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PMC2414658_F1_24050.jpg | What is the dominant medical problem in this image? | Digital images of perforated 5 cm ovine allografts; (A) proximal and (B) distal perforated end plates illustrate the pattern of 16 conduits that extend 10 mm parallel to the long axis of the allograft; (C) contact radiograph of perforated graft indicating consistency of conduit depth. |
PMC2414822_F1_24053.jpg | Describe the main subject of this image. | Coronary angiography. Coronary angiography of the right coronary artery with collateral filling of the left coronary vascular territory, which connects directly to the pulmonary trunk. |
PMC2414822_F3_24059.jpg | Describe the main subject of this image. | CT-angiography after operation. Coronary CT-angiography one week after aortic reimplantation of the left coronary artery confirms patency. Note the myocardial wall thinning in the apical anterior part of the left ventricle demonstrating the old infarction (arrowheads). Volume-rendered reformation (A), axial (B) and cur... |
PMC2414822_F3_24058.jpg | What does this image primarily show? | CT-angiography after operation. Coronary CT-angiography one week after aortic reimplantation of the left coronary artery confirms patency. Note the myocardial wall thinning in the apical anterior part of the left ventricle demonstrating the old infarction (arrowheads). Volume-rendered reformation (A), axial (B) and cur... |
PMC2414822_F3_24057.jpg | What is the dominant medical problem in this image? | CT-angiography after operation. Coronary CT-angiography one week after aortic reimplantation of the left coronary artery confirms patency. Note the myocardial wall thinning in the apical anterior part of the left ventricle demonstrating the old infarction (arrowheads). Volume-rendered reformation (A), axial (B) and cur... |
PMC2414869_F3_24074.jpg | What is the main focus of this visual representation? | Aberrant cortex depth and ventricular zone cells in Nfix-/- mice. Brains from WT (+/+) and Nfix-/- animals were harvested, fixed in 4% PFA and imaged before (A) or after (B-E) sectioning, staining and mounting. A) Gross structure of P22 brains of WT (+/+) and Nfix-/- animals. Note difference in cortex anterior-posterio... |
PMC2414869_F3_24077.jpg | What can you see in this picture? | Aberrant cortex depth and ventricular zone cells in Nfix-/- mice. Brains from WT (+/+) and Nfix-/- animals were harvested, fixed in 4% PFA and imaged before (A) or after (B-E) sectioning, staining and mounting. A) Gross structure of P22 brains of WT (+/+) and Nfix-/- animals. Note difference in cortex anterior-posterio... |
PMC2414869_F3_24081.jpg | What object or scene is depicted here? | Aberrant cortex depth and ventricular zone cells in Nfix-/- mice. Brains from WT (+/+) and Nfix-/- animals were harvested, fixed in 4% PFA and imaged before (A) or after (B-E) sectioning, staining and mounting. A) Gross structure of P22 brains of WT (+/+) and Nfix-/- animals. Note difference in cortex anterior-posterio... |
PMC2414869_F3_24076.jpg | What key item or scene is captured in this photo? | Aberrant cortex depth and ventricular zone cells in Nfix-/- mice. Brains from WT (+/+) and Nfix-/- animals were harvested, fixed in 4% PFA and imaged before (A) or after (B-E) sectioning, staining and mounting. A) Gross structure of P22 brains of WT (+/+) and Nfix-/- animals. Note difference in cortex anterior-posterio... |
PMC2414869_F3_24079.jpg | What does this image primarily show? | Aberrant cortex depth and ventricular zone cells in Nfix-/- mice. Brains from WT (+/+) and Nfix-/- animals were harvested, fixed in 4% PFA and imaged before (A) or after (B-E) sectioning, staining and mounting. A) Gross structure of P22 brains of WT (+/+) and Nfix-/- animals. Note difference in cortex anterior-posterio... |
PMC2414869_F3_24078.jpg | What is the principal component of this image? | Aberrant cortex depth and ventricular zone cells in Nfix-/- mice. Brains from WT (+/+) and Nfix-/- animals were harvested, fixed in 4% PFA and imaged before (A) or after (B-E) sectioning, staining and mounting. A) Gross structure of P22 brains of WT (+/+) and Nfix-/- animals. Note difference in cortex anterior-posterio... |
