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PMC2180173_F2_15885.jpg | What is the central feature of this picture? | Fluorescence patterns of representative chimeric proteins in tobacco protoplasts. Image of a tobacco protoplast transformed with pG2HPLE1-YFP (a), pG2HPLF1-YFP (b), pG2HPLF2-YFP (c), pG2HPLF3-YFP (d) chimeric constructs. The scale bar corresponds to 20 μm. |
PMC2180173_F2_15877.jpg | Describe the main subject of this image. | Fluorescence patterns of representative chimeric proteins in tobacco protoplasts. Image of a tobacco protoplast transformed with pG2HPLE1-YFP (a), pG2HPLF1-YFP (b), pG2HPLF2-YFP (c), pG2HPLF3-YFP (d) chimeric constructs. The scale bar corresponds to 20 μm. |
PMC2180173_F2_15881.jpg | Can you identify the primary element in this image? | Fluorescence patterns of representative chimeric proteins in tobacco protoplasts. Image of a tobacco protoplast transformed with pG2HPLE1-YFP (a), pG2HPLF1-YFP (b), pG2HPLF2-YFP (c), pG2HPLF3-YFP (d) chimeric constructs. The scale bar corresponds to 20 μm. |
PMC2180173_F2_15879.jpg | What's the most prominent thing you notice in this picture? | Fluorescence patterns of representative chimeric proteins in tobacco protoplasts. Image of a tobacco protoplast transformed with pG2HPLE1-YFP (a), pG2HPLF1-YFP (b), pG2HPLF2-YFP (c), pG2HPLF3-YFP (d) chimeric constructs. The scale bar corresponds to 20 μm. |
PMC2180173_F2_15878.jpg | What can you see in this picture? | Fluorescence patterns of representative chimeric proteins in tobacco protoplasts. Image of a tobacco protoplast transformed with pG2HPLE1-YFP (a), pG2HPLF1-YFP (b), pG2HPLF2-YFP (c), pG2HPLF3-YFP (d) chimeric constructs. The scale bar corresponds to 20 μm. |
PMC2180173_F2_15886.jpg | What key item or scene is captured in this photo? | Fluorescence patterns of representative chimeric proteins in tobacco protoplasts. Image of a tobacco protoplast transformed with pG2HPLE1-YFP (a), pG2HPLF1-YFP (b), pG2HPLF2-YFP (c), pG2HPLF3-YFP (d) chimeric constructs. The scale bar corresponds to 20 μm. |
PMC2180173_F3_15869.jpg | What is shown in this image? | Visualisation of lipid droplets stained by Nile red. A: Tobacco and A. thaliana leaf protoplasts (a, b) and 80 μm confocal root projections from the same species (c, d). B: Image of a tobacco protoplast transformed with pG2HPLF1-YFP and stained with Nile red, showing several lipid droplets stained by YFP and Nile red. ... |
PMC2180173_F3_15870.jpg | What is the core subject represented in this visual? | Visualisation of lipid droplets stained by Nile red. A: Tobacco and A. thaliana leaf protoplasts (a, b) and 80 μm confocal root projections from the same species (c, d). B: Image of a tobacco protoplast transformed with pG2HPLF1-YFP and stained with Nile red, showing several lipid droplets stained by YFP and Nile red. ... |
PMC2180173_F3_15873.jpg | What is the focal point of this photograph? | Visualisation of lipid droplets stained by Nile red. A: Tobacco and A. thaliana leaf protoplasts (a, b) and 80 μm confocal root projections from the same species (c, d). B: Image of a tobacco protoplast transformed with pG2HPLF1-YFP and stained with Nile red, showing several lipid droplets stained by YFP and Nile red. ... |
PMC2180173_F3_15875.jpg | Can you identify the primary element in this image? | Visualisation of lipid droplets stained by Nile red. A: Tobacco and A. thaliana leaf protoplasts (a, b) and 80 μm confocal root projections from the same species (c, d). B: Image of a tobacco protoplast transformed with pG2HPLF1-YFP and stained with Nile red, showing several lipid droplets stained by YFP and Nile red. ... |
PMC2180173_F3_15871.jpg | What key item or scene is captured in this photo? | Visualisation of lipid droplets stained by Nile red. A: Tobacco and A. thaliana leaf protoplasts (a, b) and 80 μm confocal root projections from the same species (c, d). B: Image of a tobacco protoplast transformed with pG2HPLF1-YFP and stained with Nile red, showing several lipid droplets stained by YFP and Nile red. ... |
PMC2180173_F3_15872.jpg | What is the focal point of this photograph? | Visualisation of lipid droplets stained by Nile red. A: Tobacco and A. thaliana leaf protoplasts (a, b) and 80 μm confocal root projections from the same species (c, d). B: Image of a tobacco protoplast transformed with pG2HPLF1-YFP and stained with Nile red, showing several lipid droplets stained by YFP and Nile red. ... |
