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PMC2430954_F9_24475.jpg | Describe the main subject of this image. | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
PMC2430954_F9_24474.jpg | What is the central feature of this picture? | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
PMC2430954_F9_24476.jpg | Describe the main subject of this image. | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
PMC2430954_F9_24472.jpg | What is the principal component of this image? | The top 3 images show orthogonal views of raw PET data. The bottom 8 images show the same data converted to 3D stereotactic surface projections by NEUROSTAT software [20]. The surfaces are shown with both gray and pseudo color tables to highlight the influence of color on contrast. Solid crosshairs indicate an image is... |
PMC2431126_fig06_24477.jpg | What is the dominant medical problem in this image? | Examples of decreased CNTFRα immunoreactivity in Cre-expressing floxed facial MNs 2 weeks after AAV-Cre injection. Sections from wild-type (A, D, G) and floxed (B, E, H and C, F, I) mice immunohistochemically labeled for CNTFRα (red; in cytoplasm and processes of MNs) and Cre (green; in MN nuclei and, to a lesser exten... |
PMC2431126_fig06_24483.jpg | What is the dominant medical problem in this image? | Examples of decreased CNTFRα immunoreactivity in Cre-expressing floxed facial MNs 2 weeks after AAV-Cre injection. Sections from wild-type (A, D, G) and floxed (B, E, H and C, F, I) mice immunohistochemically labeled for CNTFRα (red; in cytoplasm and processes of MNs) and Cre (green; in MN nuclei and, to a lesser exten... |
PMC2431126_fig06_24481.jpg | Can you identify the primary element in this image? | Examples of decreased CNTFRα immunoreactivity in Cre-expressing floxed facial MNs 2 weeks after AAV-Cre injection. Sections from wild-type (A, D, G) and floxed (B, E, H and C, F, I) mice immunohistochemically labeled for CNTFRα (red; in cytoplasm and processes of MNs) and Cre (green; in MN nuclei and, to a lesser exten... |
PMC2431126_fig06_24480.jpg | What is the dominant medical problem in this image? | Examples of decreased CNTFRα immunoreactivity in Cre-expressing floxed facial MNs 2 weeks after AAV-Cre injection. Sections from wild-type (A, D, G) and floxed (B, E, H and C, F, I) mice immunohistochemically labeled for CNTFRα (red; in cytoplasm and processes of MNs) and Cre (green; in MN nuclei and, to a lesser exten... |
PMC2431126_fig06_24478.jpg | What is the core subject represented in this visual? | Examples of decreased CNTFRα immunoreactivity in Cre-expressing floxed facial MNs 2 weeks after AAV-Cre injection. Sections from wild-type (A, D, G) and floxed (B, E, H and C, F, I) mice immunohistochemically labeled for CNTFRα (red; in cytoplasm and processes of MNs) and Cre (green; in MN nuclei and, to a lesser exten... |
PMC2432041_pone-0002612-g002_24491.jpg | What is the focal point of this photograph? | Cav-1 immunohistochemistry.A, C: Cav-1 staining on carotid plaques (red, 200x magnification). B: Endothelial staining (CD34, brown) on a consecutive section of A showing co-localization of Cav-1 and endothelium. D: Alpha-actin smooth muscle cell staining (brown) on a consecutive section of C, showing co-localization of... |
PMC2432041_pone-0002612-g002_24487.jpg | What key item or scene is captured in this photo? | Cav-1 immunohistochemistry.A, C: Cav-1 staining on carotid plaques (red, 200x magnification). B: Endothelial staining (CD34, brown) on a consecutive section of A showing co-localization of Cav-1 and endothelium. D: Alpha-actin smooth muscle cell staining (brown) on a consecutive section of C, showing co-localization of... |
PMC2432041_pone-0002612-g002_24490.jpg | What key item or scene is captured in this photo? | Cav-1 immunohistochemistry.A, C: Cav-1 staining on carotid plaques (red, 200x magnification). B: Endothelial staining (CD34, brown) on a consecutive section of A showing co-localization of Cav-1 and endothelium. D: Alpha-actin smooth muscle cell staining (brown) on a consecutive section of C, showing co-localization of... |
PMC2432041_pone-0002612-g002_24486.jpg | What is the central feature of this picture? | Cav-1 immunohistochemistry.A, C: Cav-1 staining on carotid plaques (red, 200x magnification). B: Endothelial staining (CD34, brown) on a consecutive section of A showing co-localization of Cav-1 and endothelium. D: Alpha-actin smooth muscle cell staining (brown) on a consecutive section of C, showing co-localization of... |
