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PMC2268861_f1_19329.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... |
PMC2268861_f1_19332.jpg | What does this image primarily show? | 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... |
PMC2268861_f1_19327.jpg | Describe the main subject of 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... |
PMC2268861_f2_19324.jpg | What is the principal component of this image? | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268861_f2_19323.jpg | What is the core subject represented in this visual? | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268861_f2_19319.jpg | What is shown in this image? | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268861_f2_19326.jpg | Describe the main subject of this image. | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268861_f2_19316.jpg | What stands out most in this visual? | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268861_f2_19318.jpg | What is shown in this image? | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268861_f2_19321.jpg | What can you see in this picture? | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268861_f2_19317.jpg | Describe the main subject of this image. | Distribution of ADORA1, ADORA2A, ADORA2B, and ADORA3 in HSF in vitro using indirect immunofluorescence. FITC-marked the secondary antibody (green; 1) and PI dyed the nucleus (red; 2). (1) and (2) are combined into (3). ADORA1 is concentrated in the nucleus of HSF (A1-A3). ADORA2A is mainly distributed on one side of th... |
PMC2268922_F2_19333.jpg | What is the principal component of this image? | Extended file of view. (A) The measuring points (arrows) on themuscle used to calculate the CSA and the volume of the EDC. (B) US image obtained using the extended field of view technique, illustrating the EDC in the longitudinal plane (dotted line). |
PMC2268922_F3_19335.jpg | What does this image primarily show? | US measuring point. (A) Position of the probe for ultrasound measurements of the EDC, 15% distal of the EDC origin. (B) Transverse US image obtained at the measurement position (contracted muscle). The circumference is shown by the dotted line, the cross-sectional area is the area within the line, and the muscle thickn... |
PMC2268922_F3_19336.jpg | What is the focal point of this photograph? | US measuring point. (A) Position of the probe for ultrasound measurements of the EDC, 15% distal of the EDC origin. (B) Transverse US image obtained at the measurement position (contracted muscle). The circumference is shown by the dotted line, the cross-sectional area is the area within the line, and the muscle thickn... |
PMC2268936_F2_19340.jpg | What is the core subject represented in this visual? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19346.jpg | What's the most prominent thing you notice in this picture? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19338.jpg | What is the core subject represented in this visual? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19347.jpg | What's the most prominent thing you notice in this picture? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19342.jpg | What is the central feature of this picture? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19343.jpg | What key item or scene is captured in this photo? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19345.jpg | What is the dominant medical problem in this image? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19344.jpg | What is being portrayed in this visual content? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268936_F2_19337.jpg | What is the principal component of this image? | eGFP expression in the brain of a transgenic rat (Ubi-C promoter). Upper panel: eGFP expression is restricted to neurons in transgenic rat brain. A. Confocal microscopy shows extensive eGFP expression in dentate granule cells. B. GFAP immunoreactivity reveals astroglial cells. C. Merged images show a lack of colocaliza... |
PMC2268945_F4_19367.jpg | What key item or scene is captured in this photo? | CD133 expression in adult and fetal pancreas. A-F) Normal adult pancreas. Note the apical/endoluminal staining of the ducts and that the islets of Langerhans (asterisks in A) are negative. See also Figure 2E. B) Double staining with CD133 (brown) and cytokeratin 19 (red) showing abundant co-expression of the two marker... |
PMC2268945_F4_19370.jpg | What does this image primarily show? | CD133 expression in adult and fetal pancreas. A-F) Normal adult pancreas. Note the apical/endoluminal staining of the ducts and that the islets of Langerhans (asterisks in A) are negative. See also Figure 2E. B) Double staining with CD133 (brown) and cytokeratin 19 (red) showing abundant co-expression of the two marker... |
