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PMC2064965_pone-0001169-g005_14728.jpg | What's the most prominent thing you notice in this picture? | Spatio-temporal analysis of neuronal generation induced by Delta-1 expression.A–I Confocal projections (40–50 µm) from a dorsal point of view of the prospective spinal cord of embryos transfected with pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN, pCIG (controls), Delta-1 anti-sense (MO1-cDelta1 and MO2-cDelta1) and control ... |
PMC2064965_pone-0001169-g005_14723.jpg | What is the dominant medical problem in this image? | Spatio-temporal analysis of neuronal generation induced by Delta-1 expression.A–I Confocal projections (40–50 µm) from a dorsal point of view of the prospective spinal cord of embryos transfected with pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN, pCIG (controls), Delta-1 anti-sense (MO1-cDelta1 and MO2-cDelta1) and control ... |
PMC2064965_pone-0001169-g005_14726.jpg | What is the central feature of this picture? | Spatio-temporal analysis of neuronal generation induced by Delta-1 expression.A–I Confocal projections (40–50 µm) from a dorsal point of view of the prospective spinal cord of embryos transfected with pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN, pCIG (controls), Delta-1 anti-sense (MO1-cDelta1 and MO2-cDelta1) and control ... |
PMC2064965_pone-0001169-g005_14731.jpg | What is the central feature of this picture? | Spatio-temporal analysis of neuronal generation induced by Delta-1 expression.A–I Confocal projections (40–50 µm) from a dorsal point of view of the prospective spinal cord of embryos transfected with pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN, pCIG (controls), Delta-1 anti-sense (MO1-cDelta1 and MO2-cDelta1) and control ... |
PMC2064965_pone-0001169-g006_14732.jpg | Describe the main subject of this image. | Effects of Delta1 in proliferation of spinal cord NP progenitor cells.
A–D. HH10 embryos were transfected with either pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN or empty pCIG vector (controls) and allowed to develop for the indicated time. One hour before dissection, embryos were pulsed for 1 h with BrdU. Images show 5 µm... |
PMC2064965_pone-0001169-g006_14737.jpg | Describe the main subject of this image. | Effects of Delta1 in proliferation of spinal cord NP progenitor cells.
A–D. HH10 embryos were transfected with either pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN or empty pCIG vector (controls) and allowed to develop for the indicated time. One hour before dissection, embryos were pulsed for 1 h with BrdU. Images show 5 µm... |
PMC2064965_pone-0001169-g006_14733.jpg | What is the main focus of this visual representation? | Effects of Delta1 in proliferation of spinal cord NP progenitor cells.
A–D. HH10 embryos were transfected with either pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN or empty pCIG vector (controls) and allowed to develop for the indicated time. One hour before dissection, embryos were pulsed for 1 h with BrdU. Images show 5 µm... |
PMC2064965_pone-0001169-g006_14735.jpg | What's the most prominent thing you notice in this picture? | Effects of Delta1 in proliferation of spinal cord NP progenitor cells.
A–D. HH10 embryos were transfected with either pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN or empty pCIG vector (controls) and allowed to develop for the indicated time. One hour before dissection, embryos were pulsed for 1 h with BrdU. Images show 5 µm... |
PMC2064965_pone-0001169-g006_14734.jpg | What is the focal point of this photograph? | Effects of Delta1 in proliferation of spinal cord NP progenitor cells.
A–D. HH10 embryos were transfected with either pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN or empty pCIG vector (controls) and allowed to develop for the indicated time. One hour before dissection, embryos were pulsed for 1 h with BrdU. Images show 5 µm... |
PMC2064965_pone-0001169-g006_14736.jpg | What is the core subject represented in this visual? | Effects of Delta1 in proliferation of spinal cord NP progenitor cells.
