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PMC2235843_F1_17452.jpg | What is the main focus of this visual representation? | 71-year-old male with history of melanoma in the right anterior chest, status post surgical resection and interleukin-2 therapy 2 weeks prior to the PET/CT scan. Maximum intensity projection (MIP) image (A) and transaxial images (B, C and D) show widespread metastatic disease including three ST lesions in the left scal... |
PMC2235843_F1_17448.jpg | What key item or scene is captured in this photo? | 71-year-old male with history of melanoma in the right anterior chest, status post surgical resection and interleukin-2 therapy 2 weeks prior to the PET/CT scan. Maximum intensity projection (MIP) image (A) and transaxial images (B, C and D) show widespread metastatic disease including three ST lesions in the left scal... |
PMC2235843_F1_17450.jpg | What is the core subject represented in this visual? | 71-year-old male with history of melanoma in the right anterior chest, status post surgical resection and interleukin-2 therapy 2 weeks prior to the PET/CT scan. Maximum intensity projection (MIP) image (A) and transaxial images (B, C and D) show widespread metastatic disease including three ST lesions in the left scal... |
PMC2235843_F1_17453.jpg | What is the core subject represented in this visual? | 71-year-old male with history of melanoma in the right anterior chest, status post surgical resection and interleukin-2 therapy 2 weeks prior to the PET/CT scan. Maximum intensity projection (MIP) image (A) and transaxial images (B, C and D) show widespread metastatic disease including three ST lesions in the left scal... |
PMC2235843_F1_17455.jpg | What can you see in this picture? | 71-year-old male with history of melanoma in the right anterior chest, status post surgical resection and interleukin-2 therapy 2 weeks prior to the PET/CT scan. Maximum intensity projection (MIP) image (A) and transaxial images (B, C and D) show widespread metastatic disease including three ST lesions in the left scal... |
PMC2235856_F5_17456.jpg | What key item or scene is captured in this photo? | Immobilized cells. COS-7 cells immobilized in a 3D hydrogel within a microchamber. The scale bar represents 30 μm. |
PMC2235856_F8_17458.jpg | What is the dominant medical problem in this image? | Hydrogel Reversibility. Time resolved confocal scan of 15 μm spheres suspended in situ with pH and enzyme triggered reversing. Color indicates time; red is the start time, green is at 5 minutes, blue is at 10 minutes. Lack of color differentiation indicates limited mobility. |
PMC2235856_F10_17461.jpg | What's the most prominent thing you notice in this picture? | Microchip platform and Perfusion System. Left image is the microchip platform designed for a confocal microscope stage. Right image is the tubing configuration for continuous perfusion that was performed via a syringe pump and the tubing configuration presented here. Holes in cover-plate (right) coincide with inlet and... |
PMC2235860_F1_17465.jpg | Describe the main subject of this image. | Preoperative PET maximum intensity projection in the lateral projection view (A) and cross sectional fused PET/CT images (B). The preoperative PET/CT scan revealed two hypermetabolic foci, representing the left breast primary tumor and the solitary left axillary metastasis. |
PMC2235860_F1_17464.jpg | Can you identify the primary element in this image? | Preoperative PET maximum intensity projection in the lateral projection view (A) and cross sectional fused PET/CT images (B). The preoperative PET/CT scan revealed two hypermetabolic foci, representing the left breast primary tumor and the solitary left axillary metastasis. |
PMC2235860_F2_17475.jpg | What key item or scene is captured in this photo? | Digital photograph of an axial section of a portion of the specimen of the resected left breast tissue, but devoid of the resected left axillary tissue (A). Cross sectional specimen fused PET/CT images of the resected left breast and left axillary dissection tissue revealing two hypermetabolic foci (B). Postoperative P... |