PMC2414869_F7_24060.jpg | What is the core subject represented in this visual? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24073.jpg | What stands out most in this visual? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24063.jpg | What is shown in this image? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24066.jpg | What is the central feature of this picture? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24070.jpg | What can you see in this picture? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24072.jpg | What's the most prominent thing you notice in this picture? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24065.jpg | What's the most prominent thing you notice in this picture? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24068.jpg | What does this image primarily show? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2414869_F7_24067.jpg | What does this image primarily show? | NFIX expression in the developing telencephalon. NFIX expression during telencephalon development from E12 to adult. In each panel (A-H) the square box indicates a corresponding higher magnification image in A'-H'. A' and B' show NFIX expression in the roof plate and the preplate, respectively. Panels C'-H' show the ex... |
PMC2415112_F7_24083.jpg | What is being portrayed in this visual content? | INA immunohistochemistry in 1p19q codeleted and EGFR amplified gliomas. Representative alpha-internexin (INA) immunohistostaining in oligodendrogliomas with 1p19q codeletion (A, C, D) and in glioblastomas with EGFR amplification (B). C: the arrow shows immunopositivity in an entrapped neuron surrounded by immunopositiv... |
PMC2415112_F7_24082.jpg | What is shown in this image? | INA immunohistochemistry in 1p19q codeleted and EGFR amplified gliomas. Representative alpha-internexin (INA) immunohistostaining in oligodendrogliomas with 1p19q codeletion (A, C, D) and in glioblastomas with EGFR amplification (B). C: the arrow shows immunopositivity in an entrapped neuron surrounded by immunopositiv... |
PMC2415357_F1_24086.jpg | What is the core subject represented in this visual? | Chest X-ray on admission. Initial examination showed an intrathoracic mass overlying the left margin of the heart (arrowheads). No interstitial pulmonary edema was noted. Small pleural effusions are shown. |
PMC2415357_F3_24087.jpg | What can you see in this picture? | T2-weighted coronal magnetic resonance imaging of the upper abdomen and magnetic resonance cholangiopancreatography. There is communication between mediastinal and abdominal pseudocysts through the esophageal hiatus. High-grade ductal stenosis (arrowhead) is shown, but only a slight widening in the pancreatic body and ... |
PMC2416439_F1_24102.jpg | What does this image primarily show? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24091.jpg | What is being portrayed in this visual content? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24098.jpg | What is being portrayed in this visual content? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24094.jpg | What does this image primarily show? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24095.jpg | What is the principal component of this image? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24099.jpg | What is the principal component of this image? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24101.jpg | What is the core subject represented in this visual? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24096.jpg | What stands out most in this visual? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416439_F1_24093.jpg | What is being portrayed in this visual content? | HOP is expressed by SGL radial astrocytes. (a) In situ hybridization shows HOP mRNA expression in numerous DG cells with a prominent labeling in the SGL (arrow), the neurogenic region for the production of granule cells destined to the granule cell layer (GCL). (b) Immunohistochemical detection of HOP protein in the DG... |
PMC2416653_F11_24103.jpg | What's the most prominent thing you notice in this picture? | Bicluster visualization. Three of the biggest biclusters that Bimax algorithm found for microarray data discussed in the Results section. a) Biclusters represented by their wrapping hulls. This visualization is useful to draw an overview of how biclusters are related. b) Nodes are now represented as glyphs. Attention g... |
PMC2416653_F11_24105.jpg | What object or scene is depicted here? | Bicluster visualization. Three of the biggest biclusters that Bimax algorithm found for microarray data discussed in the Results section. a) Biclusters represented by their wrapping hulls. This visualization is useful to draw an overview of how biclusters are related. b) Nodes are now represented as glyphs. Attention g... |
PMC2422842_F2_24108.jpg | What does this image primarily show? | Color coded statistical coupling matrices and mapping of selected sites on the structure of Gαi. (A) Pair wise couplings of 35 secondary structure elements. Pixels indicate the values of statistical couplings (Nχ2) on a rainbow color scale (red: full coupling, dark blue: no coupling). The secondary structure elements a... |
