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PMC2268658_F4_19192.jpg | What is the main focus of this visual representation? | Normal noninvasive coronary angiogram. Obtained in a woman using MSCT with multiplanar reformations (Panels A, C, and E) in comparison to the results with conventional coronary angiography in the same patient (Panels B, D, and F). The rather small vessel sizes in women can be appreciated in this figure. LAD indicates l... |
PMC2268658_F4_19187.jpg | What is the central feature of this picture? | Normal noninvasive coronary angiogram. Obtained in a woman using MSCT with multiplanar reformations (Panels A, C, and E) in comparison to the results with conventional coronary angiography in the same patient (Panels B, D, and F). The rather small vessel sizes in women can be appreciated in this figure. LAD indicates l... |
PMC2268658_F4_19190.jpg | What is being portrayed in this visual content? | Normal noninvasive coronary angiogram. Obtained in a woman using MSCT with multiplanar reformations (Panels A, C, and E) in comparison to the results with conventional coronary angiography in the same patient (Panels B, D, and F). The rather small vessel sizes in women can be appreciated in this figure. LAD indicates l... |
PMC2268658_F4_19191.jpg | What key item or scene is captured in this photo? | Normal noninvasive coronary angiogram. Obtained in a woman using MSCT with multiplanar reformations (Panels A, C, and E) in comparison to the results with conventional coronary angiography in the same patient (Panels B, D, and F). The rather small vessel sizes in women can be appreciated in this figure. LAD indicates l... |
PMC2268658_F4_19189.jpg | What is the principal component of this image? | Normal noninvasive coronary angiogram. Obtained in a woman using MSCT with multiplanar reformations (Panels A, C, and E) in comparison to the results with conventional coronary angiography in the same patient (Panels B, D, and F). The rather small vessel sizes in women can be appreciated in this figure. LAD indicates l... |
PMC2268658_F5_19186.jpg | What is the principal component of this image? | 3D reconstruction of a nondiseased RCA with motion artifacts. Obtained in a 58-year-old woman using MSCT (Panel A) in comparison to conventional coronary angiography (Panel B). The MSCT scan shows significant stair-step motion artifacts (arrows in Panel A), which are more likely to limit diagnostic assessment if the af... |
PMC2268663_F2_19195.jpg | Describe the main subject of this image. | represents an artist's drawing illustrating transducer beam orientations to the left anterior descending coronary artery (LAD) and to posterior descending coronary arteries with the corresponding echocardiographic images of the mid-distal tract of LAD Pulse-wave flow and posterior descending coronary artery (PDCA). |
PMC2268663_F2_19193.jpg | What is the main focus of this visual representation? | represents an artist's drawing illustrating transducer beam orientations to the left anterior descending coronary artery (LAD) and to posterior descending coronary arteries with the corresponding echocardiographic images of the mid-distal tract of LAD Pulse-wave flow and posterior descending coronary artery (PDCA). |
PMC2268664_F2_19196.jpg | What is the principal component of this image? | Immunohistochemistry, peroxidase stain, diaminobenzidine as marker, staining for BK polyoma virus with the antibody targeting the SV40 antigen. Note easily detectable, strong nuclear immunoreactivity in tubular cells. (350×), (41). |
PMC2268666_F3_19202.jpg | What is the principal component of this image? | Expression of Dlk1 inhibits Notch target genes and leads to ectopic sensory organ precursors. (A) Wild-type wing imaginal disc, Cut (red) is detected in a stripe along the d/v boundary. (B) Expression of SM-Dlk (green, arrows) leads to a slight reduction in Cut (red). (C,D) Expression of M-Dlk (green, arrows) inhibits ... |
PMC2268666_F3_19204.jpg | What is the central feature of this picture? | Expression of Dlk1 inhibits Notch target genes and leads to ectopic sensory organ precursors. (A) Wild-type wing imaginal disc, Cut (red) is detected in a stripe along the d/v boundary. (B) Expression of SM-Dlk (green, arrows) leads to a slight reduction in Cut (red). (C,D) Expression of M-Dlk (green, arrows) inhibits ... |
