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PMC2500017_F5_26368.jpg | What is the focal point of this photograph? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26377.jpg | What stands out most in this visual? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26378.jpg | What is the dominant medical problem in this image? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26375.jpg | What key item or scene is captured in this photo? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26371.jpg | What is the focal point of this photograph? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26383.jpg | What can you see in this picture? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26372.jpg | Can you identify the primary element in this image? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26370.jpg | What is being portrayed in this visual content? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26380.jpg | What is the principal component of this image? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F5_26376.jpg | What is shown in this image? | FRAP of Nrx IV-GFP in embryonic epithelial cells. Side (A) and face-on (B) views of wild-type embryos, side (C) and face-on (D) views of Dfvari embryos at stage15. Face-on (E) and side (F) views of cora mutant embryos. Pre-bleach images are shown on the left. The bleached areas are indicated with boxes. Images on the r... |
PMC2500017_F7_26387.jpg | What can you see in this picture? | Role of the cytoplasmic region in the lateral mobility of paranodin analyzed by FRAP. (A) Images of neuroblastoma N2a cells co-transfected with paranodin-Δcyto (pndΔcyto) and contactin showing an example of a FRAP sequence. Bar: 5 μm. Kinetics of fluorescence recovery of GFP-tagged paranodin (B) and paranodinΔcyto (C).... |
PMC2500017_F7_26384.jpg | What's the most prominent thing you notice in this picture? | Role of the cytoplasmic region in the lateral mobility of paranodin analyzed by FRAP. (A) Images of neuroblastoma N2a cells co-transfected with paranodin-Δcyto (pndΔcyto) and contactin showing an example of a FRAP sequence. Bar: 5 μm. Kinetics of fluorescence recovery of GFP-tagged paranodin (B) and paranodinΔcyto (C).... |
PMC2500021_F2_26390.jpg | What is the dominant medical problem in this image? | Scanning electron micrographs (SEM) of Auranticordis quadriverberis n. gen. et sp. A. An anterior view of the cell showing the anterior apex (arrowhead), ventral groove (double arrowhead) and flagella (arrow) (Bar = 10 μm). B. A higher magnification view of the anterior end of the cell (arrowhead) showing the flagella ... |
PMC2500021_F2_26393.jpg | What does this image primarily show? | Scanning electron micrographs (SEM) of Auranticordis quadriverberis n. gen. et sp. A. An anterior view of the cell showing the anterior apex (arrowhead), ventral groove (double arrowhead) and flagella (arrow) (Bar = 10 μm). B. A higher magnification view of the anterior end of the cell (arrowhead) showing the flagella ... |
PMC2500021_F2_26389.jpg | What key item or scene is captured in this photo? | Scanning electron micrographs (SEM) of Auranticordis quadriverberis n. gen. et sp. A. An anterior view of the cell showing the anterior apex (arrowhead), ventral groove (double arrowhead) and flagella (arrow) (Bar = 10 μm). B. A higher magnification view of the anterior end of the cell (arrowhead) showing the flagella ... |
PMC2500021_F2_26391.jpg | What object or scene is depicted here? | Scanning electron micrographs (SEM) of Auranticordis quadriverberis n. gen. et sp. A. An anterior view of the cell showing the anterior apex (arrowhead), ventral groove (double arrowhead) and flagella (arrow) (Bar = 10 μm). B. A higher magnification view of the anterior end of the cell (arrowhead) showing the flagella ... |
PMC2500026_F2_26394.jpg | What object or scene is depicted here? | CT chest image revealing large necrotic mass in the left anterior mediastinum and bilateral hilar lymphadenopathy. |
PMC2500027_F1_26397.jpg | What is shown in this image? | Cranial computed tomography scans obtained before normothermic treatment and during follow-up. A cranial computed tomography scan obtained on day 5 (A) before normothermic treatment, showing remarkable meningeal enhancement and brain swelling. Follow-up computed tomography scans obtained on day 12 (B) and day 29 (C), s... |