A–D. HH10 embryos were transfected with either pCIG-Delta-1, pCIG-Delta-1/pCIG-DeltaDN or empty pCIG vector (controls) and allowed to develop for the indicated time. One hour before dissection, embryos were pulsed for 1 h with BrdU. Images show 5 µm... |
PMC2064968_F7_14744.jpg | What's the most prominent thing you notice in this picture? | Effect of AMP on hernia healing. Hernia or wound defect size was measured on POD 28. Values are the mean ± SEM of 11 hernia biopsies each from the NS-H control and the AMP-H groups. **: compared with NS-H, P < 0.01. Morphology of hernia ring from NS-S (B) and AMP-S (C) groups. H&E staining was performed on tissue secti... |
PMC2064968_F7_14743.jpg | What can you see in this picture? | Effect of AMP on hernia healing. Hernia or wound defect size was measured on POD 28. Values are the mean ± SEM of 11 hernia biopsies each from the NS-H control and the AMP-H groups. **: compared with NS-H, P < 0.01. Morphology of hernia ring from NS-S (B) and AMP-S (C) groups. H&E staining was performed on tissue secti... |
PMC2065874_ppat-0030171-g007_14748.jpg | What is being portrayed in this visual content? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14751.jpg | What is the central feature of this picture? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14759.jpg | What object or scene is depicted here? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14754.jpg | What is the main focus of this visual representation? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14761.jpg | What's the most prominent thing you notice in this picture? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14753.jpg | What's the most prominent thing you notice in this picture? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14766.jpg | Describe the main subject of this image. | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14758.jpg | Describe the main subject of this image. | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14755.jpg | Can you identify the primary element in this image? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14762.jpg | Describe the main subject of this image. | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14765.jpg | Describe the main subject of this image. | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14756.jpg | What is the core subject represented in this visual? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g007_14764.jpg | What is the focal point of this photograph? | In Vitro Characterization of Hepatic Merosomes(A) Merozoite nuclei in a PyGFP merosome were visualized with the membrane-permeable DNA stain SYTO-64 (red). Differential interference contrast was used to capture the transmission image on the right of the panel.(B) The phospholipid marker FM 4–64FX was used to visualize ... |
PMC2065874_ppat-0030171-g008_14775.jpg | Can you identify the primary element in this image? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065874_ppat-0030171-g008_14773.jpg | What is the principal component of this image? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065874_ppat-0030171-g008_14777.jpg | What is the core subject represented in this visual? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065874_ppat-0030171-g008_14774.jpg | What is the focal point of this photograph? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065874_ppat-0030171-g008_14772.jpg | What does this image primarily show? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065874_ppat-0030171-g008_14768.jpg | What is being portrayed in this visual content? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065874_ppat-0030171-g008_14769.jpg | What is the main focus of this visual representation? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065874_ppat-0030171-g008_14771.jpg | What stands out most in this visual? | Merosomes Accumulate in the Lungs and Release Merozoites into the Pulmonary Microcirculation(A) Ex vivo confocal microscopy of a mouse lung 52 h after infection with PyGFP shows a large merosome located inside an alveolar capillary.(B) A group of individual merozoites inside pulmonary capillaries.(C) Small parasite agg... |
PMC2065875_ppat-0030160-g005_14780.jpg | What is the principal component of this image? | Postmortem Examination of Horses Infected with N752 or D752 Viruses(A) Normalized viral genome load in tissues collected from horses examined postmortem: N752–263 of the mutant group, with only two tissues positive for viral genome copies (□) and D752–4 of the revertant group (▪), with multiple positive tissues through... |