PMC2235860_F2_17473.jpg | What stands out most in this visual? | Digital photograph of an axial section of a portion of the specimen of the resected left breast tissue, but devoid of the resected left axillary tissue (A). Cross sectional specimen fused PET/CT images of the resected left breast and left axillary dissection tissue revealing two hypermetabolic foci (B). Postoperative P... |
PMC2235860_F3_17466.jpg | What stands out most in this visual? | Preoperative PET maximum intensity projection in the anterior projection view (A) and cross sectional fused PET/CT images (B). The preoperative PET/CT scan revealed a solitary hypermetabolic focus in the left lobe of the liver. |
PMC2235860_F3_17468.jpg | What can you see in this picture? | Preoperative PET maximum intensity projection in the anterior projection view (A) and cross sectional fused PET/CT images (B). The preoperative PET/CT scan revealed a solitary hypermetabolic focus in the left lobe of the liver. |
PMC2235860_F4_17469.jpg | What is shown in this image? | Digital photograph of the resected liver tissue specimen (A) and maximum intensity projection from the specimen PET scan (B). Postoperative PET maximum intensity projection in the anterior projection view of the lower chest and upper abdomen demonstrating that there is no longer a hypermetabolic focus in the region of ... |
PMC2235860_F4_17471.jpg | What does this image primarily show? | Digital photograph of the resected liver tissue specimen (A) and maximum intensity projection from the specimen PET scan (B). Postoperative PET maximum intensity projection in the anterior projection view of the lower chest and upper abdomen demonstrating that there is no longer a hypermetabolic focus in the region of ... |
PMC2235860_F4_17470.jpg | What is the dominant medical problem in this image? | Digital photograph of the resected liver tissue specimen (A) and maximum intensity projection from the specimen PET scan (B). Postoperative PET maximum intensity projection in the anterior projection view of the lower chest and upper abdomen demonstrating that there is no longer a hypermetabolic focus in the region of ... |
PMC2235866_F10_17480.jpg | Describe the main subject of this image. | Expression of novel eLRR genes in the Drosophila embryo. (A) A lateral view of a stage 12 embryo showing expression of CG7702 in the midgut and the peripheral nervous system, PNS expression is indicated by a black arrow. (B) CG40500 expression in a stage 16 embryo, expression can be seen at the midline (indicated by a ... |
PMC2235866_F10_17478.jpg | What is the central feature of this picture? | Expression of novel eLRR genes in the Drosophila embryo. (A) A lateral view of a stage 12 embryo showing expression of CG7702 in the midgut and the peripheral nervous system, PNS expression is indicated by a black arrow. (B) CG40500 expression in a stage 16 embryo, expression can be seen at the midline (indicated by a ... |
PMC2235866_F10_17476.jpg | What object or scene is depicted here? | Expression of novel eLRR genes in the Drosophila embryo. (A) A lateral view of a stage 12 embryo showing expression of CG7702 in the midgut and the peripheral nervous system, PNS expression is indicated by a black arrow. (B) CG40500 expression in a stage 16 embryo, expression can be seen at the midline (indicated by a ... |
PMC2235866_F10_17477.jpg | What is the principal component of this image? | Expression of novel eLRR genes in the Drosophila embryo. (A) A lateral view of a stage 12 embryo showing expression of CG7702 in the midgut and the peripheral nervous system, PNS expression is indicated by a black arrow. (B) CG40500 expression in a stage 16 embryo, expression can be seen at the midline (indicated by a ... |
PMC2235876_F1_17483.jpg | What key item or scene is captured in this photo? | Preoperative anteroposterior radiograph of the left hip. Avascular necrosis of the left hip. |
PMC2235877_F2_17484.jpg | What key item or scene is captured in this photo? | Slides from left kidney biopsy and CT image of abdomen. There is extensive interstitial fibrosis and tubular atrophy, with marked medial fibrosis in an artery on the lower right (trichrome/10x) (a); bright crystals are seen under partial polarization within the lumens of two tubules (arrows) (H&E/20x) (b). A 10 mm calc... |
