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1786  (Bio-Techne corporation)


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    Bio-Techne corporation 1786
    1786, supplied by Bio-Techne corporation, used in various techniques. Bioz Stars score: 96/100, based on 9 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/1786/product/Bio-Techne corporation
    Average 96 stars, based on 9 article reviews
    1786 - by Bioz Stars, 2026-03
    96/100 stars

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    3P SARS2 VLPs are superior to 4P SARS2 VLPs. ( A ) 4P and 3P SARS2 Luc-PS9 VLPs were produced by co-transfection of either four or three plasmids into 293T producer cells. These plasmids encode for the viral structural proteins, along with a luciferase reporter coupled to PS9 packaging signal (Luc-PS9). ( B ) Luciferase assay showed ∼7-fold higher luminescence intensity in 293T-hACE2 cells upon using 3P versus 4P VLPs. ( C ) VLP concentrate (10 μl for M and E, 2 μl for S2 and N) was loaded in each lane. Western blot analysis suggests incorporation of all SARS2 structural components in VLPs, with 3P SARS2 Luc-PS9 VLPs displaying more intense protein bands compared with 4P VLPs. ( D ) Higher Luc-PS9 transcript levels were observed using RT-PCR in the case of 3P SARS2 Luc-PS9 VLPs. ( E ) Cryo-TEM images of 3P SARS2 Luc-PS9 VLPs showed spherical ∼100-nm-sized VLPs with double-layered membrane structures. ( F ) 3P SARS2 EGFP-PS9 VLPs produced with EGFP reporter efficiently infected 293T-hACE2 and A549-hACE2-TMPRSS2 cells. Fluorescence images were acquired 24 h post-infection. ( G ) Flow cytometry VLP entry time-course showed peak fluorescence for 3P SARS2 EGFP-PS9 VLPs at 24 h followed by decrease at larger times. This was observed both for 293T-hACE2 and A549-hACE2-TMPRSS2 cells. Abbreviations: aa, amino acid; nt, nucleotide. Data are mean ± STD. * P < .05, ** P < .01, *** P < .001, **** P < .0001, NS: not significant.

    Journal: Nucleic Acids Research

    Article Title: Tuning the tropism and infectivity of SARS-CoV-2 virus-like particles for mRNA delivery

    doi: 10.1093/nar/gkaf133

    Figure Lengend Snippet: 3P SARS2 VLPs are superior to 4P SARS2 VLPs. ( A ) 4P and 3P SARS2 Luc-PS9 VLPs were produced by co-transfection of either four or three plasmids into 293T producer cells. These plasmids encode for the viral structural proteins, along with a luciferase reporter coupled to PS9 packaging signal (Luc-PS9). ( B ) Luciferase assay showed ∼7-fold higher luminescence intensity in 293T-hACE2 cells upon using 3P versus 4P VLPs. ( C ) VLP concentrate (10 μl for M and E, 2 μl for S2 and N) was loaded in each lane. Western blot analysis suggests incorporation of all SARS2 structural components in VLPs, with 3P SARS2 Luc-PS9 VLPs displaying more intense protein bands compared with 4P VLPs. ( D ) Higher Luc-PS9 transcript levels were observed using RT-PCR in the case of 3P SARS2 Luc-PS9 VLPs. ( E ) Cryo-TEM images of 3P SARS2 Luc-PS9 VLPs showed spherical ∼100-nm-sized VLPs with double-layered membrane structures. ( F ) 3P SARS2 EGFP-PS9 VLPs produced with EGFP reporter efficiently infected 293T-hACE2 and A549-hACE2-TMPRSS2 cells. Fluorescence images were acquired 24 h post-infection. ( G ) Flow cytometry VLP entry time-course showed peak fluorescence for 3P SARS2 EGFP-PS9 VLPs at 24 h followed by decrease at larger times. This was observed both for 293T-hACE2 and A549-hACE2-TMPRSS2 cells. Abbreviations: aa, amino acid; nt, nucleotide. Data are mean ± STD. * P < .05, ** P < .01, *** P < .001, **** P < .0001, NS: not significant.