PMC2268666_F3_19200.jpg | What is the central feature of this picture? | Expression of Dlk1 inhibits Notch target genes and leads to ectopic sensory organ precursors. (A) Wild-type wing imaginal disc, Cut (red) is detected in a stripe along the d/v boundary. (B) Expression of SM-Dlk (green, arrows) leads to a slight reduction in Cut (red). (C,D) Expression of M-Dlk (green, arrows) inhibits ... |
PMC2268666_F3_19197.jpg | What stands out most in this visual? | Expression of Dlk1 inhibits Notch target genes and leads to ectopic sensory organ precursors. (A) Wild-type wing imaginal disc, Cut (red) is detected in a stripe along the d/v boundary. (B) Expression of SM-Dlk (green, arrows) leads to a slight reduction in Cut (red). (C,D) Expression of M-Dlk (green, arrows) inhibits ... |
PMC2268691_F3_19217.jpg | What is the dominant medical problem in this image? | Dynamic imaging of swarming by light microscopy. Stills from movies of swarming motile masses of P. vortex. A. Rotating colonies spinning out from a central mass on MH (1.5% w/v) agar. Material between rotating colonies (all are in motion) is highly reflective basal material with a small number of cells. B. Start of de... |
PMC2268691_F3_19215.jpg | What does this image primarily show? | Dynamic imaging of swarming by light microscopy. Stills from movies of swarming motile masses of P. vortex. A. Rotating colonies spinning out from a central mass on MH (1.5% w/v) agar. Material between rotating colonies (all are in motion) is highly reflective basal material with a small number of cells. B. Start of de... |
PMC2268691_F3_19213.jpg | What is the main focus of this visual representation? | Dynamic imaging of swarming by light microscopy. Stills from movies of swarming motile masses of P. vortex. A. Rotating colonies spinning out from a central mass on MH (1.5% w/v) agar. Material between rotating colonies (all are in motion) is highly reflective basal material with a small number of cells. B. Start of de... |
PMC2268691_F3_19214.jpg | What is the dominant medical problem in this image? | Dynamic imaging of swarming by light microscopy. Stills from movies of swarming motile masses of P. vortex. A. Rotating colonies spinning out from a central mass on MH (1.5% w/v) agar. Material between rotating colonies (all are in motion) is highly reflective basal material with a small number of cells. B. Start of de... |
PMC2268691_F4_19205.jpg | What stands out most in this visual? | Effect of extracellular material from plates containing swarming cells on swarming. Light microscopy of P. vortex moving on MH agar (0.3% w/v), extending into an area where extracellular material derived from washes of swarming cells was delivered by toothpick and allowed to soak into the agar. Time of frame capture is... |
PMC2268691_F4_19207.jpg | What's the most prominent thing you notice in this picture? | Effect of extracellular material from plates containing swarming cells on swarming. Light microscopy of P. vortex moving on MH agar (0.3% w/v), extending into an area where extracellular material derived from washes of swarming cells was delivered by toothpick and allowed to soak into the agar. Time of frame capture is... |
PMC2268691_F4_19208.jpg | What is the dominant medical problem in this image? | Effect of extracellular material from plates containing swarming cells on swarming. Light microscopy of P. vortex moving on MH agar (0.3% w/v), extending into an area where extracellular material derived from washes of swarming cells was delivered by toothpick and allowed to soak into the agar. Time of frame capture is... |
PMC2268691_F4_19209.jpg | What is being portrayed in this visual content? | Effect of extracellular material from plates containing swarming cells on swarming. Light microscopy of P. vortex moving on MH agar (0.3% w/v), extending into an area where extracellular material derived from washes of swarming cells was delivered by toothpick and allowed to soak into the agar. Time of frame capture is... |