PMC2432041_pone-0002612-g002_24489.jpg | What is the dominant medical problem in this image? | Cav-1 immunohistochemistry.A, C: Cav-1 staining on carotid plaques (red, 200x magnification). B: Endothelial staining (CD34, brown) on a consecutive section of A showing co-localization of Cav-1 and endothelium. D: Alpha-actin smooth muscle cell staining (brown) on a consecutive section of C, showing co-localization of... |
PMC2432041_pone-0002612-g002_24493.jpg | What key item or scene is captured in this photo? | Cav-1 immunohistochemistry.A, C: Cav-1 staining on carotid plaques (red, 200x magnification). B: Endothelial staining (CD34, brown) on a consecutive section of A showing co-localization of Cav-1 and endothelium. D: Alpha-actin smooth muscle cell staining (brown) on a consecutive section of C, showing co-localization of... |
PMC2432041_pone-0002612-g002_24488.jpg | What is the principal component of this image? | Cav-1 immunohistochemistry.A, C: Cav-1 staining on carotid plaques (red, 200x magnification). B: Endothelial staining (CD34, brown) on a consecutive section of A showing co-localization of Cav-1 and endothelium. D: Alpha-actin smooth muscle cell staining (brown) on a consecutive section of C, showing co-localization of... |
PMC2432064_F3_24496.jpg | What key item or scene is captured in this photo? | Objective partial responses to cetuximab-based treatment in patients with KRAS- mutated tumors. (A) Pre- and post-cetuximab CT scan showing partial tumor response allowing surgical resection to be performed in patient 6. (B) Pre- and post-cetuximab CT scan demonstrating a major tumor response to cetuximab-based treatme... |
PMC2432064_F3_24499.jpg | Can you identify the primary element in this image? | Objective partial responses to cetuximab-based treatment in patients with KRAS- mutated tumors. (A) Pre- and post-cetuximab CT scan showing partial tumor response allowing surgical resection to be performed in patient 6. (B) Pre- and post-cetuximab CT scan demonstrating a major tumor response to cetuximab-based treatme... |
PMC2432064_F3_24498.jpg | What's the most prominent thing you notice in this picture? | Objective partial responses to cetuximab-based treatment in patients with KRAS- mutated tumors. (A) Pre- and post-cetuximab CT scan showing partial tumor response allowing surgical resection to be performed in patient 6. (B) Pre- and post-cetuximab CT scan demonstrating a major tumor response to cetuximab-based treatme... |
PMC2432064_F3_24497.jpg | What stands out most in this visual? | Objective partial responses to cetuximab-based treatment in patients with KRAS- mutated tumors. (A) Pre- and post-cetuximab CT scan showing partial tumor response allowing surgical resection to be performed in patient 6. (B) Pre- and post-cetuximab CT scan demonstrating a major tumor response to cetuximab-based treatme... |
PMC2432065_F1_24495.jpg | Describe the main subject of this image. | Plain abdomen X-ray and gastrografin studies. |
PMC2432065_F2_24500.jpg | What is the central feature of this picture? | Abdominal computed tomography scan shows dilated stomach, duodenum and duodenal stenosis. |
PMC2434199_ppat-1000096-g010_24508.jpg | What is the dominant medical problem in this image? | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434199_ppat-1000096-g010_24506.jpg | What stands out most in this visual? | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434199_ppat-1000096-g010_24505.jpg | What does this image primarily show? | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434199_ppat-1000096-g010_24501.jpg | What is the central feature of this picture? | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434199_ppat-1000096-g010_24507.jpg | What stands out most in this visual? | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434199_ppat-1000096-g010_24512.jpg | Describe the main subject of this image. | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434199_ppat-1000096-g010_24503.jpg | What key item or scene is captured in this photo? | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434199_ppat-1000096-g010_24513.jpg | What is the core subject represented in this visual? | Histopathology of lungs from ISG15+/+ and ISG15−/− mice intranasally infected with VACV mutant viruses.Lungs from ISG15+/+ and ISG15−/− mice i.n inoculated with, WR (5×106 PFU/mouse) or MVA (5×107 PFU/mouse) or VVΔE3L (5×107 PFU/mouse) or VVE3LΔ83N (5×107 PFU/mouse) or VVE3LΔ26C (5×107 PFU/mouse) were resected, section... |