PMC2065898_pone-0001201-g002_14784.jpg | What can you see in this picture? | Brain activation of canonical and modified sculptures vs. rest.The analysis was carried out by averaging activity across the three experimental conditions (observation, aesthetic judgment, proportion judgment). Group-averaged statistical parametric maps are rendered onto the MNI brain template (P-corrected<0.05). |
PMC2065898_pone-0001201-g002_14785.jpg | What is the central feature of this picture? | Brain activation of canonical and modified sculptures vs. rest.The analysis was carried out by averaging activity across the three experimental conditions (observation, aesthetic judgment, proportion judgment). Group-averaged statistical parametric maps are rendered onto the MNI brain template (P-corrected<0.05). |
PMC2065898_pone-0001201-g002_14787.jpg | What does this image primarily show? | Brain activation of canonical and modified sculptures vs. rest.The analysis was carried out by averaging activity across the three experimental conditions (observation, aesthetic judgment, proportion judgment). Group-averaged statistical parametric maps are rendered onto the MNI brain template (P-corrected<0.05). |
PMC2065898_pone-0001201-g004_14792.jpg | What is the central feature of this picture? | Brain activations in the contrasts “judged-as-beautiful vs. judged-as-ugly” and “judged-as-ugly vs. judged-as-beautiful” stimuli.a, Parasagittal, coronal and transaxial sections showing activation of the right amygdala in the interaction stimulus (beautiful vs. ugly)×condition (observation; aesthetic judgment; proporti... |
PMC2065898_pone-0001201-g004_14788.jpg | What can you see in this picture? | Brain activations in the contrasts “judged-as-beautiful vs. judged-as-ugly” and “judged-as-ugly vs. judged-as-beautiful” stimuli.a, Parasagittal, coronal and transaxial sections showing activation of the right amygdala in the interaction stimulus (beautiful vs. ugly)×condition (observation; aesthetic judgment; proporti... |
PMC2065898_pone-0001201-g004_14793.jpg | What is the core subject represented in this visual? | Brain activations in the contrasts “judged-as-beautiful vs. judged-as-ugly” and “judged-as-ugly vs. judged-as-beautiful” stimuli.a, Parasagittal, coronal and transaxial sections showing activation of the right amygdala in the interaction stimulus (beautiful vs. ugly)×condition (observation; aesthetic judgment; proporti... |
PMC2065898_pone-0001201-g004_14790.jpg | What is the main focus of this visual representation? | Brain activations in the contrasts “judged-as-beautiful vs. judged-as-ugly” and “judged-as-ugly vs. judged-as-beautiful” stimuli.a, Parasagittal, coronal and transaxial sections showing activation of the right amygdala in the interaction stimulus (beautiful vs. ugly)×condition (observation; aesthetic judgment; proporti... |
PMC2071907_F2_14795.jpg | Describe the main subject of this image. | CT. 1: Hydropneumothorax in right lung. 2: Multiple bullae in both lungs. 3: Paraseptal emphysema in left lung. 4: Mixed alveolar and interstitial pattern as silicoproteinosis and fibrosis. 5: Air bronchogram |
PMC2072833_f2-ehp0115-001631_14801.jpg | What key item or scene is captured in this photo? | BV2 microglia exposed to P25 (20 ppm) were examined with both LM and TEM. (A) The toluidine blue stained cytoplasm of BV2 microglia housed numerous, light-refractive P25 aggregates after 3-hr exposure. (B) LM examination of unstained, fixed cells exposed to P25 for 48 hr indicated that the cellular membranes were fragm... |
PMC2072833_f2-ehp0115-001631_14803.jpg | What key item or scene is captured in this photo? | BV2 microglia exposed to P25 (20 ppm) were examined with both LM and TEM. (A) The toluidine blue stained cytoplasm of BV2 microglia housed numerous, light-refractive P25 aggregates after 3-hr exposure. (B) LM examination of unstained, fixed cells exposed to P25 for 48 hr indicated that the cellular membranes were fragm... |
PMC2072833_f2-ehp0115-001631_14800.jpg | What is the dominant medical problem in this image? | BV2 microglia exposed to P25 (20 ppm) were examined with both LM and TEM. (A) The toluidine blue stained cytoplasm of BV2 microglia housed numerous, light-refractive P25 aggregates after 3-hr exposure. (B) LM examination of unstained, fixed cells exposed to P25 for 48 hr indicated that the cellular membranes were fragm... |
