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bj 5ta immortalized fibroblast cell lines  (ATCC)


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    ATCC bj 5ta immortalized fibroblast cell lines
    <t>BJ-5ta</t> <t>cells</t> were transfected with either a non-specific control siRNA (siC) or an eIF5B-specific siRNA pool (si-eIF5B). (A) Following 24 h of transfection, cells were treated with either vehicle control or TRAIL (100 ng/mL). Cell viability was assessed after an additional 72 h using alamarBlue TM assays. (B) Annexin V and 7-AAD staining and flow cytometric analysis of transfected cells. The top two panels, siC and siC + TRAIL, the bottom two panels, si5B and si5B + TRAIL, were harvested at 96 h post-transfection and treated with Annexin V + 7AAD. Contour plots are divided into quadrants Live (lower left; cells staining negative for both 7-AAD and annexin V), Q1 (upper left; cells staining positive for 7-AAD but negative for annexin V), Early apoptosis (lower right; staining annexin V positive and 7-AAD negative), and Late apoptosis (upper right; staining positive for both 7-AAD and annexin V). (C) Representative immunoblots probing for eIF5B, XIAP, Bcl-xL, cIAP1, cFLIPs, DR 4, DR 5, and β-actin (internal control) are shown. ( D) Control and eIF5B-depleted BJ-5ta cells were treated with the 4EGI-1 inhibitor to inhibit cap-dependent translation. Levels of XIAP were monitored under control and the 4EGI-1 treatment conditions. (E) eIF5B-bound RNA immunoprecipitations (RIPs) followed by qRT-PCR measurements of input-normalized tRNAiMet levels from BJ-5ta vs UMSCC-29. Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001.
    Bj 5ta Immortalized Fibroblast Cell Lines, supplied by ATCC, used in various techniques. Bioz Stars score: 98/100, based on 489 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/bj 5ta immortalized fibroblast cell lines/product/ATCC
    Average 98 stars, based on 489 article reviews
    bj 5ta immortalized fibroblast cell lines - by Bioz Stars, 2026-02
    98/100 stars

    Images

    1) Product Images from "Eukaryotic Initiation Factor 5B (eIF5B)-Driven Translational Control Impacts Oral Squamous Cell Carcinoma Pathophysiology"

    Article Title: Eukaryotic Initiation Factor 5B (eIF5B)-Driven Translational Control Impacts Oral Squamous Cell Carcinoma Pathophysiology

    Journal: bioRxiv

    doi: 10.64898/2026.01.30.702967

    BJ-5ta cells were transfected with either a non-specific control siRNA (siC) or an eIF5B-specific siRNA pool (si-eIF5B). (A) Following 24 h of transfection, cells were treated with either vehicle control or TRAIL (100 ng/mL). Cell viability was assessed after an additional 72 h using alamarBlue TM assays. (B) Annexin V and 7-AAD staining and flow cytometric analysis of transfected cells. The top two panels, siC and siC + TRAIL, the bottom two panels, si5B and si5B + TRAIL, were harvested at 96 h post-transfection and treated with Annexin V + 7AAD. Contour plots are divided into quadrants Live (lower left; cells staining negative for both 7-AAD and annexin V), Q1 (upper left; cells staining positive for 7-AAD but negative for annexin V), Early apoptosis (lower right; staining annexin V positive and 7-AAD negative), and Late apoptosis (upper right; staining positive for both 7-AAD and annexin V). (C) Representative immunoblots probing for eIF5B, XIAP, Bcl-xL, cIAP1, cFLIPs, DR 4, DR 5, and β-actin (internal control) are shown. ( D) Control and eIF5B-depleted BJ-5ta cells were treated with the 4EGI-1 inhibitor to inhibit cap-dependent translation. Levels of XIAP were monitored under control and the 4EGI-1 treatment conditions. (E) eIF5B-bound RNA immunoprecipitations (RIPs) followed by qRT-PCR measurements of input-normalized tRNAiMet levels from BJ-5ta vs UMSCC-29. Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001.
    Figure Legend Snippet: BJ-5ta cells were transfected with either a non-specific control siRNA (siC) or an eIF5B-specific siRNA pool (si-eIF5B). (A) Following 24 h of transfection, cells were treated with either vehicle control or TRAIL (100 ng/mL). Cell viability was assessed after an additional 72 h using alamarBlue TM assays. (B) Annexin V and 7-AAD staining and flow cytometric analysis of transfected cells. The top two panels, siC and siC + TRAIL, the bottom two panels, si5B and si5B + TRAIL, were harvested at 96 h post-transfection and treated with Annexin V + 7AAD. Contour plots are divided into quadrants Live (lower left; cells staining negative for both 7-AAD and annexin V), Q1 (upper left; cells staining positive for 7-AAD but negative for annexin V), Early apoptosis (lower right; staining annexin V positive and 7-AAD negative), and Late apoptosis (upper right; staining positive for both 7-AAD and annexin V). (C) Representative immunoblots probing for eIF5B, XIAP, Bcl-xL, cIAP1, cFLIPs, DR 4, DR 5, and β-actin (internal control) are shown. ( D) Control and eIF5B-depleted BJ-5ta cells were treated with the 4EGI-1 inhibitor to inhibit cap-dependent translation. Levels of XIAP were monitored under control and the 4EGI-1 treatment conditions. (E) eIF5B-bound RNA immunoprecipitations (RIPs) followed by qRT-PCR measurements of input-normalized tRNAiMet levels from BJ-5ta vs UMSCC-29. Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001.