PMC2422842_F2_24110.jpg | What can you see in this picture? | Color coded statistical coupling matrices and mapping of selected sites on the structure of Gαi. (A) Pair wise couplings of 35 secondary structure elements. Pixels indicate the values of statistical couplings (Nχ2) on a rainbow color scale (red: full coupling, dark blue: no coupling). The secondary structure elements a... |
PMC2422842_F2_24109.jpg | What can you see in this picture? | Color coded statistical coupling matrices and mapping of selected sites on the structure of Gαi. (A) Pair wise couplings of 35 secondary structure elements. Pixels indicate the values of statistical couplings (Nχ2) on a rainbow color scale (red: full coupling, dark blue: no coupling). The secondary structure elements a... |
PMC2422842_F4_24106.jpg | What does this image primarily show? | Changes in local folding free energy upon "nucleotide exchange" on Gαi. Changes in free energies upon nucleotide exchange in Gαi are calculated from data given in figure 3 and mapped onto the structure of Gαi1-GTPγS (PDB ID: 1GIA). Changes are shown on the color-coded trace-tube representation of the molecule (blue: no... |
PMC2422842_F5_24107.jpg | What is shown in this image? | Common folding correlations in GDP- or GTPγS-bound Gαi. Correlation matrix is calculated from top 5000 partially folded COREX states of Gαi-GDP and Gαi-GTPγS and is shown on a rainbow color scale (blue to red correspond to 0 to 1). The matrix is constructed as explained in the text and the sites are sorted from N to C ... |
PMC2422854_pbio-0060141-g006_24116.jpg | What is the focal point of this photograph? | TTG1 Movement between Cell Layers(A) ppcA1:GFP–YFP in a young leaf. GFP/YFP-specific fluorescence is found in the subepidermal but not in the epidermal cell layer.(B) ppcA1:GFP–YFP in an old leaf. Fluorescence is restricted to the subepidermal cell layers.(C) ppcA1:YFP in a young leaf. YFP is found in all cells.(D) ppc... |
PMC2422854_pbio-0060141-g006_24117.jpg | What is the central feature of this picture? | TTG1 Movement between Cell Layers(A) ppcA1:GFP–YFP in a young leaf. GFP/YFP-specific fluorescence is found in the subepidermal but not in the epidermal cell layer.(B) ppcA1:GFP–YFP in an old leaf. Fluorescence is restricted to the subepidermal cell layers.(C) ppcA1:YFP in a young leaf. YFP is found in all cells.(D) ppc... |
PMC2422854_pbio-0060141-g006_24115.jpg | Can you identify the primary element in this image? | TTG1 Movement between Cell Layers(A) ppcA1:GFP–YFP in a young leaf. GFP/YFP-specific fluorescence is found in the subepidermal but not in the epidermal cell layer.(B) ppcA1:GFP–YFP in an old leaf. Fluorescence is restricted to the subepidermal cell layers.(C) ppcA1:YFP in a young leaf. YFP is found in all cells.(D) ppc... |
PMC2423365_F3_24128.jpg | What does this image primarily show? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24119.jpg | What is the principal component of this image? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24124.jpg | What does this image primarily show? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24122.jpg | What is shown in this image? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24120.jpg | What object or scene is depicted here? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24131.jpg | What object or scene is depicted here? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24125.jpg | What can you see in this picture? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24127.jpg | What key item or scene is captured in this photo? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24123.jpg | Describe the main subject of this image. | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24121.jpg | Can you identify the primary element in this image? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24118.jpg | What is the focal point of this photograph? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24129.jpg | Can you identify the primary element in this image? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423365_F3_24126.jpg | What is the principal component of this image? | Time-lapse microscopic analysis of the interaction between DCs and T cells after pre-incubation with P. yoelii-infected erythrocytes. DCs were differentiated in vitro and pre-incubated with uninfected (A) or P. yoelii-infected (B) erythrocytes before loading with OVA peptide 323–339. Naïve DO11.10 T cells that are spec... |
PMC2423482_pone-0002477-g007_24137.jpg | What is shown in this image? | GNE and α-actinin 1 are expressed in stretched mouse muscle.Confocal microscopy of stretched mouse spinalis muscle stained with antibodies recognizing the Z line marker α-actinin-2 (ACTN2, red), α-actinin-1 (ACTN1, green), and GNE (GNE, green). α-Actinin-1 antibodies(3A2) and GNE antibodies show a distinct but overlapp... |