PMC2235877_F2_17485.jpg | What does this image primarily show? | Slides from left kidney biopsy and CT image of abdomen. There is extensive interstitial fibrosis and tubular atrophy, with marked medial fibrosis in an artery on the lower right (trichrome/10x) (a); bright crystals are seen under partial polarization within the lumens of two tubules (arrows) (H&E/20x) (b). A 10 mm calc... |
PMC2235929_fig10_17488.jpg | What object or scene is depicted here? | (a) Results of the streamline tractography
algorithm applied to the set of brain voxels. Four streams per voxel are
computed. The stopping criteria are 60∘ for the maximal
angle step, and 0.1 for the minimal
anisotropy value. (b) Geodesics computed by the GT method. For each brain voxel
of the set, four geodesics with ... |
PMC2235929_fig10_17489.jpg | What does this image primarily show? | (a) Results of the streamline tractography
algorithm applied to the set of brain voxels. Four streams per voxel are
computed. The stopping criteria are 60∘ for the maximal
angle step, and 0.1 for the minimal
anisotropy value. (b) Geodesics computed by the GT method. For each brain voxel
of the set, four geodesics with ... |
PMC2238733_F2_17490.jpg | What key item or scene is captured in this photo? | a Narwhal at surfacing recording from crittercam. Narwhal starting the blow prior to surfacing at a normal position with the blowhole oriented towards the surface. Note the mirror effect of the water surface. Picture captured from Crittercam footage (see online electronic supplement, additional file 1). b Narwhal upsid... |
PMC2238733_F2_17491.jpg | Describe the main subject of this image. | a Narwhal at surfacing recording from crittercam. Narwhal starting the blow prior to surfacing at a normal position with the blowhole oriented towards the surface. Note the mirror effect of the water surface. Picture captured from Crittercam footage (see online electronic supplement, additional file 1). b Narwhal upsid... |
PMC2238750_F7_17494.jpg | What stands out most in this visual? | Structural analysis of the NPF-binding pocket of Eps15 (EH2) and POB1 EH domain. Molecular surface representations of the NPF-binding pocket of the Eps15 EH2, PDB code: 1EH2 (A), Eps15 EH1, PDB code: 1QJT (B) and POB1, PDB code: 1IQ3 (C) EH domains. Residues in the hydrophobic groove are coloured in red, residues which... |
PMC2238750_F7_17492.jpg | What stands out most in this visual? | Structural analysis of the NPF-binding pocket of Eps15 (EH2) and POB1 EH domain. Molecular surface representations of the NPF-binding pocket of the Eps15 EH2, PDB code: 1EH2 (A), Eps15 EH1, PDB code: 1QJT (B) and POB1, PDB code: 1IQ3 (C) EH domains. Residues in the hydrophobic groove are coloured in red, residues which... |
PMC2238750_F7_17493.jpg | What object or scene is depicted here? | Structural analysis of the NPF-binding pocket of Eps15 (EH2) and POB1 EH domain. Molecular surface representations of the NPF-binding pocket of the Eps15 EH2, PDB code: 1EH2 (A), Eps15 EH1, PDB code: 1QJT (B) and POB1, PDB code: 1IQ3 (C) EH domains. Residues in the hydrophobic groove are coloured in red, residues which... |
PMC2238754_F3_17497.jpg | What can you see in this picture? | Luciferase immunostaining. Was performed on the lung tissue harvested from 2CLP and SO rats given intratracheal SV/luc. Positive immunostaining appears as brown intracytoplasmatic coloration (Black arrows). Shown at ×100 magnification. |
PMC2238754_F3_17498.jpg | What is the dominant medical problem in this image? | Luciferase immunostaining. Was performed on the lung tissue harvested from 2CLP and SO rats given intratracheal SV/luc. Positive immunostaining appears as brown intracytoplasmatic coloration (Black arrows). Shown at ×100 magnification. |
PMC2238754_F5_17500.jpg | What object or scene is depicted here? | VP1 detection in type II cells. The cells were double-stained for VP1 and Pro-SP C as described in Materials and Methods. An SO lung is shown at the top row and ARDS lung in the bottom row. VP1 was detected by Cyte5 (red fluorescence, left panels) and Pro-SP C by FITC (green fluorescence, middle panels). The upper and ... |
PMC2238754_F5_17503.jpg | What can you see in this picture? | VP1 detection in type II cells. The cells were double-stained for VP1 and Pro-SP C as described in Materials and Methods. An SO lung is shown at the top row and ARDS lung in the bottom row. VP1 was detected by Cyte5 (red fluorescence, left panels) and Pro-SP C by FITC (green fluorescence, middle panels). The upper and ... |