PMC2268691_F4_19210.jpg | Describe the main subject of this image. | Effect of extracellular material from plates containing swarming cells on swarming. Light microscopy of P. vortex moving on MH agar (0.3% w/v), extending into an area where extracellular material derived from washes of swarming cells was delivered by toothpick and allowed to soak into the agar. Time of frame capture is... |
PMC2268691_F4_19211.jpg | What is shown in this image? | Effect of extracellular material from plates containing swarming cells on swarming. Light microscopy of P. vortex moving on MH agar (0.3% w/v), extending into an area where extracellular material derived from washes of swarming cells was delivered by toothpick and allowed to soak into the agar. Time of frame capture is... |
PMC2268691_F9_19229.jpg | What is being portrayed in this visual content? | Effect of MitC on cell morphology and swarming on high percentage agars. Stills from movies made by transmission light microscopy. A. Masses of cells moving in the direction of the black arrows and trailing elongated cells. Small circular foci are rotating (next panels). B. Cells grown as in A. Highly coiled rotating b... |
PMC2268691_F9_19234.jpg | What is the core subject represented in this visual? | Effect of MitC on cell morphology and swarming on high percentage agars. Stills from movies made by transmission light microscopy. A. Masses of cells moving in the direction of the black arrows and trailing elongated cells. Small circular foci are rotating (next panels). B. Cells grown as in A. Highly coiled rotating b... |
PMC2268691_F9_19233.jpg | What is being portrayed in this visual content? | Effect of MitC on cell morphology and swarming on high percentage agars. Stills from movies made by transmission light microscopy. A. Masses of cells moving in the direction of the black arrows and trailing elongated cells. Small circular foci are rotating (next panels). B. Cells grown as in A. Highly coiled rotating b... |
PMC2268691_F9_19232.jpg | What is the dominant medical problem in this image? | Effect of MitC on cell morphology and swarming on high percentage agars. Stills from movies made by transmission light microscopy. A. Masses of cells moving in the direction of the black arrows and trailing elongated cells. Small circular foci are rotating (next panels). B. Cells grown as in A. Highly coiled rotating b... |
PMC2268691_F9_19235.jpg | Describe the main subject of this image. | Effect of MitC on cell morphology and swarming on high percentage agars. Stills from movies made by transmission light microscopy. A. Masses of cells moving in the direction of the black arrows and trailing elongated cells. Small circular foci are rotating (next panels). B. Cells grown as in A. Highly coiled rotating b... |
PMC2268691_F9_19230.jpg | What stands out most in this visual? | Effect of MitC on cell morphology and swarming on high percentage agars. Stills from movies made by transmission light microscopy. A. Masses of cells moving in the direction of the black arrows and trailing elongated cells. Small circular foci are rotating (next panels). B. Cells grown as in A. Highly coiled rotating b... |
PMC2268692_F8_19222.jpg | What stands out most in this visual? | Reslice images of phantom data. The images show reslices through the phantom data set. The upper row of reslices are along the length of the data, showing the length and tilt. The lower reslices are parallel to the scanning surface and therefore show length and yaw. All the reslices use frames from the forward sweep on... |
PMC2268692_F8_19223.jpg | What is the central feature of this picture? | Reslice images of phantom data. The images show reslices through the phantom data set. The upper row of reslices are along the length of the data, showing the length and tilt. The lower reslices are parallel to the scanning surface and therefore show length and yaw. All the reslices use frames from the forward sweep on... |
PMC2268692_F8_19224.jpg | Describe the main subject of this image. | Reslice images of phantom data. The images show reslices through the phantom data set. The upper row of reslices are along the length of the data, showing the length and tilt. The lower reslices are parallel to the scanning surface and therefore show length and yaw. All the reslices use frames from the forward sweep on... |