PMC2500027_F1_26401.jpg | What does this image primarily show? | Cranial computed tomography scans obtained before normothermic treatment and during follow-up. A cranial computed tomography scan obtained on day 5 (A) before normothermic treatment, showing remarkable meningeal enhancement and brain swelling. Follow-up computed tomography scans obtained on day 12 (B) and day 29 (C), s... |
PMC2500027_F1_26400.jpg | Can you identify the primary element in this image? | Cranial computed tomography scans obtained before normothermic treatment and during follow-up. A cranial computed tomography scan obtained on day 5 (A) before normothermic treatment, showing remarkable meningeal enhancement and brain swelling. Follow-up computed tomography scans obtained on day 12 (B) and day 29 (C), s... |
PMC2500027_F1_26396.jpg | What is shown in this image? | Cranial computed tomography scans obtained before normothermic treatment and during follow-up. A cranial computed tomography scan obtained on day 5 (A) before normothermic treatment, showing remarkable meningeal enhancement and brain swelling. Follow-up computed tomography scans obtained on day 12 (B) and day 29 (C), s... |
PMC2500027_F1_26399.jpg | What can you see in this picture? | Cranial computed tomography scans obtained before normothermic treatment and during follow-up. A cranial computed tomography scan obtained on day 5 (A) before normothermic treatment, showing remarkable meningeal enhancement and brain swelling. Follow-up computed tomography scans obtained on day 12 (B) and day 29 (C), s... |
PMC2500027_F1_26398.jpg | What is the principal component of this image? | Cranial computed tomography scans obtained before normothermic treatment and during follow-up. A cranial computed tomography scan obtained on day 5 (A) before normothermic treatment, showing remarkable meningeal enhancement and brain swelling. Follow-up computed tomography scans obtained on day 12 (B) and day 29 (C), s... |
PMC2500028_F1_26395.jpg | What stands out most in this visual? | MRI pelvis. Diffuse bone marrow replacement throughout the pelvis and proximal femora with only small areas of residual fatty marrow in the greater trochanters and femoral heads bilaterally. The diffuse enhancement is consistent with extensive disease. |
PMC2500098_F1_26405.jpg | Describe the main subject of this image. | Colour distances for ROI detection applied to biopsies. a) Original Image, b) RGB (Euclidean), c) HSI (NBS), d) CIEL*a*b (CIEDE2000). Colour distances for ROI detection applied to biopsies. |
PMC2500098_F1_26403.jpg | Describe the main subject of this image. | Colour distances for ROI detection applied to biopsies. a) Original Image, b) RGB (Euclidean), c) HSI (NBS), d) CIEL*a*b (CIEDE2000). Colour distances for ROI detection applied to biopsies. |
PMC2500151_fig1_26406.jpg | Can you identify the primary element in this image? | Phase-contrast images of tubes of subunit c. When the volume of solvent above the initial lipid/subunit c droplet is sufficient to allow the tubes to extend without reaching an air/solvent interface a mass of tubes grow out and up from the droplet to form a medusa-like structure. Subunit c tubes at the outer surface of... |
PMC2500151_fig3_26414.jpg | What is the central feature of this picture? | SEM images showing the effect of raising the temperature of subunit c vesicles from 83 to 233 K to sublime the central water. (a) Vesicles of subunit c are initially less than 1 μm in diameter on the Al stub at 83 K. (b) They expand on warming as their central ice reconfigures. (c) At 213 K, each vesicle has expanded f... |
PMC2500151_fig3_26411.jpg | What can you see in this picture? | SEM images showing the effect of raising the temperature of subunit c vesicles from 83 to 233 K to sublime the central water. (a) Vesicles of subunit c are initially less than 1 μm in diameter on the Al stub at 83 K. (b) They expand on warming as their central ice reconfigures. (c) At 213 K, each vesicle has expanded f... |
PMC2500151_fig3_26413.jpg | What is the principal component of this image? | SEM images showing the effect of raising the temperature of subunit c vesicles from 83 to 233 K to sublime the central water. (a) Vesicles of subunit c are initially less than 1 μm in diameter on the Al stub at 83 K. (b) They expand on warming as their central ice reconfigures. (c) At 213 K, each vesicle has expanded f... |