PMC2180173_F3_15874.jpg | Describe the main subject of this image. | Visualisation of lipid droplets stained by Nile red. A: Tobacco and A. thaliana leaf protoplasts (a, b) and 80 μm confocal root projections from the same species (c, d). B: Image of a tobacco protoplast transformed with pG2HPLF1-YFP and stained with Nile red, showing several lipid droplets stained by YFP and Nile red. ... |
PMC2180173_F5_15891.jpg | What object or scene is depicted here? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15895.jpg | What is being portrayed in this visual content? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15901.jpg | What stands out most in this visual? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15898.jpg | What is shown in this image? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15900.jpg | What is shown in this image? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15905.jpg | What is the core subject represented in this visual? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15897.jpg | What is the principal component of this image? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15904.jpg | What is the main focus of this visual representation? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15903.jpg | What is the dominant medical problem in this image? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15892.jpg | What is the central feature of this picture? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F5_15894.jpg | What is the main focus of this visual representation? | Representative image of HPLE/F-YFP fluorescence distribution in the presence of oleosin. (a): Tobacco protoplasts co-expressing pG2HPLE1-YFP and OLE-RFP. (b): Tobacco protoplasts co-expressing pG2HPLF1-YFP and OLE-RFP. (c): Tobacco protoplasts co-expressing pG2HPLF2-YFP and OLE-RFP. (d): Tobacco protoplasts co-expressi... |
PMC2180173_F6_15889.jpg | What is the central feature of this picture? | Representative image of HPLF-YFP fluorescence distribution in the presence and absence of oleosin. Tobacco protoplasts expressing HPLF-YFP (a) or co-expressing HPLF-YFP and oleosin-RFP (b). Images are 1.6 μm confocal images, YFP (505–530 nm) fluorescence in green. |
PMC2180179_F7_15909.jpg | What is shown in this image? | chch-compromised cells migrate to the germ ring and become mesoderm in response to Nodal signals. Transplanted MZoep-LacZ cells to the animal hemisphere of a wild-type host remain within the animal hemisphere at shield stage (A) and are observed in anterior neural structures after 24 hpf (A'). Similar behavior was obse... |
PMC2180179_F7_15912.jpg | What's the most prominent thing you notice in this picture? | chch-compromised cells migrate to the germ ring and become mesoderm in response to Nodal signals. Transplanted MZoep-LacZ cells to the animal hemisphere of a wild-type host remain within the animal hemisphere at shield stage (A) and are observed in anterior neural structures after 24 hpf (A'). Similar behavior was obse... |
PMC2180179_F7_15907.jpg | What is the dominant medical problem in this image? | chch-compromised cells migrate to the germ ring and become mesoderm in response to Nodal signals. Transplanted MZoep-LacZ cells to the animal hemisphere of a wild-type host remain within the animal hemisphere at shield stage (A) and are observed in anterior neural structures after 24 hpf (A'). Similar behavior was obse... |
PMC2180179_F7_15911.jpg | What is the core subject represented in this visual? | chch-compromised cells migrate to the germ ring and become mesoderm in response to Nodal signals. Transplanted MZoep-LacZ cells to the animal hemisphere of a wild-type host remain within the animal hemisphere at shield stage (A) and are observed in anterior neural structures after 24 hpf (A'). Similar behavior was obse... |
PMC2180179_F7_15913.jpg | What is shown in this image? | chch-compromised cells migrate to the germ ring and become mesoderm in response to Nodal signals. Transplanted MZoep-LacZ cells to the animal hemisphere of a wild-type host remain within the animal hemisphere at shield stage (A) and are observed in anterior neural structures after 24 hpf (A'). Similar behavior was obse... |
PMC2180180_F3_15914.jpg | What is the central feature of this picture? | Conidia production of Paracoccidioides brasiliensis in Soil Extract Agar, exhibiting the conidia production of the isolates D01 and T9B1 cultured in soil extract agar (SEA) and prepared through adhesive tape technique (magnification ×1000). |
