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mbp mcherry expression plasmid  (Addgene inc)


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    Addgene inc mbp mcherry expression plasmid
    Hypothesis and experiment system (A) We hypothesize that vertical and horizontal gene transfer (VGT and HGT) are influenced by the characteristics of the potential recipient cell types and determine the proliferation and diversity of transconjugant cells. Because the potential recipient community comprises multiple cell types with varying growth traits and conjugation probabilities, we expect the resulting composition of transconjugant cells to be shaped by these cell type-specific traits. (B) Our experimental system consists of E . coli MG1655 lacI q <t>-pLpp-mCherry</t> as the plasmid donor strain and pB10 as the focal plasmid. pB10 donor cells express RFP from the chromosome and transconjugants express GFP from pB10.
    Mbp Mcherry Expression Plasmid, supplied by Addgene inc, 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/mbp mcherry expression plasmid/product/Addgene inc
    Average 93 stars, based on 1 article reviews
    mbp mcherry expression plasmid - by Bioz Stars, 2026-04
    93/100 stars

    Images

    1) Product Images from "Horizontal and vertical gene transfer shape the plasmid host range in surface-associated microbial systems"

    Article Title: Horizontal and vertical gene transfer shape the plasmid host range in surface-associated microbial systems

    Journal: iScience

    doi: 10.1016/j.isci.2026.115299

    Hypothesis and experiment system (A) We hypothesize that vertical and horizontal gene transfer (VGT and HGT) are influenced by the characteristics of the potential recipient cell types and determine the proliferation and diversity of transconjugant cells. Because the potential recipient community comprises multiple cell types with varying growth traits and conjugation probabilities, we expect the resulting composition of transconjugant cells to be shaped by these cell type-specific traits. (B) Our experimental system consists of E . coli MG1655 lacI q -pLpp-mCherry as the plasmid donor strain and pB10 as the focal plasmid. pB10 donor cells express RFP from the chromosome and transconjugants express GFP from pB10.
    Figure Legend Snippet: Hypothesis and experiment system (A) We hypothesize that vertical and horizontal gene transfer (VGT and HGT) are influenced by the characteristics of the potential recipient cell types and determine the proliferation and diversity of transconjugant cells. Because the potential recipient community comprises multiple cell types with varying growth traits and conjugation probabilities, we expect the resulting composition of transconjugant cells to be shaped by these cell type-specific traits. (B) Our experimental system consists of E . coli MG1655 lacI q -pLpp-mCherry as the plasmid donor strain and pB10 as the focal plasmid. pB10 donor cells express RFP from the chromosome and transconjugants express GFP from pB10.

    Techniques Used: Conjugation Assay, Plasmid Preparation

    Transconjugant proportions and diversities after surface-associated conjugation assays for different environmental conditions (A) Proportion of transconjugant cells relative to total cells after surface-associated conjugation assays using the WWTP community as the potential recipient cell population. We conducted conjugation assays on 1×SWW, 10×SWW, or LB agar plates using E . coli MG1655 lacI q -pLpp-mCherry as the pB10 donor strain. (B) Relative abundances of bacterial class in the total potential recipient cell population (T) and the transconjugant cell population (TC) as identified by 16S rRNA gene sequencing. We separated and identified TC cells using FC-FACS-sorting of GFP-positive cells. (C) Normalized Shannon index of the transconjugant populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. We normalized the Shannon index of the TC populations to their corresponding T populations. (D) Principal coordinate analysis (PCoA) based on weighted UniFrac distances of T and TC populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. (E) Phylogenetic tree of transconjugant ASVs detected after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. The outer colored box denotes the bacterial phylum of each ASV, corresponding to the phylum-level groupings shown in panel (B). The inner heatmap box aligned with each tip shows the log 10 fold-changes in ASV abundance (TC relative to T) across the three conditions. For (A and C), each point is an independent biological replicate ( n = 3), horizontal bars are the means, error bars are ±1 standard deviation, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗ p < 0.001, ∗∗∗∗ p < 0.0001, ns = not significant). For (D), each point is an independent biological replicate ( n = 3).
    Figure Legend Snippet: Transconjugant proportions and diversities after surface-associated conjugation assays for different environmental conditions (A) Proportion of transconjugant cells relative to total cells after surface-associated conjugation assays using the WWTP community as the potential recipient cell population. We conducted conjugation assays on 1×SWW, 10×SWW, or LB agar plates using E . coli MG1655 lacI q -pLpp-mCherry as the pB10 donor strain. (B) Relative abundances of bacterial class in the total potential recipient cell population (T) and the transconjugant cell population (TC) as identified by 16S rRNA gene sequencing. We separated and identified TC cells using FC-FACS-sorting of GFP-positive cells. (C) Normalized Shannon index of the transconjugant populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. We normalized the Shannon index of the TC populations to their corresponding T populations. (D) Principal coordinate analysis (PCoA) based on weighted UniFrac distances of T and TC populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. (E) Phylogenetic tree of transconjugant ASVs detected after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. The outer colored box denotes the bacterial phylum of each ASV, corresponding to the phylum-level groupings shown in panel (B). The inner heatmap box aligned with each tip shows the log 10 fold-changes in ASV abundance (TC relative to T) across the three conditions. For (A and C), each point is an independent biological replicate ( n = 3), horizontal bars are the means, error bars are ±1 standard deviation, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗ p < 0.001, ∗∗∗∗ p < 0.0001, ns = not significant). For (D), each point is an independent biological replicate ( n = 3).

