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PMC2254968_f4_18285.jpg | What stands out most in this visual? | Immunocytochemical analysis of sphere colonies from the peripheral stroma on day 7. Bright-field images and immunostaining of spheres are shown. The spheres were stained for vimentin (a mesenchymal cell marker), \alpha-smooth muscle actin (α-SMA, a mesenchymal cell marker), cytokeratin 3 (a differentiated epithelial ce... |
PMC2254968_f4_18283.jpg | What is the dominant medical problem in this image? | Immunocytochemical analysis of sphere colonies from the peripheral stroma on day 7. Bright-field images and immunostaining of spheres are shown. The spheres were stained for vimentin (a mesenchymal cell marker), \alpha-smooth muscle actin (α-SMA, a mesenchymal cell marker), cytokeratin 3 (a differentiated epithelial ce... |
PMC2254968_f4_18286.jpg | What is the principal component of this image? | Immunocytochemical analysis of sphere colonies from the peripheral stroma on day 7. Bright-field images and immunostaining of spheres are shown. The spheres were stained for vimentin (a mesenchymal cell marker), \alpha-smooth muscle actin (α-SMA, a mesenchymal cell marker), cytokeratin 3 (a differentiated epithelial ce... |
PMC2254968_f5_18308.jpg | What is the central feature of this picture? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18302.jpg | What is the focal point of this photograph? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18309.jpg | What object or scene is depicted here? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18305.jpg | What is the focal point of this photograph? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18300.jpg | What is the principal component of this image? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18307.jpg | What is the central feature of this picture? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18311.jpg | What is the focal point of this photograph? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18306.jpg | What is the main focus of this visual representation? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18310.jpg | What is the principal component of this image? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18312.jpg | Can you identify the primary element in this image? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18301.jpg | Can you identify the primary element in this image? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18303.jpg | What is the central feature of this picture? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2254968_f5_18299.jpg | What stands out most in this visual? | Immunocytochemical analysis of differentiated cells from spheres derived from the peripheral cornea. Cells migrating out from the spheres express α-SMA, MAP2, and NSE, indicating that the colonies contain differentiated mesenchymal and neuronal cells. There is no staining with the control IgG. Scale bar=100 μm. |
PMC2257924_F1_18314.jpg | What is the core subject represented in this visual? | The dark color shows the intraventricular septum thickening (26 mm) and loss of perfusion in the medial septal segment (white arrowhead) demonstrated with low mechanical index contrast echocardiography. |
PMC2257924_F6_18315.jpg | What is the dominant medical problem in this image? | MR-follow-up examination 8 weeks after contrast agent injection (same technique as described under Figure E): Transmural late gadolinium enhancement anteroseptal, transmural myocardial fibrosis (white arrow), no hematoma. |
PMC2257926_F1_18317.jpg | What object or scene is depicted here? | (Diff-Quik stain, ×400): FNA smear from the breast mass showing a crowded, haphazardly arranged cluster of cells lying amidst a metachromatic stroma. |
PMC2257926_F2_18316.jpg | What is the central feature of this picture? | (Papanicalaou stain, ×400): This nest of pleomorphic cells is composed of a mixture of large epithelioid, plasmacytoid, and spindle cells. |
PMC2257930_F5_18320.jpg | What is the core subject represented in this visual? | Magnetic resonance images (MRI) of a patient before and after interventional microadhesiolysis. The joint effusion decreased after the patient underwent interventional microadhesiolysis. (a) Axial and (c) coronal views of the shoulder MRI taken before intervention. (b) Axial and (d) coronal views of shoulder MRI taken ... |
PMC2257930_F5_18321.jpg | What does this image primarily show? | Magnetic resonance images (MRI) of a patient before and after interventional microadhesiolysis. The joint effusion decreased after the patient underwent interventional microadhesiolysis. (a) Axial and (c) coronal views of the shoulder MRI taken before intervention. (b) Axial and (d) coronal views of shoulder MRI taken ... |