PMC2500151_fig3_26410.jpg | What is the dominant medical problem in this image? | SEM images showing the effect of raising the temperature of subunit c vesicles from 83 to 233 K to sublime the central water. (a) Vesicles of subunit c are initially less than 1 μm in diameter on the Al stub at 83 K. (b) They expand on warming as their central ice reconfigures. (c) At 213 K, each vesicle has expanded f... |
PMC2500151_fig7_26408.jpg | What stands out most in this visual? | TEM (inverted image) of a tube whose surface is covered by strands of subunit c with a lateral spacing of 3.7 Å amidst circular structures that could be assembled channels of subunit c of 3 nm diameter. The strands adopt a woven path over the tube surface. The inset image shows a lower magnification of the entire pile ... |
PMC2500151_fig7_26409.jpg | What is the focal point of this photograph? | TEM (inverted image) of a tube whose surface is covered by strands of subunit c with a lateral spacing of 3.7 Å amidst circular structures that could be assembled channels of subunit c of 3 nm diameter. The strands adopt a woven path over the tube surface. The inset image shows a lower magnification of the entire pile ... |
PMC2500179_ppat-1000135-g001_26417.jpg | Describe the main subject of this image. | Visualization of densovirus infections in cultured An. gambiae cells.In IFA's, cells were counterstained with Evan's Blue (red fluorescence) to visualize cell morphology. A: wild-type AgDNV visualized in Sua5B cells by IFA (IFA positive control); B: Negative-stain TEM of AgDNV particles purified from Sua5B cell. Arrow ... |
PMC2500179_ppat-1000135-g001_26415.jpg | What does this image primarily show? | Visualization of densovirus infections in cultured An. gambiae cells.In IFA's, cells were counterstained with Evan's Blue (red fluorescence) to visualize cell morphology. A: wild-type AgDNV visualized in Sua5B cells by IFA (IFA positive control); B: Negative-stain TEM of AgDNV particles purified from Sua5B cell. Arrow ... |
PMC2500179_ppat-1000135-g001_26418.jpg | What is the central feature of this picture? | Visualization of densovirus infections in cultured An. gambiae cells.In IFA's, cells were counterstained with Evan's Blue (red fluorescence) to visualize cell morphology. A: wild-type AgDNV visualized in Sua5B cells by IFA (IFA positive control); B: Negative-stain TEM of AgDNV particles purified from Sua5B cell. Arrow ... |
PMC2500179_ppat-1000135-g001_26416.jpg | What does this image primarily show? | Visualization of densovirus infections in cultured An. gambiae cells.In IFA's, cells were counterstained with Evan's Blue (red fluorescence) to visualize cell morphology. A: wild-type AgDNV visualized in Sua5B cells by IFA (IFA positive control); B: Negative-stain TEM of AgDNV particles purified from Sua5B cell. Arrow ... |
PMC2500179_ppat-1000135-g001_26420.jpg | What is the dominant medical problem in this image? | Visualization of densovirus infections in cultured An. gambiae cells.In IFA's, cells were counterstained with Evan's Blue (red fluorescence) to visualize cell morphology. A: wild-type AgDNV visualized in Sua5B cells by IFA (IFA positive control); B: Negative-stain TEM of AgDNV particles purified from Sua5B cell. Arrow ... |
PMC2500179_ppat-1000135-g007_26426.jpg | What key item or scene is captured in this photo? | EGFP expression in dissected tissues of adult An. gambiae female.Fluorescence is observable in the midgut, hindgut, ovaries and malpighian tubules. Inset: EGFP-positive inclusion in mature oocyte (arrow). |
PMC2500179_ppat-1000135-g008_26422.jpg | Describe the main subject of this image. | EGFP expression in An. gambiae F1 adults infected with wild-type AgDNV (from pBAgα) and EGFP-transducing virions (from pAgActinGFP), which demonstrates transmission of transducing virions between mosquito generations.A–C: EGFP expression in abdomen, D: EGFP expression in head, E: EGFP expression in maxillary palp. |
PMC2500179_ppat-1000135-g008_26423.jpg | What can you see in this picture? | EGFP expression in An. gambiae F1 adults infected with wild-type AgDNV (from pBAgα) and EGFP-transducing virions (from pAgActinGFP), which demonstrates transmission of transducing virions between mosquito generations.A–C: EGFP expression in abdomen, D: EGFP expression in head, E: EGFP expression in maxillary palp. |
