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PMC2117014_F1_15171.jpg | What is the focal point of this photograph? | CT scan of pelvis showing right lower quadrant mass. |
PMC2117014_F2_15172.jpg | What is being portrayed in this visual content? | MRI of pelvis showing right lower quadrant mass compressing external iliac vessels. |
PMC2117015_F2_15184.jpg | What is the central feature of this picture? | (A) A cystogram was performed and tissue was obtained for histological examination. (B) Under image-intensifier control, kirschner wires were drilled in appropriate positions on both medial and lateral cortices. (C) The entry holes of the nails were created with cannulated drills over the kirschner wires, and the nails... |
PMC2117015_F2_15183.jpg | What is the principal component of this image? | (A) A cystogram was performed and tissue was obtained for histological examination. (B) Under image-intensifier control, kirschner wires were drilled in appropriate positions on both medial and lateral cortices. (C) The entry holes of the nails were created with cannulated drills over the kirschner wires, and the nails... |
PMC2117015_F2_15182.jpg | What is the core subject represented in this visual? | (A) A cystogram was performed and tissue was obtained for histological examination. (B) Under image-intensifier control, kirschner wires were drilled in appropriate positions on both medial and lateral cortices. (C) The entry holes of the nails were created with cannulated drills over the kirschner wires, and the nails... |
PMC2117015_F4_15179.jpg | What key item or scene is captured in this photo? | (A) Plain radiograph and (B) computed tomography scan of a 6 year-old boy with a simple bone cyst at the right proximal femur. (C and D) Intramedullary nailing and injection of demineralized bone matrix and autologous bone marrow from the ipsilateral iliac crest was done.(E and F) Plain radiographs of the right proxima... |
PMC2117015_F4_15180.jpg | What is shown in this image? | (A) Plain radiograph and (B) computed tomography scan of a 6 year-old boy with a simple bone cyst at the right proximal femur. (C and D) Intramedullary nailing and injection of demineralized bone matrix and autologous bone marrow from the ipsilateral iliac crest was done.(E and F) Plain radiographs of the right proxima... |
PMC2117015_F4_15177.jpg | What stands out most in this visual? | (A) Plain radiograph and (B) computed tomography scan of a 6 year-old boy with a simple bone cyst at the right proximal femur. (C and D) Intramedullary nailing and injection of demineralized bone matrix and autologous bone marrow from the ipsilateral iliac crest was done.(E and F) Plain radiographs of the right proxima... |
PMC2117015_F4_15175.jpg | What is the core subject represented in this visual? | (A) Plain radiograph and (B) computed tomography scan of a 6 year-old boy with a simple bone cyst at the right proximal femur. (C and D) Intramedullary nailing and injection of demineralized bone matrix and autologous bone marrow from the ipsilateral iliac crest was done.(E and F) Plain radiographs of the right proxima... |
PMC2117015_F4_15174.jpg | What is the core subject represented in this visual? | (A) Plain radiograph and (B) computed tomography scan of a 6 year-old boy with a simple bone cyst at the right proximal femur. (C and D) Intramedullary nailing and injection of demineralized bone matrix and autologous bone marrow from the ipsilateral iliac crest was done.(E and F) Plain radiographs of the right proxima... |
PMC2117015_F4_15178.jpg | What can you see in this picture? | (A) Plain radiograph and (B) computed tomography scan of a 6 year-old boy with a simple bone cyst at the right proximal femur. (C and D) Intramedullary nailing and injection of demineralized bone matrix and autologous bone marrow from the ipsilateral iliac crest was done.(E and F) Plain radiographs of the right proxima... |
PMC2117347_pone-0001325-g002_15192.jpg | What is the central feature of this picture? | Time evolution of 4 µM EAK16-II assembly on the mica surface.AFM images collected at various incubation times: (a) 1 min; (b) 2 min; (c) 5 min; (d) 10 min; (e) 20 min; (f) 40 min; (g) 80 min; (h) 120 min; (i) 160 min. Surface coverage of EAK16-II on mica as a function of incubation time is plotted in panel (j). Each im... |
PMC2117347_pone-0001325-g002_15191.jpg | Can you identify the primary element in this image? | Time evolution of 4 µM EAK16-II assembly on the mica surface.AFM images collected at various incubation times: (a) 1 min; (b) 2 min; (c) 5 min; (d) 10 min; (e) 20 min; (f) 40 min; (g) 80 min; (h) 120 min; (i) 160 min. Surface coverage of EAK16-II on mica as a function of incubation time is plotted in panel (j). Each im... |