    Techniques Used: Conjugation Assay, Sequencing, Standard Deviation

    Transconjugant growth during surface-associated conjugation assays for different environmental conditions (A) Representative fluorescence microscopy images of transconjugant cells during surface-associated conjugation assays on LB agar plates. E . coli MG1655 lacI q -pLpp-mCherry is the pB10 donor strain and show red fluorescence. Transconjugant cells are green. The time indicated in the images refers to the point at which transconjugant cells first became detectable. (B) Normalized microcolony area ( A / a 0 ) plotted as a function of time during the surface-associated conjugation assays on LB agar plates. A is the total microcolony area and a 0 is the initial transconjugant area. Connected data points are for individual colonies ( n = 12). (C) Microcolony area at the endpoint of the mating assay (t = 24 h) for different environmental conditions. The half-violin and scatterplots present the sample distribution and individual microcolony measurements for surface-associated conjugation assays on different medium (n 1xSWW = 880, n 10xSWW = 664, n LB = 1,070, for microcolony number). We performed each experiment at least three independent experiments. Horizontal bars are the mean microcolony areas, error bars are the 99% confidence intervals, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗∗ p < 0.0001, ns = not significant).
    Figure Legend Snippet: Transconjugant growth during surface-associated conjugation assays for different environmental conditions (A) Representative fluorescence microscopy images of transconjugant cells during surface-associated conjugation assays on LB agar plates. E . coli MG1655 lacI q -pLpp-mCherry is the pB10 donor strain and show red fluorescence. Transconjugant cells are green. The time indicated in the images refers to the point at which transconjugant cells first became detectable. (B) Normalized microcolony area ( A / a 0 ) plotted as a function of time during the surface-associated conjugation assays on LB agar plates. A is the total microcolony area and a 0 is the initial transconjugant area. Connected data points are for individual colonies ( n = 12). (C) Microcolony area at the endpoint of the mating assay (t = 24 h) for different environmental conditions. The half-violin and scatterplots present the sample distribution and individual microcolony measurements for surface-associated conjugation assays on different medium (n 1xSWW = 880, n 10xSWW = 664, n LB = 1,070, for microcolony number). We performed each experiment at least three independent experiments. Horizontal bars are the mean microcolony areas, error bars are the 99% confidence intervals, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗∗ p < 0.0001, ns = not significant).

    Techniques Used: Conjugation Assay, Fluorescence, Microscopy



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    Image Search Results


    A. IHC staining for WEE1 in Human EAC tissue sections depicting strong cytosolic localization B. Quantification of the Cytoplasmic and Nuclear Signals from A using Cell Profiler C. Cell fractionation of FLO1 and OE33 EAC cell lines followed by western blot for WEE1, p84 (Nuclear marker) and ὰ-Tubulin (Cytoplasmic marker) D- Co-Immunofluorescence of WEE1 (green) and C-MYC (Red) along with DAPI nuclear stain (Blue) in EAC cell lines FLO1 and OE33, captured at 40X Magnification.E.MYC mRNA expression in WEE1 high Vs WEE1 low EAC tissue samples derived from TCGA and 4 different GEO datasets. F. Gene Set Enrichment Analysis (GSEA) of MYC target genes in WEE1 high Vs WEE1 low EAC samples G. WEE1 mRNA expression in non-cancerous normal esophagus (Normal) and Esophageal cancer (Tumor) tissue samples, analyzed by TNM plot.com . *P<0.05, **P<0.01, ***P<0.001, ****P<0.0001. H. MYC mRNA expression in non-cancerous normal esophagus (Normal) and Esophageal cancer (Tumor) tissue samples, analyzed by TNM plot.com . I. Co-Immunofluorescence of WEE1 (green) and C-MYC (Red) along with DAPI nuclear stain (blue) in normal esophagus and gastroesophageal adenocarcinoma tissue sections in TMA, captured at 20x magnification. J- Quantification of fluorescence intensity from I K – Correlation analysis between WEE1 and MYC signal intensity