    Techniques Used: Transfection, Control, Staining, Western Blot, Quantitative RT-PCR

    BrdU incorporation assay was used to measure cell proliferation. Quantification shows the percentage of BrdU-labeled cells in control (siC) and si5B-treated groups. Data are presented as mean ± SEM; ***p < 0.001. (A) UMSCC-29 (B) BJ-5ta (C) Collagen-based invasion assay was used to evaluate cell invasiveness in control (siC) and si5B-treated groups. Cells were seeded onto collagen matrices and allowed to invade for a defined period (48-72 hours). The number of invading cells was quantified and expressed as the mean ± SEM. Microscopy images of invading cells (C; left panel) , quantification (C; right panel) . Phase contrast microscopy images showing wound area in siC/si5B-treated OSCC cells at the time of scratch introduction (T = 0 h) & at T = 30 h wound closure (c; top panel) . Quantification of the percentage of wound area covered after 30 hours, normalized to wound area at the time of scratch introduction (c; lower panel) . (E) Representative images of the endothelial HUVEC cells tube formation assay treated with conditioned media from siC- or si5B-transfected OSCC. ImageJ angiogenesis macro software quantified Junctions, segments, and nodes. OSCC cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. (F) The conditioned media for the control and eIF5B-depleted OSCC cells were analyzed for angiogenic biomarkers (lower panel) using EVE Technologies. (G) Representative images of immunoblots quantified probing for eIF5B, p-EGFR, EGFR, p-ERK, ERK, p-NF-kB, NF-kB, HIF1α, VEGFA, and β-actin (internal control). Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001, and ****, p< 0.0001.
    Figure Legend Snippet: BrdU incorporation assay was used to measure cell proliferation. Quantification shows the percentage of BrdU-labeled cells in control (siC) and si5B-treated groups. Data are presented as mean ± SEM; ***p < 0.001. (A) UMSCC-29 (B) BJ-5ta (C) Collagen-based invasion assay was used to evaluate cell invasiveness in control (siC) and si5B-treated groups. Cells were seeded onto collagen matrices and allowed to invade for a defined period (48-72 hours). The number of invading cells was quantified and expressed as the mean ± SEM. Microscopy images of invading cells (C; left panel) , quantification (C; right panel) . Phase contrast microscopy images showing wound area in siC/si5B-treated OSCC cells at the time of scratch introduction (T = 0 h) & at T = 30 h wound closure (c; top panel) . Quantification of the percentage of wound area covered after 30 hours, normalized to wound area at the time of scratch introduction (c; lower panel) . (E) Representative images of the endothelial HUVEC cells tube formation assay treated with conditioned media from siC- or si5B-transfected OSCC. ImageJ angiogenesis macro software quantified Junctions, segments, and nodes. OSCC cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. (F) The conditioned media for the control and eIF5B-depleted OSCC cells were analyzed for angiogenic biomarkers (lower panel) using EVE Technologies. (G) Representative images of immunoblots quantified probing for eIF5B, p-EGFR, EGFR, p-ERK, ERK, p-NF-kB, NF-kB, HIF1α, VEGFA, and β-actin (internal control). Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001, and ****, p< 0.0001.