PMC2434201_pone-0002613-g002_24515.jpg | What is the main focus of this visual representation? | The ‘O. officinalis diploid-tetraploid complex’ in relation to major routes of great navigation.Distribution map of the genomes distinguished in the ‘O. officinalis complex’, as detailed in Table 2. The three spontaneous diploid genomes (B, C, and E) and the derived genomes or subgenomes are figured in blue and yellow ... |
PMC2435103_F1_24519.jpg | What can you see in this picture? | 14 years male with CP. shows a) preoperative AP and lateral radiogram; b) postoperative AP and lateral radiogram and c) final follow-up AP and lateral radiogram of spine in a fourteen years boy with cerebral palsy. (Patient 5) |
PMC2435103_F1_24516.jpg | What object or scene is depicted here? | 14 years male with CP. shows a) preoperative AP and lateral radiogram; b) postoperative AP and lateral radiogram and c) final follow-up AP and lateral radiogram of spine in a fourteen years boy with cerebral palsy. (Patient 5) |
PMC2435103_F2_24522.jpg | Describe the main subject of this image. | 13 years girl with SMA. shows a) preoperative AP and lateral radiogram; b) postoperative AP and lateral radiogram and c) final follow-up AP and lateral radiogram of spine in a thirteen years girl with spinal muscular atrophy. (Patient 19) |
PMC2435103_F2_24524.jpg | What is the dominant medical problem in this image? | 13 years girl with SMA. shows a) preoperative AP and lateral radiogram; b) postoperative AP and lateral radiogram and c) final follow-up AP and lateral radiogram of spine in a thirteen years girl with spinal muscular atrophy. (Patient 19) |
PMC2435103_F2_24523.jpg | What key item or scene is captured in this photo? | 13 years girl with SMA. shows a) preoperative AP and lateral radiogram; b) postoperative AP and lateral radiogram and c) final follow-up AP and lateral radiogram of spine in a thirteen years girl with spinal muscular atrophy. (Patient 19) |
PMC2435110_F4_24531.jpg | What is shown in this image? | 3D stream-lines representing vascular hemodynamics in a 37 year-old male 35 years after surgical repair of aortic coarctation. Note the flow acceleration through the tubular shaped transverse arch inducing a flow jet into the aneurysm and circumferential separation and recirculation of the inflowing streamlines which d... |
PMC2435110_F4_24534.jpg | Describe the main subject of this image. | 3D stream-lines representing vascular hemodynamics in a 37 year-old male 35 years after surgical repair of aortic coarctation. Note the flow acceleration through the tubular shaped transverse arch inducing a flow jet into the aneurysm and circumferential separation and recirculation of the inflowing streamlines which d... |
PMC2435110_F4_24533.jpg | What can you see in this picture? | 3D stream-lines representing vascular hemodynamics in a 37 year-old male 35 years after surgical repair of aortic coarctation. Note the flow acceleration through the tubular shaped transverse arch inducing a flow jet into the aneurysm and circumferential separation and recirculation of the inflowing streamlines which d... |
PMC2435111_F1_24526.jpg | What key item or scene is captured in this photo? | Patient 1: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: post-contrast T1-w turbo spin echo sequence. Panel E: first pass perfusion. |
PMC2435111_F1_24530.jpg | Can you identify the primary element in this image? | Patient 1: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: post-contrast T1-w turbo spin echo sequence. Panel E: first pass perfusion. |
PMC2435111_F1_24529.jpg | What is the core subject represented in this visual? | Patient 1: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: post-contrast T1-w turbo spin echo sequence. Panel E: first pass perfusion. |
PMC2435111_F1_24528.jpg | What is the focal point of this photograph? | Patient 1: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: post-contrast T1-w turbo spin echo sequence. Panel E: first pass perfusion. |
PMC2435111_F2_24538.jpg | What is the main focus of this visual representation? | Patient 2: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: Delayed Enhancement, 10 minutes after contrast administration: an enhanced rim appears to surround a non-enhanced core. Panel E: first pass perfusion. |
PMC2435111_F2_24539.jpg | What's the most prominent thing you notice in this picture? | Patient 2: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: Delayed Enhancement, 10 minutes after contrast administration: an enhanced rim appears to surround a non-enhanced core. Panel E: first pass perfusion. |