PMC2117347_pone-0001325-g002_15193.jpg | What stands out most in this visual? | Time evolution of 4 µM EAK16-II assembly on the mica surface.AFM images collected at various incubation times: (a) 1 min; (b) 2 min; (c) 5 min; (d) 10 min; (e) 20 min; (f) 40 min; (g) 80 min; (h) 120 min; (i) 160 min. Surface coverage of EAK16-II on mica as a function of incubation time is plotted in panel (j). Each im... |
PMC2117347_pone-0001325-g002_15185.jpg | What is the focal point of this photograph? | Time evolution of 4 µM EAK16-II assembly on the mica surface.AFM images collected at various incubation times: (a) 1 min; (b) 2 min; (c) 5 min; (d) 10 min; (e) 20 min; (f) 40 min; (g) 80 min; (h) 120 min; (i) 160 min. Surface coverage of EAK16-II on mica as a function of incubation time is plotted in panel (j). Each im... |
PMC2117347_pone-0001325-g002_15187.jpg | Describe the main subject of this image. | Time evolution of 4 µM EAK16-II assembly on the mica surface.AFM images collected at various incubation times: (a) 1 min; (b) 2 min; (c) 5 min; (d) 10 min; (e) 20 min; (f) 40 min; (g) 80 min; (h) 120 min; (i) 160 min. Surface coverage of EAK16-II on mica as a function of incubation time is plotted in panel (j). Each im... |
PMC2117347_pone-0001325-g002_15190.jpg | What does this image primarily show? | Time evolution of 4 µM EAK16-II assembly on the mica surface.AFM images collected at various incubation times: (a) 1 min; (b) 2 min; (c) 5 min; (d) 10 min; (e) 20 min; (f) 40 min; (g) 80 min; (h) 120 min; (i) 160 min. Surface coverage of EAK16-II on mica as a function of incubation time is plotted in panel (j). Each im... |
PMC2117347_pone-0001325-g002_15186.jpg | What key item or scene is captured in this photo? | Time evolution of 4 µM EAK16-II assembly on the mica surface.AFM images collected at various incubation times: (a) 1 min; (b) 2 min; (c) 5 min; (d) 10 min; (e) 20 min; (f) 40 min; (g) 80 min; (h) 120 min; (i) 160 min. Surface coverage of EAK16-II on mica as a function of incubation time is plotted in panel (j). Each im... |
PMC2117347_pone-0001325-g003_15196.jpg | What does this image primarily show? | Effect of EAK16-II concentration on the surface coverage of peptide assemblies on mica.AFM images of EAK16-II-modified mica surfaces at 10 min incubation in solutions with various peptide concentrations: (a) 1 µM; (b) 2 µM; (c) 4 µM; (d) 8 µM; (e) 12 µM. Surface coverage of EAK16-II nanofibers on mica as a function of ... |
PMC2117347_pone-0001325-g003_15198.jpg | Describe the main subject of this image. | Effect of EAK16-II concentration on the surface coverage of peptide assemblies on mica.AFM images of EAK16-II-modified mica surfaces at 10 min incubation in solutions with various peptide concentrations: (a) 1 µM; (b) 2 µM; (c) 4 µM; (d) 8 µM; (e) 12 µM. Surface coverage of EAK16-II nanofibers on mica as a function of ... |
PMC2117347_pone-0001325-g003_15195.jpg | What is shown in this image? | Effect of EAK16-II concentration on the surface coverage of peptide assemblies on mica.AFM images of EAK16-II-modified mica surfaces at 10 min incubation in solutions with various peptide concentrations: (a) 1 µM; (b) 2 µM; (c) 4 µM; (d) 8 µM; (e) 12 µM. Surface coverage of EAK16-II nanofibers on mica as a function of ... |
PMC2117347_pone-0001325-g003_15197.jpg | What can you see in this picture? | Effect of EAK16-II concentration on the surface coverage of peptide assemblies on mica.AFM images of EAK16-II-modified mica surfaces at 10 min incubation in solutions with various peptide concentrations: (a) 1 µM; (b) 2 µM; (c) 4 µM; (d) 8 µM; (e) 12 µM. Surface coverage of EAK16-II nanofibers on mica as a function of ... |
PMC2117347_pone-0001325-g004_15202.jpg | What can you see in this picture? | AFM images of EAK 16-II-modified HOPG surface at different concentrations and time periods: (a) 2 µM, 25 min; (b) 2 µM, 2 h; (c) 6.2 µM, 10 min; (d) 6.2 µM, 2 h after different incubation periods.(e) schematic diagram of EAK16-II in a β-strand conformation on HOPG. Each AFM image corresponds to a scan area of 1000 nm×1... |
PMC2117347_pone-0001325-g004_15203.jpg | What does this image primarily show? | AFM images of EAK 16-II-modified HOPG surface at different concentrations and time periods: (a) 2 µM, 25 min; (b) 2 µM, 2 h; (c) 6.2 µM, 10 min; (d) 6.2 µM, 2 h after different incubation periods.(e) schematic diagram of EAK16-II in a β-strand conformation on HOPG. Each AFM image corresponds to a scan area of 1000 nm×1... |
PMC2117347_pone-0001325-g004_15206.jpg | What is being portrayed in this visual content? | AFM images of EAK 16-II-modified HOPG surface at different concentrations and time periods: (a) 2 µM, 25 min; (b) 2 µM, 2 h; (c) 6.2 µM, 10 min; (d) 6.2 µM, 2 h after different incubation periods.(e) schematic diagram of EAK16-II in a β-strand conformation on HOPG. Each AFM image corresponds to a scan area of 1000 nm×1... |