PMC2268692_F8_19221.jpg | What is the principal component of this image? | Reslice images of phantom data. The images show reslices through the phantom data set. The upper row of reslices are along the length of the data, showing the length and tilt. The lower reslices are parallel to the scanning surface and therefore show length and yaw. All the reslices use frames from the forward sweep on... |
PMC2268692_F8_19226.jpg | What is being portrayed in this visual content? | Reslice images of phantom data. The images show reslices through the phantom data set. The upper row of reslices are along the length of the data, showing the length and tilt. The lower reslices are parallel to the scanning surface and therefore show length and yaw. All the reslices use frames from the forward sweep on... |
PMC2268692_F8_19227.jpg | What is the principal component of this image? | Reslice images of phantom data. The images show reslices through the phantom data set. The upper row of reslices are along the length of the data, showing the length and tilt. The lower reslices are parallel to the scanning surface and therefore show length and yaw. All the reslices use frames from the forward sweep on... |
PMC2268692_F9_19219.jpg | What is the main focus of this visual representation? | Reslice images of human calf muscle. The images are reslices along the length of the in vivo data set, showing the length and tilt. (a) Sensorless reconstruction. (b) Orientation-only correction using the MT9-B. |
PMC2268692_F9_19218.jpg | What is the dominant medical problem in this image? | Reslice images of human calf muscle. The images are reslices along the length of the in vivo data set, showing the length and tilt. (a) Sensorless reconstruction. (b) Orientation-only correction using the MT9-B. |
PMC2268712_f1_19239.jpg | What is the dominant medical problem in this image? | Biodistribution and phenotype of cells internalizing rhodamine-conjugated liposomes in the retina and vitreous of normal rats 24 h post IVT injection of Rh-Lip. A: On a whole-mounted retina, some microglial cells stained with ED1 (green) are detected phagocytosing limited number of rhodamine-conjugated-liposomes (Rh-Li... |
PMC2268712_f1_19236.jpg | What is the main focus of this visual representation? | Biodistribution and phenotype of cells internalizing rhodamine-conjugated liposomes in the retina and vitreous of normal rats 24 h post IVT injection of Rh-Lip. A: On a whole-mounted retina, some microglial cells stained with ED1 (green) are detected phagocytosing limited number of rhodamine-conjugated-liposomes (Rh-Li... |
PMC2268712_f2_19254.jpg | What does this image primarily show? | Biodistribution and phenotype of cells internalizing rhodamine-conjugated-liposomes in the iris and ciliary body of normal rats 24 h post IVT injection of Rh-Lip. A: On a frozen section of the iris, resident iridal ED1-positive (green) and OX6-positive cells (blue) are negative for fluorescent liposomes. B: Frozen sect... |
PMC2268712_f2_19253.jpg | What does this image primarily show? | Biodistribution and phenotype of cells internalizing rhodamine-conjugated-liposomes in the iris and ciliary body of normal rats 24 h post IVT injection of Rh-Lip. A: On a frozen section of the iris, resident iridal ED1-positive (green) and OX6-positive cells (blue) are negative for fluorescent liposomes. B: Frozen sect... |
PMC2268712_f2_19252.jpg | What is the core subject represented in this visual? | Biodistribution and phenotype of cells internalizing rhodamine-conjugated-liposomes in the iris and ciliary body of normal rats 24 h post IVT injection of Rh-Lip. A: On a frozen section of the iris, resident iridal ED1-positive (green) and OX6-positive cells (blue) are negative for fluorescent liposomes. B: Frozen sect... |