    Article Snippet: The pcDNA3.1 GFP-PS9-PS9 plasmid was cloned by inserting a second PS9 packaging sequence to the end of PS9 in pcDNA3.1 GFP-PS9. sgRNA targeting EGFP , SLC35A1 , and human ACE2 ( hACE2 ) were cloned into the original pKLV-U6gRNA(BbsI)-PGKpuro2ABFP vector provided by Kosuke Yusa ( RRID: Addgene_50946).

    Techniques: Produced, Cotransfection, Luciferase, Western Blot, Reverse Transcription Polymerase Chain Reaction, Membrane, Infection, Fluorescence, Flow Cytometry

    Tuning VLP viral tropism by altering viral glycoprotein. ( A ) Different types of VLPs were produced using the 3P system by varying the viral glycoprotein (VSV-G, SARS2 spike, SARS spike, or MERS spike) and reporter genes (luciferase or EGFP). ( B ) One microgram of the viral glycoprotein was used to create various 3P Luc-PS9 VLPs and these were used to infect five cell types: WT 293T (293T), 293T-hACE2, A549-hACE2-TMPRSS2, Calu-3, and 293T-DPP4. SARS2 and SARS spike VLPs displayed similar tropism and entered only hACE2-expressing cells (293T-hACE2, A549-hACE2-TMPRSS2, and Calu-3), with SARS exhibiting higher luminescence intensity compared with SARS2. MERS VLPs infected Calu-3 cell at low level and efficiently entered 293T-DPP4 cells. VSV-G VLPs entered all cell types. ( C ) 3P EGFP-PS9 VLPs were produced with 4 μg VSV-G, 1 μg SARS2 spike, or 1 μg MERS spike plasmid. VSV-G VLPs entered all cell types. SARS2 VLPs only entered ACE2 cells. MERS VLPs only entered DPP4 cells. Methods provide detailed steps for VLP production. Data are mean ± STD. * P < .05, ** P < .01, *** P < .001, **** P < .0001, NS: not significant.

    Journal: Nucleic Acids Research

    Article Title: Tuning the tropism and infectivity of SARS-CoV-2 virus-like particles for mRNA delivery

    doi: 10.1093/nar/gkaf133

    Figure Lengend Snippet: Tuning VLP viral tropism by altering viral glycoprotein. ( A ) Different types of VLPs were produced using the 3P system by varying the viral glycoprotein (VSV-G, SARS2 spike, SARS spike, or MERS spike) and reporter genes (luciferase or EGFP). ( B ) One microgram of the viral glycoprotein was used to create various 3P Luc-PS9 VLPs and these were used to infect five cell types: WT 293T (293T), 293T-hACE2, A549-hACE2-TMPRSS2, Calu-3, and 293T-DPP4. SARS2 and SARS spike VLPs displayed similar tropism and entered only hACE2-expressing cells (293T-hACE2, A549-hACE2-TMPRSS2, and Calu-3), with SARS exhibiting higher luminescence intensity compared with SARS2. MERS VLPs infected Calu-3 cell at low level and efficiently entered 293T-DPP4 cells. VSV-G VLPs entered all cell types. ( C ) 3P EGFP-PS9 VLPs were produced with 4 μg VSV-G, 1 μg SARS2 spike, or 1 μg MERS spike plasmid. VSV-G VLPs entered all cell types. SARS2 VLPs only entered ACE2 cells. MERS VLPs only entered DPP4 cells. Methods provide detailed steps for VLP production. Data are mean ± STD. * P < .05, ** P < .01, *** P < .001, **** P < .0001, NS: not significant.

    Article Snippet: The pcDNA3.1 GFP-PS9-PS9 plasmid was cloned by inserting a second PS9 packaging sequence to the end of PS9 in pcDNA3.1 GFP-PS9. sgRNA targeting EGFP , SLC35A1 , and human ACE2 ( hACE2 ) were cloned into the original pKLV-U6gRNA(BbsI)-PGKpuro2ABFP vector provided by Kosuke Yusa ( RRID: Addgene_50946).