PMC2117347_pone-0001325-g004_15205.jpg | What is the main focus of this visual representation? | AFM images of EAK 16-II-modified HOPG surface at different concentrations and time periods: (a) 2 µM, 25 min; (b) 2 µM, 2 h; (c) 6.2 µM, 10 min; (d) 6.2 µM, 2 h after different incubation periods.(e) schematic diagram of EAK16-II in a β-strand conformation on HOPG. Each AFM image corresponds to a scan area of 1000 nm×1... |
PMC2121127_pone-0001349-g002_15216.jpg | What object or scene is depicted here? | The influence of medium on neural differentiation profile in nestin transgenic ES cell clones.The differentiation pattern in nes-EGFP cells as seen in bright field and fluorescence at 8 dpp and 10 dpp in KO (A,B and C,D) and FBS containing (E,F and G) medium respectively. The neural differentiation was promoted in KO m... |
PMC2121127_pone-0001349-g002_15211.jpg | What key item or scene is captured in this photo? | The influence of medium on neural differentiation profile in nestin transgenic ES cell clones.The differentiation pattern in nes-EGFP cells as seen in bright field and fluorescence at 8 dpp and 10 dpp in KO (A,B and C,D) and FBS containing (E,F and G) medium respectively. The neural differentiation was promoted in KO m... |
PMC2121127_pone-0001349-g002_15217.jpg | What's the most prominent thing you notice in this picture? | The influence of medium on neural differentiation profile in nestin transgenic ES cell clones.The differentiation pattern in nes-EGFP cells as seen in bright field and fluorescence at 8 dpp and 10 dpp in KO (A,B and C,D) and FBS containing (E,F and G) medium respectively. The neural differentiation was promoted in KO m... |
PMC2121127_pone-0001349-g002_15215.jpg | What is shown in this image? | The influence of medium on neural differentiation profile in nestin transgenic ES cell clones.The differentiation pattern in nes-EGFP cells as seen in bright field and fluorescence at 8 dpp and 10 dpp in KO (A,B and C,D) and FBS containing (E,F and G) medium respectively. The neural differentiation was promoted in KO m... |
PMC2121127_pone-0001349-g002_15212.jpg | What is the main focus of this visual representation? | The influence of medium on neural differentiation profile in nestin transgenic ES cell clones.The differentiation pattern in nes-EGFP cells as seen in bright field and fluorescence at 8 dpp and 10 dpp in KO (A,B and C,D) and FBS containing (E,F and G) medium respectively. The neural differentiation was promoted in KO m... |
PMC2121127_pone-0001349-g002_15209.jpg | What is the main focus of this visual representation? | The influence of medium on neural differentiation profile in nestin transgenic ES cell clones.The differentiation pattern in nes-EGFP cells as seen in bright field and fluorescence at 8 dpp and 10 dpp in KO (A,B and C,D) and FBS containing (E,F and G) medium respectively. The neural differentiation was promoted in KO m... |
PMC2121127_pone-0001349-g002_15207.jpg | Describe the main subject of this image. | The influence of medium on neural differentiation profile in nestin transgenic ES cell clones.The differentiation pattern in nes-EGFP cells as seen in bright field and fluorescence at 8 dpp and 10 dpp in KO (A,B and C,D) and FBS containing (E,F and G) medium respectively. The neural differentiation was promoted in KO m... |
PMC2121138_fig02_15219.jpg | What can you see in this picture? | Localization of purinergic receptors in glutamatergic synapses in rat hippocampus by immunogold labelling. Electron micrographs of sections single labelled for A1R (A) and for P2Y1R (B) are illustrated by examples from CA1 stratum radiatum (A main picture, B inset), CA3 stratum radiatum (A inset) and area dentata (B ma... |
PMC2121138_fig02_15221.jpg | What key item or scene is captured in this photo? | Localization of purinergic receptors in glutamatergic synapses in rat hippocampus by immunogold labelling. Electron micrographs of sections single labelled for A1R (A) and for P2Y1R (B) are illustrated by examples from CA1 stratum radiatum (A main picture, B inset), CA3 stratum radiatum (A inset) and area dentata (B ma... |
PMC2121138_fig02_15218.jpg | What object or scene is depicted here? | Localization of purinergic receptors in glutamatergic synapses in rat hippocampus by immunogold labelling. Electron micrographs of sections single labelled for A1R (A) and for P2Y1R (B) are illustrated by examples from CA1 stratum radiatum (A main picture, B inset), CA3 stratum radiatum (A inset) and area dentata (B ma... |