PMC2268712_f3_19262.jpg | What can you see in this picture? | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f3_19261.jpg | What is shown in this image? | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f3_19257.jpg | What is the focal point of this photograph? | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f3_19260.jpg | Describe the main subject of this image. | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f3_19258.jpg | Describe the main subject of this image. | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f3_19259.jpg | What is the dominant medical problem in this image? | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f3_19264.jpg | What is the central feature of this picture? | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f3_19263.jpg | What is the central feature of this picture? | rhodamine-conjugated-liposomes and VIP biodistribution in conjunctiva 24 h following IVT injection of Rh-Lip and VIP-Rh-Lip. A: Following IVT injection, Rh-Lip (red) are internalized by cells in the conjunctival stroma. Fluorescent liposomes are not detected in conjunctival epithelium and sclera. Liposome concentration... |
PMC2268712_f4_19240.jpg | What object or scene is depicted here? | Biodistribution of rhodamine-conjugated-liposomes in cervical LN in healthy rats 24 h following IVT injection of VIP-Rh-Lip. A: Following IVT injection, VIP-Rh-Lip (red) are located within subcapsular sinus macrophages stained with ED3 (green). OX6-positive cells in blue are located in close proximity (arrow) with ED3-... |
PMC2268712_f4_19243.jpg | What key item or scene is captured in this photo? | Biodistribution of rhodamine-conjugated-liposomes in cervical LN in healthy rats 24 h following IVT injection of VIP-Rh-Lip. A: Following IVT injection, VIP-Rh-Lip (red) are located within subcapsular sinus macrophages stained with ED3 (green). OX6-positive cells in blue are located in close proximity (arrow) with ED3-... |
PMC2268712_f4_19242.jpg | What is the focal point of this photograph? | Biodistribution of rhodamine-conjugated-liposomes in cervical LN in healthy rats 24 h following IVT injection of VIP-Rh-Lip. A: Following IVT injection, VIP-Rh-Lip (red) are located within subcapsular sinus macrophages stained with ED3 (green). OX6-positive cells in blue are located in close proximity (arrow) with ED3-... |
PMC2268712_f5_19247.jpg | What is the dominant medical problem in this image? | VIP biodistribution in cervical LN 24 h following IVT injection of VIP-Rh-Lip. A: Free VIP (green), detected with rabbit anti-VIP antibody is localized in the sinus (asterisks) and within subcapsular sinus macrophages containing rhodamine-conjugated-liposomes (red; B to D) Enlargement of the inset in A is shown in B to... |
PMC2268712_f5_19246.jpg | What's the most prominent thing you notice in this picture? | VIP biodistribution in cervical LN 24 h following IVT injection of VIP-Rh-Lip. A: Free VIP (green), detected with rabbit anti-VIP antibody is localized in the sinus (asterisks) and within subcapsular sinus macrophages containing rhodamine-conjugated-liposomes (red; B to D) Enlargement of the inset in A is shown in B to... |
PMC2268712_f5_19245.jpg | What is being portrayed in this visual content? | VIP biodistribution in cervical LN 24 h following IVT injection of VIP-Rh-Lip. A: Free VIP (green), detected with rabbit anti-VIP antibody is localized in the sinus (asterisks) and within subcapsular sinus macrophages containing rhodamine-conjugated-liposomes (red; B to D) Enlargement of the inset in A is shown in B to... |
PMC2268712_f7_19250.jpg | What is shown in this image? | VIP-loaded rhodamine-conjugated-liposomes (VIP-Rh-lip) internalization and VIP expression by ED3-positive macrophages in cervical LN 24 h following IVT injection of VIP-Rh-Lip. A: Free VIP, detected with rabbit anti-VIP antibody (blue) localized within cells containing Rh-Lip (red; B) and expressing ED3 green (C). D: M... |
PMC2268712_f7_19249.jpg | What can you see in this picture? | VIP-loaded rhodamine-conjugated-liposomes (VIP-Rh-lip) internalization and VIP expression by ED3-positive macrophages in cervical LN 24 h following IVT injection of VIP-Rh-Lip. A: Free VIP, detected with rabbit anti-VIP antibody (blue) localized within cells containing Rh-Lip (red; B) and expressing ED3 green (C). D: M... |