PMC2268945_F4_19371.jpg | What is the principal component of this image? | CD133 expression in adult and fetal pancreas. A-F) Normal adult pancreas. Note the apical/endoluminal staining of the ducts and that the islets of Langerhans (asterisks in A) are negative. See also Figure 2E. B) Double staining with CD133 (brown) and cytokeratin 19 (red) showing abundant co-expression of the two marker... |
PMC2268945_F4_19373.jpg | What is the main focus of this visual representation? | CD133 expression in adult and fetal pancreas. A-F) Normal adult pancreas. Note the apical/endoluminal staining of the ducts and that the islets of Langerhans (asterisks in A) are negative. See also Figure 2E. B) Double staining with CD133 (brown) and cytokeratin 19 (red) showing abundant co-expression of the two marker... |
PMC2268945_F4_19368.jpg | What is the main focus of this visual representation? | CD133 expression in adult and fetal pancreas. A-F) Normal adult pancreas. Note the apical/endoluminal staining of the ducts and that the islets of Langerhans (asterisks in A) are negative. See also Figure 2E. B) Double staining with CD133 (brown) and cytokeratin 19 (red) showing abundant co-expression of the two marker... |
PMC2268945_F4_19366.jpg | What does this image primarily show? | CD133 expression in adult and fetal pancreas. A-F) Normal adult pancreas. Note the apical/endoluminal staining of the ducts and that the islets of Langerhans (asterisks in A) are negative. See also Figure 2E. B) Double staining with CD133 (brown) and cytokeratin 19 (red) showing abundant co-expression of the two marker... |
PMC2268945_F5_19361.jpg | What object or scene is depicted here? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19358.jpg | What's the most prominent thing you notice in this picture? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19360.jpg | What is the main focus of this visual representation? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19362.jpg | What can you see in this picture? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19364.jpg | What object or scene is depicted here? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19356.jpg | What can you see in this picture? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19359.jpg | What is the central feature of this picture? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19363.jpg | What is the core subject represented in this visual? | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268945_F5_19357.jpg | Describe the main subject of this image. | CD133 expression in pancreatic ductal adenocarcinomas. A-D) Variable expression in carcinomas of high (A, B) and low (C, D) differentiation grade. The insert in A is a high magnification of a cancerous duct with intense CD133 positivity in amorphous, intraductal material. E, F) Rare, single tumor cells with cytoplasmic... |
PMC2268946_F4_19351.jpg | Describe the main subject of this image. | ITIH2 immunohistochemistry on TMA derived from normal and cancerous breast tissue. A+B: Strong cytoplasmic staining is seen in normal epithelial cells of the mammary gland. C+D: Ductal carcinoma in-situ (high grade type) with moderate focal cytoplasmic staining and normal, partially hyperplastic gland epithelium with s... |
PMC2268946_F4_19353.jpg | What object or scene is depicted here? | ITIH2 immunohistochemistry on TMA derived from normal and cancerous breast tissue. A+B: Strong cytoplasmic staining is seen in normal epithelial cells of the mammary gland. C+D: Ductal carcinoma in-situ (high grade type) with moderate focal cytoplasmic staining and normal, partially hyperplastic gland epithelium with s... |
PMC2268946_F4_19355.jpg | What is shown in this image? | ITIH2 immunohistochemistry on TMA derived from normal and cancerous breast tissue. A+B: Strong cytoplasmic staining is seen in normal epithelial cells of the mammary gland. C+D: Ductal carcinoma in-situ (high grade type) with moderate focal cytoplasmic staining and normal, partially hyperplastic gland epithelium with s... |
PMC2268946_F4_19348.jpg | Describe the main subject of this image. | ITIH2 immunohistochemistry on TMA derived from normal and cancerous breast tissue. A+B: Strong cytoplasmic staining is seen in normal epithelial cells of the mammary gland. C+D: Ductal carcinoma in-situ (high grade type) with moderate focal cytoplasmic staining and normal, partially hyperplastic gland epithelium with s... |