PMC2257935_F4_18323.jpg | What object or scene is depicted here? | Disruption of redA impairs development at mound stage. (A) Exponentially growing AX4 wild type cells and the mutants redA- and redA-KO were starved on filter pads and photographed at the indicated times (h) after starvation. (B) AX4 fruiting bodies and redA- yellow mounds after 48 hours starvation on filter pads are sh... |
PMC2257935_F4_18330.jpg | What is the dominant medical problem in this image? | Disruption of redA impairs development at mound stage. (A) Exponentially growing AX4 wild type cells and the mutants redA- and redA-KO were starved on filter pads and photographed at the indicated times (h) after starvation. (B) AX4 fruiting bodies and redA- yellow mounds after 48 hours starvation on filter pads are sh... |
PMC2257935_F4_18324.jpg | What is the central feature of this picture? | Disruption of redA impairs development at mound stage. (A) Exponentially growing AX4 wild type cells and the mutants redA- and redA-KO were starved on filter pads and photographed at the indicated times (h) after starvation. (B) AX4 fruiting bodies and redA- yellow mounds after 48 hours starvation on filter pads are sh... |
PMC2257935_F4_18328.jpg | What can you see in this picture? | Disruption of redA impairs development at mound stage. (A) Exponentially growing AX4 wild type cells and the mutants redA- and redA-KO were starved on filter pads and photographed at the indicated times (h) after starvation. (B) AX4 fruiting bodies and redA- yellow mounds after 48 hours starvation on filter pads are sh... |
PMC2257935_F4_18333.jpg | What object or scene is depicted here? | Disruption of redA impairs development at mound stage. (A) Exponentially growing AX4 wild type cells and the mutants redA- and redA-KO were starved on filter pads and photographed at the indicated times (h) after starvation. (B) AX4 fruiting bodies and redA- yellow mounds after 48 hours starvation on filter pads are sh... |
PMC2257935_F4_18325.jpg | What is being portrayed in this visual content? | Disruption of redA impairs development at mound stage. (A) Exponentially growing AX4 wild type cells and the mutants redA- and redA-KO were starved on filter pads and photographed at the indicated times (h) after starvation. (B) AX4 fruiting bodies and redA- yellow mounds after 48 hours starvation on filter pads are sh... |
PMC2257935_F4_18331.jpg | What's the most prominent thing you notice in this picture? | Disruption of redA impairs development at mound stage. (A) Exponentially growing AX4 wild type cells and the mutants redA- and redA-KO were starved on filter pads and photographed at the indicated times (h) after starvation. (B) AX4 fruiting bodies and redA- yellow mounds after 48 hours starvation on filter pads are sh... |
PMC2257945_F1_18334.jpg | Describe the main subject of this image. | Chest radiography shows multiple nodules and masses involving both lungs. |
PMC2257945_F2_18341.jpg | Describe the main subject of this image. | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18343.jpg | What stands out most in this visual? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18342.jpg | What object or scene is depicted here? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18335.jpg | What is being portrayed in this visual content? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18346.jpg | What is being portrayed in this visual content? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18336.jpg | What is the core subject represented in this visual? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18345.jpg | What object or scene is depicted here? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18340.jpg | What is the central feature of this picture? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18344.jpg | What is the focal point of this photograph? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257945_F2_18337.jpg | What is the dominant medical problem in this image? | FDG PET scans, First Column of the Figure showed increased FDG uptake in both breast cancer and in metastatic axillary and supraclavicular lymph nodes (arrows) and also no FDG Uptake of the benign pulmonary lesions (small arrows). |
PMC2257950_F1_18347.jpg | What's the most prominent thing you notice in this picture? | Pre-Operative MRI coronal view of Case Patient showing local cancer recurrence involving left pelvis and surrounding the saddle prosthesis. |