PMC2423482_pone-0002477-g007_24135.jpg | What is the core subject represented in this visual? | GNE and α-actinin 1 are expressed in stretched mouse muscle.Confocal microscopy of stretched mouse spinalis muscle stained with antibodies recognizing the Z line marker α-actinin-2 (ACTN2, red), α-actinin-1 (ACTN1, green), and GNE (GNE, green). α-Actinin-1 antibodies(3A2) and GNE antibodies show a distinct but overlapp... |
PMC2423482_pone-0002477-g007_24134.jpg | What key item or scene is captured in this photo? | GNE and α-actinin 1 are expressed in stretched mouse muscle.Confocal microscopy of stretched mouse spinalis muscle stained with antibodies recognizing the Z line marker α-actinin-2 (ACTN2, red), α-actinin-1 (ACTN1, green), and GNE (GNE, green). α-Actinin-1 antibodies(3A2) and GNE antibodies show a distinct but overlapp... |
PMC2423484_pone-0002503-g007_24142.jpg | What's the most prominent thing you notice in this picture? | Immunohistochemistry of aortic root lesions.Aortas from 8–9 month chow fed male mice were fixed and sectioned as described in
Materials and Methods
. Sections were stained for neutral lipid accumulation with oil red O, then adjacent sections were immunostained for VCAM-1 and CD11a (LFA-1) as described. Wild type (WT),... |
PMC2423484_pone-0002503-g007_24143.jpg | What is the dominant medical problem in this image? | Immunohistochemistry of aortic root lesions.Aortas from 8–9 month chow fed male mice were fixed and sectioned as described in
Materials and Methods
. Sections were stained for neutral lipid accumulation with oil red O, then adjacent sections were immunostained for VCAM-1 and CD11a (LFA-1) as described. Wild type (WT),... |
PMC2423484_pone-0002503-g007_24141.jpg | What is the principal component of this image? | Immunohistochemistry of aortic root lesions.Aortas from 8–9 month chow fed male mice were fixed and sectioned as described in
Materials and Methods
. Sections were stained for neutral lipid accumulation with oil red O, then adjacent sections were immunostained for VCAM-1 and CD11a (LFA-1) as described. Wild type (WT),... |
PMC2423484_pone-0002503-g007_24146.jpg | What is being portrayed in this visual content? | Immunohistochemistry of aortic root lesions.Aortas from 8–9 month chow fed male mice were fixed and sectioned as described in
Materials and Methods
. Sections were stained for neutral lipid accumulation with oil red O, then adjacent sections were immunostained for VCAM-1 and CD11a (LFA-1) as described. Wild type (WT),... |
PMC2423484_pone-0002503-g007_24140.jpg | What can you see in this picture? | Immunohistochemistry of aortic root lesions.Aortas from 8–9 month chow fed male mice were fixed and sectioned as described in
Materials and Methods
. Sections were stained for neutral lipid accumulation with oil red O, then adjacent sections were immunostained for VCAM-1 and CD11a (LFA-1) as described. Wild type (WT),... |
PMC2423484_pone-0002503-g007_24145.jpg | What's the most prominent thing you notice in this picture? | Immunohistochemistry of aortic root lesions.Aortas from 8–9 month chow fed male mice were fixed and sectioned as described in
Materials and Methods
. Sections were stained for neutral lipid accumulation with oil red O, then adjacent sections were immunostained for VCAM-1 and CD11a (LFA-1) as described. Wild type (WT),... |
PMC2423613_pone-0002479-g003_24150.jpg | What is the dominant medical problem in this image? | (a) fMRI results (rostral basal ganglia). Axial slices at z = −3 showing voxels of greater activation for win (normal gain+boost) than loss trials in the ventral striatum after placebo and pramipexole. The time course of the BOLD response is shown for a ROI defined around voxel x = −15,y = −3,z = −3 in Talairach coordi... |
PMC2423613_pone-0002479-g003_24151.jpg | What is being portrayed in this visual content? | (a) fMRI results (rostral basal ganglia). Axial slices at z = −3 showing voxels of greater activation for win (normal gain+boost) than loss trials in the ventral striatum after placebo and pramipexole. The time course of the BOLD response is shown for a ROI defined around voxel x = −15,y = −3,z = −3 in Talairach coordi... |
PMC2423613_pone-0002479-g003_24153.jpg | What is the central feature of this picture? | (a) fMRI results (rostral basal ganglia). Axial slices at z = −3 showing voxels of greater activation for win (normal gain+boost) than loss trials in the ventral striatum after placebo and pramipexole. The time course of the BOLD response is shown for a ROI defined around voxel x = −15,y = −3,z = −3 in Talairach coordi... |