PMC2121138_fig02_15222.jpg | What is the dominant medical problem in this image? | Localization of purinergic receptors in glutamatergic synapses in rat hippocampus by immunogold labelling. Electron micrographs of sections single labelled for A1R (A) and for P2Y1R (B) are illustrated by examples from CA1 stratum radiatum (A main picture, B inset), CA3 stratum radiatum (A inset) and area dentata (B ma... |
PMC2121139_fig06_15223.jpg | What is the main focus of this visual representation? | ORN projections into the antennal lobe. Anterograde backfilling with concurrent stimulation of single-defined sensilla trichodea revealed a stereotypic organization of the glomerular targets of functionally distinct ORNs. Stimulation with the best ligand for the short sharp-tipped (sst)1A and sst3A neurons, 4MCH, consi... |
PMC2121139_fig06_15224.jpg | What's the most prominent thing you notice in this picture? | ORN projections into the antennal lobe. Anterograde backfilling with concurrent stimulation of single-defined sensilla trichodea revealed a stereotypic organization of the glomerular targets of functionally distinct ORNs. Stimulation with the best ligand for the short sharp-tipped (sst)1A and sst3A neurons, 4MCH, consi... |
PMC2121139_fig06_15227.jpg | What's the most prominent thing you notice in this picture? | ORN projections into the antennal lobe. Anterograde backfilling with concurrent stimulation of single-defined sensilla trichodea revealed a stereotypic organization of the glomerular targets of functionally distinct ORNs. Stimulation with the best ligand for the short sharp-tipped (sst)1A and sst3A neurons, 4MCH, consi... |
PMC2121139_fig06_15229.jpg | What stands out most in this visual? | ORN projections into the antennal lobe. Anterograde backfilling with concurrent stimulation of single-defined sensilla trichodea revealed a stereotypic organization of the glomerular targets of functionally distinct ORNs. Stimulation with the best ligand for the short sharp-tipped (sst)1A and sst3A neurons, 4MCH, consi... |
PMC2121139_fig06_15226.jpg | What key item or scene is captured in this photo? | ORN projections into the antennal lobe. Anterograde backfilling with concurrent stimulation of single-defined sensilla trichodea revealed a stereotypic organization of the glomerular targets of functionally distinct ORNs. Stimulation with the best ligand for the short sharp-tipped (sst)1A and sst3A neurons, 4MCH, consi... |
PMC2121139_fig06_15225.jpg | What is the principal component of this image? | ORN projections into the antennal lobe. Anterograde backfilling with concurrent stimulation of single-defined sensilla trichodea revealed a stereotypic organization of the glomerular targets of functionally distinct ORNs. Stimulation with the best ligand for the short sharp-tipped (sst)1A and sst3A neurons, 4MCH, consi... |
PMC2121143_fig01_15232.jpg | What is being portrayed in this visual content? | Microphotographs at low and high magnifications of the corticostriatal projections following tracer injections into (a and b) PMdr (case 161, FR) and (c–e) area 24c (case 62, tritiated AA). In (a) and (c), the charted outlines of the focal projections have been superimposed on the microphotographs. In (b) and (d), regi... |
PMC2121143_fig01_15233.jpg | What stands out most in this visual? | Microphotographs at low and high magnifications of the corticostriatal projections following tracer injections into (a and b) PMdr (case 161, FR) and (c–e) area 24c (case 62, tritiated AA). In (a) and (c), the charted outlines of the focal projections have been superimposed on the microphotographs. In (b) and (d), regi... |
PMC2121143_fig01_15234.jpg | Describe the main subject of this image. | Microphotographs at low and high magnifications of the corticostriatal projections following tracer injections into (a and b) PMdr (case 161, FR) and (c–e) area 24c (case 62, tritiated AA). In (a) and (c), the charted outlines of the focal projections have been superimposed on the microphotographs. In (b) and (d), regi... |
PMC2121143_fig01_15231.jpg | Can you identify the primary element in this image? | Microphotographs at low and high magnifications of the corticostriatal projections following tracer injections into (a and b) PMdr (case 161, FR) and (c–e) area 24c (case 62, tritiated AA). In (a) and (c), the charted outlines of the focal projections have been superimposed on the microphotographs. In (b) and (d), regi... |
PMC2121143_fig10_15237.jpg | What can you see in this picture? | 3-D rendering of the combined focal projections from all the frontal regions, illustrating the overlap between corticostriatal projections. The white lines in (a) the lateral view of the striatum indicate the level of sections illustrated in (b) and (c) (b and c) Coronal slices through the 3-D model with the correspond... |