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. IHC staining for WEE1 in Human EAC tissue sections depicting strong cytosolic localization B. Quantification of the Cytoplasmic and Nuclear Signals from A using Cell Profiler C. Cell fractionation of FLO1 and OE33 EAC cell lines followed by western blot for WEE1, p84 (Nuclear marker) and ὰ-Tubulin (Cytoplasmic marker) D- Co-Immunofluorescence of WEE1 (green) and C-MYC (Red) along with DAPI nuclear stain (Blue) in EAC cell lines FLO1 and OE33, captured at 40X Magnification.E.MYC mRNA expression in WEE1 high Vs WEE1 low EAC tissue samples derived from TCGA and 4 different GEO datasets. F. Gene Set Enrichment Analysis (GSEA) of MYC target genes in WEE1 high Vs WEE1 low EAC samples G. WEE1 mRNA expression in non-cancerous normal esophagus (Normal) and Esophageal cancer (Tumor) tissue samples, analyzed by TNM plot.com . *P<0.05, **P<0.01, ***P<0.001, ****P<0.0001. H. MYC mRNA expression in non-cancerous normal esophagus (Normal) and Esophageal cancer (Tumor) tissue samples, analyzed by TNM plot.com . I. Co-Immunofluorescence of WEE1 (green) and C-MYC (Red) along with DAPI nuclear stain (blue) in normal esophagus and gastroesophageal adenocarcinoma tissue sections in TMA, captured at 20x magnification. J- Quantification of fluorescence intensity from I K – Correlation analysis between WEE1 and MYC signal intensity

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: Immunohistochemistry, Cell Fractionation, Western Blot, Marker, Immunofluorescence, Staining, Expressing, Derivative Assay, Fluorescence

    A. Western blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC, and β-ACTIN in OE33, OE19, and SK-GT4 cells treated with Control siRNA and WEE1 siRNA for 48 hours. B.Cell cycle analysis of the OE19 cell line treated with Control siRNA and WEE1 siRNA for 48 hours. C.Quantification of cell population in various phases of the cell cycle from B. D.Luciferase reporter assay to determine MYC transcriptional activity in Control siRNA and WEE1 siRNA treated OE33, OE19, and SK-GT4 cells, previously transfected with control plasmid/ C-MYC overexpressing plasmid *P<0.05, **P<0.01, *** P<0.001. E. qRT-PCR analysis of MYC target genes – ABCC1, MNT & CDK4 mRNA normalized to HPRT1 gene in Control siRNA and WEE1 siRNA treated OE33 and OE19 cells *P<0.05, **P<0.01, ***P<0.001. F. Co-Immunofluorescence staining of WEE1 (green), C-MYC (Red), along with DAPI nuclear stain (blue) in SK-GT4 and OE33 cell lines transfected with Control siRNA and WEE1 siRNA, captured at 20X magnification. G. Downregulation of C-MYC target genes in WEE1 siRNA-treated OE33 cells vs. control siRNA-treated cells, from RNA sequencing analysis.

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. Western blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC, and β-ACTIN in OE33, OE19, and SK-GT4 cells treated with Control siRNA and WEE1 siRNA for 48 hours. B.Cell cycle analysis of the OE19 cell line treated with Control siRNA and WEE1 siRNA for 48 hours. C.Quantification of cell population in various phases of the cell cycle from B. D.Luciferase reporter assay to determine MYC transcriptional activity in Control siRNA and WEE1 siRNA treated OE33, OE19, and SK-GT4 cells, previously transfected with control plasmid/ C-MYC overexpressing plasmid *P<0.05, **P<0.01, *** P<0.001. E. qRT-PCR analysis of MYC target genes – ABCC1, MNT & CDK4 mRNA normalized to HPRT1 gene in Control siRNA and WEE1 siRNA treated OE33 and OE19 cells *P<0.05, **P<0.01, ***P<0.001. F. Co-Immunofluorescence staining of WEE1 (green), C-MYC (Red), along with DAPI nuclear stain (blue) in SK-GT4 and OE33 cell lines transfected with Control siRNA and WEE1 siRNA, captured at 20X magnification. G. Downregulation of C-MYC target genes in WEE1 siRNA-treated OE33 cells vs. control siRNA-treated cells, from RNA sequencing analysis.