    Techniques Used: BrdU Incorporation Assay, Labeling, Control, Invasion Assay, Microscopy, Tube Formation Assay, Transfection, Software, Incubation, Western Blot

    BJ-5ta cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. TRAIL (100 ng/mL) treatment was performed for 4 hours, then the media was collected. The conditioned media for the control and eIF5B-depleted BT5Ta cells were analyzed for angiogenic biomarkers using EVE Technologies. The level of distinct angiogenic biomarkers was decreased in the spent media of eIF5B-depleted BJ-5ta cells. Data are expressed as mean ± SEM for three biological replicates. Statistical significance is indicated as *, p < 0.05; **, p < 0.01; ***, p < 0.001; ****, p < 0.0001.
    Figure Legend Snippet: BJ-5ta cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. TRAIL (100 ng/mL) treatment was performed for 4 hours, then the media was collected. The conditioned media for the control and eIF5B-depleted BT5Ta cells were analyzed for angiogenic biomarkers using EVE Technologies. The level of distinct angiogenic biomarkers was decreased in the spent media of eIF5B-depleted BJ-5ta cells. Data are expressed as mean ± SEM for three biological replicates. Statistical significance is indicated as *, p < 0.05; **, p < 0.01; ***, p < 0.001; ****, p < 0.0001.

    Techniques Used: Transfection, Control, Incubation



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    BJ-5ta cells were transfected with either a non-specific control siRNA (siC) or an eIF5B-specific siRNA pool (si-eIF5B). (A) Following 24 h of transfection, cells were treated with either vehicle control or TRAIL (100 ng/mL). Cell viability was assessed after an additional 72 h using alamarBlue TM assays. (B) Annexin V and 7-AAD staining and flow cytometric analysis of transfected cells. The top two panels, siC and siC + TRAIL, the bottom two panels, si5B and si5B + TRAIL, were harvested at 96 h post-transfection and treated with Annexin V + 7AAD. Contour plots are divided into quadrants Live (lower left; cells staining negative for both 7-AAD and annexin V), Q1 (upper left; cells staining positive for 7-AAD but negative for annexin V), Early apoptosis (lower right; staining annexin V positive and 7-AAD negative), and Late apoptosis (upper right; staining positive for both 7-AAD and annexin V). (C) Representative immunoblots probing for eIF5B, XIAP, Bcl-xL, cIAP1, cFLIPs, DR 4, DR 5, and β-actin (internal control) are shown. ( D) Control and eIF5B-depleted BJ-5ta cells were treated with the 4EGI-1 inhibitor to inhibit cap-dependent translation. Levels of XIAP were monitored under control and the 4EGI-1 treatment conditions. (E) eIF5B-bound RNA immunoprecipitations (RIPs) followed by qRT-PCR measurements of input-normalized tRNAiMet levels from BJ-5ta vs UMSCC-29. Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001.

    Journal: bioRxiv

    Article Title: Eukaryotic Initiation Factor 5B (eIF5B)-Driven Translational Control Impacts Oral Squamous Cell Carcinoma Pathophysiology

    doi: 10.64898/2026.01.30.702967

    Figure Lengend Snippet: BJ-5ta cells were transfected with either a non-specific control siRNA (siC) or an eIF5B-specific siRNA pool (si-eIF5B). (A) Following 24 h of transfection, cells were treated with either vehicle control or TRAIL (100 ng/mL). Cell viability was assessed after an additional 72 h using alamarBlue TM assays. (B) Annexin V and 7-AAD staining and flow cytometric analysis of transfected cells. The top two panels, siC and siC + TRAIL, the bottom two panels, si5B and si5B + TRAIL, were harvested at 96 h post-transfection and treated with Annexin V + 7AAD. Contour plots are divided into quadrants Live (lower left; cells staining negative for both 7-AAD and annexin V), Q1 (upper left; cells staining positive for 7-AAD but negative for annexin V), Early apoptosis (lower right; staining annexin V positive and 7-AAD negative), and Late apoptosis (upper right; staining positive for both 7-AAD and annexin V). (C) Representative immunoblots probing for eIF5B, XIAP, Bcl-xL, cIAP1, cFLIPs, DR 4, DR 5, and β-actin (internal control) are shown. ( D) Control and eIF5B-depleted BJ-5ta cells were treated with the 4EGI-1 inhibitor to inhibit cap-dependent translation. Levels of XIAP were monitored under control and the 4EGI-1 treatment conditions. (E) eIF5B-bound RNA immunoprecipitations (RIPs) followed by qRT-PCR measurements of input-normalized tRNAiMet levels from BJ-5ta vs UMSCC-29. Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001.