PMC2257964_F8_18349.jpg | What is the dominant medical problem in this image? | Electron micrographs of the vesicle preparations from filtrates. Filtrates from experiments studying in vitro AaPAL release into serum were subjected to vesicle preparation and subsequent electron microscopy. The filtrates were: A. actinomycetemcomitans D7SS at 8 h (Panel A), D7SS-p at 8 h (Panel B), No bacteria contro... |
PMC2257964_F8_18351.jpg | What stands out most in this visual? | Electron micrographs of the vesicle preparations from filtrates. Filtrates from experiments studying in vitro AaPAL release into serum were subjected to vesicle preparation and subsequent electron microscopy. The filtrates were: A. actinomycetemcomitans D7SS at 8 h (Panel A), D7SS-p at 8 h (Panel B), No bacteria contro... |
PMC2257964_F8_18350.jpg | Can you identify the primary element in this image? | Electron micrographs of the vesicle preparations from filtrates. Filtrates from experiments studying in vitro AaPAL release into serum were subjected to vesicle preparation and subsequent electron microscopy. The filtrates were: A. actinomycetemcomitans D7SS at 8 h (Panel A), D7SS-p at 8 h (Panel B), No bacteria contro... |
PMC2257969_F6_18353.jpg | What object or scene is depicted here? | SC-like cells could form myelin structures with neuronal neurites. PC12 cells and SC-like cells from rat ADSC were co-cultured for 14 days. Electron micrographs show that compact myelin structures could be seen (A), and myelin structures are composed of multiple layers of membranes (B). A, ×21000; B, ×63000. |
PMC2257969_F6_18352.jpg | What is being portrayed in this visual content? | SC-like cells could form myelin structures with neuronal neurites. PC12 cells and SC-like cells from rat ADSC were co-cultured for 14 days. Electron micrographs show that compact myelin structures could be seen (A), and myelin structures are composed of multiple layers of membranes (B). A, ×21000; B, ×63000. |
PMC2258145_pone-0001758-g001_18356.jpg | What is the dominant medical problem in this image? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g001_18364.jpg | Can you identify the primary element in this image? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g001_18366.jpg | What is the main focus of this visual representation? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g001_18359.jpg | What is the main focus of this visual representation? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g001_18365.jpg | What does this image primarily show? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g001_18360.jpg | Can you identify the primary element in this image? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g001_18357.jpg | What is being portrayed in this visual content? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g001_18362.jpg | What is the core subject represented in this visual? |
PIK3CA is upregulated in non-proliferating tumor cells in vivo.
A to C. Double immunostaining of p110α (green, FITC) and Ki67 (red, Texas Red) in human ovarian cancer B. High magnification of a region from A with low expression of p110α. p110α is expressed at low levels and localizes to the cytoplasm of Ki67-positive ... |
PMC2258145_pone-0001758-g007_18369.jpg | What's the most prominent thing you notice in this picture? | Expression and localization of candidate transcription factors in situ.
A to C. Immunohistochemical staining of candidate transcription factors HIF1α, c-Jun and NF-κB in 2008 xenografts. The line shows the boundary between the Ki67+ p110α-low, and Ki67− p110α-high regions. D to F. High magnification from A to C, respec... |
PMC2258145_pone-0001758-g007_18367.jpg | What is the focal point of this photograph? | Expression and localization of candidate transcription factors in situ.
A to C. Immunohistochemical staining of candidate transcription factors HIF1α, c-Jun and NF-κB in 2008 xenografts. The line shows the boundary between the Ki67+ p110α-low, and Ki67− p110α-high regions. D to F. High magnification from A to C, respec... |
PMC2258145_pone-0001758-g007_18370.jpg | What is being portrayed in this visual content? | Expression and localization of candidate transcription factors in situ.
A to C. Immunohistochemical staining of candidate transcription factors HIF1α, c-Jun and NF-κB in 2008 xenografts. The line shows the boundary between the Ki67+ p110α-low, and Ki67− p110α-high regions. D to F. High magnification from A to C, respec... |
PMC2258203_F3_18376.jpg | What does this image primarily show? | The NOR regions of T. aculeatus. FISH with a 28S specific probe was used for identification. |
PMC2258203_F4_18379.jpg | What is the principal component of this image? | Male Tac chromosome identification. (a) Tac 27 is a pair. (b) Paint X1 identifies X1 and Y1q. (c) Paint Y1 covers chromosome Y1 and X1p. (d) Paint X2 identifies X2 and the region of homology on Y1 and Y2. (e) Paint Y2 identifies Y2 and the region of homology on X2 and X3. (f) Paint X3 covers X3 and the pairing region o... |