PMC2238754_F5_17501.jpg | What is the focal point of this photograph? | VP1 detection in type II cells. The cells were double-stained for VP1 and Pro-SP C as described in Materials and Methods. An SO lung is shown at the top row and ARDS lung in the bottom row. VP1 was detected by Cyte5 (red fluorescence, left panels) and Pro-SP C by FITC (green fluorescence, middle panels). The upper and ... |
PMC2238754_F5_17499.jpg | What is the dominant medical problem in this image? | VP1 detection in type II cells. The cells were double-stained for VP1 and Pro-SP C as described in Materials and Methods. An SO lung is shown at the top row and ARDS lung in the bottom row. VP1 was detected by Cyte5 (red fluorescence, left panels) and Pro-SP C by FITC (green fluorescence, middle panels). The upper and ... |
PMC2238754_F5_17506.jpg | What is shown in this image? | VP1 detection in type II cells. The cells were double-stained for VP1 and Pro-SP C as described in Materials and Methods. An SO lung is shown at the top row and ARDS lung in the bottom row. VP1 was detected by Cyte5 (red fluorescence, left panels) and Pro-SP C by FITC (green fluorescence, middle panels). The upper and ... |
PMC2238795_pone-0001644-g003_17518.jpg | What is the focal point of this photograph? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17507.jpg | Describe the main subject of this image. | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17508.jpg | What is the focal point of this photograph? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17511.jpg | What object or scene is depicted here? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17510.jpg | What is the central feature of this picture? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17513.jpg | What is the principal component of this image? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17516.jpg | What is the principal component of this image? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17512.jpg | What is the core subject represented in this visual? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2238795_pone-0001644-g003_17509.jpg | What key item or scene is captured in this photo? | Dispersion, engraftment and differentiation of the hNSCs in stroke-lesioned animals.(A) Schematic drawing of a frontal section through the striatum illustrating the dispersion of grafted hNSCs in the focal ischemia-lesioned parenchyma (shaded area). (B, C) Photos show frontal sections through the graft in the striatum ... |
PMC2239211_fig1_17521.jpg | What is shown in this image? | Computed tomography (CT) scan of abdomen and pelvis. (a) Axial image showing pneumobilia (arrow) and a dilated fluid-filled stomach (*). (b) 1-2 large gallstones (arrow) can be seen within an area of inflammation
where the gallbladder is in close proximity to the duodenum. (c) Coronal reconstruction showing gallstone w... |
PMC2239211_fig1_17520.jpg | What is the core subject represented in this visual? | Computed tomography (CT) scan of abdomen and pelvis. (a) Axial image showing pneumobilia (arrow) and a dilated fluid-filled stomach (*). (b) 1-2 large gallstones (arrow) can be seen within an area of inflammation
where the gallbladder is in close proximity to the duodenum. (c) Coronal reconstruction showing gallstone w... |
PMC2239211_fig2_17523.jpg | What is the focal point of this photograph? | (a) large gallstone in the duodenal bulb, obstructing the pylorus. (b) Attempts to extract the stone failed with multiple instruments, including biliary and CRE balloons (*). The orifice of the choledochoduodenal fistula (arrow) can be seen. |
PMC2239211_fig2_17522.jpg | What key item or scene is captured in this photo? | (a) large gallstone in the duodenal bulb, obstructing the pylorus. (b) Attempts to extract the stone failed with multiple instruments, including biliary and CRE balloons (*). The orifice of the choledochoduodenal fistula (arrow) can be seen. |
PMC2239211_fig5_17525.jpg | Describe the main subject of this image. | Visualization of the choledochoduodenal fistula. (a) After stone extraction, the large orifice
of the fistula (arrow) can be seen in the duodenal bulb, whose mucosa is diffusely ulcerated. (b) The gastroscope passed easily through the fistula into the lumen of the gallbladder. |
