ascitic fluids Search Results


rrv immune ascitic fluid  (ATCC)
91
ATCC rrv immune ascitic fluid
Rrv Immune Ascitic Fluid, supplied by ATCC, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/rrv immune ascitic fluid/product/ATCC
Average 91 stars, based on 1 article reviews
rrv immune ascitic fluid - by Bioz Stars, 2026-02
91/100 stars
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polyclonal sindbis antibody  (ATCC)
92
ATCC polyclonal sindbis antibody
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Polyclonal Sindbis Antibody, supplied by ATCC, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/polyclonal sindbis antibody/product/ATCC
Average 92 stars, based on 1 article reviews
polyclonal sindbis antibody - by Bioz Stars, 2026-02
92/100 stars
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mouse hyperimmune ascitic fluid  (ATCC)
93
ATCC mouse hyperimmune ascitic fluid
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Mouse Hyperimmune Ascitic Fluid, supplied by ATCC, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/mouse hyperimmune ascitic fluid/product/ATCC
Average 93 stars, based on 1 article reviews
mouse hyperimmune ascitic fluid - by Bioz Stars, 2026-02
93/100 stars
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chikv immune ascitic fluid  (ATCC)
94
ATCC chikv immune ascitic fluid
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Chikv Immune Ascitic Fluid, supplied by ATCC, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/chikv immune ascitic fluid/product/ATCC
Average 94 stars, based on 1 article reviews
chikv immune ascitic fluid - by Bioz Stars, 2026-02
94/100 stars
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actin mp biomedicals 08637931  (Valiant Co Ltd)
86
Valiant Co Ltd actin mp biomedicals 08637931
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Actin Mp Biomedicals 08637931, supplied by Valiant Co Ltd, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/actin mp biomedicals 08637931/product/Valiant Co Ltd
Average 86 stars, based on 1 article reviews
actin mp biomedicals 08637931 - by Bioz Stars, 2026-02
86/100 stars
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venezuelan equine encephalomyelitis  (ATCC)
93
ATCC venezuelan equine encephalomyelitis
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Venezuelan Equine Encephalomyelitis, supplied by ATCC, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/venezuelan equine encephalomyelitis/product/ATCC
Average 93 stars, based on 1 article reviews
venezuelan equine encephalomyelitis - by Bioz Stars, 2026-02
93/100 stars
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vr 1242af venezuelan equine encephalitis virus hyperimmune ascitic fluid atcc  (ATCC)
92
ATCC vr 1242af venezuelan equine encephalitis virus hyperimmune ascitic fluid atcc
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Vr 1242af Venezuelan Equine Encephalitis Virus Hyperimmune Ascitic Fluid Atcc, supplied by ATCC, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/vr 1242af venezuelan equine encephalitis virus hyperimmune ascitic fluid atcc/product/ATCC
Average 92 stars, based on 1 article reviews
vr 1242af venezuelan equine encephalitis virus hyperimmune ascitic fluid atcc - by Bioz Stars, 2026-02
92/100 stars
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vr 1228af 38  (ATCC)
94
ATCC vr 1228af 38
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Vr 1228af 38, supplied by ATCC, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/vr 1228af 38/product/ATCC
Average 94 stars, based on 1 article reviews
vr 1228af 38 - by Bioz Stars, 2026-02
94/100 stars
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everglades virus  (ATCC)
90
ATCC everglades virus
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Everglades Virus, supplied by ATCC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/everglades virus/product/ATCC
Average 90 stars, based on 1 article reviews
everglades virus - by Bioz Stars, 2026-02
90/100 stars
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jev hyperimmune mouse positive control ascitic fluid  (ATCC)
90
ATCC jev hyperimmune mouse positive control ascitic fluid
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Jev Hyperimmune Mouse Positive Control Ascitic Fluid, supplied by ATCC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/jev hyperimmune mouse positive control ascitic fluid/product/ATCC
Average 90 stars, based on 1 article reviews
jev hyperimmune mouse positive control ascitic fluid - by Bioz Stars, 2026-02
90/100 stars
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control ascites fluid  (ATCC)
90
ATCC control ascites fluid
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Control Ascites Fluid, supplied by ATCC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/control ascites fluid/product/ATCC
Average 90 stars, based on 1 article reviews
control ascites fluid - by Bioz Stars, 2026-02
90/100 stars
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russian spring summer encephalitis rsse virus  (ATCC)
93
ATCC russian spring summer encephalitis rsse virus
(A) Schematic representation of <t>Sindbis</t> viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.
Russian Spring Summer Encephalitis Rsse Virus, supplied by ATCC, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/russian spring summer encephalitis rsse virus/product/ATCC
Average 93 stars, based on 1 article reviews
russian spring summer encephalitis rsse virus - by Bioz Stars, 2026-02
93/100 stars
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Image Search Results


(A) Schematic representation of Sindbis viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.