PMC2121143_fig10_15235.jpg | Describe the main subject of this image. | 3-D rendering of the combined focal projections from all the frontal regions, illustrating the overlap between corticostriatal projections. The white lines in (a) the lateral view of the striatum indicate the level of sections illustrated in (b) and (c) (b and c) Coronal slices through the 3-D model with the correspond... |
PMC2121149_fig01_15241.jpg | What object or scene is depicted here? | CD1 expression in leprosy skin lesions. A, a few positive cells in suprabasal localization of flattened epidermis of lepromatous leprosy/borderline leprosy patients. B, dendritic cells in upper layers of the thickened epidermis in a type II reaction patient. C, marked positive dendritic cells in a type I reaction patie... |
PMC2121149_fig01_15240.jpg | What is the central feature of this picture? | CD1 expression in leprosy skin lesions. A, a few positive cells in suprabasal localization of flattened epidermis of lepromatous leprosy/borderline leprosy patients. B, dendritic cells in upper layers of the thickened epidermis in a type II reaction patient. C, marked positive dendritic cells in a type I reaction patie... |
PMC2121149_fig01_15239.jpg | What is shown in this image? | CD1 expression in leprosy skin lesions. A, a few positive cells in suprabasal localization of flattened epidermis of lepromatous leprosy/borderline leprosy patients. B, dendritic cells in upper layers of the thickened epidermis in a type II reaction patient. C, marked positive dendritic cells in a type I reaction patie... |
PMC2121149_fig01_15238.jpg | What's the most prominent thing you notice in this picture? | CD1 expression in leprosy skin lesions. A, a few positive cells in suprabasal localization of flattened epidermis of lepromatous leprosy/borderline leprosy patients. B, dendritic cells in upper layers of the thickened epidermis in a type II reaction patient. C, marked positive dendritic cells in a type I reaction patie... |
PMC2121149_fig03_15242.jpg | What can you see in this picture? | HLA-DR and intercellular adhesion molecule (ICAM)-1 expression in leprosy skin lesions. Figures are representative of HLA-DR (A–C) and ICAM-1 (D–F). A, only the dermal infiltrates are labelled in a type II reaction biopsy. B, fifty per cent of keratinocytes are labelled in a borderline tuberculoid patient. C, marked ex... |
PMC2121149_fig03_15245.jpg | What is the core subject represented in this visual? | HLA-DR and intercellular adhesion molecule (ICAM)-1 expression in leprosy skin lesions. Figures are representative of HLA-DR (A–C) and ICAM-1 (D–F). A, only the dermal infiltrates are labelled in a type II reaction biopsy. B, fifty per cent of keratinocytes are labelled in a borderline tuberculoid patient. C, marked ex... |
PMC2121149_fig03_15243.jpg | What is the focal point of this photograph? | HLA-DR and intercellular adhesion molecule (ICAM)-1 expression in leprosy skin lesions. Figures are representative of HLA-DR (A–C) and ICAM-1 (D–F). A, only the dermal infiltrates are labelled in a type II reaction biopsy. B, fifty per cent of keratinocytes are labelled in a borderline tuberculoid patient. C, marked ex... |
PMC2121149_fig03_15246.jpg | What is the principal component of this image? | HLA-DR and intercellular adhesion molecule (ICAM)-1 expression in leprosy skin lesions. Figures are representative of HLA-DR (A–C) and ICAM-1 (D–F). A, only the dermal infiltrates are labelled in a type II reaction biopsy. B, fifty per cent of keratinocytes are labelled in a borderline tuberculoid patient. C, marked ex... |
PMC2121150_fig02_15249.jpg | What is the central feature of this picture? | Immunofluorescence images of representative respiratory epithelia (Level 2.5 septum). Nasal cavity sections were prepared 3 (a–c) and 7 (d–f) days postinfection by WT or ΔfhaB. Both WT and ΔfhaB were able to colonize the respiratory epithelia. Tissues were stained with mouse anti-Bordetella bronchiseptica antibodies. R... |
PMC2121150_fig02_15250.jpg | What is the core subject represented in this visual? | Immunofluorescence images of representative respiratory epithelia (Level 2.5 septum). Nasal cavity sections were prepared 3 (a–c) and 7 (d–f) days postinfection by WT or ΔfhaB. Both WT and ΔfhaB were able to colonize the respiratory epithelia. Tissues were stained with mouse anti-Bordetella bronchiseptica antibodies. R... |
PMC2121150_fig02_15251.jpg | What's the most prominent thing you notice in this picture? | Immunofluorescence images of representative respiratory epithelia (Level 2.5 septum). Nasal cavity sections were prepared 3 (a–c) and 7 (d–f) days postinfection by WT or ΔfhaB. Both WT and ΔfhaB were able to colonize the respiratory epithelia. Tissues were stained with mouse anti-Bordetella bronchiseptica antibodies. R... |