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: Knockdown, Western Blot, Control, Cell Cycle Assay, Luciferase, Reporter Assay, Activity Assay, Transfection, Plasmid Preparation, Quantitative RT-PCR, Immunofluorescence, Staining, RNA Sequencing

    A. Western blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC and β-ACTIN in FLO1, OE33, SK-GT4 and OE19 cells untreated/ treated with MK-1775 for 24 hours. B. Cell cycle analysis of the OE19 cell line, untreated / treated with MK-1775 for 24 hours. C. Quantification of cell population in various phases of the cell cycle from B. D. Luciferase reporter assay to determine MYC transcriptional activity in untreated/ MK-1775 treated OE33, OE19, and SK-GT4 cells, previously transfected with control plasmid/ C-MYC overexpressing plasmid *P<0.05, **P<0.01, *** P<0.001. Lower panel – western blot analysis of P-CDC2 Y15, C-MYC & β-ACTIN in the cell lysates from D. E. qRT-PCR analysis of MYC target genes – ABCC1, MNT & CDK4 mRNA normalized to HPRT1 gene in OE33 and OE19 cell lines untreated / treated with MK-1775 for 24 hours *P<0.05, **P<0.01, ***P<0.001. F. Co-Immunofluorescence staining of P-CDC2 (Y15) (green), C-MYC (Red), along with DAPI nuclear stain (blue) in FLO1 and OE33 cell lines, untreated / treated with MK-1775 for 24 hours, captured at 20x Magnification.

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. Western blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC and β-ACTIN in FLO1, OE33, SK-GT4 and OE19 cells untreated/ treated with MK-1775 for 24 hours. B. Cell cycle analysis of the OE19 cell line, untreated / treated with MK-1775 for 24 hours. C. Quantification of cell population in various phases of the cell cycle from B. D. Luciferase reporter assay to determine MYC transcriptional activity in untreated/ MK-1775 treated OE33, OE19, and SK-GT4 cells, previously transfected with control plasmid/ C-MYC overexpressing plasmid *P<0.05, **P<0.01, *** P<0.001. Lower panel – western blot analysis of P-CDC2 Y15, C-MYC & β-ACTIN in the cell lysates from D. E. qRT-PCR analysis of MYC target genes – ABCC1, MNT & CDK4 mRNA normalized to HPRT1 gene in OE33 and OE19 cell lines untreated / treated with MK-1775 for 24 hours *P<0.05, **P<0.01, ***P<0.001. F. Co-Immunofluorescence staining of P-CDC2 (Y15) (green), C-MYC (Red), along with DAPI nuclear stain (blue) in FLO1 and OE33 cell lines, untreated / treated with MK-1775 for 24 hours, captured at 20x Magnification.

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: Inhibition, Activity Assay, Western Blot, Cell Cycle Assay, Luciferase, Reporter Assay, Transfection, Control, Plasmid Preparation, Quantitative RT-PCR, Immunofluorescence, Staining

    A. Western Blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC, and β-ACTIN in OE19, OE33, and SK-GT4 cells treated with MG 132 or MK-1775 alone or in combination. B. Western Blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC, and β-ACTIN in OE19 and OE33 cells treated with siRNA or MG 132 alone or in combination. C. Western blot analysis of WEE1, C-MYC, and β-ACTIN in Cycloheximide-treated (0 min, 10 min, 30 min, & 60 min) OE19, OE33 & SK-GT4 cell lines. These cells were previously untreated (control), or MK-1775 treated for 24 hours. D, E & F. Half-life determination of C-MYC in OE19, OE33, and SK-GT4 cell lines through linear regression analysis. The signal intensity of the C-MYC bands was normalized to the respective β-ACTIN bands and used for quantification.

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. Western Blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC, and β-ACTIN in OE19, OE33, and SK-GT4 cells treated with MG 132 or MK-1775 alone or in combination. B. Western Blot analysis of WEE1, P-CDC2 (Y15), CDC2, C-MYC, and β-ACTIN in OE19 and OE33 cells treated with siRNA or MG 132 alone or in combination. C. Western blot analysis of WEE1, C-MYC, and β-ACTIN in Cycloheximide-treated (0 min, 10 min, 30 min, & 60 min) OE19, OE33 & SK-GT4 cell lines. These cells were previously untreated (control), or MK-1775 treated for 24 hours. D, E & F. Half-life determination of C-MYC in OE19, OE33, and SK-GT4 cell lines through linear regression analysis. The signal intensity of the C-MYC bands was normalized to the respective β-ACTIN bands and used for quantification.