PMC2435111_F2_24542.jpg | What is the central feature of this picture? | Patient 2: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: Delayed Enhancement, 10 minutes after contrast administration: an enhanced rim appears to surround a non-enhanced core. Panel E: first pass perfusion. |
PMC2435111_F2_24541.jpg | Can you identify the primary element in this image? | Patient 2: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: Delayed Enhancement, 10 minutes after contrast administration: an enhanced rim appears to surround a non-enhanced core. Panel E: first pass perfusion. |
PMC2435111_F2_24536.jpg | What does this image primarily show? | Patient 2: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: Delayed Enhancement, 10 minutes after contrast administration: an enhanced rim appears to surround a non-enhanced core. Panel E: first pass perfusion. |
PMC2435111_F2_24537.jpg | What is the central feature of this picture? | Patient 2: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: Delayed Enhancement, 10 minutes after contrast administration: an enhanced rim appears to surround a non-enhanced core. Panel E: first pass perfusion. |
PMC2435111_F2_24540.jpg | What is the main focus of this visual representation? | Patient 2: Panel A: T1-W turbo spin echo sequence. Panel B: STIR (Short Tau Inversion Recovery) sequence. Panel C: bSSFP sequence. Panel D: Delayed Enhancement, 10 minutes after contrast administration: an enhanced rim appears to surround a non-enhanced core. Panel E: first pass perfusion. |
PMC2435113_F1_24547.jpg | Describe the main subject of this image. | Tagged MRI images of the LV in the short axis view are shown for the systolic part of the cardiac cycle (i = 1,..,5). The myocardium exhibits relatively large displacements due to contraction. |
PMC2435113_F1_24543.jpg | What's the most prominent thing you notice in this picture? | Tagged MRI images of the LV in the short axis view are shown for the systolic part of the cardiac cycle (i = 1,..,5). The myocardium exhibits relatively large displacements due to contraction. |
PMC2435113_F1_24546.jpg | What is the core subject represented in this visual? | Tagged MRI images of the LV in the short axis view are shown for the systolic part of the cardiac cycle (i = 1,..,5). The myocardium exhibits relatively large displacements due to contraction. |
PMC2435113_F1_24545.jpg | What is the core subject represented in this visual? | Tagged MRI images of the LV in the short axis view are shown for the systolic part of the cardiac cycle (i = 1,..,5). The myocardium exhibits relatively large displacements due to contraction. |
PMC2435113_F1_24544.jpg | What is the principal component of this image? | Tagged MRI images of the LV in the short axis view are shown for the systolic part of the cardiac cycle (i = 1,..,5). The myocardium exhibits relatively large displacements due to contraction. |
PMC2435113_F11_24550.jpg | What stands out most in this visual? | Motion estimates for six selected points using HARP analysis between cardiac image frames 1 and 2 or frames 1 and TR. Displacement vectors (red lines) start from the selected points (blue dots) and project to the end points (green dots). Please see the text for the detailed explanation of the figure. |
PMC2435152_pbio-0060152-g001_24552.jpg | What does this image primarily show? | A Clonal B cell Antigen Receptor Cooperates with MYC in the Development of BCLs(A) Survival. Strains of mice in groups of 50 were observed over a period of 36 wk. Deceased mice were examined by necropsy. Death was uniformly attributable to lymphoid tumors. The difference among the mortality curves for the Eμ-MYC/BCRHEL... |
PMC2435159_f1_24568.jpg | What is the main focus of this visual representation? | Correlation between in vivo confocal microscopy with immunohistochemistry on cornea in a model of Endotoxin Induced Uveitis. Heidelberg Retina Tomograph II (HRT II) in vivo confocal microscopy images of the cornea (400x400 μm) in a model of endotoxin-induced uveitis (A, C, E, and F) are correlated with ex vivo immunost... |
PMC2435159_f1_24570.jpg | What's the most prominent thing you notice in this picture? | Correlation between in vivo confocal microscopy with immunohistochemistry on cornea in a model of Endotoxin Induced Uveitis. Heidelberg Retina Tomograph II (HRT II) in vivo confocal microscopy images of the cornea (400x400 μm) in a model of endotoxin-induced uveitis (A, C, E, and F) are correlated with ex vivo immunost... |