PMC2121150_fig02_15248.jpg | What is being portrayed in this visual content? | Immunofluorescence images of representative respiratory epithelia (Level 2.5 septum). Nasal cavity sections were prepared 3 (a–c) and 7 (d–f) days postinfection by WT or ΔfhaB. Both WT and ΔfhaB were able to colonize the respiratory epithelia. Tissues were stained with mouse anti-Bordetella bronchiseptica antibodies. R... |
PMC2121150_fig02_15253.jpg | What stands out most in this visual? | Immunofluorescence images of representative respiratory epithelia (Level 2.5 septum). Nasal cavity sections were prepared 3 (a–c) and 7 (d–f) days postinfection by WT or ΔfhaB. Both WT and ΔfhaB were able to colonize the respiratory epithelia. Tissues were stained with mouse anti-Bordetella bronchiseptica antibodies. R... |
PMC2121150_fig01_15254.jpg | What is the principal component of this image? | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121150_fig01_15258.jpg | Can you identify the primary element in this image? | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121150_fig01_15260.jpg | Describe the main subject of this image. | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121150_fig01_15261.jpg | What is shown in this image? | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121150_fig01_15262.jpg | Describe the main subject of this image. | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121150_fig01_15255.jpg | What's the most prominent thing you notice in this picture? | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121150_fig01_15256.jpg | What object or scene is depicted here? | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121150_fig01_15257.jpg | What can you see in this picture? | Immunofluorescence images of representative olfactory epithelia (Level 2.5 naso-turbinates). (a–f) Nasal cavity sections were prepared 3 and 7 days postinfection by WT or ΔfhaB Bordetella bronchiseptica. Only WT was able to colonize the olfactory epithelia. At 7 days postinfection, WT bacteria formed large three-dimens... |
PMC2121184_fig01_15263.jpg | Can you identify the primary element in this image? | Fluorescent staining for PGP9.5 and vWF. (A) A combined image of transmitted light (shades of grey) and PGP9.5 fluorescence (red) of VSMCs and AIL cells (arrows) obtained by confocal microscopy. Neither AIL cells nor VSMCs stained positive for PGP9.5 (n = 24 cells). (B) A combined image of transmitted light (shades of ... |
PMC2121184_fig01_15264.jpg | What is the central feature of this picture? | Fluorescent staining for PGP9.5 and vWF. (A) A combined image of transmitted light (shades of grey) and PGP9.5 fluorescence (red) of VSMCs and AIL cells (arrows) obtained by confocal microscopy. Neither AIL cells nor VSMCs stained positive for PGP9.5 (n = 24 cells). (B) A combined image of transmitted light (shades of ... |
PMC2121184_fig01_15265.jpg | What is the core subject represented in this visual? | Fluorescent staining for PGP9.5 and vWF. (A) A combined image of transmitted light (shades of grey) and PGP9.5 fluorescence (red) of VSMCs and AIL cells (arrows) obtained by confocal microscopy. Neither AIL cells nor VSMCs stained positive for PGP9.5 (n = 24 cells). (B) A combined image of transmitted light (shades of ... |
PMC2121184_fig01_15266.jpg | What is the dominant medical problem in this image? | Fluorescent staining for PGP9.5 and vWF. (A) A combined image of transmitted light (shades of grey) and PGP9.5 fluorescence (red) of VSMCs and AIL cells (arrows) obtained by confocal microscopy. Neither AIL cells nor VSMCs stained positive for PGP9.5 (n = 24 cells). (B) A combined image of transmitted light (shades of ... |
PMC2121184_fig03_15269.jpg | What is the principal component of this image? | Fluorescent staining for smoothelin and MLCK. (A) Transmitted light image of an AIL cell and a VSMC and (B) an image of smoothelin fluorescence in the same cells, obtained by confocal microscopy. (C) Smoothelin fluorescence of AIL cells was 21.4 ± 8.7% of that in VSMCs (n = 10 cell pairs from three animals, P = 0.00001... |
PMC2121184_fig03_15267.jpg | What does this image primarily show? | Fluorescent staining for smoothelin and MLCK. (A) Transmitted light image of an AIL cell and a VSMC and (B) an image of smoothelin fluorescence in the same cells, obtained by confocal microscopy. (C) Smoothelin fluorescence of AIL cells was 21.4 ± 8.7% of that in VSMCs (n = 10 cell pairs from three animals, P = 0.00001... |
PMC2121184_fig03_15268.jpg | What is the main focus of this visual representation? | Fluorescent staining for smoothelin and MLCK. (A) Transmitted light image of an AIL cell and a VSMC and (B) an image of smoothelin fluorescence in the same cells, obtained by confocal microscopy. (C) Smoothelin fluorescence of AIL cells was 21.4 ± 8.7% of that in VSMCs (n = 10 cell pairs from three animals, P = 0.00001... |