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: Inhibition, Knockdown, Western Blot, Control

    A. Western Blot analysis of P-GSK3β (S9), GSK3β, P-C-MYC T58, C-MYC & β-ACTIN in untreated control as well as MK-1775 (0.5μM & 1μM) treated OE33, SK-GT4 & OE19 cell lines. B. Western Blot analysis of P-GSK3β (S9), GSK3β, P-C-MYC T58, C-MYC & β-ACTIN in control siRNA and WEE1 siRNA treated OE33, SK-GT4 & OE19 cell lines. C. PLA to visualize C-MYC and GSK3β interaction (red spots) in untreated Control & MK-1775 treated OE19, OE33, and SK-GT4 cell lines. Captured at 40X magnification. D. Western blot analysis of WEE1, P-CDC2 Y15, C-MYC, P-GSK3β (S9), GSK3β, and β-ACTIN in empty vector as well as WEE1-CDS vector transfected OE33, SK-GT4, and OE19 cell lines. E. Western blot analysis of WEE1, P-CDC2 Y15, CDC2, C-MYC, and β-ACTIN in empty vector, WEE1-CDS-WT, and WEE1-CDS-K328A kinase dead mutant vector transfected SK-GT4 cells.

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. Western Blot analysis of P-GSK3β (S9), GSK3β, P-C-MYC T58, C-MYC & β-ACTIN in untreated control as well as MK-1775 (0.5μM & 1μM) treated OE33, SK-GT4 & OE19 cell lines. B. Western Blot analysis of P-GSK3β (S9), GSK3β, P-C-MYC T58, C-MYC & β-ACTIN in control siRNA and WEE1 siRNA treated OE33, SK-GT4 & OE19 cell lines. C. PLA to visualize C-MYC and GSK3β interaction (red spots) in untreated Control & MK-1775 treated OE19, OE33, and SK-GT4 cell lines. Captured at 40X magnification. D. Western blot analysis of WEE1, P-CDC2 Y15, C-MYC, P-GSK3β (S9), GSK3β, and β-ACTIN in empty vector as well as WEE1-CDS vector transfected OE33, SK-GT4, and OE19 cell lines. E. Western blot analysis of WEE1, P-CDC2 Y15, CDC2, C-MYC, and β-ACTIN in empty vector, WEE1-CDS-WT, and WEE1-CDS-K328A kinase dead mutant vector transfected SK-GT4 cells.

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: Inhibition, Knockdown, Phospho-proteomics, Western Blot, Control, Plasmid Preparation, Transfection, Mutagenesis

    A. Co-Immunofluorescence staining of MRP1 (Green), MYC (Red), along with DAPI nuclear stain (blue) in Normal non-cancerous esophagus (NE) and Gastroesophageal Junction adenocarcinoma TMA. Captured at 20X Magnification. B. Relative quantification of MRP1 fluorescence intensity and MYC fluorescence intensity in Normal esophagus (NE) and EAC tissue sections. C. Co-relation analysis between MRP1 fluorescence intensity and MYC fluorescence intensity from B. *P<0.05, **P<0.01, ***P<0.001, ****P<0.0001. D. Western blot analysis of C-MYC, MRP1, and β-ACTIN in untreated control and MK-1775-treated OE33, FLO1, and SK-GT4 cell lines. E & F. Rhodamine 123 intracellular fluorescence intensity during influx (red) and after 4 hours of efflux (blue) in control (E) & MK-1775 treated OE33 cells (F) G. Percentage of intracellular Rhodamine 123 retained after efflux in Control and MK-1775 treated OE33 cells * P <0.05, **P<0.01, ***P<0.001. H & I. Rhodamine 123 intracellular fluorescence intensity during influx (red) and after 4 hours of efflux (blue) in control (E) & MK-1775 treated SK-GT4 cells (F) J. Percentage of intracellular Rhodamine 123 retained after efflux in Control and MK-1775 treated SK-GT4 cells *P<0.05, **P<0.01, ***P<0.001.