PMC2423613_pone-0002479-g004_24149.jpg | What stands out most in this visual? | fMRI results (cingulate gyrus).Sagittal slices at x = −4 showing voxels of greater activation for win (normal gain+boost) than loss trials in the rostral anterior and posterior cingulate gyrus. Results are shown at p<0.001 uncorrected (n = 13). |
PMC2424043_F3_24155.jpg | Describe the main subject of this image. | Subcellular localisation of VO-subunits and proteolipid constructs. VHA-c" (A, D), truncated VHA-c" (B), the VHA-c/VHA-c" hybrid proteolipid subunit (C) as well as VHA-e isoforms (E, F) were genetically fused to YFP and transiently expressed in Arabidopsis mesophyll protoplasts. The YFP fluorescence as shown in green w... |
PMC2424043_F3_24159.jpg | What key item or scene is captured in this photo? | Subcellular localisation of VO-subunits and proteolipid constructs. VHA-c" (A, D), truncated VHA-c" (B), the VHA-c/VHA-c" hybrid proteolipid subunit (C) as well as VHA-e isoforms (E, F) were genetically fused to YFP and transiently expressed in Arabidopsis mesophyll protoplasts. The YFP fluorescence as shown in green w... |
PMC2424043_F3_24157.jpg | What is the main focus of this visual representation? | Subcellular localisation of VO-subunits and proteolipid constructs. VHA-c" (A, D), truncated VHA-c" (B), the VHA-c/VHA-c" hybrid proteolipid subunit (C) as well as VHA-e isoforms (E, F) were genetically fused to YFP and transiently expressed in Arabidopsis mesophyll protoplasts. The YFP fluorescence as shown in green w... |
PMC2424043_F3_24156.jpg | What is the main focus of this visual representation? | Subcellular localisation of VO-subunits and proteolipid constructs. VHA-c" (A, D), truncated VHA-c" (B), the VHA-c/VHA-c" hybrid proteolipid subunit (C) as well as VHA-e isoforms (E, F) were genetically fused to YFP and transiently expressed in Arabidopsis mesophyll protoplasts. The YFP fluorescence as shown in green w... |
PMC2424043_F3_24158.jpg | What is being portrayed in this visual content? | Subcellular localisation of VO-subunits and proteolipid constructs. VHA-c" (A, D), truncated VHA-c" (B), the VHA-c/VHA-c" hybrid proteolipid subunit (C) as well as VHA-e isoforms (E, F) were genetically fused to YFP and transiently expressed in Arabidopsis mesophyll protoplasts. The YFP fluorescence as shown in green w... |
PMC2424049_F1_24160.jpg | What does this image primarily show? | Chest radiograph in posteroaanterior view showed the rounded opacity along left cardiac silhouette. |
PMC2424049_F2_24161.jpg | What is the principal component of this image? | Transesophageal echocardiography in midesophageal short axis view showing the anatomical relations of pseudoaneurysm. |
PMC2424049_F3_24163.jpg | What key item or scene is captured in this photo? | Axial source image of CT angiography showing the aneurysm (thick white arrow) compressing the left lower pulmonary vein (thin white arrow). |
PMC2424049_F4_24164.jpg | What can you see in this picture? | Axial source image of CT angiography showing the annular extension of the tear (thick white arrow -pseudoaneurysm, black arrow- valve). |
PMC2424051_F2_24165.jpg | What is the principal component of this image? | Expression of the transgenes in seedlings in the Kaleidocell line. (A) Fluorescence micrograph of a root meristem from the 7 days-old Kaleidocell line. The root meristem was observed with three different fluorescence filter sets: cyan, yellow, and red. Captured images were merged to generate a single image. (B) Fluores... |
PMC2424051_F2_24166.jpg | What is the core subject represented in this visual? | Expression of the transgenes in seedlings in the Kaleidocell line. (A) Fluorescence micrograph of a root meristem from the 7 days-old Kaleidocell line. The root meristem was observed with three different fluorescence filter sets: cyan, yellow, and red. Captured images were merged to generate a single image. (B) Fluores... |
PMC2424051_F4_24168.jpg | Describe the main subject of this image. | Detection of nuclei, plastids, and mitochondria in a Kaleidocell root. (A) A maximum projection image of a vertical series of scanning confocal micrographs of a root of a Kaleidocell seedling. The root grew along the x-axis. A total of 17 epidermal and 8 cortical cells (green lines) were identified. Cell boarders at th... |
PMC2424051_F6_24169.jpg | What is the core subject represented in this visual? | Movements of nuclei, plastids, and mitochondria. Stacked deconvolution micrographs of root epidermal cells during a 3 h and 40 min long time-lapse observation. (A) Image captured at 2 h and 46 min into the observation period. Nuclei, plastids, and mitochondria appear blue, red, and green, respectively. Triangles indica... |