PMC2129096_F1_15276.jpg | What key item or scene is captured in this photo? | Architecture of the CSD neuron. The neuron is marked by a flipout in the RN2-Flp, Tub-FRT-CD2-FRTGal4, UAS-mCD8GFP strain, resulting in GFP expression in a single CSD neuron. (a) Only one of the pair of CSD neurons is labeled with antibodies to GFP (green) and the brain neuropile is stained with mAbnc82 (red). 1 μm sec... |
PMC2129096_F1_15279.jpg | What is the principal component of this image? | Architecture of the CSD neuron. The neuron is marked by a flipout in the RN2-Flp, Tub-FRT-CD2-FRTGal4, UAS-mCD8GFP strain, resulting in GFP expression in a single CSD neuron. (a) Only one of the pair of CSD neurons is labeled with antibodies to GFP (green) and the brain neuropile is stained with mAbnc82 (red). 1 μm sec... |
PMC2129096_F1_15275.jpg | Describe the main subject of this image. | Architecture of the CSD neuron. The neuron is marked by a flipout in the RN2-Flp, Tub-FRT-CD2-FRTGal4, UAS-mCD8GFP strain, resulting in GFP expression in a single CSD neuron. (a) Only one of the pair of CSD neurons is labeled with antibodies to GFP (green) and the brain neuropile is stained with mAbnc82 (red). 1 μm sec... |
PMC2129096_F1_15274.jpg | Describe the main subject of this image. | Architecture of the CSD neuron. The neuron is marked by a flipout in the RN2-Flp, Tub-FRT-CD2-FRTGal4, UAS-mCD8GFP strain, resulting in GFP expression in a single CSD neuron. (a) Only one of the pair of CSD neurons is labeled with antibodies to GFP (green) and the brain neuropile is stained with mAbnc82 (red). 1 μm sec... |
PMC2129096_F1_15278.jpg | What is the main focus of this visual representation? | Architecture of the CSD neuron. The neuron is marked by a flipout in the RN2-Flp, Tub-FRT-CD2-FRTGal4, UAS-mCD8GFP strain, resulting in GFP expression in a single CSD neuron. (a) Only one of the pair of CSD neurons is labeled with antibodies to GFP (green) and the brain neuropile is stained with mAbnc82 (red). 1 μm sec... |
PMC2129096_F7_15291.jpg | What is shown in this image? | Effect of ablation of subsets of neurons within the olfactory circuit on the development of the CSD neuron. (a) Antennal lobes (demarcated with dotted lines) of lz3; +/+; Antp/RN2-Flp, Tub-FRT-CD2-FRT-Gal4, UAS-CD8GFP stained with anti-GFP (green) and mAbnc82 (red). lz3; +/+; Antp/+ animals lack ORNs projecting from th... |
PMC2129096_F7_15285.jpg | What stands out most in this visual? | Effect of ablation of subsets of neurons within the olfactory circuit on the development of the CSD neuron. (a) Antennal lobes (demarcated with dotted lines) of lz3; +/+; Antp/RN2-Flp, Tub-FRT-CD2-FRT-Gal4, UAS-CD8GFP stained with anti-GFP (green) and mAbnc82 (red). lz3; +/+; Antp/+ animals lack ORNs projecting from th... |
PMC2129096_F7_15287.jpg | What is the main focus of this visual representation? | Effect of ablation of subsets of neurons within the olfactory circuit on the development of the CSD neuron. (a) Antennal lobes (demarcated with dotted lines) of lz3; +/+; Antp/RN2-Flp, Tub-FRT-CD2-FRT-Gal4, UAS-CD8GFP stained with anti-GFP (green) and mAbnc82 (red). lz3; +/+; Antp/+ animals lack ORNs projecting from th... |
PMC2129096_F7_15283.jpg | What's the most prominent thing you notice in this picture? | Effect of ablation of subsets of neurons within the olfactory circuit on the development of the CSD neuron. (a) Antennal lobes (demarcated with dotted lines) of lz3; +/+; Antp/RN2-Flp, Tub-FRT-CD2-FRT-Gal4, UAS-CD8GFP stained with anti-GFP (green) and mAbnc82 (red). lz3; +/+; Antp/+ animals lack ORNs projecting from th... |
PMC2129096_F7_15286.jpg | What is being portrayed in this visual content? | Effect of ablation of subsets of neurons within the olfactory circuit on the development of the CSD neuron. (a) Antennal lobes (demarcated with dotted lines) of lz3; +/+; Antp/RN2-Flp, Tub-FRT-CD2-FRT-Gal4, UAS-CD8GFP stained with anti-GFP (green) and mAbnc82 (red). lz3; +/+; Antp/+ animals lack ORNs projecting from th... |
PMC2129096_F7_15288.jpg | What is the core subject represented in this visual? | Effect of ablation of subsets of neurons within the olfactory circuit on the development of the CSD neuron. (a) Antennal lobes (demarcated with dotted lines) of lz3; +/+; Antp/RN2-Flp, Tub-FRT-CD2-FRT-Gal4, UAS-CD8GFP stained with anti-GFP (green) and mAbnc82 (red). lz3; +/+; Antp/+ animals lack ORNs projecting from th... |
PMC2129096_F7_15284.jpg | What key item or scene is captured in this photo? | Effect of ablation of subsets of neurons within the olfactory circuit on the development of the CSD neuron. (a) Antennal lobes (demarcated with dotted lines) of lz3; +/+; Antp/RN2-Flp, Tub-FRT-CD2-FRT-Gal4, UAS-CD8GFP stained with anti-GFP (green) and mAbnc82 (red). lz3; +/+; Antp/+ animals lack ORNs projecting from th... |