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. Co-Immunofluorescence staining of MRP1 (Green), MYC (Red), along with DAPI nuclear stain (blue) in Normal non-cancerous esophagus (NE) and Gastroesophageal Junction adenocarcinoma TMA. Captured at 20X Magnification. B. Relative quantification of MRP1 fluorescence intensity and MYC fluorescence intensity in Normal esophagus (NE) and EAC tissue sections. C. Co-relation analysis between MRP1 fluorescence intensity and MYC fluorescence intensity from B. *P<0.05, **P<0.01, ***P<0.001, ****P<0.0001. D. Western blot analysis of C-MYC, MRP1, and β-ACTIN in untreated control and MK-1775-treated OE33, FLO1, and SK-GT4 cell lines. E & F. Rhodamine 123 intracellular fluorescence intensity during influx (red) and after 4 hours of efflux (blue) in control (E) & MK-1775 treated OE33 cells (F) G. Percentage of intracellular Rhodamine 123 retained after efflux in Control and MK-1775 treated OE33 cells * P <0.05, **P<0.01, ***P<0.001. H & I. Rhodamine 123 intracellular fluorescence intensity during influx (red) and after 4 hours of efflux (blue) in control (E) & MK-1775 treated SK-GT4 cells (F) J. Percentage of intracellular Rhodamine 123 retained after efflux in Control and MK-1775 treated SK-GT4 cells *P<0.05, **P<0.01, ***P<0.001.

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: Inhibition, Immunofluorescence, Staining, Quantitative Proteomics, Fluorescence, Western Blot, Control

    A. 21 positive hits (red), which synergized with MK-1775 in O19 cells during the first round of screening using an 892 FDA-approved drug screening library. B. Panobinostat (red arrow) was found to synergize with MK-1775 in FLO1 (blue) and SK-GT4 (red) cell lines during the second round of screening. C. Synergy Finder analysis results in FLO1, OE33, OE19, and SK-GT4 cell lines treated with MK-1775 and Panobinostat. *P<0.05, **P<0.01, ***P<0.001. D. Flow cytometric analysis of Annexin V & SYTOX red dual staining in OE33 cells treated with MK-1775/Panobinostat alone or a combination. E. Percentage of apoptotic cells from Fig D *P<0.05, **P<0.01, ***P<0.001. F. Western blot analysis of PARP, Cl-PARP, Caspase 3, Cl-Caspase 3, and β-ACTIN in OE33 cells treated with MK-1775/ Panobinostat alone or a combination. G. Flow cytometric analysis of Annexin V & SYTOX red dual staining in OE19 cells treated with MK-1775/Panobinostat alone or a combination. H. Percentage of apoptotic cells from Fig G *P<0.05, **P<0.01, ***P<0.001. I. Western blot analysis of PARP, Cl-PARP, Caspase 3, Cl-Caspase 3, and β-ACTIN in OE19 cells treated with MK-1775/ Panobinostat alone or a combination.

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. 21 positive hits (red), which synergized with MK-1775 in O19 cells during the first round of screening using an 892 FDA-approved drug screening library. B. Panobinostat (red arrow) was found to synergize with MK-1775 in FLO1 (blue) and SK-GT4 (red) cell lines during the second round of screening. C. Synergy Finder analysis results in FLO1, OE33, OE19, and SK-GT4 cell lines treated with MK-1775 and Panobinostat. *P<0.05, **P<0.01, ***P<0.001. D. Flow cytometric analysis of Annexin V & SYTOX red dual staining in OE33 cells treated with MK-1775/Panobinostat alone or a combination. E. Percentage of apoptotic cells from Fig D *P<0.05, **P<0.01, ***P<0.001. F. Western blot analysis of PARP, Cl-PARP, Caspase 3, Cl-Caspase 3, and β-ACTIN in OE33 cells treated with MK-1775/ Panobinostat alone or a combination. G. Flow cytometric analysis of Annexin V & SYTOX red dual staining in OE19 cells treated with MK-1775/Panobinostat alone or a combination. H. Percentage of apoptotic cells from Fig G *P<0.05, **P<0.01, ***P<0.001. I. Western blot analysis of PARP, Cl-PARP, Caspase 3, Cl-Caspase 3, and β-ACTIN in OE19 cells treated with MK-1775/ Panobinostat alone or a combination.

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: Drug discovery, Staining, Western Blot

    A. Human EAC PDX-derived Organoids treated with MK-1775 / Panobinostat alone or in combination. B. Quantification of organoid diameter from A. C. Tumor growth curves in 4 experimental groups (Untreated control, MK-1775, Panobinostat, combination of MK-1775 & Panobinostat) at the end of the experiment. D. Western blot analysis of PARP, Cl-PARP, Caspase 3, CL-Caspase3, and β-ACTIN in Mouse Xenografts. E. Immunofluorescence staining for P-CDC2 Y15 (green), C-MYC (red), MRP1 (green), and Ki67 (red) in Mouse EAC PDXs, captured at 20X Magnification. F. Quantification data from E. *P<0.05, **P<0.01, ***P<0.001, ****P<0.0001.