Journal: RNA

Article Title: Noncanonical cytoplasmic processing of viral microRNAs

doi: 10.1261/rna.2303610

Figure Lengend Snippet: (A) Schematic representation of Sindbis viral products. 5′ and 3′ ends of mRNA and negative-strand genome products are depicted as are NH2 (N) and COOH (C) terminals of polyproteins. The noncoding region (NCR) represents the extra subgenomic insertion site where the pri-miRNA transcript was incorporated. The nonstructural genes (nsP1-4) are translated into a large polyprotein that forms four unique nonstructural proteins. The complementary minus strand [(−) Genome] is used as a template for the genomic RNA along with both the subgenomic mRNA and the extra subgenomic NCR depicted. The endogenous subgenomic message is translated into a second polyprotein that is processed into the C, E3, E2, 6K, and E1 proteins. (B) Human fibroblasts mock-treated, transfected with miR-124 producing plasmid (p124), or infected with SV or SV124 (MOI of 5) and harvested at the indicated hours post-infection (hpi). (Upper two frames) Northern blots probed for miR-124 (top) and U6 (bottom). (Lower two frames) Immunoblots depicting Sindbis virus core protein and actin. (C) Confocal microscopy of cells mock-treated or infected with SV or SV124 (MOI of 2). Cells stained for Sindbis virus core protein (green) and cell nuclei (blue). Scale bar, 10 μm.

Article Snippet: The polyclonal Sindbis antibody was purchased from ATCC as Sindbis Ascitic Fluid (VR-1248AF).

Techniques: Transfection, Plasmid Preparation, Infection, Northern Blot, Western Blot, Virus, Confocal Microscopy, Staining

(A) Murine embryonic fibroblasts derived from wild-type (WT) or Dicer-deficient (Dcr1−/−) mice mock-treated or infected with SV or SV124 for 24 h (MOI of 1). (Top three panels) Northern blots probed for miR-124 (top), miR-93 (middle), and U6 (bottom). (Bottom two panels) Western blots for Sindbis virus core protein and actin. (B) Human fibroblasts transfected with scrambled short interfering RNAs (Scbl siRNA) or siRNAs directed against Exportin-5 (Xpo5 siRNA). Forty-eight hours post-transfection, cells were mock-treated or infected with SV or SV124 for 24 h (MOI of 1). (Top two panels) Northern blot probed for miR-124 (top) and U6 (below). (Bottom three panels) Immunoblots for Exportin-5, Sindbis core, and actin. (C) Sequence analysis of Sindbis-derived miR-124. The pre-miR-124 sequence is depicted at the top, with the mature miR-124 sequence in red and the predicted secondary structure below. The number of reads corresponding to each RNA species is indicated.

Journal: RNA

Article Title: Noncanonical cytoplasmic processing of viral microRNAs

doi: 10.1261/rna.2303610

Figure Lengend Snippet: (A) Murine embryonic fibroblasts derived from wild-type (WT) or Dicer-deficient (Dcr1−/−) mice mock-treated or infected with SV or SV124 for 24 h (MOI of 1). (Top three panels) Northern blots probed for miR-124 (top), miR-93 (middle), and U6 (bottom). (Bottom two panels) Western blots for Sindbis virus core protein and actin. (B) Human fibroblasts transfected with scrambled short interfering RNAs (Scbl siRNA) or siRNAs directed against Exportin-5 (Xpo5 siRNA). Forty-eight hours post-transfection, cells were mock-treated or infected with SV or SV124 for 24 h (MOI of 1). (Top two panels) Northern blot probed for miR-124 (top) and U6 (below). (Bottom three panels) Immunoblots for Exportin-5, Sindbis core, and actin. (C) Sequence analysis of Sindbis-derived miR-124. The pre-miR-124 sequence is depicted at the top, with the mature miR-124 sequence in red and the predicted secondary structure below. The number of reads corresponding to each RNA species is indicated.

Article Snippet: The polyclonal Sindbis antibody was purchased from ATCC as Sindbis Ascitic Fluid (VR-1248AF).