PMC2500190_pone-0003020-g001_26431.jpg | What can you see in this picture? | WFA labels PNNs.(A): Low-power image showing distribution of WFA labelling in a coronal section from a P31 mouse brain. Punctate labelling is visible in the striatum as well as in cortex and other brain areas. Scale bar: 1 mm. (B): Higher power confocal image of the region outlined with red in A, showing that the punct... |
PMC2500190_pone-0003020-g001_26428.jpg | Can you identify the primary element in this image? | WFA labels PNNs.(A): Low-power image showing distribution of WFA labelling in a coronal section from a P31 mouse brain. Punctate labelling is visible in the striatum as well as in cortex and other brain areas. Scale bar: 1 mm. (B): Higher power confocal image of the region outlined with red in A, showing that the punct... |
PMC2500190_pone-0003020-g002_26432.jpg | Can you identify the primary element in this image? | WFA labelling is abolished by ChABC.(A): Low power image of coronal section from a P31 mouse brain after injection of ChABC into the neostriatum of one hemisphere (left). Note the large region of decreased WFA labelling corresponding to the injection site. Robust labelling is present in the other hemisphere (right). Sc... |
PMC2500190_pone-0003020-g002_26435.jpg | Can you identify the primary element in this image? | WFA labelling is abolished by ChABC.(A): Low power image of coronal section from a P31 mouse brain after injection of ChABC into the neostriatum of one hemisphere (left). Note the large region of decreased WFA labelling corresponding to the injection site. Robust labelling is present in the other hemisphere (right). Sc... |
PMC2500190_pone-0003020-g002_26434.jpg | What can you see in this picture? | WFA labelling is abolished by ChABC.(A): Low power image of coronal section from a P31 mouse brain after injection of ChABC into the neostriatum of one hemisphere (left). Note the large region of decreased WFA labelling corresponding to the injection site. Robust labelling is present in the other hemisphere (right). Sc... |
PMC2500219_pone-0002971-g002_26442.jpg | What is the principal component of this image? | Immuno-labeling of chicken spinal cord for the viral gag p27 protein and the neuronal marker Hu.
A) RCASBP(B)-Kir2.1 infected embryos show significant expression of viral p27 gag throughout the spinal cord. C) Hu staining is found mainly in the gray matter area of the spinal cord and in the DRG. E) Superimposed images ... |
PMC2500219_pone-0002971-g002_26437.jpg | What stands out most in this visual? | Immuno-labeling of chicken spinal cord for the viral gag p27 protein and the neuronal marker Hu.
A) RCASBP(B)-Kir2.1 infected embryos show significant expression of viral p27 gag throughout the spinal cord. C) Hu staining is found mainly in the gray matter area of the spinal cord and in the DRG. E) Superimposed images ... |
PMC2500219_pone-0002971-g002_26439.jpg | What key item or scene is captured in this photo? | Immuno-labeling of chicken spinal cord for the viral gag p27 protein and the neuronal marker Hu.
A) RCASBP(B)-Kir2.1 infected embryos show significant expression of viral p27 gag throughout the spinal cord. C) Hu staining is found mainly in the gray matter area of the spinal cord and in the DRG. E) Superimposed images ... |
PMC2500219_pone-0002971-g002_26441.jpg | Describe the main subject of this image. | Immuno-labeling of chicken spinal cord for the viral gag p27 protein and the neuronal marker Hu.
A) RCASBP(B)-Kir2.1 infected embryos show significant expression of viral p27 gag throughout the spinal cord. C) Hu staining is found mainly in the gray matter area of the spinal cord and in the DRG. E) Superimposed images ... |
PMC2500219_pone-0002971-g006_26443.jpg | What is the core subject represented in this visual? | Effect of Kir2.1 expression on neuronal survival in non-injected, and RCASBP(B) and RCASBP(B)-Kir2.1 infected embryos.
A)
Islet staining in the lumbar spinal cord of a Kir2.1-infected embryo. B) Higher magnification image of the ventral spinal cord cross section represented in A.
C) Inhibition of electrical activity ... |
PMC2500219_pone-0002971-g006_26444.jpg | What is being portrayed in this visual content? | Effect of Kir2.1 expression on neuronal survival in non-injected, and RCASBP(B) and RCASBP(B)-Kir2.1 infected embryos.