    Article Snippet: CAL-33 and BJ-5ta (immortalized fibroblast) cell lines were obtained from American Type Culture Collection (ATCC; Virginia, USA), and UMSCC-1 and UMSCC-29 were obtained from the University of Michigan (Michigan, USA).

    Techniques: Transfection, Control, Staining, Western Blot, Quantitative RT-PCR

    BrdU incorporation assay was used to measure cell proliferation. Quantification shows the percentage of BrdU-labeled cells in control (siC) and si5B-treated groups. Data are presented as mean ± SEM; ***p < 0.001. (A) UMSCC-29 (B) BJ-5ta (C) Collagen-based invasion assay was used to evaluate cell invasiveness in control (siC) and si5B-treated groups. Cells were seeded onto collagen matrices and allowed to invade for a defined period (48-72 hours). The number of invading cells was quantified and expressed as the mean ± SEM. Microscopy images of invading cells (C; left panel) , quantification (C; right panel) . Phase contrast microscopy images showing wound area in siC/si5B-treated OSCC cells at the time of scratch introduction (T = 0 h) & at T = 30 h wound closure (c; top panel) . Quantification of the percentage of wound area covered after 30 hours, normalized to wound area at the time of scratch introduction (c; lower panel) . (E) Representative images of the endothelial HUVEC cells tube formation assay treated with conditioned media from siC- or si5B-transfected OSCC. ImageJ angiogenesis macro software quantified Junctions, segments, and nodes. OSCC cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. (F) The conditioned media for the control and eIF5B-depleted OSCC cells were analyzed for angiogenic biomarkers (lower panel) using EVE Technologies. (G) Representative images of immunoblots quantified probing for eIF5B, p-EGFR, EGFR, p-ERK, ERK, p-NF-kB, NF-kB, HIF1α, VEGFA, and β-actin (internal control). Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001, and ****, p< 0.0001.

    Journal: bioRxiv

    Article Title: Eukaryotic Initiation Factor 5B (eIF5B)-Driven Translational Control Impacts Oral Squamous Cell Carcinoma Pathophysiology

    doi: 10.64898/2026.01.30.702967

    Figure Lengend Snippet: BrdU incorporation assay was used to measure cell proliferation. Quantification shows the percentage of BrdU-labeled cells in control (siC) and si5B-treated groups. Data are presented as mean ± SEM; ***p < 0.001. (A) UMSCC-29 (B) BJ-5ta (C) Collagen-based invasion assay was used to evaluate cell invasiveness in control (siC) and si5B-treated groups. Cells were seeded onto collagen matrices and allowed to invade for a defined period (48-72 hours). The number of invading cells was quantified and expressed as the mean ± SEM. Microscopy images of invading cells (C; left panel) , quantification (C; right panel) . Phase contrast microscopy images showing wound area in siC/si5B-treated OSCC cells at the time of scratch introduction (T = 0 h) & at T = 30 h wound closure (c; top panel) . Quantification of the percentage of wound area covered after 30 hours, normalized to wound area at the time of scratch introduction (c; lower panel) . (E) Representative images of the endothelial HUVEC cells tube formation assay treated with conditioned media from siC- or si5B-transfected OSCC. ImageJ angiogenesis macro software quantified Junctions, segments, and nodes. OSCC cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. (F) The conditioned media for the control and eIF5B-depleted OSCC cells were analyzed for angiogenic biomarkers (lower panel) using EVE Technologies. (G) Representative images of immunoblots quantified probing for eIF5B, p-EGFR, EGFR, p-ERK, ERK, p-NF-kB, NF-kB, HIF1α, VEGFA, and β-actin (internal control). Data are presented as mean ± SEM from three independent biological replicates, with statistical significance indicated as follows: *, p < 0.05; **, p < 0.01; ***, p < 0.001, and ****, p< 0.0001.

    Article Snippet: CAL-33 and BJ-5ta (immortalized fibroblast) cell lines were obtained from American Type Culture Collection (ATCC; Virginia, USA), and UMSCC-1 and UMSCC-29 were obtained from the University of Michigan (Michigan, USA).