PMC2268712_f7_19248.jpg | What does this image primarily show? | VIP-loaded rhodamine-conjugated-liposomes (VIP-Rh-lip) internalization and VIP expression by ED3-positive macrophages in cervical LN 24 h following IVT injection of VIP-Rh-Lip. A: Free VIP, detected with rabbit anti-VIP antibody (blue) localized within cells containing Rh-Lip (red; B) and expressing ED3 green (C). D: M... |
PMC2268712_f7_19251.jpg | What is the dominant medical problem in this image? | VIP-loaded rhodamine-conjugated-liposomes (VIP-Rh-lip) internalization and VIP expression by ED3-positive macrophages in cervical LN 24 h following IVT injection of VIP-Rh-Lip. A: Free VIP, detected with rabbit anti-VIP antibody (blue) localized within cells containing Rh-Lip (red; B) and expressing ED3 green (C). D: M... |
PMC2268740_pone-0001848-g003_19267.jpg | What is the core subject represented in this visual? | Mapping of 5-HT-immunoreactive neurons.Ventral view of 3D image stacks showing volume-rendered A1) 5-HT-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larval VG. The merged image (A3) served for an idealized schematic representation of presumed 5-HT neurons in the Fas2 landmark system (A4). ... |
PMC2268740_pone-0001848-g003_19270.jpg | What is the dominant medical problem in this image? | Mapping of 5-HT-immunoreactive neurons.Ventral view of 3D image stacks showing volume-rendered A1) 5-HT-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larval VG. The merged image (A3) served for an idealized schematic representation of presumed 5-HT neurons in the Fas2 landmark system (A4). ... |
PMC2268740_pone-0001848-g003_19271.jpg | What stands out most in this visual? | Mapping of 5-HT-immunoreactive neurons.Ventral view of 3D image stacks showing volume-rendered A1) 5-HT-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larval VG. The merged image (A3) served for an idealized schematic representation of presumed 5-HT neurons in the Fas2 landmark system (A4). ... |
PMC2268740_pone-0001848-g006_19274.jpg | What is the main focus of this visual representation? | Mapping of Ddc-gal4 x mCD8GFP expressing neurons.A1) Ventral view of 3D image stacks showing volume-rendered GFP-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larva expressing Ddc-gal4-driven mCD8GFP. The merged image (A3) served for an idealized schematic representation of Ddc-gal4 x mCD8G... |
PMC2268740_pone-0001848-g006_19279.jpg | What's the most prominent thing you notice in this picture? | Mapping of Ddc-gal4 x mCD8GFP expressing neurons.A1) Ventral view of 3D image stacks showing volume-rendered GFP-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larva expressing Ddc-gal4-driven mCD8GFP. The merged image (A3) served for an idealized schematic representation of Ddc-gal4 x mCD8G... |
PMC2268740_pone-0001848-g006_19273.jpg | What does this image primarily show? | Mapping of Ddc-gal4 x mCD8GFP expressing neurons.A1) Ventral view of 3D image stacks showing volume-rendered GFP-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larva expressing Ddc-gal4-driven mCD8GFP. The merged image (A3) served for an idealized schematic representation of Ddc-gal4 x mCD8G... |
PMC2268740_pone-0001848-g006_19277.jpg | What key item or scene is captured in this photo? | Mapping of Ddc-gal4 x mCD8GFP expressing neurons.A1) Ventral view of 3D image stacks showing volume-rendered GFP-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larva expressing Ddc-gal4-driven mCD8GFP. The merged image (A3) served for an idealized schematic representation of Ddc-gal4 x mCD8G... |
PMC2268740_pone-0001848-g006_19278.jpg | What is the principal component of this image? | Mapping of Ddc-gal4 x mCD8GFP expressing neurons.A1) Ventral view of 3D image stacks showing volume-rendered GFP-immunoreactive neurons (green) and A2) Fas2-positive tracts (magenta) in a larva expressing Ddc-gal4-driven mCD8GFP. The merged image (A3) served for an idealized schematic representation of Ddc-gal4 x mCD8G... |
PMC2268744_pone-0001873-g005_19286.jpg | What is the core subject represented in this visual? | ROR2 is targeted into Rab5A-positive endosomes upon Wnt5a stimulation.A) ROR2-myc WT and B) ROR2-myc KD transfected chondrocytes were serum-starved in KHB for1 hr. Cells were stimulated with either 0.1% BSA carrier or Wnt5a (1 ug/ml) plus heparin (10 µg/ml) for 5 min (upper panels), 30 min (middle panels) or 5 min in t... |