PMC2435159_f1_24567.jpg | What object or scene is depicted here? | Correlation between in vivo confocal microscopy with immunohistochemistry on cornea in a model of Endotoxin Induced Uveitis. Heidelberg Retina Tomograph II (HRT II) in vivo confocal microscopy images of the cornea (400x400 μm) in a model of endotoxin-induced uveitis (A, C, E, and F) are correlated with ex vivo immunost... |
PMC2435159_f1_24571.jpg | What is the focal point of this photograph? | Correlation between in vivo confocal microscopy with immunohistochemistry on cornea in a model of Endotoxin Induced Uveitis. Heidelberg Retina Tomograph II (HRT II) in vivo confocal microscopy images of the cornea (400x400 μm) in a model of endotoxin-induced uveitis (A, C, E, and F) are correlated with ex vivo immunost... |
PMC2435159_f1_24569.jpg | What's the most prominent thing you notice in this picture? | Correlation between in vivo confocal microscopy with immunohistochemistry on cornea in a model of Endotoxin Induced Uveitis. Heidelberg Retina Tomograph II (HRT II) in vivo confocal microscopy images of the cornea (400x400 μm) in a model of endotoxin-induced uveitis (A, C, E, and F) are correlated with ex vivo immunost... |
PMC2435159_f1_24566.jpg | What is being portrayed in this visual content? | Correlation between in vivo confocal microscopy with immunohistochemistry on cornea in a model of Endotoxin Induced Uveitis. Heidelberg Retina Tomograph II (HRT II) in vivo confocal microscopy images of the cornea (400x400 μm) in a model of endotoxin-induced uveitis (A, C, E, and F) are correlated with ex vivo immunost... |
PMC2435159_f2_24555.jpg | What is the focal point of this photograph? | Correlation between in vivo confocal microscopy and immunohistochemistry on peripheral vascularisation in the corneal anterior stroma in a model of Endotoxin Induced Uveitis. A: In vivo confocal microscopic images (400 μm x 400 μm) of a circular peripheral network of vessels in the corneal anterior stroma, deriving fro... |
PMC2435159_f2_24554.jpg | What's the most prominent thing you notice in this picture? | Correlation between in vivo confocal microscopy and immunohistochemistry on peripheral vascularisation in the corneal anterior stroma in a model of Endotoxin Induced Uveitis. A: In vivo confocal microscopic images (400 μm x 400 μm) of a circular peripheral network of vessels in the corneal anterior stroma, deriving fro... |
PMC2435159_f2_24556.jpg | What is the principal component of this image? | Correlation between in vivo confocal microscopy and immunohistochemistry on peripheral vascularisation in the corneal anterior stroma in a model of Endotoxin Induced Uveitis. A: In vivo confocal microscopic images (400 μm x 400 μm) of a circular peripheral network of vessels in the corneal anterior stroma, deriving fro... |
PMC2435159_f3_24559.jpg | Describe the main subject of this image. | Immunofluorescence images on flat-mounted corneas in a model of endotoxin-induced uveitis analyzed with a 3D laser confocal microscope with a 20X enlargement. Immunostainings with anti-CD68 for macrophages (A), anti-TCR alpha/beta for lymphocytes (B), anti-MCA967 for granulocytes (C), and IgG1 mouse antibody for isotyp... |
PMC2435159_f3_24561.jpg | What is the central feature of this picture? | Immunofluorescence images on flat-mounted corneas in a model of endotoxin-induced uveitis analyzed with a 3D laser confocal microscope with a 20X enlargement. Immunostainings with anti-CD68 for macrophages (A), anti-TCR alpha/beta for lymphocytes (B), anti-MCA967 for granulocytes (C), and IgG1 mouse antibody for isotyp... |
PMC2435159_f3_24562.jpg | What is being portrayed in this visual content? | Immunofluorescence images on flat-mounted corneas in a model of endotoxin-induced uveitis analyzed with a 3D laser confocal microscope with a 20X enlargement. Immunostainings with anti-CD68 for macrophages (A), anti-TCR alpha/beta for lymphocytes (B), anti-MCA967 for granulocytes (C), and IgG1 mouse antibody for isotyp... |
PMC2435159_f3_24558.jpg | What's the most prominent thing you notice in this picture? | Immunofluorescence images on flat-mounted corneas in a model of endotoxin-induced uveitis analyzed with a 3D laser confocal microscope with a 20X enlargement. Immunostainings with anti-CD68 for macrophages (A), anti-TCR alpha/beta for lymphocytes (B), anti-MCA967 for granulocytes (C), and IgG1 mouse antibody for isotyp... |