    Techniques: BrdU Incorporation Assay, Labeling, Control, Invasion Assay, Microscopy, Tube Formation Assay, Transfection, Software, Incubation, Western Blot

    BJ-5ta cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. TRAIL (100 ng/mL) treatment was performed for 4 hours, then the media was collected. The conditioned media for the control and eIF5B-depleted BT5Ta cells were analyzed for angiogenic biomarkers using EVE Technologies. The level of distinct angiogenic biomarkers was decreased in the spent media of eIF5B-depleted BJ-5ta cells. Data are expressed as mean ± SEM for three biological replicates. Statistical significance is indicated as *, p < 0.05; **, p < 0.01; ***, p < 0.001; ****, p < 0.0001.

    Journal: bioRxiv

    Article Title: Eukaryotic Initiation Factor 5B (eIF5B)-Driven Translational Control Impacts Oral Squamous Cell Carcinoma Pathophysiology

    doi: 10.64898/2026.01.30.702967

    Figure Lengend Snippet: BJ-5ta cells were transfected with either control siRNA (siC) or eIF5B-specific siRNA (si5B) and incubated for 96 hours. TRAIL (100 ng/mL) treatment was performed for 4 hours, then the media was collected. The conditioned media for the control and eIF5B-depleted BT5Ta cells were analyzed for angiogenic biomarkers using EVE Technologies. The level of distinct angiogenic biomarkers was decreased in the spent media of eIF5B-depleted BJ-5ta cells. Data are expressed as mean ± SEM for three biological replicates. Statistical significance is indicated as *, p < 0.05; **, p < 0.01; ***, p < 0.001; ****, p < 0.0001.

    Article Snippet: CAL-33 and BJ-5ta (immortalized fibroblast) cell lines were obtained from American Type Culture Collection (ATCC; Virginia, USA), and UMSCC-1 and UMSCC-29 were obtained from the University of Michigan (Michigan, USA).

    Techniques: Transfection, Control, Incubation

    (A) The schematic representation illustrating the DiCre-LoxP system used to conditionally deplete TgVPS13A. (B) PCR analysis confirming the N-terminal recombination of TgVPS13A involving the two LoxP sites. (C) IFA analysis showing the expression of TgVPS13A in parasites cultured with or without rapamycin (Rapa) for 96 h. (D) Plaque assays were conducted by infecting BJ-5ta cells with the specified parasites for 9 days, either in the presence or absence of Rapa. (E) Replication of the indicated parasites in host cells was assessed after 96 h of culture with or without Rapa. The average number of parasites per vacuole was calculated, and the data were analyzed using a two-way ANOVA, revealing statistical significance (****P < 0.0001). (F) IFA analysis of IMC biogenesis involved staining for TgIMC29 and TgGAPM3. The abnormal and normal PVs were counted from TgGAPM3. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. Schematic diagram of the assembly of early buds of daughter IMCs in TgVPS13A-deficient parasites. (G) Transmission electron microscopy analysis of daughter parasites treated with and without Rapa for 96 h was performed. In the images, ‘N’ indicates the nucleus. (H) IFA analysis of the IMC-associated cytoskeleton by examining the localization of TgIMC1 and Tgtubulin in TgVPS13A-deficient parasites. The abnormal and normal PVs were counted from H. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. (I) A schematic model of the IMC biogenesis and daughter cell budding in TgVPS13A-delepleted parasites. PL indicates Phospholipid. Green: rabbit anti-HA antibody, rabbit anti-TgIMC1 polyclonal antibodies, rabbit anti-TgTubulin polyclonal antibodies, and EGFP signal; Magenta: rabbit and mouse anti-TgSAG2 polyclonal antibodies; Blue: DAPI. Scale bars represent 2 µm.

    Journal: bioRxiv

    Article Title: An ER–Inner Membrane Complex Bridge via TgVAP-TgVPS13A-TgDAT1 Drives Daughter Budding in Toxoplasma gondii