PMC2239211_fig5_17524.jpg | What stands out most in this visual? | Visualization of the choledochoduodenal fistula. (a) After stone extraction, the large orifice
of the fistula (arrow) can be seen in the duodenal bulb, whose mucosa is diffusely ulcerated. (b) The gastroscope passed easily through the fistula into the lumen of the gallbladder. |
PMC2241597_F1_17527.jpg | What is the central feature of this picture? | Contrast-enhanced computerised tomography scan of the abdomen demonstrating a 6 cm × 7 cm tumour mass in the right iliac fossa (white arrow). Although the tumour mass was inseparable from the lower pole of the caecum, it appeared separate from the ileo-caecal valve. |
PMC2241597_F2_17526.jpg | What is shown in this image? | Contrast-enhanced computerised tomography scan of the abdomen demonstrating multiple liver metastases. |
PMC2241601_F2_17532.jpg | What stands out most in this visual? | (A) to (C): Histochemical localization of GUS activity in leaf sections of transgenic F. bidentis plants transformed with constructs ppcA-PRFt-DR(+)Ft(A), ppcA-PRFp-DR(+)Ft (B) or ppcA-PRFtΔIntron-DR(+)Ft (C). Incubation times were 6 h (A, C) and 20 h (B). (D): GUS activities in leaves of transgenic F. bidentis plants.... |
PMC2241601_F2_17530.jpg | What is the central feature of this picture? | (A) to (C): Histochemical localization of GUS activity in leaf sections of transgenic F. bidentis plants transformed with constructs ppcA-PRFt-DR(+)Ft(A), ppcA-PRFp-DR(+)Ft (B) or ppcA-PRFtΔIntron-DR(+)Ft (C). Incubation times were 6 h (A, C) and 20 h (B). (D): GUS activities in leaves of transgenic F. bidentis plants.... |
PMC2241601_F2_17529.jpg | What is being portrayed in this visual content? | (A) to (C): Histochemical localization of GUS activity in leaf sections of transgenic F. bidentis plants transformed with constructs ppcA-PRFt-DR(+)Ft(A), ppcA-PRFp-DR(+)Ft (B) or ppcA-PRFtΔIntron-DR(+)Ft (C). Incubation times were 6 h (A, C) and 20 h (B). (D): GUS activities in leaves of transgenic F. bidentis plants.... |
PMC2241621_F9_17534.jpg | What is the main focus of this visual representation? | Optical evidence for PAMs. Confocal laser beam microscopy of a plasma membrane fraction isolated from 2 month-old Arabidopsis thaliana, transformed with green fluorescent protein (GFP) tagged to the ER lumen [31]. The isolated plasma membranes were subjected to a repeated cycle of freezing and thawing to invert a popul... |
PMC2241621_F9_17533.jpg | What stands out most in this visual? | Optical evidence for PAMs. Confocal laser beam microscopy of a plasma membrane fraction isolated from 2 month-old Arabidopsis thaliana, transformed with green fluorescent protein (GFP) tagged to the ER lumen [31]. The isolated plasma membranes were subjected to a repeated cycle of freezing and thawing to invert a popul... |
PMC2241629_F3_17537.jpg | What is the central feature of this picture? | Computed tomography of the chest (I). CT of the chest: Distinct mediastinal (large arrow) and perihilar lymphadenopathy (small arrow) |
PMC2241629_F4_17536.jpg | What is shown in this image? | Computed tomography of the chest (II). CT of the chest: Nodular and reticular interstitial lung involvement. |
PMC2241642_F3_17539.jpg | What is shown in this image? | Colony morphology of Y. lipolytica strains. Wild type (wt) and two independent clones of rab4Δ (-1,-5) strains were grown as isolated colonies on solid YPD rich medium. Observation (64×) of a five days culture by binocular microscopy. |
PMC2241642_F3_17538.jpg | What does this image primarily show? | Colony morphology of Y. lipolytica strains. Wild type (wt) and two independent clones of rab4Δ (-1,-5) strains were grown as isolated colonies on solid YPD rich medium. Observation (64×) of a five days culture by binocular microscopy. |
PMC2241642_F3_17540.jpg | What object or scene is depicted here? | Colony morphology of Y. lipolytica strains. Wild type (wt) and two independent clones of rab4Δ (-1,-5) strains were grown as isolated colonies on solid YPD rich medium. Observation (64×) of a five days culture by binocular microscopy. |
PMC2241773_F3_17542.jpg | What stands out most in this visual? | A second overlay mesh (2×6 inches) is placed over the new internal ring created by the slit and tacked in a similar manner to the first mesh. |