A)
Islet staining in the lumbar spinal cord of a Kir2.1-infected embryo. B) Higher magnification image of the ventral spinal cord cross section represented in A.
C) Inhibition of electrical activity ... |
PMC2500219_pone-0002971-g006_26446.jpg | What can you see in this picture? | Effect of Kir2.1 expression on neuronal survival in non-injected, and RCASBP(B) and RCASBP(B)-Kir2.1 infected embryos.
A)
Islet staining in the lumbar spinal cord of a Kir2.1-infected embryo. B) Higher magnification image of the ventral spinal cord cross section represented in A.
C) Inhibition of electrical activity ... |
PMC2503104_f1_26459.jpg | What's the most prominent thing you notice in this picture? | Stimulation and inhibition of transdifferentiation. A: Schematic of an intact eye at E4. B: Schematic of a transdifferentiating eye three days after retina removal. Boxed area demonstrates orientation of C-H. F represents FGF2 bead. All eyes underwent retinectomy at E4 (C-H). C: Infection of the RPE with Rcas-MEKDD at ... |
PMC2503104_f1_26458.jpg | What is the central feature of this picture? | Stimulation and inhibition of transdifferentiation. A: Schematic of an intact eye at E4. B: Schematic of a transdifferentiating eye three days after retina removal. Boxed area demonstrates orientation of C-H. F represents FGF2 bead. All eyes underwent retinectomy at E4 (C-H). C: Infection of the RPE with Rcas-MEKDD at ... |
PMC2503104_f1_26456.jpg | Describe the main subject of this image. | Stimulation and inhibition of transdifferentiation. A: Schematic of an intact eye at E4. B: Schematic of a transdifferentiating eye three days after retina removal. Boxed area demonstrates orientation of C-H. F represents FGF2 bead. All eyes underwent retinectomy at E4 (C-H). C: Infection of the RPE with Rcas-MEKDD at ... |
PMC2503104_f1_26457.jpg | What is the main focus of this visual representation? | Stimulation and inhibition of transdifferentiation. A: Schematic of an intact eye at E4. B: Schematic of a transdifferentiating eye three days after retina removal. Boxed area demonstrates orientation of C-H. F represents FGF2 bead. All eyes underwent retinectomy at E4 (C-H). C: Infection of the RPE with Rcas-MEKDD at ... |
PMC2503104_f1_26454.jpg | What is the main focus of this visual representation? | Stimulation and inhibition of transdifferentiation. A: Schematic of an intact eye at E4. B: Schematic of a transdifferentiating eye three days after retina removal. Boxed area demonstrates orientation of C-H. F represents FGF2 bead. All eyes underwent retinectomy at E4 (C-H). C: Infection of the RPE with Rcas-MEKDD at ... |
PMC2503104_f3_26448.jpg | What object or scene is depicted here? | FGF2 stimulates Pax6 expression in the retinal pigment epithelium when the retina is removed at E4. A: Expression of Pax6 (top), Mitf (middle), and MMP115 (bottom) after retina removal at E4 and in response to 6 h of exposure to FGF2. B: Expression of Pax6 (top), Mitf (middle), and MMP115 (bottom) after retina removal ... |
PMC2503104_f3_26449.jpg | What is the core subject represented in this visual? | FGF2 stimulates Pax6 expression in the retinal pigment epithelium when the retina is removed at E4. A: Expression of Pax6 (top), Mitf (middle), and MMP115 (bottom) after retina removal at E4 and in response to 6 h of exposure to FGF2. B: Expression of Pax6 (top), Mitf (middle), and MMP115 (bottom) after retina removal ... |
PMC2503189_f3_26463.jpg | What key item or scene is captured in this photo? | Lens formation is not initiated in the absence of L-Maf. A stage 16 whole embryo electroporated with dominant-negative L-Maf (DN-L-Maf) is shown (A). A section of this embryo showed no lens structure as visualized by DAPI staining (B). Immunohistochemical detection of Pax6 (C-E), Sox2 (F-H), and δ-crystallin (I-K) in t... |
PMC2503189_f3_26469.jpg | Describe the main subject of this image. | Lens formation is not initiated in the absence of L-Maf. A stage 16 whole embryo electroporated with dominant-negative L-Maf (DN-L-Maf) is shown (A). A section of this embryo showed no lens structure as visualized by DAPI staining (B). Immunohistochemical detection of Pax6 (C-E), Sox2 (F-H), and δ-crystallin (I-K) in t... |