    doi: 10.64898/2026.01.02.697355

    Figure Lengend Snippet: (A) The schematic representation illustrating the DiCre-LoxP system used to conditionally deplete TgVPS13A. (B) PCR analysis confirming the N-terminal recombination of TgVPS13A involving the two LoxP sites. (C) IFA analysis showing the expression of TgVPS13A in parasites cultured with or without rapamycin (Rapa) for 96 h. (D) Plaque assays were conducted by infecting BJ-5ta cells with the specified parasites for 9 days, either in the presence or absence of Rapa. (E) Replication of the indicated parasites in host cells was assessed after 96 h of culture with or without Rapa. The average number of parasites per vacuole was calculated, and the data were analyzed using a two-way ANOVA, revealing statistical significance (****P < 0.0001). (F) IFA analysis of IMC biogenesis involved staining for TgIMC29 and TgGAPM3. The abnormal and normal PVs were counted from TgGAPM3. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. Schematic diagram of the assembly of early buds of daughter IMCs in TgVPS13A-deficient parasites. (G) Transmission electron microscopy analysis of daughter parasites treated with and without Rapa for 96 h was performed. In the images, ‘N’ indicates the nucleus. (H) IFA analysis of the IMC-associated cytoskeleton by examining the localization of TgIMC1 and Tgtubulin in TgVPS13A-deficient parasites. The abnormal and normal PVs were counted from H. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. (I) A schematic model of the IMC biogenesis and daughter cell budding in TgVPS13A-delepleted parasites. PL indicates Phospholipid. Green: rabbit anti-HA antibody, rabbit anti-TgIMC1 polyclonal antibodies, rabbit anti-TgTubulin polyclonal antibodies, and EGFP signal; Magenta: rabbit and mouse anti-TgSAG2 polyclonal antibodies; Blue: DAPI. Scale bars represent 2 µm.

    Article Snippet: The hTERT-immortalized HFF cell line BJ-5ta (ATCC CRL-4001) was grown in Dulbecco’s Modified Eagle’s Medium (DMEM, Sigma-Aldrich, D6429) supplemented with 10% fetal bovine serum (CLARK, FB25015), 20% (v/v) Medium 199 basic (gibco, C11150500BT), and 1% penicillin/streptavidin.

    Techniques: Expressing, Cell Culture, Staining, Transmission Assay, Electron Microscopy

    (A) IFA was performed to examine the colocalization of TgVAP with TgVPS13A-N 1-1392 before and after division. The parasites were transfected with a plasmid expressing TgTgVPS13A-N1-1392-SmFP-Myc, under the control of the native promoter. (B) Co-IP was performed using 3×FLAG-tagged TgVAP and 3×HA-tagged TgVPS13A-N928-1392aa. Cells were transiently transfected with plasmids expressing 3×FLAG-tagged TgVAP and 3×HA-tagged TgVPS13A-N928-1392aa. The resulting cell lysates were subjected to immunoprecipitation and then blotted with anti-FLAG and anti-HA antibodies. (C) A schematic diagram of inserting a 6×HA-AID* tag at the N-terminal of TgVAP. (D) PCR identification of the 6×HA-AID* tag inserted at the N-terminal of TgVAP. (E) The expression of TgVAP was examined using western blot analysis. The parasites were cultured in the presence of IAA for 24 h in BJ-5ta cells and then subjected to the analysis. WT refers to the wild type. TgVAP expression was detected using anti-HA antibodies. (F) IFA analysis of TgVAP expression in parasites with and without IAA treatment for 24 h. (G) Plaque assays were conducted by infecting BJ-5ta cells with the parasites for 9 days, both in the presence and absence of IAA. (H) The parasites were cultured with or without IAA for 48 h to assess the biogenesis of the IMC in daughter cells, using TgIMC29 for staining. The EGFP tag was inserted at the C-terminus of TgIMC29 in the parasites. (I) IFA analysis showing the impact of TgIMC1 and Tgtubulin in TgVAP-deficient parasites with and without IAA treatment for 48 h. (J) A schematic diagram of the effect of TgVAP on IMC biogenesis. Magenta: rabbit anti-HA antibody, mouse and rabbit anti-TgSAG2 polyclonal antibodies; Green: rabbit anti-HA antibody, mouse anti-Myc antibody, rabbit anti-TgTubulin polyclonal antibodies, EGFP signal and anti-TgIMC1 polyclonal antibodies. Scale bars measure 2 μm in the merged panels and 0.2 μm in the zoomed-in panels.