PMC2241773_F3_17541.jpg | What's the most prominent thing you notice in this picture? | A second overlay mesh (2×6 inches) is placed over the new internal ring created by the slit and tacked in a similar manner to the first mesh. |
PMC2241821_F4_17546.jpg | What key item or scene is captured in this photo? | Expression of randomly picked scFvs in HeLa cells. Cells were transfected with scFv-EGFP constructs as indicated. 13R4 and 1F4 represent the positive and negative controls, respectively [5]. At 24 h post-transfection, cells were fixed and visualized under a fluorescent microscope with the fluorescein isothiocyanate fil... |
PMC2241821_F4_17543.jpg | What's the most prominent thing you notice in this picture? | Expression of randomly picked scFvs in HeLa cells. Cells were transfected with scFv-EGFP constructs as indicated. 13R4 and 1F4 represent the positive and negative controls, respectively [5]. At 24 h post-transfection, cells were fixed and visualized under a fluorescent microscope with the fluorescein isothiocyanate fil... |
PMC2241821_F4_17547.jpg | What is the principal component of this image? | Expression of randomly picked scFvs in HeLa cells. Cells were transfected with scFv-EGFP constructs as indicated. 13R4 and 1F4 represent the positive and negative controls, respectively [5]. At 24 h post-transfection, cells were fixed and visualized under a fluorescent microscope with the fluorescein isothiocyanate fil... |
PMC2241824_F8_17549.jpg | What is the focal point of this photograph? | Outer surfaces of larval shell edges synthesized in the presence of NikkomycinZ. Scanning electron microscopy (SEM) images of shell specimens synthesized by mollusc larvae in the presence (10 μM) or absence (0 μM) of NikkomycinZ. Shell edges of 8 day old (a,b) and 19 day old (d,f), and 22 day old (c,e) specimen are sho... |
PMC2241824_F8_17552.jpg | What is shown in this image? | Outer surfaces of larval shell edges synthesized in the presence of NikkomycinZ. Scanning electron microscopy (SEM) images of shell specimens synthesized by mollusc larvae in the presence (10 μM) or absence (0 μM) of NikkomycinZ. Shell edges of 8 day old (a,b) and 19 day old (d,f), and 22 day old (c,e) specimen are sho... |
PMC2241824_F8_17554.jpg | What object or scene is depicted here? | Outer surfaces of larval shell edges synthesized in the presence of NikkomycinZ. Scanning electron microscopy (SEM) images of shell specimens synthesized by mollusc larvae in the presence (10 μM) or absence (0 μM) of NikkomycinZ. Shell edges of 8 day old (a,b) and 19 day old (d,f), and 22 day old (c,e) specimen are sho... |
PMC2241824_F8_17551.jpg | What key item or scene is captured in this photo? | Outer surfaces of larval shell edges synthesized in the presence of NikkomycinZ. Scanning electron microscopy (SEM) images of shell specimens synthesized by mollusc larvae in the presence (10 μM) or absence (0 μM) of NikkomycinZ. Shell edges of 8 day old (a,b) and 19 day old (d,f), and 22 day old (c,e) specimen are sho... |
PMC2241824_F11_17559.jpg | What is the central feature of this picture? | Crystallization of larval shells synthesized in the presence of NikkomycinZ. Polarized light video microscopy in vivo study of mollusc larvae. Note that the observed colours cannot be assigned purely to the birefringence of the shell as larval shells are usually transparent at the investigated developmental stages. The... |
PMC2241824_F11_17557.jpg | What key item or scene is captured in this photo? | Crystallization of larval shells synthesized in the presence of NikkomycinZ. Polarized light video microscopy in vivo study of mollusc larvae. Note that the observed colours cannot be assigned purely to the birefringence of the shell as larval shells are usually transparent at the investigated developmental stages. The... |
PMC2241824_F11_17556.jpg | What does this image primarily show? | Crystallization of larval shells synthesized in the presence of NikkomycinZ. Polarized light video microscopy in vivo study of mollusc larvae. Note that the observed colours cannot be assigned purely to the birefringence of the shell as larval shells are usually transparent at the investigated developmental stages. The... |