PMC2268946_F4_19349.jpg | What is the dominant medical problem in this image? | ITIH2 immunohistochemistry on TMA derived from normal and cancerous breast tissue. A+B: Strong cytoplasmic staining is seen in normal epithelial cells of the mammary gland. C+D: Ductal carcinoma in-situ (high grade type) with moderate focal cytoplasmic staining and normal, partially hyperplastic gland epithelium with s... |
PMC2268969_ppat-1000037-g008_19384.jpg | What key item or scene is captured in this photo? | SipC-dependent relocalization of phosphatidylinositol-4,5-bisphosphate (PI45P2) drives synergy with SopB.A. Fibroblasts were transfected with cellular phosphatidylinositol-4-phosphate-5-kinase (tPIP(5)K) prior to infection with wild-type or effector-augmented (d-effector) S.typhimurium strains. Invasion rates after 60 ... |
PMC2268969_ppat-1000037-g008_19377.jpg | What does this image primarily show? | SipC-dependent relocalization of phosphatidylinositol-4,5-bisphosphate (PI45P2) drives synergy with SopB.A. Fibroblasts were transfected with cellular phosphatidylinositol-4-phosphate-5-kinase (tPIP(5)K) prior to infection with wild-type or effector-augmented (d-effector) S.typhimurium strains. Invasion rates after 60 ... |
PMC2268969_ppat-1000037-g008_19375.jpg | What is the principal component of this image? | SipC-dependent relocalization of phosphatidylinositol-4,5-bisphosphate (PI45P2) drives synergy with SopB.A. Fibroblasts were transfected with cellular phosphatidylinositol-4-phosphate-5-kinase (tPIP(5)K) prior to infection with wild-type or effector-augmented (d-effector) S.typhimurium strains. Invasion rates after 60 ... |
PMC2268969_ppat-1000037-g008_19382.jpg | What key item or scene is captured in this photo? | SipC-dependent relocalization of phosphatidylinositol-4,5-bisphosphate (PI45P2) drives synergy with SopB.A. Fibroblasts were transfected with cellular phosphatidylinositol-4-phosphate-5-kinase (tPIP(5)K) prior to infection with wild-type or effector-augmented (d-effector) S.typhimurium strains. Invasion rates after 60 ... |
PMC2268969_ppat-1000037-g008_19379.jpg | What's the most prominent thing you notice in this picture? | SipC-dependent relocalization of phosphatidylinositol-4,5-bisphosphate (PI45P2) drives synergy with SopB.A. Fibroblasts were transfected with cellular phosphatidylinositol-4-phosphate-5-kinase (tPIP(5)K) prior to infection with wild-type or effector-augmented (d-effector) S.typhimurium strains. Invasion rates after 60 ... |
PMC2268969_ppat-1000037-g008_19374.jpg | What does this image primarily show? | SipC-dependent relocalization of phosphatidylinositol-4,5-bisphosphate (PI45P2) drives synergy with SopB.A. Fibroblasts were transfected with cellular phosphatidylinositol-4-phosphate-5-kinase (tPIP(5)K) prior to infection with wild-type or effector-augmented (d-effector) S.typhimurium strains. Invasion rates after 60 ... |
PMC2270258_F3_19388.jpg | What is shown in this image? | Histopathology findings, comparing 14T MTS with control. (A) H&E staining of 14T specimen (original magnification ×100) showing only a small number of cells infiltrating the gel. Insert shows infiltrating cells in higher magnification (original magnification ×400). (B) MIB-1 immunostaining of 14T specimen (original mag... |
PMC2270258_F3_19387.jpg | What does this image primarily show? | Histopathology findings, comparing 14T MTS with control. (A) H&E staining of 14T specimen (original magnification ×100) showing only a small number of cells infiltrating the gel. Insert shows infiltrating cells in higher magnification (original magnification ×400). (B) MIB-1 immunostaining of 14T specimen (original mag... |
PMC2270268_F3_19397.jpg | What can you see in this picture? | Laser-manipulated embryos porated for exogenous FITC delivery using an average laser power of 45 mW. (a, b) Fluorescence and brightfield image of a post-laser manipulated 8-cell stage embryo. A total of 6 pores were made in 2 cells, 3 pores per blastomere, using a beam dwell time of 100 ms and 3 pulsing events of the g... |
PMC2270268_F3_19396.jpg | What is the core subject represented in this visual? | Laser-manipulated embryos porated for exogenous FITC delivery using an average laser power of 45 mW. (a, b) Fluorescence and brightfield image of a post-laser manipulated 8-cell stage embryo. A total of 6 pores were made in 2 cells, 3 pores per blastomere, using a beam dwell time of 100 ms and 3 pulsing events of the g... |
PMC2270268_F3_19395.jpg | What is the focal point of this photograph? | Laser-manipulated embryos porated for exogenous FITC delivery using an average laser power of 45 mW. (a, b) Fluorescence and brightfield image of a post-laser manipulated 8-cell stage embryo. A total of 6 pores were made in 2 cells, 3 pores per blastomere, using a beam dwell time of 100 ms and 3 pulsing events of the g... |