    Journal: bioRxiv

    Article Title: An ER–Inner Membrane Complex Bridge via TgVAP-TgVPS13A-TgDAT1 Drives Daughter Budding in Toxoplasma gondii

    doi: 10.64898/2026.01.02.697355

    Figure Lengend Snippet: (A) IFA was performed to examine the colocalization of TgVAP with TgVPS13A-N 1-1392 before and after division. The parasites were transfected with a plasmid expressing TgTgVPS13A-N1-1392-SmFP-Myc, under the control of the native promoter. (B) Co-IP was performed using 3×FLAG-tagged TgVAP and 3×HA-tagged TgVPS13A-N928-1392aa. Cells were transiently transfected with plasmids expressing 3×FLAG-tagged TgVAP and 3×HA-tagged TgVPS13A-N928-1392aa. The resulting cell lysates were subjected to immunoprecipitation and then blotted with anti-FLAG and anti-HA antibodies. (C) A schematic diagram of inserting a 6×HA-AID* tag at the N-terminal of TgVAP. (D) PCR identification of the 6×HA-AID* tag inserted at the N-terminal of TgVAP. (E) The expression of TgVAP was examined using western blot analysis. The parasites were cultured in the presence of IAA for 24 h in BJ-5ta cells and then subjected to the analysis. WT refers to the wild type. TgVAP expression was detected using anti-HA antibodies. (F) IFA analysis of TgVAP expression in parasites with and without IAA treatment for 24 h. (G) Plaque assays were conducted by infecting BJ-5ta cells with the parasites for 9 days, both in the presence and absence of IAA. (H) The parasites were cultured with or without IAA for 48 h to assess the biogenesis of the IMC in daughter cells, using TgIMC29 for staining. The EGFP tag was inserted at the C-terminus of TgIMC29 in the parasites. (I) IFA analysis showing the impact of TgIMC1 and Tgtubulin in TgVAP-deficient parasites with and without IAA treatment for 48 h. (J) A schematic diagram of the effect of TgVAP on IMC biogenesis. Magenta: rabbit anti-HA antibody, mouse and rabbit anti-TgSAG2 polyclonal antibodies; Green: rabbit anti-HA antibody, mouse anti-Myc antibody, rabbit anti-TgTubulin polyclonal antibodies, EGFP signal and anti-TgIMC1 polyclonal antibodies. Scale bars measure 2 μm in the merged panels and 0.2 μm in the zoomed-in panels.

    Article Snippet: The hTERT-immortalized HFF cell line BJ-5ta (ATCC CRL-4001) was grown in Dulbecco’s Modified Eagle’s Medium (DMEM, Sigma-Aldrich, D6429) supplemented with 10% fetal bovine serum (CLARK, FB25015), 20% (v/v) Medium 199 basic (gibco, C11150500BT), and 1% penicillin/streptavidin.

    Techniques: Transfection, Plasmid Preparation, Expressing, Control, Co-Immunoprecipitation Assay, Immunoprecipitation, Western Blot, Cell Culture, Staining

    (A) PCR identification of the 12×HA-AID* tag inserted at the N-terminal of TgDAT1. (B) Expression of TgDAT1 was examined using western blot analysis. The parasites were cultured in the presence of IAA for 24 h in BJ-5ta cells and then subjected to the analysis. WT refers to the wild type. TgDAT1 expression was detected using anti-HA antibodies. (C) Plaque assays were performed by infecting BJ-5ta cells with the parasites for 9 days in the presence or absence of IAA. (D) The biogenesis of the daughter IMC was investigated by examining the localization of TgIMC29 and TgGAPM3 in TgDAT1-deficient parasites. An EGFP tag or a mCherry tag was inserted at the C-terminal of TgIMC29 or TgGAPM3 in the 12×HA-AID*-TgDAT1 cell line respctively. Parasites were treated with IAA for 48 h. The abnormal and normal PVs were counted from TgGAPM3. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. Schematic diagram of the assembly of early buds of daughter IMCs in the TgDAT1-KO parssites. (E) IFA analysis showing the assembly of TgTubulin in TgDAT1-deficient parasites. The abnormal and normal PVs were counted. The data were analyzed for statistical significance by the unpaired t-test; ns. (F) The biogenesis of the early IMC was investigated by staining with localization of TgAC9 in TgDAT1-deletion strain. Parasites were transfected with plasmids expressing TgAC9-3×MYC under the control of the the GRA1 promoter. The abnormal and normal PVs were counted. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. (G) A model of TgDAT1 and the potential sites of salt bridges predicted by AlphaFold and Chimera. (H) IFA analysis showing the localization of TgDAT1 mutants at the IMC. Parasites were transfected with plasmids expressing mutated versions of TgDAT1-SmFP-MYC under the control of the native promoter, and those stably expressing these mutants were selected using pyrimethamine. (I) Plaque assays were performed by infecting BJ-5ta cells with TgDAT1 mutants and wild-type parasites for 8 days, both in the presence and absence of IAA. (J) IFA showing the localization of TgGAPM3 in salt-bridge mutants of TgDAT1. An endogenous mCherry tag was inserted into the C-terminus of TgGAPM3 in parasites. The abnormal and normal PVs were counted. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. (K) A model indicating abnormal IMC biogenesis in TgDAT1-deficient parasites. Magenta: rabbit anti-TgSAG2 polyclonal antibodies, mCherry, rabbit anti-HA; Green: EGFP signal, rabbit anti-TgSAG2, rabbit anti-TgTubulin polyclonal antibodies, and mouse anti-MYC; Blue: DAPI. Scale bars: 2 μm.