PMC2241824_F13_17561.jpg | What is the core subject represented in this visual? | Rare phenotypes of larval shell inner surfaces synthesized in the presence of NikkomycinZ. Scanning electron microscopy images of characteristic inner shell surface features that were observed repeatedly, but exclusively each in one particular larva. a. The inner shell surface of a 5 day old larva grown in the presence... |
PMC2241824_F13_17563.jpg | What key item or scene is captured in this photo? | Rare phenotypes of larval shell inner surfaces synthesized in the presence of NikkomycinZ. Scanning electron microscopy images of characteristic inner shell surface features that were observed repeatedly, but exclusively each in one particular larva. a. The inner shell surface of a 5 day old larva grown in the presence... |
PMC2241824_F13_17562.jpg | What is being portrayed in this visual content? | Rare phenotypes of larval shell inner surfaces synthesized in the presence of NikkomycinZ. Scanning electron microscopy images of characteristic inner shell surface features that were observed repeatedly, but exclusively each in one particular larva. a. The inner shell surface of a 5 day old larva grown in the presence... |
PMC2241828_F3_17565.jpg | What object or scene is depicted here? | Representative micrograph of DPPC MLVs by confocal microscopy. The unit of the scale bar is μm. |
PMC2241828_F3_17564.jpg | What does this image primarily show? | Representative micrograph of DPPC MLVs by confocal microscopy. The unit of the scale bar is μm. |
PMC2241841_F1_17566.jpg | What can you see in this picture? | A-E. Visualization of lymphatic vessels in a double transgenic mouse model. SV40-lacZ mice obtained by crossing κB-lacZ mice with UPKII/SV40 maintain the capacity of the parent mice in developing bladder carcinoma in situ (CIS) and labeling of bladder lymphatic vessels. A represents X-Gal staining of bladder whole moun... |
PMC2241841_F1_17569.jpg | What is the focal point of this photograph? | A-E. Visualization of lymphatic vessels in a double transgenic mouse model. SV40-lacZ mice obtained by crossing κB-lacZ mice with UPKII/SV40 maintain the capacity of the parent mice in developing bladder carcinoma in situ (CIS) and labeling of bladder lymphatic vessels. A represents X-Gal staining of bladder whole moun... |
PMC2241841_F1_17568.jpg | Describe the main subject of this image. | A-E. Visualization of lymphatic vessels in a double transgenic mouse model. SV40-lacZ mice obtained by crossing κB-lacZ mice with UPKII/SV40 maintain the capacity of the parent mice in developing bladder carcinoma in situ (CIS) and labeling of bladder lymphatic vessels. A represents X-Gal staining of bladder whole moun... |
PMC2241841_F12_17579.jpg | What's the most prominent thing you notice in this picture? | NIRF-guided capture of lymph sacs. Dextran-500,000 MW-Cy5.5 was administered in the pelvic floor underneath the urinary bladder. Two hours after dextran-Cy5.5, the abdomen was opened and the gastrointestinal tract was removed, and representative photomicrographs were taken in black-and-white (A) or artificially-colored... |
PMC2241841_F12_17581.jpg | What is the core subject represented in this visual? | NIRF-guided capture of lymph sacs. Dextran-500,000 MW-Cy5.5 was administered in the pelvic floor underneath the urinary bladder. Two hours after dextran-Cy5.5, the abdomen was opened and the gastrointestinal tract was removed, and representative photomicrographs were taken in black-and-white (A) or artificially-colored... |
PMC2241841_F12_17577.jpg | What is shown in this image? | NIRF-guided capture of lymph sacs. Dextran-500,000 MW-Cy5.5 was administered in the pelvic floor underneath the urinary bladder. Two hours after dextran-Cy5.5, the abdomen was opened and the gastrointestinal tract was removed, and representative photomicrographs were taken in black-and-white (A) or artificially-colored... |
PMC2241841_F12_17578.jpg | What is the core subject represented in this visual? | NIRF-guided capture of lymph sacs. Dextran-500,000 MW-Cy5.5 was administered in the pelvic floor underneath the urinary bladder. Two hours after dextran-Cy5.5, the abdomen was opened and the gastrointestinal tract was removed, and representative photomicrographs were taken in black-and-white (A) or artificially-colored... |