PMC2503189_f3_26466.jpg | What's the most prominent thing you notice in this picture? | Lens formation is not initiated in the absence of L-Maf. A stage 16 whole embryo electroporated with dominant-negative L-Maf (DN-L-Maf) is shown (A). A section of this embryo showed no lens structure as visualized by DAPI staining (B). Immunohistochemical detection of Pax6 (C-E), Sox2 (F-H), and δ-crystallin (I-K) in t... |
PMC2503189_f3_26470.jpg | Describe the main subject of this image. | Lens formation is not initiated in the absence of L-Maf. A stage 16 whole embryo electroporated with dominant-negative L-Maf (DN-L-Maf) is shown (A). A section of this embryo showed no lens structure as visualized by DAPI staining (B). Immunohistochemical detection of Pax6 (C-E), Sox2 (F-H), and δ-crystallin (I-K) in t... |
PMC2503189_f3_26462.jpg | What is shown in this image? | Lens formation is not initiated in the absence of L-Maf. A stage 16 whole embryo electroporated with dominant-negative L-Maf (DN-L-Maf) is shown (A). A section of this embryo showed no lens structure as visualized by DAPI staining (B). Immunohistochemical detection of Pax6 (C-E), Sox2 (F-H), and δ-crystallin (I-K) in t... |
PMC2503360_f1_26478.jpg | What is the focal point of this photograph? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503360_f1_26471.jpg | What is being portrayed in this visual content? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503360_f1_26474.jpg | What can you see in this picture? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503360_f1_26473.jpg | What does this image primarily show? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503360_f1_26472.jpg | What's the most prominent thing you notice in this picture? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503360_f1_26475.jpg | What is the focal point of this photograph? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503360_f1_26476.jpg | What is the central feature of this picture? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503360_f1_26477.jpg | What is the principal component of this image? | Gross anatomical and microscopic features of VEGF-A188 transgenic mice. Representative photomicrographs of toluidine blue-stained sections from E18.5 wild-type (A,C) and VEGF-A188 transgenic (B,D) mice. Gross ocular phenotypes of adult wild-type (A; inset) and a VEGF-A188 transgenic mouse (B; inset), showing conspicuou... |
PMC2503962_F2_26479.jpg | What is the dominant medical problem in this image? | Coronary angiography showing no stenotic lesions of the left coronary artery, circumflex artery (A), and right coronary artery (B). |
PMC2503965_F1_26482.jpg | What can you see in this picture? | Axial T2-weighted and diffusion weighted images. A and B: Axial T2-weighted and diffusion weighted images (DWI) of the MRI 24 hours after presentation. The thin white arrow denotes the absent flow void of the right vertebral artery. C, D and E: Axial T2-weighted, DWI and apparent diffusion coefficient (ADC) of the same... |
PMC2503965_F1_26481.jpg | What is the central feature of this picture? | Axial T2-weighted and diffusion weighted images. A and B: Axial T2-weighted and diffusion weighted images (DWI) of the MRI 24 hours after presentation. The thin white arrow denotes the absent flow void of the right vertebral artery. C, D and E: Axial T2-weighted, DWI and apparent diffusion coefficient (ADC) of the same... |
PMC2503966_F2_26487.jpg | Describe the main subject of this image. | A CT scan showed a right adrenal mass, without evident signs of metastases to other organs. |
PMC2503966_F3_26489.jpg | Describe the main subject of this image. | Magnetic resonance imaging showing a nodule in the right adrenal gland. |
PMC2503966_F3_26488.jpg | What is shown in this image? | Magnetic resonance imaging showing a nodule in the right adrenal gland. |
PMC2503973_F1_26491.jpg | Describe the main subject of this image. | (A). A 3D image of normal cartilage (ICRS grade 0, shown in Fig. 1(E) from a cow femoral head at a lower magnification view using digital zooming shows more clearly that the structure of the interwoven collagen bundles (ICB) near the articular surface (the arrows in Fig 1(A)).(B). A 3D image of normal cartilage from a ... |
PMC2503973_F1_26492.jpg | What is the central feature of this picture? | (A). A 3D image of normal cartilage (ICRS grade 0, shown in Fig. 1(E) from a cow femoral head at a lower magnification view using digital zooming shows more clearly that the structure of the interwoven collagen bundles (ICB) near the articular surface (the arrows in Fig 1(A)).(B). A 3D image of normal cartilage from a ... |