PMC2258203_F5_18389.jpg | What object or scene is depicted here? | Female Tac chromosome identification. (a) Paint Y1 covers two copies of X1p, chromosome Y1 is not present. (b) Paint Y2 covers the homology regions on two copies of X2 and X3; Y2 is not present. (c) Paint X3 hybridizes to the chromosome pair X3. (d) Paint X5 hybridized to the chromosome pair X5. (e) Tac meiotic chain c... |
PMC2258203_F5_18395.jpg | Describe the main subject of this image. | Female Tac chromosome identification. (a) Paint Y1 covers two copies of X1p, chromosome Y1 is not present. (b) Paint Y2 covers the homology regions on two copies of X2 and X3; Y2 is not present. (c) Paint X3 hybridizes to the chromosome pair X3. (d) Paint X5 hybridized to the chromosome pair X5. (e) Tac meiotic chain c... |
PMC2258203_F5_18388.jpg | What is the dominant medical problem in this image? | Female Tac chromosome identification. (a) Paint Y1 covers two copies of X1p, chromosome Y1 is not present. (b) Paint Y2 covers the homology regions on two copies of X2 and X3; Y2 is not present. (c) Paint X3 hybridizes to the chromosome pair X3. (d) Paint X5 hybridized to the chromosome pair X5. (e) Tac meiotic chain c... |
PMC2258203_F5_18396.jpg | What is the main focus of this visual representation? | Female Tac chromosome identification. (a) Paint Y1 covers two copies of X1p, chromosome Y1 is not present. (b) Paint Y2 covers the homology regions on two copies of X2 and X3; Y2 is not present. (c) Paint X3 hybridizes to the chromosome pair X3. (d) Paint X5 hybridized to the chromosome pair X5. (e) Tac meiotic chain c... |
PMC2258203_F5_18391.jpg | What is being portrayed in this visual content? | Female Tac chromosome identification. (a) Paint Y1 covers two copies of X1p, chromosome Y1 is not present. (b) Paint Y2 covers the homology regions on two copies of X2 and X3; Y2 is not present. (c) Paint X3 hybridizes to the chromosome pair X3. (d) Paint X5 hybridized to the chromosome pair X5. (e) Tac meiotic chain c... |
PMC2258295_F1_18397.jpg | What key item or scene is captured in this photo? | 69 year old male. Contrast enhanced (left) and delayed (right) CT scans demonstrating low density fluid around the left kidney and ureter, and contrast extravasation from the proximal left ureter respectively. |
PMC2258295_F1_18398.jpg | What does this image primarily show? | 69 year old male. Contrast enhanced (left) and delayed (right) CT scans demonstrating low density fluid around the left kidney and ureter, and contrast extravasation from the proximal left ureter respectively. |
PMC2258298_F6_18404.jpg | What key item or scene is captured in this photo? | Immunocytochemical analysis for colocalization of CD147-intrabody. The transfected 293A cells were fixed and incubated with a mixture of biotinylated anti-human extracellular matrix metalloproteinase inducer (EMMPRIN) mAb and rabbit anti-HA mAb. Then, cells were stained with the mixture of Cy5-conjugated streptavidin a... |
PMC2258298_F6_18403.jpg | Describe the main subject of this image. | Immunocytochemical analysis for colocalization of CD147-intrabody. The transfected 293A cells were fixed and incubated with a mixture of biotinylated anti-human extracellular matrix metalloproteinase inducer (EMMPRIN) mAb and rabbit anti-HA mAb. Then, cells were stained with the mixture of Cy5-conjugated streptavidin a... |
PMC2258298_F6_18401.jpg | What is shown in this image? | Immunocytochemical analysis for colocalization of CD147-intrabody. The transfected 293A cells were fixed and incubated with a mixture of biotinylated anti-human extracellular matrix metalloproteinase inducer (EMMPRIN) mAb and rabbit anti-HA mAb. Then, cells were stained with the mixture of Cy5-conjugated streptavidin a... |
PMC2258317_fig2_18407.jpg | Describe the main subject of this image. | Over-expression of NCS-1 and NCS-1 mutant proteins has no detectable effect on NFAT dephosphorylation or NFAT nuclear translocation. (a) Anti-GFP western blot analysis of samples from HeLa cells co-transfected with an NFAT-GFP reporter construct in addition to control empty vector (pcDNA) or the indicated pcDNA based N... |
PMC2258317_fig2_18408.jpg | Describe the main subject of this image. | Over-expression of NCS-1 and NCS-1 mutant proteins has no detectable effect on NFAT dephosphorylation or NFAT nuclear translocation. (a) Anti-GFP western blot analysis of samples from HeLa cells co-transfected with an NFAT-GFP reporter construct in addition to control empty vector (pcDNA) or the indicated pcDNA based N... |