PMC2075162_pone-0001212-g009_14808.jpg | What is the core subject represented in this visual? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14809.jpg | What is the central feature of this picture? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14811.jpg | What can you see in this picture? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14814.jpg | What is the focal point of this photograph? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14815.jpg | What is being portrayed in this visual content? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14807.jpg | What is the focal point of this photograph? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14806.jpg | What key item or scene is captured in this photo? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14812.jpg | What stands out most in this visual? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14804.jpg | What is the principal component of this image? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075162_pone-0001212-g009_14810.jpg | What does this image primarily show? | Correlation between Nef mediated inhibition of TCR induced actin dynamics and tyrosine phosphorylation.Jurkat T cells expressing GFP or the indicated Nef.GFP proteins were incubated on TCR stimulatory surfaces, fixed and analyzed for the subcellular distribution of p-Tyr positive signaling complexes by confocal microsc... |
PMC2075367_pone-0001202-g004_14823.jpg | What is the dominant medical problem in this image? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14824.jpg | What is the central feature of this picture? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14827.jpg | What is the main focus of this visual representation? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14822.jpg | What object or scene is depicted here? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14825.jpg | What is shown in this image? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14818.jpg | What does this image primarily show? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14821.jpg | What's the most prominent thing you notice in this picture? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14816.jpg | What is the dominant medical problem in this image? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075367_pone-0001202-g004_14828.jpg | What is being portrayed in this visual content? | Expression of BCAS3 in embryoid bodies at day 14 of differentiation.Human EBs at day 14 of differentiation immunostained for (A, E, I, M) BCAS3 (green), (Q) isotype control (green), (B) PECAM (red) and (F, J, N, R) ICAM2 (red). (C, G, K, O, S) show nuclei stained with DAPI. (D, H, L, P, T) are merged images of respecti... |
PMC2075517_F2_14831.jpg | What is the core subject represented in this visual? | Brain regions representing the completed stimulus. Panel A displays the contrast map averaged across subjects showing regions responding significantly less to the completed stimulus in comparison to the physical stimulus (contrast completed < physical; p < 0.05, corrected for multiple comparison using a cluster size th... |
PMC2075517_F3_14834.jpg | What stands out most in this visual? | Brain region representing the physical stimulus. Panel A displays the contrast map averaged across subjects showing a region responding significantly less to the physical stimulus in comparison to the completed stimulus (contrast physical < completed; p < 0.01, uncorrected). The statistical map is superimposed on a sag... |
PMC2075517_F3_14836.jpg | What is the dominant medical problem in this image? | Brain region representing the physical stimulus. Panel A displays the contrast map averaged across subjects showing a region responding significantly less to the physical stimulus in comparison to the completed stimulus (contrast physical < completed; p < 0.01, uncorrected). The statistical map is superimposed on a sag... |
PMC2075521_F1_14838.jpg | What is the core subject represented in this visual? | 1a: Dynamic Contrast Enhanced (DCE) MR image showing region of increased gadolinium uptake in the left peripheral zone. 1b: MRI guided biopsy showing needle in the same region as in frame a. Pathology showed Gleason Score 7 disease. Immediately afterward, a fiducial marker was also placed in this location. 1c: Treatmen... |
PMC2075521_F1_14839.jpg | What object or scene is depicted here? | 1a: Dynamic Contrast Enhanced (DCE) MR image showing region of increased gadolinium uptake in the left peripheral zone. 1b: MRI guided biopsy showing needle in the same region as in frame a. Pathology showed Gleason Score 7 disease. Immediately afterward, a fiducial marker was also placed in this location. 1c: Treatmen... |
PMC2075521_F1_14837.jpg | What can you see in this picture? | 1a: Dynamic Contrast Enhanced (DCE) MR image showing region of increased gadolinium uptake in the left peripheral zone. 1b: MRI guided biopsy showing needle in the same region as in frame a. Pathology showed Gleason Score 7 disease. Immediately afterward, a fiducial marker was also placed in this location. 1c: Treatmen... |