PMC2241841_F12_17580.jpg | Can you identify the primary element in this image? | NIRF-guided capture of lymph sacs. Dextran-500,000 MW-Cy5.5 was administered in the pelvic floor underneath the urinary bladder. Two hours after dextran-Cy5.5, the abdomen was opened and the gastrointestinal tract was removed, and representative photomicrographs were taken in black-and-white (A) or artificially-colored... |
PMC2241841_F13_17571.jpg | Describe the main subject of this image. | Double echo pre-contrast MRI. This is a representative frame of a double echo MRI of 6-month old SV40-lacZ mouse bladder indicating the different scanning positions. A movie is illustrated in additional file 2. |
PMC2241841_F17_17573.jpg | Describe the main subject of this image. | MRI of mouse bladder using Gd-Cy5.5 as contrast agent. A. Gray-scale image of the bladder and tumors at pre-contrast before Gd-probe administration. B. Difference image obtained at 30 minutes post-Gd-probe contrast subtracted from the pre-contrast image. This image demonstrates an early enhancement by the contrast agen... |
PMC2241841_F17_17574.jpg | What key item or scene is captured in this photo? | MRI of mouse bladder using Gd-Cy5.5 as contrast agent. A. Gray-scale image of the bladder and tumors at pre-contrast before Gd-probe administration. B. Difference image obtained at 30 minutes post-Gd-probe contrast subtracted from the pre-contrast image. This image demonstrates an early enhancement by the contrast agen... |
PMC2242665_F2_17584.jpg | What is being portrayed in this visual content? | (a) chromogenic in situ hybridisation (CISH) on a breast carcinoma with normal HER2 copy number (1000×). An average of two darkly brown staining copies of the HER2 gene can be seen in each tumour cell. (b) CISH on a breast carcinoma with low level HER2 gene amplification (1000×). An average of 6 copies of the HER2 gene... |
PMC2242665_F2_17582.jpg | What stands out most in this visual? | (a) chromogenic in situ hybridisation (CISH) on a breast carcinoma with normal HER2 copy number (1000×). An average of two darkly brown staining copies of the HER2 gene can be seen in each tumour cell. (b) CISH on a breast carcinoma with low level HER2 gene amplification (1000×). An average of 6 copies of the HER2 gene... |
PMC2242665_F2_17583.jpg | What's the most prominent thing you notice in this picture? | (a) chromogenic in situ hybridisation (CISH) on a breast carcinoma with normal HER2 copy number (1000×). An average of two darkly brown staining copies of the HER2 gene can be seen in each tumour cell. (b) CISH on a breast carcinoma with low level HER2 gene amplification (1000×). An average of 6 copies of the HER2 gene... |
PMC2242781_F2_17596.jpg | What is being portrayed in this visual content? | O-fucose is not required during Notch signaling in wing disks. Third instar wing disks stained for WG expression (red), with dorsal up and anterior to the left. (A)Wild-type. (B) Schematic drawing. WG expression is indicated in red. D-V indicates dorsal-ventral boundary. Ofut1 is expressed in both compartments whereas ... |
PMC2242781_F2_17588.jpg | Can you identify the primary element in this image? | O-fucose is not required during Notch signaling in wing disks. Third instar wing disks stained for WG expression (red), with dorsal up and anterior to the left. (A)Wild-type. (B) Schematic drawing. WG expression is indicated in red. D-V indicates dorsal-ventral boundary. Ofut1 is expressed in both compartments whereas ... |
PMC2242781_F2_17594.jpg | What is shown in this image? | O-fucose is not required during Notch signaling in wing disks. Third instar wing disks stained for WG expression (red), with dorsal up and anterior to the left. (A)Wild-type. (B) Schematic drawing. WG expression is indicated in red. D-V indicates dorsal-ventral boundary. Ofut1 is expressed in both compartments whereas ... |
PMC2242781_F2_17593.jpg | What key item or scene is captured in this photo? | O-fucose is not required during Notch signaling in wing disks. Third instar wing disks stained for WG expression (red), with dorsal up and anterior to the left. (A)Wild-type. (B) Schematic drawing. WG expression is indicated in red. D-V indicates dorsal-ventral boundary. Ofut1 is expressed in both compartments whereas ... |
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