PMC2435159_f4_24563.jpg | What can you see in this picture? | Double immunostaining with anti-CD54 ICAM-1 (in green) and with propidium iodide (in red) on corneas. The corneas were analyzed with a confocal microscope with a 200 X enlargement. Immunofluorescence of ICAM-1 is very weak in control animals (A) and was increased 24 h after the LPS injection (B). Some polymorphonuclear... |
PMC2435159_f4_24565.jpg | What is the focal point of this photograph? | Double immunostaining with anti-CD54 ICAM-1 (in green) and with propidium iodide (in red) on corneas. The corneas were analyzed with a confocal microscope with a 200 X enlargement. Immunofluorescence of ICAM-1 is very weak in control animals (A) and was increased 24 h after the LPS injection (B). Some polymorphonuclear... |
PMC2435161_f2_24574.jpg | What is shown in this image? | Photograph of cataract phenotypes observed in the present Indian family and in the British family having the identical mutation (p.P88Q) in GJA8. A: The slit lamp photograph (three-dimensional lens) of a patient shows very prominent feather-like sutural opacities. Apart from sutural opacities, riders are prominent. The... |
PMC2435161_f2_24573.jpg | Describe the main subject of this image. | Photograph of cataract phenotypes observed in the present Indian family and in the British family having the identical mutation (p.P88Q) in GJA8. A: The slit lamp photograph (three-dimensional lens) of a patient shows very prominent feather-like sutural opacities. Apart from sutural opacities, riders are prominent. The... |
PMC2435162_f3_24576.jpg | What does this image primarily show? | Direct observation of d2EGFP fluorescence in retina. Representative fluorescence microscopic images of adult rat retina sampled at 24:00 h. A: Detection of d2EGFP fluorescence in transverse retinal sections. Note the abundance of ONL and IS expression as localized in (B) by the corresponding DAPI-merged image. C: Detec... |
PMC2435162_f3_24577.jpg | Can you identify the primary element in this image? | Direct observation of d2EGFP fluorescence in retina. Representative fluorescence microscopic images of adult rat retina sampled at 24:00 h. A: Detection of d2EGFP fluorescence in transverse retinal sections. Note the abundance of ONL and IS expression as localized in (B) by the corresponding DAPI-merged image. C: Detec... |
PMC2435232_F1_24580.jpg | What is the principal component of this image? | Bone tissue microstructure of a juvenile male rabbit. PO – primary osteon. SO – secondary osteon. CL – cement line. Femur, diaphysis. Magnification × 100. |
PMC2435237_F4_24590.jpg | What is the core subject represented in this visual? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24598.jpg | What can you see in this picture? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24592.jpg | What stands out most in this visual? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24593.jpg | What can you see in this picture? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24594.jpg | What is the dominant medical problem in this image? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24595.jpg | What's the most prominent thing you notice in this picture? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24589.jpg | What object or scene is depicted here? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24591.jpg | Describe the main subject of this image. | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24597.jpg | What is the core subject represented in this visual? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F4_24596.jpg | What is the core subject represented in this visual? | Changes in the microtubule network beneath the point of contact. Microtubules visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing TUA6-GFP [70]. The surface of the epidermal cell was touched with a tungsten microneedle at time 0:00. The position of the ... |
PMC2435237_F5_24603.jpg | What stands out most in this visual? | Alterations in microtubule arrays underlying the point of contact. Images in A and B are from two different experiments to that shown in Figure 4 and illustrate the localized microtubule depolymerization and formation of the microtubule-depleted zone (arrows) beneath the point of contact with the needle (outlined by th... |