    Journal: bioRxiv

    Article Title: An ER–Inner Membrane Complex Bridge via TgVAP-TgVPS13A-TgDAT1 Drives Daughter Budding in Toxoplasma gondii

    doi: 10.64898/2026.01.02.697355

    Figure Lengend Snippet: (A) PCR identification of the 12×HA-AID* tag inserted at the N-terminal of TgDAT1. (B) Expression of TgDAT1 was examined using western blot analysis. The parasites were cultured in the presence of IAA for 24 h in BJ-5ta cells and then subjected to the analysis. WT refers to the wild type. TgDAT1 expression was detected using anti-HA antibodies. (C) Plaque assays were performed by infecting BJ-5ta cells with the parasites for 9 days in the presence or absence of IAA. (D) The biogenesis of the daughter IMC was investigated by examining the localization of TgIMC29 and TgGAPM3 in TgDAT1-deficient parasites. An EGFP tag or a mCherry tag was inserted at the C-terminal of TgIMC29 or TgGAPM3 in the 12×HA-AID*-TgDAT1 cell line respctively. Parasites were treated with IAA for 48 h. The abnormal and normal PVs were counted from TgGAPM3. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. Schematic diagram of the assembly of early buds of daughter IMCs in the TgDAT1-KO parssites. (E) IFA analysis showing the assembly of TgTubulin in TgDAT1-deficient parasites. The abnormal and normal PVs were counted. The data were analyzed for statistical significance by the unpaired t-test; ns. (F) The biogenesis of the early IMC was investigated by staining with localization of TgAC9 in TgDAT1-deletion strain. Parasites were transfected with plasmids expressing TgAC9-3×MYC under the control of the the GRA1 promoter. The abnormal and normal PVs were counted. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. (G) A model of TgDAT1 and the potential sites of salt bridges predicted by AlphaFold and Chimera. (H) IFA analysis showing the localization of TgDAT1 mutants at the IMC. Parasites were transfected with plasmids expressing mutated versions of TgDAT1-SmFP-MYC under the control of the native promoter, and those stably expressing these mutants were selected using pyrimethamine. (I) Plaque assays were performed by infecting BJ-5ta cells with TgDAT1 mutants and wild-type parasites for 8 days, both in the presence and absence of IAA. (J) IFA showing the localization of TgGAPM3 in salt-bridge mutants of TgDAT1. An endogenous mCherry tag was inserted into the C-terminus of TgGAPM3 in parasites. The abnormal and normal PVs were counted. The data were analyzed for statistical significance by the unpaired t-test; ****P<0.0001. (K) A model indicating abnormal IMC biogenesis in TgDAT1-deficient parasites. Magenta: rabbit anti-TgSAG2 polyclonal antibodies, mCherry, rabbit anti-HA; Green: EGFP signal, rabbit anti-TgSAG2, rabbit anti-TgTubulin polyclonal antibodies, and mouse anti-MYC; Blue: DAPI. Scale bars: 2 μm.

    Article Snippet: The hTERT-immortalized HFF cell line BJ-5ta (ATCC CRL-4001) was grown in Dulbecco’s Modified Eagle’s Medium (DMEM, Sigma-Aldrich, D6429) supplemented with 10% fetal bovine serum (CLARK, FB25015), 20% (v/v) Medium 199 basic (gibco, C11150500BT), and 1% penicillin/streptavidin.

    Techniques: Expressing, Western Blot, Cell Culture, Staining, Transfection, Control, Stable Transfection