    Techniques: Produced, Luciferase, Expressing, Infection, Plasmid Preparation

    Streamlining VLP technology using a 2P system. ( A ) Four constructs were developed with two independent promoters driving expression of reporter gene and SARS2 structural proteins. The promoters were separated by insulator and terminator sequences to minimize promoter interference: synthetic polyA (spa); a G-rich sequence from β-actin (Tactb); chicken hypersensitive site 4 (cHS4); and a synthetic MAR sequence 8 (sMAR8) at the end of the E protein. (B, C) Each of these constructs was transfected into 293T cells along with spike plasmid to produce four different 2P SARS2 Luc-PS9 VLPs. 2P.2 VLPs displayed highest luminescence intensity ( B ). Its signal was comparable to 4P VLP but lower than 3P VLP ( C ). ( D ) Western blots of SARS2 structural proteins showed different patterns of protein expression for different 2P plasmids. 2P.2 SARS2 Luc-PS9 VLPs displayed more intense protein bands compared with 2P.3 and 2P.4, but this was lower than 2P.1. ( E ) 2P.2.EGFP VLPs were created by replacing the luciferase reporter with EGFP. VLP entry of 2P.2.EGFP SARS2 VLPs into A549-hACE2-TMPRSS2 and 293T-hACE2 cells was measured using flow cytometry. Data are mean ± STD. *** P < .001, **** P < .0001, NS: not significant.

    Journal: Nucleic Acids Research

    Article Title: Tuning the tropism and infectivity of SARS-CoV-2 virus-like particles for mRNA delivery

    doi: 10.1093/nar/gkaf133

    Figure Lengend Snippet: Streamlining VLP technology using a 2P system. ( A ) Four constructs were developed with two independent promoters driving expression of reporter gene and SARS2 structural proteins. The promoters were separated by insulator and terminator sequences to minimize promoter interference: synthetic polyA (spa); a G-rich sequence from β-actin (Tactb); chicken hypersensitive site 4 (cHS4); and a synthetic MAR sequence 8 (sMAR8) at the end of the E protein. (B, C) Each of these constructs was transfected into 293T cells along with spike plasmid to produce four different 2P SARS2 Luc-PS9 VLPs. 2P.2 VLPs displayed highest luminescence intensity ( B ). Its signal was comparable to 4P VLP but lower than 3P VLP ( C ). ( D ) Western blots of SARS2 structural proteins showed different patterns of protein expression for different 2P plasmids. 2P.2 SARS2 Luc-PS9 VLPs displayed more intense protein bands compared with 2P.3 and 2P.4, but this was lower than 2P.1. ( E ) 2P.2.EGFP VLPs were created by replacing the luciferase reporter with EGFP. VLP entry of 2P.2.EGFP SARS2 VLPs into A549-hACE2-TMPRSS2 and 293T-hACE2 cells was measured using flow cytometry. Data are mean ± STD. *** P < .001, **** P < .0001, NS: not significant.

    Article Snippet: The pcDNA3.1 GFP-PS9-PS9 plasmid was cloned by inserting a second PS9 packaging sequence to the end of PS9 in pcDNA3.1 GFP-PS9. sgRNA targeting EGFP , SLC35A1 , and human ACE2 ( hACE2 ) were cloned into the original pKLV-U6gRNA(BbsI)-PGKpuro2ABFP vector provided by Kosuke Yusa ( RRID: Addgene_50946).

    Techniques: Construct, Expressing, Sequencing, Transfection, Plasmid Preparation, Western Blot, Luciferase, Flow Cytometry