PMC2129114_pone-0001333-g002_15294.jpg | What object or scene is depicted here? | Regression analysis of BOLD signal by expected future reward with different discount rates.Voxels within the striatum (3D mesh surface) showing a significant correlation (P<0.001 in one sample t-test, uncorrected for multiple comparisons, n = 12 subjects) with V(t) at different settings of γ are shown with color codes ... |
PMC2129114_pone-0001333-g002_15293.jpg | What is being portrayed in this visual content? | Regression analysis of BOLD signal by expected future reward with different discount rates.Voxels within the striatum (3D mesh surface) showing a significant correlation (P<0.001 in one sample t-test, uncorrected for multiple comparisons, n = 12 subjects) with V(t) at different settings of γ are shown with color codes ... |
PMC2129114_pone-0001333-g002_15295.jpg | What is the principal component of this image? | Regression analysis of BOLD signal by expected future reward with different discount rates.Voxels within the striatum (3D mesh surface) showing a significant correlation (P<0.001 in one sample t-test, uncorrected for multiple comparisons, n = 12 subjects) with V(t) at different settings of γ are shown with color codes ... |
PMC2129114_pone-0001333-g002_15296.jpg | What stands out most in this visual? | Regression analysis of BOLD signal by expected future reward with different discount rates.Voxels within the striatum (3D mesh surface) showing a significant correlation (P<0.001 in one sample t-test, uncorrected for multiple comparisons, n = 12 subjects) with V(t) at different settings of γ are shown with color codes ... |
PMC2129115_pone-0001334-g003_15299.jpg | Can you identify the primary element in this image? |
Cebpd mRNA expression is localized to theca and interstitial cells.Dark-field photomicrographs of in situ hybridization analyses using Cebpd-specific sense and antisense RNA probes on sections from ovaries of 6 week-old mice treated for 2 days with PMSG followed by hCG for the indicated times. Outlined regions in the ... |
PMC2129115_pone-0001334-g003_15302.jpg | Can you identify the primary element in this image? |
Cebpd mRNA expression is localized to theca and interstitial cells.Dark-field photomicrographs of in situ hybridization analyses using Cebpd-specific sense and antisense RNA probes on sections from ovaries of 6 week-old mice treated for 2 days with PMSG followed by hCG for the indicated times. Outlined regions in the ... |
PMC2129115_pone-0001334-g003_15301.jpg | What's the most prominent thing you notice in this picture? |
Cebpd mRNA expression is localized to theca and interstitial cells.Dark-field photomicrographs of in situ hybridization analyses using Cebpd-specific sense and antisense RNA probes on sections from ovaries of 6 week-old mice treated for 2 days with PMSG followed by hCG for the indicated times. Outlined regions in the ... |
PMC2129115_pone-0001334-g003_15298.jpg | What is the dominant medical problem in this image? |
Cebpd mRNA expression is localized to theca and interstitial cells.Dark-field photomicrographs of in situ hybridization analyses using Cebpd-specific sense and antisense RNA probes on sections from ovaries of 6 week-old mice treated for 2 days with PMSG followed by hCG for the indicated times. Outlined regions in the ... |
PMC2129115_pone-0001334-g004_15307.jpg | What is the dominant medical problem in this image? | CEBPD protein expression in mouse ovaries.(A) Immunohistochemistry for CEBPD in ovaries from wild-type (WT) or Cebpd null mutant (KO) mice at the indicated time points following hCG treatment. (B, C) Immunohistochemistry for CEBPD and alpha smooth muscle actin (ACTA2) in wild-type ovaries harvested 3 h after hCG treatm... |
PMC2129115_pone-0001334-g004_15306.jpg | What is shown in this image? | CEBPD protein expression in mouse ovaries.(A) Immunohistochemistry for CEBPD in ovaries from wild-type (WT) or Cebpd null mutant (KO) mice at the indicated time points following hCG treatment. (B, C) Immunohistochemistry for CEBPD and alpha smooth muscle actin (ACTA2) in wild-type ovaries harvested 3 h after hCG treatm... |
PMC2129115_pone-0001334-g004_15309.jpg | What does this image primarily show? | CEBPD protein expression in mouse ovaries.(A) Immunohistochemistry for CEBPD in ovaries from wild-type (WT) or Cebpd null mutant (KO) mice at the indicated time points following hCG treatment. (B, C) Immunohistochemistry for CEBPD and alpha smooth muscle actin (ACTA2) in wild-type ovaries harvested 3 h after hCG treatm... |
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