PMC2424051_F6_24171.jpg | What is being portrayed in this visual content? | Movements of nuclei, plastids, and mitochondria. Stacked deconvolution micrographs of root epidermal cells during a 3 h and 40 min long time-lapse observation. (A) Image captured at 2 h and 46 min into the observation period. Nuclei, plastids, and mitochondria appear blue, red, and green, respectively. Triangles indica... |
PMC2424051_F6_24170.jpg | What is the core subject represented in this visual? | Movements of nuclei, plastids, and mitochondria. Stacked deconvolution micrographs of root epidermal cells during a 3 h and 40 min long time-lapse observation. (A) Image captured at 2 h and 46 min into the observation period. Nuclei, plastids, and mitochondria appear blue, red, and green, respectively. Triangles indica... |
PMC2424051_F6_24172.jpg | Can you identify the primary element in this image? | Movements of nuclei, plastids, and mitochondria. Stacked deconvolution micrographs of root epidermal cells during a 3 h and 40 min long time-lapse observation. (A) Image captured at 2 h and 46 min into the observation period. Nuclei, plastids, and mitochondria appear blue, red, and green, respectively. Triangles indica... |
PMC2424070_F3_24175.jpg | What does this image primarily show? | Localization of GFP-tagged CdCnh1p (A) and CpCnh1p (B) in BW31a cells. Fluorescence (1) and Nomarski (2) micrographs. |
PMC2424070_F3_24173.jpg | What's the most prominent thing you notice in this picture? | Localization of GFP-tagged CdCnh1p (A) and CpCnh1p (B) in BW31a cells. Fluorescence (1) and Nomarski (2) micrographs. |
PMC2424070_F3_24174.jpg | Can you identify the primary element in this image? | Localization of GFP-tagged CdCnh1p (A) and CpCnh1p (B) in BW31a cells. Fluorescence (1) and Nomarski (2) micrographs. |
PMC2424070_F3_24176.jpg | What is the dominant medical problem in this image? | Localization of GFP-tagged CdCnh1p (A) and CpCnh1p (B) in BW31a cells. Fluorescence (1) and Nomarski (2) micrographs. |
PMC2424135_pone-0002520-g007_24180.jpg | What's the most prominent thing you notice in this picture? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424135_pone-0002520-g007_24182.jpg | What is the central feature of this picture? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424135_pone-0002520-g007_24185.jpg | What is the dominant medical problem in this image? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424135_pone-0002520-g007_24177.jpg | What is being portrayed in this visual content? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424135_pone-0002520-g007_24181.jpg | What is shown in this image? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424135_pone-0002520-g007_24179.jpg | What object or scene is depicted here? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424135_pone-0002520-g007_24178.jpg | What is the main focus of this visual representation? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424135_pone-0002520-g007_24183.jpg | What is the main focus of this visual representation? | Significant effects of the ambiguity and similarity predictor functions.Figure 7 illustrates brain regions in which the BOLD response is significantly predicted by the ambiguity regressor (top), and the similarity regressor (bottom). 7a) On the left side are results from the unconstrained whole brain analysis, collapse... |
PMC2424136_pone-0002525-g004_24189.jpg | What is the focal point of this photograph? | Condition of craniotomy assessed with spontaneous Ca2+ surge occurrence and immunohistochemistry.A, Number of spontaneous Ca2+ surges of astrocytes of all experimental data was plotted against imaged time. Red line indicates the cumulative proportion. Apparently uniform occurrence probability of spontaneous Ca2+ surge ... |
PMC2424136_pone-0002525-g004_24191.jpg | What is the core subject represented in this visual? | Condition of craniotomy assessed with spontaneous Ca2+ surge occurrence and immunohistochemistry.A, Number of spontaneous Ca2+ surges of astrocytes of all experimental data was plotted against imaged time. Red line indicates the cumulative proportion. Apparently uniform occurrence probability of spontaneous Ca2+ surge ... |
PMC2424136_pone-0002525-g004_24190.jpg | What key item or scene is captured in this photo? | Condition of craniotomy assessed with spontaneous Ca2+ surge occurrence and immunohistochemistry.A, Number of spontaneous Ca2+ surges of astrocytes of all experimental data was plotted against imaged time. Red line indicates the cumulative proportion. Apparently uniform occurrence probability of spontaneous Ca2+ surge ... |
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