    Journal: Cancer letters

    Article Title: WEE1 Stabilizes MYC to Promote Therapeutic Resistance in Esophageal Adenocarcinoma

    doi: 10.1016/j.canlet.2026.218418

    Figure Lengend Snippet: A. Human EAC PDX-derived Organoids treated with MK-1775 / Panobinostat alone or in combination. B. Quantification of organoid diameter from A. C. Tumor growth curves in 4 experimental groups (Untreated control, MK-1775, Panobinostat, combination of MK-1775 & Panobinostat) at the end of the experiment. D. Western blot analysis of PARP, Cl-PARP, Caspase 3, CL-Caspase3, and β-ACTIN in Mouse Xenografts. E. Immunofluorescence staining for P-CDC2 Y15 (green), C-MYC (red), MRP1 (green), and Ki67 (red) in Mouse EAC PDXs, captured at 20X Magnification. F. Quantification data from E. *P<0.05, **P<0.01, ***P<0.001, ****P<0.0001.

    Article Snippet: For WEE1 over expression, pCMV6-XL4-WEE1 (Origene, sc117999, Rockville, MD) at a concentration of 0.05 μg and 0.1 μg was transfected using Polyjet transfection reagent in a 6-well plate as described above.

    Techniques: In Vivo, Derivative Assay, Control, Western Blot, Immunofluorescence, Staining

    Hypothesis and experiment system (A) We hypothesize that vertical and horizontal gene transfer (VGT and HGT) are influenced by the characteristics of the potential recipient cell types and determine the proliferation and diversity of transconjugant cells. Because the potential recipient community comprises multiple cell types with varying growth traits and conjugation probabilities, we expect the resulting composition of transconjugant cells to be shaped by these cell type-specific traits. (B) Our experimental system consists of E . coli MG1655 lacI q -pLpp-mCherry as the plasmid donor strain and pB10 as the focal plasmid. pB10 donor cells express RFP from the chromosome and transconjugants express GFP from pB10.

    Journal: iScience

    Article Title: Horizontal and vertical gene transfer shape the plasmid host range in surface-associated microbial systems

    doi: 10.1016/j.isci.2026.115299

    Figure Lengend Snippet: Hypothesis and experiment system (A) We hypothesize that vertical and horizontal gene transfer (VGT and HGT) are influenced by the characteristics of the potential recipient cell types and determine the proliferation and diversity of transconjugant cells. Because the potential recipient community comprises multiple cell types with varying growth traits and conjugation probabilities, we expect the resulting composition of transconjugant cells to be shaped by these cell type-specific traits. (B) Our experimental system consists of E . coli MG1655 lacI q -pLpp-mCherry as the plasmid donor strain and pB10 as the focal plasmid. pB10 donor cells express RFP from the chromosome and transconjugants express GFP from pB10.

    Article Snippet: MBP- mCherry expression plasmid (Amp R ) , Addgene , Plasmid# 29747.

    Techniques: Conjugation Assay, Plasmid Preparation

    Transconjugant proportions and diversities after surface-associated conjugation assays for different environmental conditions (A) Proportion of transconjugant cells relative to total cells after surface-associated conjugation assays using the WWTP community as the potential recipient cell population. We conducted conjugation assays on 1×SWW, 10×SWW, or LB agar plates using E . coli MG1655 lacI q -pLpp-mCherry as the pB10 donor strain. (B) Relative abundances of bacterial class in the total potential recipient cell population (T) and the transconjugant cell population (TC) as identified by 16S rRNA gene sequencing. We separated and identified TC cells using FC-FACS-sorting of GFP-positive cells. (C) Normalized Shannon index of the transconjugant populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. We normalized the Shannon index of the TC populations to their corresponding T populations. (D) Principal coordinate analysis (PCoA) based on weighted UniFrac distances of T and TC populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. (E) Phylogenetic tree of transconjugant ASVs detected after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. The outer colored box denotes the bacterial phylum of each ASV, corresponding to the phylum-level groupings shown in panel (B). The inner heatmap box aligned with each tip shows the log 10 fold-changes in ASV abundance (TC relative to T) across the three conditions. For (A and C), each point is an independent biological replicate ( n = 3), horizontal bars are the means, error bars are ±1 standard deviation, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗ p < 0.001, ∗∗∗∗ p < 0.0001, ns = not significant). For (D), each point is an independent biological replicate ( n = 3).