PMC2075521_F3_14844.jpg | What key item or scene is captured in this photo? | False positive endorectal coil MRI lesion with contralateral malignant lesion. 3a: Color chart obtained from the MR Spectroscopy showing an elevated ratio of choline to citrate (depicted in red) in the right mid gland of the prostate. 3b: Area of the right mid gland (shown as a square in both a and b) on the T2 weighte... |
PMC2075521_F3_14842.jpg | What is the dominant medical problem in this image? | False positive endorectal coil MRI lesion with contralateral malignant lesion. 3a: Color chart obtained from the MR Spectroscopy showing an elevated ratio of choline to citrate (depicted in red) in the right mid gland of the prostate. 3b: Area of the right mid gland (shown as a square in both a and b) on the T2 weighte... |
PMC2075524_F8_14850.jpg | What is being portrayed in this visual content? | (A) Localization of TβRIIB in human prostate carcinoma is found in most epithelial cells (mainly in basal but also in columnar cells) in a nontumorous gland adjacent to a nontumorous gland without staining. (B) The negative control did not reveal any staining. Localization of TβRIIC in human prostate carcinoma was foun... |
PMC2075524_F8_14852.jpg | What is shown in this image? | (A) Localization of TβRIIB in human prostate carcinoma is found in most epithelial cells (mainly in basal but also in columnar cells) in a nontumorous gland adjacent to a nontumorous gland without staining. (B) The negative control did not reveal any staining. Localization of TβRIIC in human prostate carcinoma was foun... |
PMC2075524_F8_14849.jpg | What is the dominant medical problem in this image? | (A) Localization of TβRIIB in human prostate carcinoma is found in most epithelial cells (mainly in basal but also in columnar cells) in a nontumorous gland adjacent to a nontumorous gland without staining. (B) The negative control did not reveal any staining. Localization of TβRIIC in human prostate carcinoma was foun... |
PMC2075530_fig3_14853.jpg | What can you see in this picture? | EGFP fluorescence in PbMC1-KO parasites. (A) Female gametocyte. (B) Ookinete. (C) Day 15 oocysts containing sporozoites. DIC, differential interference contrast. (D) Sporozoites inside an infected mosquito salivary gland. |
PMC2075530_fig3_14855.jpg | What can you see in this picture? | EGFP fluorescence in PbMC1-KO parasites. (A) Female gametocyte. (B) Ookinete. (C) Day 15 oocysts containing sporozoites. DIC, differential interference contrast. (D) Sporozoites inside an infected mosquito salivary gland. |
PMC2075530_fig3_14854.jpg | What is the principal component of this image? | EGFP fluorescence in PbMC1-KO parasites. (A) Female gametocyte. (B) Ookinete. (C) Day 15 oocysts containing sporozoites. DIC, differential interference contrast. (D) Sporozoites inside an infected mosquito salivary gland. |
PMC2077337_F1_14857.jpg | Can you identify the primary element in this image? | Typical 3D treatment plan of Intensity modulated Radiotherapy (IMRT) for a child with head-and-neck RMS. Thick red line = target volume; orange area 90–100% of the total dose; yellow area 70–90% of the total dose; green area 50–70% of the total dose; blue areas 10–50% of the total dose. |
PMC2077337_F1_14858.jpg | Can you identify the primary element in this image? | Typical 3D treatment plan of Intensity modulated Radiotherapy (IMRT) for a child with head-and-neck RMS. Thick red line = target volume; orange area 90–100% of the total dose; yellow area 70–90% of the total dose; green area 50–70% of the total dose; blue areas 10–50% of the total dose. |
PMC2077338_F3_14860.jpg | What is shown in this image? | Three-dimensional model of the TIR domain of human TLR1. In red: amino acids 746 to 795 [numbering according to Additional file 1]. Note that the amino acids all lie in one plane at the surface of the TIR domain. |
PMC2077809_pone-0001191-g002_14864.jpg | Can you identify the primary element in this image? | Temporal correlation between illumination and BOLD-contrast changes.A. Time-course of the BOLD response in the deduced illuminated area (white circle in G). The first 4 min included the pretreatment (PC) and the light control (LC) pulses (200 mW/cm2). Each time point corresponds to a 12 s T2* BOLD-sensitive image. Blac... |
PMC2077809_pone-0001191-g002_14861.jpg | What is the main focus of this visual representation? | Temporal correlation between illumination and BOLD-contrast changes.A. Time-course of the BOLD response in the deduced illuminated area (white circle in G). The first 4 min included the pretreatment (PC) and the light control (LC) pulses (200 mW/cm2). Each time point corresponds to a 12 s T2* BOLD-sensitive image. Blac... |