PMC2503973_F1_26493.jpg | What key item or scene is captured in this photo? | (A). A 3D image of normal cartilage (ICRS grade 0, shown in Fig. 1(E) from a cow femoral head at a lower magnification view using digital zooming shows more clearly that the structure of the interwoven collagen bundles (ICB) near the articular surface (the arrows in Fig 1(A)).(B). A 3D image of normal cartilage from a ... |
PMC2503973_F1_26490.jpg | What is shown in this image? | (A). A 3D image of normal cartilage (ICRS grade 0, shown in Fig. 1(E) from a cow femoral head at a lower magnification view using digital zooming shows more clearly that the structure of the interwoven collagen bundles (ICB) near the articular surface (the arrows in Fig 1(A)).(B). A 3D image of normal cartilage from a ... |
PMC2503984_F1_26519.jpg | What is the core subject represented in this visual? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26514.jpg | What is the main focus of this visual representation? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26524.jpg | What is the principal component of this image? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26521.jpg | What does this image primarily show? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26516.jpg | What is the principal component of this image? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26513.jpg | What is the dominant medical problem in this image? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26515.jpg | What is the central feature of this picture? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26520.jpg | What is the core subject represented in this visual? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26518.jpg | Can you identify the primary element in this image? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503984_F1_26522.jpg | What is the focal point of this photograph? | Ultrasonographic image attributes encountered during the inter-observer evaluation of polycystic ovaries are presented. Panels A, B and C represent sequential images through a polycystic ovary where an apparently 'even' distribution of follicles is evident at the end of the ovary while a peripheral distribution of foll... |
PMC2503985_F3_26495.jpg | Describe the main subject of this image. | Images of the immunohistochemical assays: PECAM-1 on endothelial cells attached to titanium after (A) 24 hours, (B) 7 days and (C) 14 days, and to control surface after (D) 24 hours, (E) 7 days and (F) 14 days. |
PMC2503985_F3_26499.jpg | What can you see in this picture? | Images of the immunohistochemical assays: PECAM-1 on endothelial cells attached to titanium after (A) 24 hours, (B) 7 days and (C) 14 days, and to control surface after (D) 24 hours, (E) 7 days and (F) 14 days. |
PMC2503985_F3_26496.jpg | What is shown in this image? | Images of the immunohistochemical assays: PECAM-1 on endothelial cells attached to titanium after (A) 24 hours, (B) 7 days and (C) 14 days, and to control surface after (D) 24 hours, (E) 7 days and (F) 14 days. |
PMC2503985_F3_26497.jpg | What is the principal component of this image? | Images of the immunohistochemical assays: PECAM-1 on endothelial cells attached to titanium after (A) 24 hours, (B) 7 days and (C) 14 days, and to control surface after (D) 24 hours, (E) 7 days and (F) 14 days. |
PMC2503985_F4_26501.jpg | What can you see in this picture? | Images of the immunohistochemical assays: von Willebrand factor on endothelial cells attached to titanium after (A) 24 hours, (B) 7 days and (C) 14 days, and to control surface after (D) 24 hours, (E) 7 days and (F) 14 days. |
PMC2503985_F4_26505.jpg | What's the most prominent thing you notice in this picture? | Images of the immunohistochemical assays: von Willebrand factor on endothelial cells attached to titanium after (A) 24 hours, (B) 7 days and (C) 14 days, and to control surface after (D) 24 hours, (E) 7 days and (F) 14 days. |
PMC2503985_F4_26503.jpg | What is the core subject represented in this visual? | Images of the immunohistochemical assays: von Willebrand factor on endothelial cells attached to titanium after (A) 24 hours, (B) 7 days and (C) 14 days, and to control surface after (D) 24 hours, (E) 7 days and (F) 14 days. |
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