Techniques: Derivative Assay, Infection, Northern Blot, Western Blot, Virus, Transfection, Sequencing

(A) Murine embryonic fibroblasts derived from wild-type (WT), Dicer-deficient (Dcr1−/−), DGCR8-deficient (Dgcr8−/−), or IFN-I-deficient (Ifnar1−/−) mice were mock-treated or infected with SV or SV124 for 24 h (MOI of 2). (Top three panels) Northern blots probed for miR-124, miR-93, and U6. (Bottom two panels) Western blots for Sindbis virus core protein and actin. (B) Human fibroblasts transfected with a miR-124-targeted GFP plasmid (GFP_miR-124t) were additionally transfected with an miR-124-producing plasmid (p124) or infected with SV or SV124 for 24 h (MOI of 2). (Top three panels) Western blots for green fluorescent protein (GFP), Sindbis virus core protein, and actin. (Bottom three panels) Northern blots probed for miR-124, miR-93, and U6.

Journal: RNA

Article Title: Noncanonical cytoplasmic processing of viral microRNAs

doi: 10.1261/rna.2303610

Figure Lengend Snippet: (A) Murine embryonic fibroblasts derived from wild-type (WT), Dicer-deficient (Dcr1−/−), DGCR8-deficient (Dgcr8−/−), or IFN-I-deficient (Ifnar1−/−) mice were mock-treated or infected with SV or SV124 for 24 h (MOI of 2). (Top three panels) Northern blots probed for miR-124, miR-93, and U6. (Bottom two panels) Western blots for Sindbis virus core protein and actin. (B) Human fibroblasts transfected with a miR-124-targeted GFP plasmid (GFP_miR-124t) were additionally transfected with an miR-124-producing plasmid (p124) or infected with SV or SV124 for 24 h (MOI of 2). (Top three panels) Western blots for green fluorescent protein (GFP), Sindbis virus core protein, and actin. (Bottom three panels) Northern blots probed for miR-124, miR-93, and U6.

Article Snippet: The polyclonal Sindbis antibody was purchased from ATCC as Sindbis Ascitic Fluid (VR-1248AF).

Techniques: Derivative Assay, Infection, Northern Blot, Western Blot, Virus, Transfection, Plasmid Preparation

(A) Multicycle growth curve of SV and SV124 performed in wild-type murine fibroblasts (WT), or fibroblasts lacking either Dicer (Dcr1−/−) or a functional IFN-I receptor (Ifnar1−/−). Cells were infected at an MOI of 0.1 and plaqued at the indicated time points. P-values of the difference between SV and SV124 replication levels in WT, Dcr1−/−, and Ifnar1−/− at 48 hpi are 0.008, 0.164, and 0.015, respectively. (B) Human fibroblasts were mock-treated or transfected with vector or miR-124-producing plasmid (p124). Twenty-four hours post-transfection, cells were infected with SV or SV124 (MOI of 2) and harvested 24 hpi. (Top two panels) Western blots for Sindbis virus core protein and actin. (Bottom three panels) Northern blots probed for miR-124, miR-93, and U6. (C) Schematic of miR-124 targeting of the SV124 genome (top) or the SV124 negative-strand genome.

Journal: RNA

Article Title: Noncanonical cytoplasmic processing of viral microRNAs

doi: 10.1261/rna.2303610

Figure Lengend Snippet: (A) Multicycle growth curve of SV and SV124 performed in wild-type murine fibroblasts (WT), or fibroblasts lacking either Dicer (Dcr1−/−) or a functional IFN-I receptor (Ifnar1−/−). Cells were infected at an MOI of 0.1 and plaqued at the indicated time points. P-values of the difference between SV and SV124 replication levels in WT, Dcr1−/−, and Ifnar1−/− at 48 hpi are 0.008, 0.164, and 0.015, respectively. (B) Human fibroblasts were mock-treated or transfected with vector or miR-124-producing plasmid (p124). Twenty-four hours post-transfection, cells were infected with SV or SV124 (MOI of 2) and harvested 24 hpi. (Top two panels) Western blots for Sindbis virus core protein and actin. (Bottom three panels) Northern blots probed for miR-124, miR-93, and U6. (C) Schematic of miR-124 targeting of the SV124 genome (top) or the SV124 negative-strand genome.

Article Snippet: The polyclonal Sindbis antibody was purchased from ATCC as Sindbis Ascitic Fluid (VR-1248AF).

Techniques: Functional Assay, Infection, Transfection, Plasmid Preparation, Western Blot, Virus, Northern Blot