PMC2180194_pone-0001453-g002_15917.jpg | What is shown in this image? | Proliferation and differentiation of mouse ADAS cells in cell culture medium designed for mesenchymal stem cells.Phase-contrast image of undifferentiated mouse ADAS cells at passage 5 (A) and passage 22 (C); process outgrowth in the same cells after 4-hr exposure to Neural Induction Medium (NIM)(B and D, respectively).... |
PMC2180194_pone-0001453-g002_15918.jpg | What does this image primarily show? | Proliferation and differentiation of mouse ADAS cells in cell culture medium designed for mesenchymal stem cells.Phase-contrast image of undifferentiated mouse ADAS cells at passage 5 (A) and passage 22 (C); process outgrowth in the same cells after 4-hr exposure to Neural Induction Medium (NIM)(B and D, respectively).... |
PMC2180194_pone-0001453-g002_15916.jpg | Describe the main subject of this image. | Proliferation and differentiation of mouse ADAS cells in cell culture medium designed for mesenchymal stem cells.Phase-contrast image of undifferentiated mouse ADAS cells at passage 5 (A) and passage 22 (C); process outgrowth in the same cells after 4-hr exposure to Neural Induction Medium (NIM)(B and D, respectively).... |
PMC2180194_pone-0001453-g002_15919.jpg | What object or scene is depicted here? | Proliferation and differentiation of mouse ADAS cells in cell culture medium designed for mesenchymal stem cells.Phase-contrast image of undifferentiated mouse ADAS cells at passage 5 (A) and passage 22 (C); process outgrowth in the same cells after 4-hr exposure to Neural Induction Medium (NIM)(B and D, respectively).... |
PMC2180199_pone-0001447-g001_15925.jpg | What can you see in this picture? | Identification and characterization of D-cbl mutants.(A) Wild-type (WT) fly showing normal eye phenotype. (B) GMR-hid ey-FLP (GheF) small eye phenotype. (C,D) GheF;D-cblK26 and GheF;D-cbl7 mosaics significantly suppress the GMR-hid small eye phenotype. Genotype: GheF; D-cbl FRT80/P[w+] FRT80 (E,G) Scanning electron mic... |
PMC2180199_pone-0001447-g001_15924.jpg | What does this image primarily show? | Identification and characterization of D-cbl mutants.(A) Wild-type (WT) fly showing normal eye phenotype. (B) GMR-hid ey-FLP (GheF) small eye phenotype. (C,D) GheF;D-cblK26 and GheF;D-cbl7 mosaics significantly suppress the GMR-hid small eye phenotype. Genotype: GheF; D-cbl FRT80/P[w+] FRT80 (E,G) Scanning electron mic... |
PMC2180199_pone-0001447-g001_15921.jpg | What is the core subject represented in this visual? | Identification and characterization of D-cbl mutants.(A) Wild-type (WT) fly showing normal eye phenotype. (B) GMR-hid ey-FLP (GheF) small eye phenotype. (C,D) GheF;D-cblK26 and GheF;D-cbl7 mosaics significantly suppress the GMR-hid small eye phenotype. Genotype: GheF; D-cbl FRT80/P[w+] FRT80 (E,G) Scanning electron mic... |
PMC2180199_pone-0001447-g001_15926.jpg | What is being portrayed in this visual content? | Identification and characterization of D-cbl mutants.(A) Wild-type (WT) fly showing normal eye phenotype. (B) GMR-hid ey-FLP (GheF) small eye phenotype. (C,D) GheF;D-cblK26 and GheF;D-cbl7 mosaics significantly suppress the GMR-hid small eye phenotype. Genotype: GheF; D-cbl FRT80/P[w+] FRT80 (E,G) Scanning electron mic... |
PMC2180199_pone-0001447-g001_15922.jpg | What stands out most in this visual? | Identification and characterization of D-cbl mutants.(A) Wild-type (WT) fly showing normal eye phenotype. (B) GMR-hid ey-FLP (GheF) small eye phenotype. (C,D) GheF;D-cblK26 and GheF;D-cbl7 mosaics significantly suppress the GMR-hid small eye phenotype. Genotype: GheF; D-cbl FRT80/P[w+] FRT80 (E,G) Scanning electron mic... |
PMC2180199_pone-0001447-g001_15927.jpg | What is the focal point of this photograph? | Identification and characterization of D-cbl mutants.(A) Wild-type (WT) fly showing normal eye phenotype. (B) GMR-hid ey-FLP (GheF) small eye phenotype. (C,D) GheF;D-cblK26 and GheF;D-cbl7 mosaics significantly suppress the GMR-hid small eye phenotype. Genotype: GheF; D-cbl FRT80/P[w+] FRT80 (E,G) Scanning electron mic... |
PMC2180199_pone-0001447-g001_15923.jpg | What is the core subject represented in this visual? | Identification and characterization of D-cbl mutants.(A) Wild-type (WT) fly showing normal eye phenotype. (B) GMR-hid ey-FLP (GheF) small eye phenotype. (C,D) GheF;D-cblK26 and GheF;D-cbl7 mosaics significantly suppress the GMR-hid small eye phenotype. Genotype: GheF; D-cbl FRT80/P[w+] FRT80 (E,G) Scanning electron mic... |
