 30 g of luciferase as an internal control) were obtained commercially (BD Biosciences, Dynorphin A (1-13) Acetate San Jose, CA), and pIB-, a specific inhibitor of NF-B, was a kind gift of Bill Sugden (Mitchell and Sugden, 1995). Endotoxin-free plasmid DNA was prepared by using an endo-free Mega Prep kit (Invitrogen). For transient or stable expression of plasmids, we performed electroporation. Stable transfectants expressing full-length RIG-I (RIG-I), helicase-deleted RIG-I (N-RIG), CARD-deleted RIG-I (C-RIG), and GFP clones were selected by culturing with 1000 g/ml of G418 (Sigma). Computer virus production and contamination For EBER-positive EBV and EBER-negative EBV production, we followed the protocol explained earlier (Yajima synthesis of EBERs and RNA transfection EBER1 and EBER2 were amplified from LCL (Akata) and cloned into pGEMT easy vector (Promega, Madison, WI). From pGEMT/EBER1 and pGEMT/EBER2, T7 promoter-tagged (at the 5 end) EBER1 and EBER2 were synthesized by PCR (primer pairs: EBER1, 5-TGT AAT ACG Take action CAC TAT AGG GAC CTA CGC TGC CCT AGA GGT TTT GCT; 5-AAA ACA TGC GGA CCA GC; EBER2, 5-TGT AAT ACG Take action CAC TAT AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC). One microgram of purified DNA (PCR product) was used as a template per reaction, and transcription was carried out for 6 h following the manufacturer’s protocol (Epicenter, Madison, WI). Purified EBER1 and EBER2 (3 g each) before and after RNase A treatment were checked in 5% denaturing polyacrylamide gel and by RTCPCR. For RNA transfection, EBER1, EBER2, EBER1 and EBER2 together (1:1), or polyI:C (30 g each) was transfected by electroporation. RNA extraction and RTCPCR analysis Reverse transcription was carried out with oligo-dT primer using total cellular RNA. For EBERs, gene-specific 3 end primers were used. One-tenth of cDNA was subjected to PCR using primers specific for IFN- (5-ATC CAG CAG ATC TTC AAT CT; 5-AAG AAA AAG ATC TCA TGA TT; 35 cycles), IFN- (5-GAT TCA TCG AGC Take action GGC TGG; 5-CTT CAG GTA ATG CAG AAT CC; 30 cycles), TLR3 (5-TCA CTT GCT CAT TCT CCC TT; 5-GAC CTC TCC ATT CCT GGC; 35 cycles), ISG15 (5-GGT GGA CAA ATG CGA CGA AC; 5-ATG CTG GTG GAG GCC CTT AG; 28 cycles), ISG56 (5-TAG CCA ACA TGT CCT CAC AGA C; 5-TCT TCT ACC Take action GGT TTC ATG C; 30 cycles), EBER1 (5-AGG ACC TAC GCT GCC CTA GA; 5-AAA ACA TGC GGA CCA GC; 18 cycles), EBER2 (5-AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC; 18 cycles), RIG-I (5-GCA TAT TGA CTG GAC GTG GCA; 5-CAG TCA TGG CTG CAG TTC TGT C; 30 cycles), EBNA2 (5-GCT GCT ACG CAT TAG AGA CC; 5-CAG CAC.LCLs express 12 EBV gene products, including six EBV nuclear antigens (EBNA1, EBNA2, EBNA3A, EBNA3B, EBNA3C, and EBNA-LP), three latent membrane proteins (LMP1, LMP2A, and LMP2B), BamH1-A rightward transcripts (BARTs), and two EBV-encoded small RNAs (EBER1 and EBER2) (Kieff and Rickinson, 2001). EBERs are the most abundant viral transcripts in cells with latent EBV contamination (Rymo, 1979). cell lines (LCLs). LCLs express 12 EBV gene products, including six EBV nuclear antigens (EBNA1, EBNA2, EBNA3A, EBNA3B, EBNA3C, and EBNA-LP), three latent membrane proteins (LMP1, LMP2A, and LMP2B), BamH1-A rightward transcripts (BARTs), and two EBV-encoded small RNAs (EBER1 and EBER2) (Kieff and Rickinson, 2001). EBERs are the most abundant viral transcripts in cells with latent EBV contamination (Rymo, 1979). EBERs are nonpolyadenylated, untranslated RNAs either 167 or 172 nucleotides long (Rosa transcription and purified them as explained previously (Sumpter luciferase as an internal control), along with 10 g (+) or 20 g (++) of IB- plasmid. After 36 h, luciferase activity was quantified in cell