PMC2258317_fig2_18409.jpg | What is the core subject represented in this visual? | Over-expression of NCS-1 and NCS-1 mutant proteins has no detectable effect on NFAT dephosphorylation or NFAT nuclear translocation. (a) Anti-GFP western blot analysis of samples from HeLa cells co-transfected with an NFAT-GFP reporter construct in addition to control empty vector (pcDNA) or the indicated pcDNA based N... |
PMC2258333_fig3_18416.jpg | What key item or scene is captured in this photo? | Cohesin Binds to Distinct Regions on Polytene Chromosomes(A) Polytene chromosomes of wild-type flies (w1118) were stained with Rad21 antibodies (green) and DAPI (DNA, red). The lower panel shows a higher-magnification view (2.5×). The strongly DAPI-stained heterochromatic chromocenter (arrow) is devoid of Rad21 stainin... |
PMC2258333_fig3_18411.jpg | Can you identify the primary element in this image? | Cohesin Binds to Distinct Regions on Polytene Chromosomes(A) Polytene chromosomes of wild-type flies (w1118) were stained with Rad21 antibodies (green) and DAPI (DNA, red). The lower panel shows a higher-magnification view (2.5×). The strongly DAPI-stained heterochromatic chromocenter (arrow) is devoid of Rad21 stainin... |
PMC2258333_fig3_18412.jpg | What is being portrayed in this visual content? | Cohesin Binds to Distinct Regions on Polytene Chromosomes(A) Polytene chromosomes of wild-type flies (w1118) were stained with Rad21 antibodies (green) and DAPI (DNA, red). The lower panel shows a higher-magnification view (2.5×). The strongly DAPI-stained heterochromatic chromocenter (arrow) is devoid of Rad21 stainin... |
PMC2258333_fig3_18413.jpg | What is the main focus of this visual representation? | Cohesin Binds to Distinct Regions on Polytene Chromosomes(A) Polytene chromosomes of wild-type flies (w1118) were stained with Rad21 antibodies (green) and DAPI (DNA, red). The lower panel shows a higher-magnification view (2.5×). The strongly DAPI-stained heterochromatic chromocenter (arrow) is devoid of Rad21 stainin... |
PMC2258333_fig3_18415.jpg | What is the principal component of this image? | Cohesin Binds to Distinct Regions on Polytene Chromosomes(A) Polytene chromosomes of wild-type flies (w1118) were stained with Rad21 antibodies (green) and DAPI (DNA, red). The lower panel shows a higher-magnification view (2.5×). The strongly DAPI-stained heterochromatic chromocenter (arrow) is devoid of Rad21 stainin... |
PMC2258333_fig3_18414.jpg | Describe the main subject of this image. | Cohesin Binds to Distinct Regions on Polytene Chromosomes(A) Polytene chromosomes of wild-type flies (w1118) were stained with Rad21 antibodies (green) and DAPI (DNA, red). The lower panel shows a higher-magnification view (2.5×). The strongly DAPI-stained heterochromatic chromocenter (arrow) is devoid of Rad21 stainin... |
PMC2258419_pone-0001793-g002_18419.jpg | What is the focal point of this photograph? | Subcutaneous and visceral adipose tissue stores are decreased in HSL null mice.Representative CT scan images displaying body fat distribution in 10–11 months old female wildtype and HSL null mice fed either a control diet or a HFD for 6 months (n = 7). The filled black arrow and the dotted black arrow indicate the loca... |
PMC2258419_pone-0001793-g002_18418.jpg | What does this image primarily show? | Subcutaneous and visceral adipose tissue stores are decreased in HSL null mice.Representative CT scan images displaying body fat distribution in 10–11 months old female wildtype and HSL null mice fed either a control diet or a HFD for 6 months (n = 7). The filled black arrow and the dotted black arrow indicate the loca... |
PMC2258419_pone-0001793-g002_18417.jpg | Describe the main subject of this image. | Subcutaneous and visceral adipose tissue stores are decreased in HSL null mice.Representative CT scan images displaying body fat distribution in 10–11 months old female wildtype and HSL null mice fed either a control diet or a HFD for 6 months (n = 7). The filled black arrow and the dotted black arrow indicate the loca... |
PMC2258419_pone-0001793-g002_18420.jpg | Can you identify the primary element in this image? | Subcutaneous and visceral adipose tissue stores are decreased in HSL null mice.Representative CT scan images displaying body fat distribution in 10–11 months old female wildtype and HSL null mice fed either a control diet or a HFD for 6 months (n = 7). The filled black arrow and the dotted black arrow indicate the loca... |
PMC2259183_fig2_18424.jpg | What is shown in this image? | (A) Dkk-1 expression in cells distant from tumoral foci (T) in bone with osteoblasts (arrow) and stromal cells (arrow head) exhibiting membrane and cytoplasmic labelling. Other cells appearing in black at the top of the image are siderophages (S). (B) the negative control section stained with the same concentration of ... |