PMC2077899_pcbi-0030212-g006_14867.jpg | What key item or scene is captured in this photo? | Comparative Analysis of Conditions for Dendritic Pattern Formation and Those for Dot, Stripe, and Reverse-Dot Pattern Generation(A) Condition of parameters for neuronal branching and Turing condition on a (pe − A
max)-plane. Simulations of the no-compartment model showed that dot, stripe, and reverse-dot domains are ma... |
PMC2077899_pcbi-0030212-g006_14869.jpg | What is the dominant medical problem in this image? | Comparative Analysis of Conditions for Dendritic Pattern Formation and Those for Dot, Stripe, and Reverse-Dot Pattern Generation(A) Condition of parameters for neuronal branching and Turing condition on a (pe − A
max)-plane. Simulations of the no-compartment model showed that dot, stripe, and reverse-dot domains are ma... |
PMC2077902_ppat-0030178-g002_14877.jpg | What is shown in this image? | EGFP Fluorescence in Tissues of Macaques after Experimental Infection with MV-IC323-EGFPCynomolgus macaque #C3 on day 9: MV infection in the skin (A), gingiva and buccal mucosa (B), tongue and tonsils (C), inguinal lymph nodes (D), lungs with tracheo-bronchial lymph nodes (E), stomach (left), spleen (upper left), and l... |
PMC2077902_ppat-0030178-g002_14873.jpg | What is the main focus of this visual representation? | EGFP Fluorescence in Tissues of Macaques after Experimental Infection with MV-IC323-EGFPCynomolgus macaque #C3 on day 9: MV infection in the skin (A), gingiva and buccal mucosa (B), tongue and tonsils (C), inguinal lymph nodes (D), lungs with tracheo-bronchial lymph nodes (E), stomach (left), spleen (upper left), and l... |
PMC2077902_ppat-0030178-g002_14871.jpg | What object or scene is depicted here? | EGFP Fluorescence in Tissues of Macaques after Experimental Infection with MV-IC323-EGFPCynomolgus macaque #C3 on day 9: MV infection in the skin (A), gingiva and buccal mucosa (B), tongue and tonsils (C), inguinal lymph nodes (D), lungs with tracheo-bronchial lymph nodes (E), stomach (left), spleen (upper left), and l... |
PMC2077902_ppat-0030178-g002_14870.jpg | What is being portrayed in this visual content? | EGFP Fluorescence in Tissues of Macaques after Experimental Infection with MV-IC323-EGFPCynomolgus macaque #C3 on day 9: MV infection in the skin (A), gingiva and buccal mucosa (B), tongue and tonsils (C), inguinal lymph nodes (D), lungs with tracheo-bronchial lymph nodes (E), stomach (left), spleen (upper left), and l... |
PMC2077902_ppat-0030178-g002_14874.jpg | What is the core subject represented in this visual? | EGFP Fluorescence in Tissues of Macaques after Experimental Infection with MV-IC323-EGFPCynomolgus macaque #C3 on day 9: MV infection in the skin (A), gingiva and buccal mucosa (B), tongue and tonsils (C), inguinal lymph nodes (D), lungs with tracheo-bronchial lymph nodes (E), stomach (left), spleen (upper left), and l... |
PMC2077902_ppat-0030178-g002_14872.jpg | What is the central feature of this picture? | EGFP Fluorescence in Tissues of Macaques after Experimental Infection with MV-IC323-EGFPCynomolgus macaque #C3 on day 9: MV infection in the skin (A), gingiva and buccal mucosa (B), tongue and tonsils (C), inguinal lymph nodes (D), lungs with tracheo-bronchial lymph nodes (E), stomach (left), spleen (upper left), and l... |
PMC2077902_ppat-0030178-g006_14881.jpg | Can you identify the primary element in this image? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14880.jpg | Describe the main subject of this image. | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14889.jpg | What can you see in this picture? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14895.jpg | What stands out most in this visual? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14879.jpg | What's the most prominent thing you notice in this picture? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14893.jpg | What stands out most in this visual? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14882.jpg | Can you identify the primary element in this image? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14894.jpg | What does this image primarily show? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
PMC2077902_ppat-0030178-g006_14883.jpg | What is being portrayed in this visual content? | Assessment of the Distribution of MV-Infected Cells in Fixed Tissue Sections Collected 9 d after InfectionMV infection was visualized by detection of EGFP fluorescence in paraformaldehyde-fixed vibratome-cut tissue sections (V, 100 μm) or through the use of anti-EGFP or anti-MV N antibodies in formalin-fixed microtome-... |
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