    Journal: iScience

    Article Title: Horizontal and vertical gene transfer shape the plasmid host range in surface-associated microbial systems

    doi: 10.1016/j.isci.2026.115299

    Figure Lengend Snippet: Transconjugant proportions and diversities after surface-associated conjugation assays for different environmental conditions (A) Proportion of transconjugant cells relative to total cells after surface-associated conjugation assays using the WWTP community as the potential recipient cell population. We conducted conjugation assays on 1×SWW, 10×SWW, or LB agar plates using E . coli MG1655 lacI q -pLpp-mCherry as the pB10 donor strain. (B) Relative abundances of bacterial class in the total potential recipient cell population (T) and the transconjugant cell population (TC) as identified by 16S rRNA gene sequencing. We separated and identified TC cells using FC-FACS-sorting of GFP-positive cells. (C) Normalized Shannon index of the transconjugant populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. We normalized the Shannon index of the TC populations to their corresponding T populations. (D) Principal coordinate analysis (PCoA) based on weighted UniFrac distances of T and TC populations after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. (E) Phylogenetic tree of transconjugant ASVs detected after surface-associated conjugation assays on 1×SWW, 10×SWW, or LB agar plates. The outer colored box denotes the bacterial phylum of each ASV, corresponding to the phylum-level groupings shown in panel (B). The inner heatmap box aligned with each tip shows the log 10 fold-changes in ASV abundance (TC relative to T) across the three conditions. For (A and C), each point is an independent biological replicate ( n = 3), horizontal bars are the means, error bars are ±1 standard deviation, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗ p < 0.001, ∗∗∗∗ p < 0.0001, ns = not significant). For (D), each point is an independent biological replicate ( n = 3).

    Article Snippet: MBP- mCherry expression plasmid (Amp R ) , Addgene , Plasmid# 29747.

    Techniques: Conjugation Assay, Sequencing, Standard Deviation

    Transconjugant growth during surface-associated conjugation assays for different environmental conditions (A) Representative fluorescence microscopy images of transconjugant cells during surface-associated conjugation assays on LB agar plates. E . coli MG1655 lacI q -pLpp-mCherry is the pB10 donor strain and show red fluorescence. Transconjugant cells are green. The time indicated in the images refers to the point at which transconjugant cells first became detectable. (B) Normalized microcolony area ( A / a 0 ) plotted as a function of time during the surface-associated conjugation assays on LB agar plates. A is the total microcolony area and a 0 is the initial transconjugant area. Connected data points are for individual colonies ( n = 12). (C) Microcolony area at the endpoint of the mating assay (t = 24 h) for different environmental conditions. The half-violin and scatterplots present the sample distribution and individual microcolony measurements for surface-associated conjugation assays on different medium (n 1xSWW = 880, n 10xSWW = 664, n LB = 1,070, for microcolony number). We performed each experiment at least three independent experiments. Horizontal bars are the mean microcolony areas, error bars are the 99% confidence intervals, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗∗ p < 0.0001, ns = not significant).

    Journal: iScience

    Article Title: Horizontal and vertical gene transfer shape the plasmid host range in surface-associated microbial systems

    doi: 10.1016/j.isci.2026.115299

    Figure Lengend Snippet: Transconjugant growth during surface-associated conjugation assays for different environmental conditions (A) Representative fluorescence microscopy images of transconjugant cells during surface-associated conjugation assays on LB agar plates. E . coli MG1655 lacI q -pLpp-mCherry is the pB10 donor strain and show red fluorescence. Transconjugant cells are green. The time indicated in the images refers to the point at which transconjugant cells first became detectable. (B) Normalized microcolony area ( A / a 0 ) plotted as a function of time during the surface-associated conjugation assays on LB agar plates. A is the total microcolony area and a 0 is the initial transconjugant area. Connected data points are for individual colonies ( n = 12). (C) Microcolony area at the endpoint of the mating assay (t = 24 h) for different environmental conditions. The half-violin and scatterplots present the sample distribution and individual microcolony measurements for surface-associated conjugation assays on different medium (n 1xSWW = 880, n 10xSWW = 664, n LB = 1,070, for microcolony number). We performed each experiment at least three independent experiments. Horizontal bars are the mean microcolony areas, error bars are the 99% confidence intervals, and asterisks indicate statistically significant differences between the means based on two-way ANOVA with Holm correction (∗∗ p < 0.01, ∗∗∗∗ p < 0.0001, ns = not significant).

    Article Snippet: MBP- mCherry expression plasmid (Amp R ) , Addgene , Plasmid# 29747.

    Techniques: Conjugation Assay, Fluorescence, Microscopy