PMC2259183_fig2_18425.jpg | What is the main focus of this visual representation? | (A) Dkk-1 expression in cells distant from tumoral foci (T) in bone with osteoblasts (arrow) and stromal cells (arrow head) exhibiting membrane and cytoplasmic labelling. Other cells appearing in black at the top of the image are siderophages (S). (B) the negative control section stained with the same concentration of ... |
PMC2259183_fig2_18421.jpg | What object or scene is depicted here? | (A) Dkk-1 expression in cells distant from tumoral foci (T) in bone with osteoblasts (arrow) and stromal cells (arrow head) exhibiting membrane and cytoplasmic labelling. Other cells appearing in black at the top of the image are siderophages (S). (B) the negative control section stained with the same concentration of ... |
PMC2259183_fig2_18423.jpg | Describe the main subject of this image. | (A) Dkk-1 expression in cells distant from tumoral foci (T) in bone with osteoblasts (arrow) and stromal cells (arrow head) exhibiting membrane and cytoplasmic labelling. Other cells appearing in black at the top of the image are siderophages (S). (B) the negative control section stained with the same concentration of ... |
PMC2259183_fig2_18426.jpg | What can you see in this picture? | (A) Dkk-1 expression in cells distant from tumoral foci (T) in bone with osteoblasts (arrow) and stromal cells (arrow head) exhibiting membrane and cytoplasmic labelling. Other cells appearing in black at the top of the image are siderophages (S). (B) the negative control section stained with the same concentration of ... |
PMC2259244_fig4_18430.jpg | What stands out most in this visual? | Synthetic images under different imaging conditions. First row: the ground truth image. From the second row to bottom: synthetic images with different photons density along the vertical direction and different types of intensity inhomogeneity along the horizontal direction. |
PMC2259244_fig4_18428.jpg | Describe the main subject of this image. | Synthetic images under different imaging conditions. First row: the ground truth image. From the second row to bottom: synthetic images with different photons density along the vertical direction and different types of intensity inhomogeneity along the horizontal direction. |
PMC2259244_fig4_18431.jpg | What is the dominant medical problem in this image? | Synthetic images under different imaging conditions. First row: the ground truth image. From the second row to bottom: synthetic images with different photons density along the vertical direction and different types of intensity inhomogeneity along the horizontal direction. |
PMC2259244_fig4_18436.jpg | Describe the main subject of this image. | Synthetic images under different imaging conditions. First row: the ground truth image. From the second row to bottom: synthetic images with different photons density along the vertical direction and different types of intensity inhomogeneity along the horizontal direction. |
PMC2259244_fig4_18429.jpg | What is being portrayed in this visual content? | Synthetic images under different imaging conditions. First row: the ground truth image. From the second row to bottom: synthetic images with different photons density along the vertical direction and different types of intensity inhomogeneity along the horizontal direction. |
PMC2259244_fig5_18444.jpg | What stands out most in this visual? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
PMC2259244_fig5_18448.jpg | What does this image primarily show? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
PMC2259244_fig5_18441.jpg | What is the dominant medical problem in this image? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
PMC2259244_fig5_18443.jpg | What is shown in this image? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
PMC2259244_fig5_18442.jpg | What object or scene is depicted here? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
PMC2259244_fig5_18447.jpg | What is the focal point of this photograph? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
PMC2259244_fig5_18438.jpg | What is the focal point of this photograph? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
PMC2259244_fig5_18437.jpg | What stands out most in this visual? | Segmentation results on a real molecular image: (a) the original image; (b) the denoising result with the GNF plus SRAD; (c) the texture feature image; (d) the FCM result on (a); (e) the FCM_S result on (a); (f) the FCM result on the texture feature image; (g) the 2DFCM results; (h)–(k) the
contours obtained from (d) ... |
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