PMC2435237_F5_24601.jpg | What is the dominant medical problem in this image? | Alterations in microtubule arrays underlying the point of contact. Images in A and B are from two different experiments to that shown in Figure 4 and illustrate the localized microtubule depolymerization and formation of the microtubule-depleted zone (arrows) beneath the point of contact with the needle (outlined by th... |
PMC2435237_F5_24599.jpg | What is shown in this image? | Alterations in microtubule arrays underlying the point of contact. Images in A and B are from two different experiments to that shown in Figure 4 and illustrate the localized microtubule depolymerization and formation of the microtubule-depleted zone (arrows) beneath the point of contact with the needle (outlined by th... |
PMC2435237_F5_24604.jpg | What stands out most in this visual? | Alterations in microtubule arrays underlying the point of contact. Images in A and B are from two different experiments to that shown in Figure 4 and illustrate the localized microtubule depolymerization and formation of the microtubule-depleted zone (arrows) beneath the point of contact with the needle (outlined by th... |
PMC2435237_F5_24602.jpg | What object or scene is depicted here? | Alterations in microtubule arrays underlying the point of contact. Images in A and B are from two different experiments to that shown in Figure 4 and illustrate the localized microtubule depolymerization and formation of the microtubule-depleted zone (arrows) beneath the point of contact with the needle (outlined by th... |
PMC2435237_F5_24600.jpg | Describe the main subject of this image. | Alterations in microtubule arrays underlying the point of contact. Images in A and B are from two different experiments to that shown in Figure 4 and illustrate the localized microtubule depolymerization and formation of the microtubule-depleted zone (arrows) beneath the point of contact with the needle (outlined by th... |
PMC2435237_F6_24588.jpg | What object or scene is depicted here? | Accumulation of ER at the point of contact. ER visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing GFP-KKXX [71]. The surface of the epidermal cell was touched with a glass microneedle at time 0:00 at the position marked by the asterisk in B. Images A-F... |
PMC2435237_F6_24584.jpg | What is the principal component of this image? | Accumulation of ER at the point of contact. ER visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing GFP-KKXX [71]. The surface of the epidermal cell was touched with a glass microneedle at time 0:00 at the position marked by the asterisk in B. Images A-F... |
PMC2435237_F6_24587.jpg | What stands out most in this visual? | Accumulation of ER at the point of contact. ER visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing GFP-KKXX [71]. The surface of the epidermal cell was touched with a glass microneedle at time 0:00 at the position marked by the asterisk in B. Images A-F... |
PMC2435237_F6_24586.jpg | What is being portrayed in this visual content? | Accumulation of ER at the point of contact. ER visualized in the cortical cytoplasm underlying the outer epidermal cell wall in a cotyledon of A. thaliana expressing GFP-KKXX [71]. The surface of the epidermal cell was touched with a glass microneedle at time 0:00 at the position marked by the asterisk in B. Images A-F... |
PMC2435276_pgen-1000111-g004_24610.jpg | What is being portrayed in this visual content? | Phenotypes of wild type and Sec61α mutant embryonic nervous systems.(A–C, G–I) Wild type. (D–F) Sec61αSH190 homozygous mutant. (J–L) Sec61αk04917 homozygous mutant. Anterior is to the top. PNS images have CNS off to the left in C,F,G,I,J,L. (A–C) Neurons are labeled with anti-HRP (red) and glia are labeled with mAb 5B1... |
PMC2435276_pgen-1000111-g004_24616.jpg | What's the most prominent thing you notice in this picture? | Phenotypes of wild type and Sec61α mutant embryonic nervous systems.(A–C, G–I) Wild type. (D–F) Sec61αSH190 homozygous mutant. (J–L) Sec61αk04917 homozygous mutant. Anterior is to the top. PNS images have CNS off to the left in C,F,G,I,J,L. (A–C) Neurons are labeled with anti-HRP (red) and glia are labeled with mAb 5B1... |
PMC2435276_pgen-1000111-g004_24605.jpg | What can you see in this picture? | Phenotypes of wild type and Sec61α mutant embryonic nervous systems.(A–C, G–I) Wild type. (D–F) Sec61αSH190 homozygous mutant. (J–L) Sec61αk04917 homozygous mutant. Anterior is to the top. PNS images have CNS off to the left in C,F,G,I,J,L. (A–C) Neurons are labeled with anti-HRP (red) and glia are labeled with mAb 5B1... |
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