PMC2185514_f4_15931.jpg | What is being portrayed in this visual content? | Electron micrographs showing stroma of central portion of cornea in wild-type and Alb-hßigh3 transgenic mice |
PMC2185514_f4_15933.jpg | What object or scene is depicted here? | Electron micrographs showing stroma of central portion of cornea in wild-type and Alb-hßigh3 transgenic mice |
PMC2185514_f4_15930.jpg | What is being portrayed in this visual content? | Electron micrographs showing stroma of central portion of cornea in wild-type and Alb-hßigh3 transgenic mice |
PMC2186317_F5_15951.jpg | What is being portrayed in this visual content? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15960.jpg | Can you identify the primary element in this image? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15942.jpg | What is the focal point of this photograph? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15947.jpg | What is the central feature of this picture? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15944.jpg | What is the central feature of this picture? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15950.jpg | Describe the main subject of this image. | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15957.jpg | What is shown in this image? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15952.jpg | What's the most prominent thing you notice in this picture? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15949.jpg | What object or scene is depicted here? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15961.jpg | What is shown in this image? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15954.jpg | What is the principal component of this image? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15958.jpg | What is the main focus of this visual representation? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F5_15939.jpg | What stands out most in this visual? | The effect of UL20p carboxyl terminal truncations on UL20p and gK colocalization in TGN cellular compartments. As with figure 4, Vero cells were co-transfected with gKD1V5, as well as with plasmids encoding wild-type or mutant UL20DIFLAG proteins. Thirty-six hours post-transfection, cells were washed thoroughly, fixed,... |
PMC2186317_F6_15984.jpg | What stands out most in this visual? | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186317_F6_15969.jpg | What is being portrayed in this visual content? | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186317_F6_15972.jpg | What is the dominant medical problem in this image? | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186317_F6_15975.jpg | Describe the main subject of this image. | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186317_F6_15964.jpg | What does this image primarily show? | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186317_F6_15977.jpg | What is shown in this image? | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186317_F6_15968.jpg | Can you identify the primary element in this image? | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186317_F6_15971.jpg | Describe the main subject of this image. | Confocal microscopy of gK cell-surface expression and endocytosis to the TGN mediated by selected UL20p mutants. Vero cells were co-transfected with gKD1V5 as well as with plasmids encoding wild-type or mutant UL20p, as with figures 4 and 5. Twenty-four hours post-transfection, cells were incubated under live condition... |
PMC2186337_F1_15985.jpg | What is being portrayed in this visual content? | Computerised Tomograph of the orbit showing the lacrimal sac tumour with contrast enhancement. |
PMC2186337_F1_15986.jpg | What is being portrayed in this visual content? | Computerised Tomograph of the orbit showing the lacrimal sac tumour with contrast enhancement. |
PMC2186338_F2_15987.jpg | What is being portrayed in this visual content? | Chest CT scan. A. a right anterior mediastinal shadow. B. multiple pulmonary nodular lesions. |
PMC2186338_F2_15988.jpg | Can you identify the primary element in this image? | Chest CT scan. A. a right anterior mediastinal shadow. B. multiple pulmonary nodular lesions. |
PMC2186339_F1_15989.jpg | What object or scene is depicted here? | Magnetic resonance imaging A) Transaxial MRI scan (STIR, 5 mm slice thickness, left) B) Corresponding 18FDG PET scan (5 mm slice thickness, right). Increased FDG uptake is seen in a subcutaneous lesion in the left shoulder region (arrow). |