lysates using a Dual-Luciferase reporter assay system (Promega). Results are shown as the meansstandard errors from three impartial experiments. (E) Phosphorylation of IRF-3 in EBV-negative Daudi cells stably expressing RIG-I. RIG-I- or GFP- (5 106 cells each) expressing stable clones were transfected with 30 g of luciferase as an internal control) were obtained commercially (BD Biosciences, San Jose, CA), and pIB-, a specific inhibitor of NF-B, was a kind gift of Bill Sugden (Mitchell and Sugden, 1995). Endotoxin-free plasmid DNA was prepared by using an endo-free Mega Prep kit (Invitrogen). For transient or stable expression of plasmids, we performed electroporation. Stable transfectants expressing full-length RIG-I (RIG-I), helicase-deleted RIG-I (N-RIG), CARD-deleted RIG-I (C-RIG), and GFP clones were selected by culturing with 1000 g/ml of G418 (Sigma). Computer virus production and contamination For EBER-positive EBV and EBER-negative EBV production, we Rabbit Polyclonal to EIF2B3 followed the protocol explained earlier (Yajima synthesis of EBERs and RNA transfection EBER1 and EBER2 were amplified from LCL (Akata) and cloned into pGEMT easy vector (Promega, Madison, WI). From pGEMT/EBER1 and pGEMT/EBER2, T7 promoter-tagged (at the 5 end) EBER1 and EBER2 were synthesized by PCR (primer pairs: EBER1, 5-TGT AAT ACG Take action CAC TAT AGG GAC CTA CGC TGC CCT AGA GGT TTT GCT; 5-AAA ACA TGC GGA CCA GC; EBER2, 5-TGT AAT ACG ACT CAC TAT AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC). One microgram of purified DNA (PCR product) was used as a template per reaction, and transcription was carried out for 6 h following the manufacturer’s protocol (Epicenter, Madison, WI). Purified EBER1 and EBER2 (3 g each) before and after RNase A treatment were checked in 5% denaturing polyacrylamide gel and by RTCPCR. For RNA transfection, EBER1, EBER2, EBER1 and EBER2 together (1:1), or polyI:C (30 g each) was transfected by electroporation. RNA extraction and RTCPCR analysis Reverse transcription was carried out with oligo-dT primer using total cellular RNA. For EBERs, gene-specific 3 end primers were used. One-tenth of cDNA was subjected to PCR using primers specific for IFN- (5-ATC CAG CAG ATC TTC AAT CT; 5-AAG AAA AAG ATC TCA TGA TT; 35 cycles), IFN- (5-GAT TCA TCG AGC ACT GGC TGG; 5-CTT CAG GTA ATG CAG AAT CC; 30 cycles), TLR3 (5-TCA CTT GCT CAT TCT CCC TT; 5-GAC CTC TCC ATT CCT GGC; 35 cycles), ISG15 (5-GGT GGA CAA ATG CGA CGA AC; 5-ATG CTG GTG GAG GCC CTT AG; 28 cycles), ISG56 (5-TAG CCA ACA TGT CCT CAC AGA C; 5-TCT TCT ACC ACT GGT TTC ATG C; 30 cycles), EBER1 (5-AGG ACC TAC GCT GCC CTA GA; 5-AAA ACA TGC GGA CCA GC; 18 cycles), EBER2 (5-AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC; 18 cycles), RIG-I (5-GCA TAT TGA CTG GAC GTG GCA; 5-CAG TCA TGG CTG CAG TTC TGT C; 30 cycles), EBNA2 (5-GCT GCT ACG CAT TAG AGA CC; 5-CAG CAC TGG CGT GTG ACG TGG TGT AAA GTT; 35 cycles), IRF-3 (5-CACAGCAGGAGGATTTCGG; 5-CCTG GGTATCAGAAGTAC; 26 cycles), and GAPDH (5-GCC TCC TGC ACC ACC AAC TG; 5-CGA CGC CTG CTT CAC CAC CTT CT; 20 cycles). Control reactions were performed in parallel in the absence of reverse transcriptase. Immunoblot analysis Cell lysates made up of equal quantities of protein (20C30 g) were analyzed in 8% SDSCPAGE gel. The membranes.LCLs express 12 EBV gene products, including six EBV nuclear antigens (EBNA1, EBNA2, EBNA3A, EBNA3B, EBNA3C, and EBNA-LP), three latent membrane proteins (LMP1, LMP2A, and LMP2B), BamH1-A rightward transcripts (BARTs), and two EBV-encoded small RNAs (EBER1 and EBER2) (Kieff and Rickinson, 2001). EBERs are the most abundant viral transcripts in cells with latent EBV contamination (Rymo, 1979). RNAs (EBER1 and EBER2) (Kieff and Rickinson, 2001). EBERs are the most abundant viral transcripts in cells with latent EBV contamination (Rymo, 1979). EBERs are nonpolyadenylated, untranslated RNAs either 167 or 172 nucleotides long (Rosa transcription and purified them as described previously (Sumpter luciferase as an internal control), along with 10 g (+) or 20 g (++) of IB- plasmid. After 36 h, luciferase activity was quantified in cell lysates using a Dual-Luciferase reporter assay system (Promega). Results are shown as the meansstandard errors from three impartial experiments. (E) Phosphorylation of IRF-3 in EBV-negative Daudi cells stably expressing RIG-I. RIG-I- or GFP- (5 106 cells each) expressing stable clones were transfected with 30 g of luciferase as an internal control) were obtained commercially (BD Biosciences, San Jose, CA), and pIB-, a specific inhibitor of NF-B, was a kind gift of Bill Sugden (Mitchell and Sugden, 1995). Endotoxin-free plasmid DNA was prepared by using an endo-free Mega Prep kit (Invitrogen). For transient or stable expression of plasmids, we performed electroporation. Stable transfectants expressing full-length RIG-I (RIG-I), helicase-deleted RIG-I (N-RIG), CARD-deleted RIG-I (C-RIG), and GFP clones were selected by culturing with 1000 g/ml of G418 (Sigma). Virus production and contamination For EBER-positive EBV and EBER-negative EBV production, we followed the protocol described earlier (Yajima synthesis of EBERs and RNA transfection EBER1 and EBER2 were amplified from LCL (Akata) and cloned into pGEMT easy vector (Promega, Madison, WI). From pGEMT/EBER1 and pGEMT/EBER2, T7 promoter-tagged Dynorphin A (1-13) Acetate (at the 5 end) EBER1 and EBER2 were synthesized by PCR (primer pairs: EBER1, 5-TGT AAT ACG ACT CAC TAT AGG GAC CTA CGC TGC CCT AGA GGT TTT GCT; 5-AAA ACA TGC GGA CCA GC; EBER2, 5-TGT AAT ACG ACT CAC TAT AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC). One microgram of purified DNA (PCR product) was used as a template per reaction, and transcription was carried out for 6 h following the manufacturer’s protocol (Epicenter, Madison, WI). Purified EBER1 and EBER2 (3 g each) before and after RNase A treatment were checked in 5% denaturing polyacrylamide gel and by RTCPCR. For RNA transfection, EBER1, EBER2, EBER1 and EBER2 together (1:1), or polyI:C (30 g each) was transfected by electroporation. RNA extraction and RTCPCR analysis Reverse transcription was carried out with oligo-dT primer using total cellular RNA. For EBERs, gene-specific 3 end primers were used. One-tenth of cDNA was subjected to PCR using primers specific for IFN- (5-ATC CAG CAG ATC TTC AAT CT; 5-AAG AAA AAG ATC TCA TGA TT; 35 cycles), IFN- (5-GAT TCA TCG AGC ACT GGC TGG; 5-CTT CAG GTA ATG CAG AAT CC; 30 cycles), TLR3 (5-TCA CTT GCT CAT TCT CCC TT; 5-GAC CTC TCC ATT CCT GGC; 35 cycles), ISG15 (5-GGT GGA CAA ATG CGA CGA AC; 5-ATG CTG GTG GAG GCC CTT AG; 28 cycles), ISG56 (5-TAG CCA ACA TGT CCT CAC AGA C; 5-TCT TCT ACC ACT GGT TTC ATG C; 30 cycles), EBER1 (5-AGG ACC TAC GCT GCC CTA GA; 5-AAA ACA TGC GGA CCA GC; 18 cycles), EBER2 (5-AGG GAC AGC CGT TGC CCT AGT GGT TTC GGA; 5-AAA ACA GCG GAC AAG CCG AAT ACC; 18 cycles), RIG-I (5-GCA TAT TGA CTG GAC GTG GCA; 5-CAG TCA TGG CTG CAG TTC TGT C; 30 cycles), EBNA2 (5-GCT GCT ACG CAT TAG AGA CC; 5-CAG CAC TGG CGT GTG ACG TGG TGT AAA GTT; 35 cycles), IRF-3 (5-CACAGCAGGAGGATTTCGG; 5-CCTG GGTATCAGAAGTAC; 26 cycles), and GAPDH (5-GCC TCC TGC ACC ACC AAC TG; 5-CGA CGC CTG CTT CAC CAC CTT CT; 20 cycles). Control reactions were performed in parallel in the absence of reverse transcriptase. Immunoblot analysis Cell lysates made up of equal quantities of protein (20C30 g) were analyzed in.