    VLPs deliver functional Cas9 mRNA into target cells to achieve gene editing. ( A ) 3P Cas9-P2A-dTo-T20 VLPs (dTo: dTomato) were used for gene editing studies, with surface glycoprotein encoding for either VSV-G or SARS2 spike. ( B ) General workflow of gene editing study performed in panels (C)–(E). sgRNAs were transfected into cells on day −1 using plasmids carrying BFP reporter. VLP-carrying spCas9 mRNA was introduced into cells on day 0. Tropism of the VLP depends on surface glycoprotein. Gene editing efficiency was quantified on day 6. Editing efficiency quantified percentage of BFP(+) population that either turned EGFP(−) (panels C and E) or lost ACE2 expression based on anti-hACE2 binding (panel D). ( C ) sgRNAs targeting EGFP were introduced into 293T-hACE2-EGFP and spCas9 mRNA was delivered using 3P SARS2 Cas9-P2A-dTo-T20 VLPs. ( D ) sgRNAs against hACE2 were introduced to knockout the receptor in 293T-hACE2 cells using 3P SARS2 Cas9-P2A-dTo-T20 VLPs. ( E ) sgRNAs targeting EGFP were introduced in 293T-EGFP cells, with genome editing being performed using 3P Cas9-P2A-dTo-T20 VLPs bearing either VSV-G or SARS2 spike. In all panels, the target gene ( EGFP or hACE2 ) was knocked out in 20%–35% of cells expressing sgRNA. Higher VLP amount resulted in greater editing. ( F ) 293T-hACE2 stably expressed sgRNAs against SLC35A1 were infected with 3P SARS2 Cas9-P2A-dTo-T20 VLPs (1.885 μg/μl N protein equivalent) or without SARS2 spike (1.385 μg/μl N protein equivalent). Gene editing efficiency was evaluated based on increase in fluorescent peanut agglutinin lectin (PNA) binding to cells. More than 70% gene editing was observed upon using 3P VLPs to edit endogenous genes. Volume of VLP used in each assay is specified in individual panels. Data are mean ± STD. *** P < .001, **** P < .0001, NS: not significant.

    Journal: Nucleic Acids Research

    Article Title: Tuning the tropism and infectivity of SARS-CoV-2 virus-like particles for mRNA delivery

    doi: 10.1093/nar/gkaf133

    Figure Lengend Snippet: VLPs deliver functional Cas9 mRNA into target cells to achieve gene editing. ( A ) 3P Cas9-P2A-dTo-T20 VLPs (dTo: dTomato) were used for gene editing studies, with surface glycoprotein encoding for either VSV-G or SARS2 spike. ( B ) General workflow of gene editing study performed in panels (C)–(E). sgRNAs were transfected into cells on day −1 using plasmids carrying BFP reporter. VLP-carrying spCas9 mRNA was introduced into cells on day 0. Tropism of the VLP depends on surface glycoprotein. Gene editing efficiency was quantified on day 6. Editing efficiency quantified percentage of BFP(+) population that either turned EGFP(−) (panels C and E) or lost ACE2 expression based on anti-hACE2 binding (panel D). ( C ) sgRNAs targeting EGFP were introduced into 293T-hACE2-EGFP and spCas9 mRNA was delivered using 3P SARS2 Cas9-P2A-dTo-T20 VLPs. ( D ) sgRNAs against hACE2 were introduced to knockout the receptor in 293T-hACE2 cells using 3P SARS2 Cas9-P2A-dTo-T20 VLPs. ( E ) sgRNAs targeting EGFP were introduced in 293T-EGFP cells, with genome editing being performed using 3P Cas9-P2A-dTo-T20 VLPs bearing either VSV-G or SARS2 spike. In all panels, the target gene ( EGFP or hACE2 ) was knocked out in 20%–35% of cells expressing sgRNA. Higher VLP amount resulted in greater editing. ( F ) 293T-hACE2 stably expressed sgRNAs against SLC35A1 were infected with 3P SARS2 Cas9-P2A-dTo-T20 VLPs (1.885 μg/μl N protein equivalent) or without SARS2 spike (1.385 μg/μl N protein equivalent). Gene editing efficiency was evaluated based on increase in fluorescent peanut agglutinin lectin (PNA) binding to cells. More than 70% gene editing was observed upon using 3P VLPs to edit endogenous genes. Volume of VLP used in each assay is specified in individual panels. Data are mean ± STD. *** P < .001, **** P < .0001, NS: not significant.

    Article Snippet: The pcDNA3.1 GFP-PS9-PS9 plasmid was cloned by inserting a second PS9 packaging sequence to the end of PS9 in pcDNA3.1 GFP-PS9. sgRNA targeting EGFP , SLC35A1 , and human ACE2 ( hACE2 ) were cloned into the original pKLV-U6gRNA(BbsI)-PGKpuro2ABFP vector provided by Kosuke Yusa ( RRID: Addgene_50946).