PMC2268744_pone-0001873-g005_19283.jpg | What is the principal component of this image? | ROR2 is targeted into Rab5A-positive endosomes upon Wnt5a stimulation.A) ROR2-myc WT and B) ROR2-myc KD transfected chondrocytes were serum-starved in KHB for1 hr. Cells were stimulated with either 0.1% BSA carrier or Wnt5a (1 ug/ml) plus heparin (10 µg/ml) for 5 min (upper panels), 30 min (middle panels) or 5 min in t... |
PMC2268744_pone-0001873-g005_19285.jpg | What is the core subject represented in this visual? | ROR2 is targeted into Rab5A-positive endosomes upon Wnt5a stimulation.A) ROR2-myc WT and B) ROR2-myc KD transfected chondrocytes were serum-starved in KHB for1 hr. Cells were stimulated with either 0.1% BSA carrier or Wnt5a (1 ug/ml) plus heparin (10 µg/ml) for 5 min (upper panels), 30 min (middle panels) or 5 min in t... |
PMC2268744_pone-0001873-g005_19280.jpg | What is the core subject represented in this visual? | ROR2 is targeted into Rab5A-positive endosomes upon Wnt5a stimulation.A) ROR2-myc WT and B) ROR2-myc KD transfected chondrocytes were serum-starved in KHB for1 hr. Cells were stimulated with either 0.1% BSA carrier or Wnt5a (1 ug/ml) plus heparin (10 µg/ml) for 5 min (upper panels), 30 min (middle panels) or 5 min in t... |
PMC2268744_pone-0001873-g005_19281.jpg | What is shown in this image? | ROR2 is targeted into Rab5A-positive endosomes upon Wnt5a stimulation.A) ROR2-myc WT and B) ROR2-myc KD transfected chondrocytes were serum-starved in KHB for1 hr. Cells were stimulated with either 0.1% BSA carrier or Wnt5a (1 ug/ml) plus heparin (10 µg/ml) for 5 min (upper panels), 30 min (middle panels) or 5 min in t... |
PMC2268845_f1_19288.jpg | What does this image primarily show? | Morphology of cultured mesenchymal cells from limbus (MC-L) and mesenchymal stem or stromal cells from bone marrow (MSC-BM). The phase contrast microscopic picture of MC-L shows the spindle morphology (magnification: 200X) (A); Cell sphere formation in the MC-L cultures gives the impression of embryoid body formation (... |
PMC2268845_f1_19287.jpg | What is the principal component of this image? | Morphology of cultured mesenchymal cells from limbus (MC-L) and mesenchymal stem or stromal cells from bone marrow (MSC-BM). The phase contrast microscopic picture of MC-L shows the spindle morphology (magnification: 200X) (A); Cell sphere formation in the MC-L cultures gives the impression of embryoid body formation (... |
PMC2268845_f1_19290.jpg | What does this image primarily show? | Morphology of cultured mesenchymal cells from limbus (MC-L) and mesenchymal stem or stromal cells from bone marrow (MSC-BM). The phase contrast microscopic picture of MC-L shows the spindle morphology (magnification: 200X) (A); Cell sphere formation in the MC-L cultures gives the impression of embryoid body formation (... |
PMC2268845_f4_19293.jpg | Can you identify the primary element in this image? | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f4_19291.jpg | What is being portrayed in this visual content? | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f4_19295.jpg | Describe the main subject of this image. | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f4_19296.jpg | Can you identify the primary element in this image? | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f4_19292.jpg | What is shown in this image? | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f4_19298.jpg | What does this image primarily show? | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f4_19294.jpg | What key item or scene is captured in this photo? | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f4_19297.jpg | What can you see in this picture? | Mesenchymal phenotype of MC-L by Laser Scanning Confocal Microscopy. LSCM pictures of MC-L show positivity (green fluorescence) for vimentin (20X), CD90 (20X), and CD29 (20X) and negativity for CD11c (40X), CD11a (40X), CD45 (40X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19302.jpg | What object or scene is depicted here? | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19304.jpg | Describe the main subject of this image. | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19305.jpg | What is being portrayed in this visual content? | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19306.jpg | What is the core subject represented in this visual? | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19299.jpg | What is the central feature of this picture? | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19300.jpg | What is the main focus of this visual representation? | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19301.jpg | What is the focal point of this photograph? | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f5_19303.jpg | What can you see in this picture? | Mesenchymal phenotype of MSC-BM by Laser Scanning Confocal Microscopy. LSCM pictures of MSC-BM show positivity for vimentin (20X), CD90 (20X), CD29 (20X) and negativity for CD11c (20X), CD11a (20X), CD45 (20X), CD34 (20X), and CD25 (20X). The nuclei are counterstained with propidium iodide (red). |
PMC2268845_f8_19307.jpg | What's the most prominent thing you notice in this picture? | Differentiation potential of MC-L and MSC-BM into adipocytes and osteocytes. Adipocyte differentiation of stromal cells shows the presence of oil-red positive lipid laden cells in MSC-BM (A) and MC-L (B). Osteogenic differentiation of these cells shows the presence of alizarin stained calcium deposits in MSC-BM (C) and... |
PMC2268845_f8_19310.jpg | What is the main focus of this visual representation? | Differentiation potential of MC-L and MSC-BM into adipocytes and osteocytes. Adipocyte differentiation of stromal cells shows the presence of oil-red positive lipid laden cells in MSC-BM (A) and MC-L (B). Osteogenic differentiation of these cells shows the presence of alizarin stained calcium deposits in MSC-BM (C) and... |
PMC2268845_f8_19309.jpg | What object or scene is depicted here? | Differentiation potential of MC-L and MSC-BM into adipocytes and osteocytes. Adipocyte differentiation of stromal cells shows the presence of oil-red positive lipid laden cells in MSC-BM (A) and MC-L (B). Osteogenic differentiation of these cells shows the presence of alizarin stained calcium deposits in MSC-BM (C) and... |
PMC2268845_f8_19308.jpg | What does this image primarily show? | Differentiation potential of MC-L and MSC-BM into adipocytes and osteocytes. Adipocyte differentiation of stromal cells shows the presence of oil-red positive lipid laden cells in MSC-BM (A) and MC-L (B). Osteogenic differentiation of these cells shows the presence of alizarin stained calcium deposits in MSC-BM (C) and... |
PMC2268855_f1_19311.jpg | Can you identify the primary element in this image? | Slit-lamp photographs of the proband’s affected eye. A and B: Slit-lamp photographs of the ropy lattice lines in the proband’s affected eye at two different magnifications are shown. The proband was 47 years old. C and D: Slit lamp photograph of the right and the left eye of proband's brother showing multiple small geo... |
PMC2268855_f1_19312.jpg | What is shown in this image? | Slit-lamp photographs of the proband’s affected eye. A and B: Slit-lamp photographs of the ropy lattice lines in the proband’s affected eye at two different magnifications are shown. The proband was 47 years old. C and D: Slit lamp photograph of the right and the left eye of proband's brother showing multiple small geo... |
PMC2268855_f1_19314.jpg | What is being portrayed in this visual content? | Slit-lamp photographs of the proband’s affected eye. A and B: Slit-lamp photographs of the ropy lattice lines in the proband’s affected eye at two different magnifications are shown. The proband was 47 years old. C and D: Slit lamp photograph of the right and the left eye of proband's brother showing multiple small geo... |
PMC2268861_f1_19328.jpg | What is the dominant medical problem in this image? | Identification of HSF with vimentin, keratin, desmin, and S-100. PI dyed the nucleus (red) and the FITC-marked secondary antibody (green). A: Vimentin antibody was added to primary cultured HSF migrating from a piece of sclera tissue. B: Negative controls used FITC-marked secondary antibodies of HSF. C: Vimentin is str... |
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