PMC2186339_F2_15991.jpg | What is the main focus of this visual representation? | A) Transaxial MRI scan (STIR, 5 mm slice thickness, left) and B) Corresponding FDG-PET scan (5 mm slice thickness, right). Increased FDG uptake is visible in a subcutaneous lesion located medially in the right upper leg (arrow). |
PMC2186341_F2_15997.jpg | What object or scene is depicted here? | Whole brain-based spatial Students t-test on a voxelwise basis. Comparison of fractional anisotropy (FA) maps of 6 normal controls and 6 subjects with thinned corpus callosum (tCC). Display threshold was p < 0.05. The results were overlaid on an MPRAGE template (averaged from all 12 subjects who participated in the stu... |
PMC2186341_F2_15998.jpg | Can you identify the primary element in this image? | Whole brain-based spatial Students t-test on a voxelwise basis. Comparison of fractional anisotropy (FA) maps of 6 normal controls and 6 subjects with thinned corpus callosum (tCC). Display threshold was p < 0.05. The results were overlaid on an MPRAGE template (averaged from all 12 subjects who participated in the stu... |
PMC2186341_F3_16007.jpg | What is the focal point of this photograph? | Fibre tracking (FT) with starting seeds in the corpus callosum (CC) (cf. Table 1): (a) 6 healthy controls (C1 – C6). (b) 6 subjects with thinned CC (tCC) (P1 – P6). The images are glass-brain plots of FT and the averaged MPRAGE data set. For the patients with tCC, not all possible seeds could be used for FT because the... |
PMC2186341_F3_16008.jpg | What is the focal point of this photograph? | Fibre tracking (FT) with starting seeds in the corpus callosum (CC) (cf. Table 1): (a) 6 healthy controls (C1 – C6). (b) 6 subjects with thinned CC (tCC) (P1 – P6). The images are glass-brain plots of FT and the averaged MPRAGE data set. For the patients with tCC, not all possible seeds could be used for FT because the... |
PMC2186341_F3_16011.jpg | What's the most prominent thing you notice in this picture? | Fibre tracking (FT) with starting seeds in the corpus callosum (CC) (cf. Table 1): (a) 6 healthy controls (C1 – C6). (b) 6 subjects with thinned CC (tCC) (P1 – P6). The images are glass-brain plots of FT and the averaged MPRAGE data set. For the patients with tCC, not all possible seeds could be used for FT because the... |
PMC2186341_F3_16009.jpg | What is the principal component of this image? | Fibre tracking (FT) with starting seeds in the corpus callosum (CC) (cf. Table 1): (a) 6 healthy controls (C1 – C6). (b) 6 subjects with thinned CC (tCC) (P1 – P6). The images are glass-brain plots of FT and the averaged MPRAGE data set. For the patients with tCC, not all possible seeds could be used for FT because the... |
PMC2186341_F4_15993.jpg | What is the focal point of this photograph? | Fractional anisotropy (FA) maps for averaged data sets: (a) healthy controls, (b) thinned corpus callosum (tCC) subjects. Display threshold was FA > 0.2. The results were overlaid on an MPRAGE template (averaged from the 12 subjects participating in the study). |
PMC2186341_F4_15996.jpg | What does this image primarily show? | Fractional anisotropy (FA) maps for averaged data sets: (a) healthy controls, (b) thinned corpus callosum (tCC) subjects. Display threshold was FA > 0.2. The results were overlaid on an MPRAGE template (averaged from the 12 subjects participating in the study). |
PMC2186341_F4_15994.jpg | What is the focal point of this photograph? | Fractional anisotropy (FA) maps for averaged data sets: (a) healthy controls, (b) thinned corpus callosum (tCC) subjects. Display threshold was FA > 0.2. The results were overlaid on an MPRAGE template (averaged from the 12 subjects participating in the study). |
PMC2186341_F4_15995.jpg | What is shown in this image? | Fractional anisotropy (FA) maps for averaged data sets: (a) healthy controls, (b) thinned corpus callosum (tCC) subjects. Display threshold was FA > 0.2. The results were overlaid on an MPRAGE template (averaged from the 12 subjects participating in the study). |
PMC2186341_F5_16002.jpg | What is the principal component of this image? | Fibre tracking (FT) with starting seeds in the corpus callosum (CC) (cf. Table 1): (a) averaged DTI data set from 6 normal subjects, (b) averaged DTI data set from 6 subjects with thinned CC (tCC). The images are glass-brain plots of FT overlaid on the averaged MPRAGE data set. |