    Techniques: Functional Assay, Transfection, Expressing, Binding Assay, Knock-Out, Stable Transfection, Infection

    In vivo pulmonary gene delivery using VLPs. ( A ) VLPs bearing either VSV-G or maSARS2 were instilled into mice at time = 0. Twenty-four hours post-instillation, luciferase activity was measured in tissue extracts from left lung, right lung, or trachea. Protein concentration in lysate was used to normalize luminescence signal, with untreated/mock values being set to 1.0 for all in vivo studies. ( B ) VSV-G VLPs were instilled via either o.p.a. (100 μl) or i.n. (50 μl) routes. o.p.a. resulted in VLP administration to mouse lung. ( C ) Q493K and N501Y mutations were introduced into SARS2 spike to generate maSARS2 spike. 3P VLPs with VSV-G, SARS2, maSARS2, and no spike were produced with N protein equivalents of 1.859, 1.149, 1.334, and 2.024 μg/μl, respectively. A total of 50 μl of VLP was used to infect three target cell types: 293T, 293T-hACE2, and 293T-mACE2. VSV-G VLPs infected all three cell types, SARS2 spike only infected 293T-hACE2 (hACE2), whereas maSARS2 spike was permissive to both 293T-hACE2 and 293T-mACE2. VSV-G luminescence was set to 1.0 in this panel. ( D ) Hundred microliters of VSV-G VLPs or maSARS2 VLPs, both 0.820 μg/μl N protein equivalent, were instilled via o.p.a. into mice. Whole lung tissue was harvested. Mice without VLPs served as negative control. Both VSV-G and maSARS2 VLPs enabled luciferase signal in mouse lung with VSV-G being more efficient. Data are mean ± STD. N = 5–6 for each mouse treatment group. * P < .05, ** P < .01, *** P < .001, **** P < .0001, NS: not significant.

    Journal: Nucleic Acids Research

    Article Title: Tuning the tropism and infectivity of SARS-CoV-2 virus-like particles for mRNA delivery

    doi: 10.1093/nar/gkaf133

    Figure Lengend Snippet: In vivo pulmonary gene delivery using VLPs. ( A ) VLPs bearing either VSV-G or maSARS2 were instilled into mice at time = 0. Twenty-four hours post-instillation, luciferase activity was measured in tissue extracts from left lung, right lung, or trachea. Protein concentration in lysate was used to normalize luminescence signal, with untreated/mock values being set to 1.0 for all in vivo studies. ( B ) VSV-G VLPs were instilled via either o.p.a. (100 μl) or i.n. (50 μl) routes. o.p.a. resulted in VLP administration to mouse lung. ( C ) Q493K and N501Y mutations were introduced into SARS2 spike to generate maSARS2 spike. 3P VLPs with VSV-G, SARS2, maSARS2, and no spike were produced with N protein equivalents of 1.859, 1.149, 1.334, and 2.024 μg/μl, respectively. A total of 50 μl of VLP was used to infect three target cell types: 293T, 293T-hACE2, and 293T-mACE2. VSV-G VLPs infected all three cell types, SARS2 spike only infected 293T-hACE2 (hACE2), whereas maSARS2 spike was permissive to both 293T-hACE2 and 293T-mACE2. VSV-G luminescence was set to 1.0 in this panel. ( D ) Hundred microliters of VSV-G VLPs or maSARS2 VLPs, both 0.820 μg/μl N protein equivalent, were instilled via o.p.a. into mice. Whole lung tissue was harvested. Mice without VLPs served as negative control. Both VSV-G and maSARS2 VLPs enabled luciferase signal in mouse lung with VSV-G being more efficient. Data are mean ± STD. N = 5–6 for each mouse treatment group. * P < .05, ** P < .01, *** P < .001, **** P < .0001, NS: not significant.

    Article Snippet: The pcDNA3.1 GFP-PS9-PS9 plasmid was cloned by inserting a second PS9 packaging sequence to the end of PS9 in pcDNA3.1 GFP-PS9. sgRNA targeting EGFP , SLC35A1 , and human ACE2 ( hACE2 ) were cloned into the original pKLV-U6gRNA(BbsI)-PGKpuro2ABFP vector provided by Kosuke Yusa ( RRID: Addgene_50946).

    Techniques: In Vivo, Luciferase, Activity Assay, Protein Concentration, Produced, Infection, Negative Control