PMC2186341_F5_16000.jpg | What does this image primarily show? | Fibre tracking (FT) with starting seeds in the corpus callosum (CC) (cf. Table 1): (a) averaged DTI data set from 6 normal subjects, (b) averaged DTI data set from 6 subjects with thinned CC (tCC). The images are glass-brain plots of FT overlaid on the averaged MPRAGE data set. |
PMC2186341_F5_16003.jpg | What is the main focus of this visual representation? | Fibre tracking (FT) with starting seeds in the corpus callosum (CC) (cf. Table 1): (a) averaged DTI data set from 6 normal subjects, (b) averaged DTI data set from 6 subjects with thinned CC (tCC). The images are glass-brain plots of FT overlaid on the averaged MPRAGE data set. |
PMC2190758_F2_16015.jpg | Describe the main subject of this image. | Axial FLAIR (a, b & c) and T2 weighted (d) Brain MRI from patients. The exams in 2a and 2b are from asymptomatic patients with depression. Note temporal lobe lesions even in asymptomatic patients (2b). In Figure 2a and d periventricular diffuse white matter ischemic lesion and multiple lacunar lesions in thalamus, pons... |
PMC2190758_F2_16013.jpg | What is being portrayed in this visual content? | Axial FLAIR (a, b & c) and T2 weighted (d) Brain MRI from patients. The exams in 2a and 2b are from asymptomatic patients with depression. Note temporal lobe lesions even in asymptomatic patients (2b). In Figure 2a and d periventricular diffuse white matter ischemic lesion and multiple lacunar lesions in thalamus, pons... |
PMC2194669_F3_16017.jpg | What key item or scene is captured in this photo? | Dental plate impacted in oesophagus at endoscopy. |
PMC2194701_F3_16018.jpg | What's the most prominent thing you notice in this picture? | echocardiography shows disappearing of clots after treatment. |
PMC2194701_F4_16019.jpg | What is the central feature of this picture? | echocardiography shows disappearing of clots after treatment. |
PMC2194702_F2_16022.jpg | What's the most prominent thing you notice in this picture? | MRI showed cystic areas with fluid filled levels in the right cuboid bone. Mild expansion of the bone was noted. However no cortical break or involvement of other tarsal bones was seen. |
PMC2194702_F2_16021.jpg | What key item or scene is captured in this photo? | MRI showed cystic areas with fluid filled levels in the right cuboid bone. Mild expansion of the bone was noted. However no cortical break or involvement of other tarsal bones was seen. |
PMC2194704_F1_16023.jpg | What can you see in this picture? | An oblique magnetic resonance T2-weighted image disclosed a horseshoe-shaped abscess, 8 × 7 cm in size (indicated by asterisks). The abscess wall is of intermediate to slightly high intensity whereas the fluid inside exhibits high intensity signal. |
PMC2194708_F1_16025.jpg | What is being portrayed in this visual content? | (patient1). A lateral radiogram showed extensive flattening across the posterior skull and marked vault and convolutional sclerosis. |
PMC2194708_F2_16026.jpg | What is the core subject represented in this visual? | (patient 1). An anteroposterior radiograph of the right humerus showed mid-diaphyseal fracture and unusual diaphyseal endosteal hyperostosis (arrow). |
PMC2194708_F3_16024.jpg | What is being portrayed in this visual content? | (patient 1). The lateral spine radiograph showed no platyspondyly, but marked sclerosis of the entire vertebral cortical rim (arrow) and unusual enlargement of the spinous processes. |
PMC2194708_F4_16027.jpg | What is the core subject represented in this visual? | (patient 2). Radiographic examination of the femora showed thick, and dense, endosteal hyperostosis more marked at the mid-diaphyses. The medullary canals were narrow but patent, and the endosteal surface was irregular (arrow). |
PMC2194708_F9_16036.jpg | What is the main focus of this visual representation? | (patient 2). Lateral radiograph of the thoracic vertebrae showed progressive sclerosis of the anterior longitudinal ligaments with subsequent development of bony ankylosis (arrow). |
PMC2194709_F1_16029.jpg | What is being portrayed in this visual content? | EGD showed the gastric mass with deep ulceration and bleeding visible vessels. |
PMC2194709_F2_16030.jpg | What object or scene is depicted here? | Homeostasis was achieved with placement of two hemoclips during upper endoscopy. |
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