PMC2270268_F4_19391.jpg | What is the main focus of this visual representation? | Fluorescence and brightfield images of post-laser manipulated 8-cell stage embryos. Embryos were porated for exogenous FITC delivery using an average laser power of 45 mW. The beam dwell time was set to 50 ms with three pulsing events of the galvo for (a, b) and two for (c, d). Three pores were made in each of 2 blasto... |
PMC2270268_F4_19392.jpg | What is the focal point of this photograph? | Fluorescence and brightfield images of post-laser manipulated 8-cell stage embryos. Embryos were porated for exogenous FITC delivery using an average laser power of 45 mW. The beam dwell time was set to 50 ms with three pulsing events of the galvo for (a, b) and two for (c, d). Three pores were made in each of 2 blasto... |
PMC2270268_F4_19389.jpg | What is the dominant medical problem in this image? | Fluorescence and brightfield images of post-laser manipulated 8-cell stage embryos. Embryos were porated for exogenous FITC delivery using an average laser power of 45 mW. The beam dwell time was set to 50 ms with three pulsing events of the galvo for (a, b) and two for (c, d). Three pores were made in each of 2 blasto... |
PMC2270268_F5_19393.jpg | What is the principal component of this image? | Fluorescence and brightfield image of a post-laser manipulated embryo at 8-cell stage. (a, b) Embryo was porated for exogenous delivery using an average laser power of 45 mW with a beam dwell time set to 20 ms and a galvo pulse rate of three. Three pores were made in each of 2 blastomere cells, yielding a total of six ... |
PMC2270268_F7_19410.jpg | Describe the main subject of this image. | (a, b, c, d) Depicts cavitation bubbles (Cb) and residual surface scarring (Ss) after the applied fs laser pulses. (a) Cavitation bubble (Cb) was produced using an average laser power of 45 mW with a beam dwell time of 100 ms and a single pulsing event of the galvo. The diameter of the cavitation bubble was measured to... |
PMC2270268_F7_19408.jpg | What is the central feature of this picture? | (a, b, c, d) Depicts cavitation bubbles (Cb) and residual surface scarring (Ss) after the applied fs laser pulses. (a) Cavitation bubble (Cb) was produced using an average laser power of 45 mW with a beam dwell time of 100 ms and a single pulsing event of the galvo. The diameter of the cavitation bubble was measured to... |
PMC2270268_F7_19409.jpg | What is being portrayed in this visual content? | (a, b, c, d) Depicts cavitation bubbles (Cb) and residual surface scarring (Ss) after the applied fs laser pulses. (a) Cavitation bubble (Cb) was produced using an average laser power of 45 mW with a beam dwell time of 100 ms and a single pulsing event of the galvo. The diameter of the cavitation bubble was measured to... |
PMC2270268_F8_19402.jpg | What object or scene is depicted here? | SEM images of a laser-manipulated and a control larva reared to 2 dpf. (a, b) Whole body and antero-lateral views of a laser-manipulated larva at 2 dpf. (c, d) Same larva as in (a, b). Key developmental features that are illustrated are the yolk sac (YS), yolk sac extension (YSE), dorsal fin (DF), caudal fin (CF) and t... |
PMC2270268_F8_19404.jpg | What is the dominant medical problem in this image? | SEM images of a laser-manipulated and a control larva reared to 2 dpf. (a, b) Whole body and antero-lateral views of a laser-manipulated larva at 2 dpf. (c, d) Same larva as in (a, b). Key developmental features that are illustrated are the yolk sac (YS), yolk sac extension (YSE), dorsal fin (DF), caudal fin (CF) and t... |
PMC2270268_F8_19405.jpg | What's the most prominent thing you notice in this picture? | SEM images of a laser-manipulated and a control larva reared to 2 dpf. (a, b) Whole body and antero-lateral views of a laser-manipulated larva at 2 dpf. (c, d) Same larva as in (a, b). Key developmental features that are illustrated are the yolk sac (YS), yolk sac extension (YSE), dorsal fin (DF), caudal fin (CF) and t... |
PMC2270268_F8_19406.jpg | What object or scene is depicted here? | SEM images of a laser-manipulated and a control larva reared to 2 dpf. (a, b) Whole body and antero-lateral views of a laser-manipulated larva at 2 dpf. (c, d) Same larva as in (a, b). Key developmental features that are illustrated are the yolk sac (YS), yolk sac extension (YSE), dorsal fin (DF), caudal fin (CF) and t... |
PMC2270268_F13_19414.jpg | What is being portrayed in this visual content? | High magnification SEM images of the olfactory pit rim and kinocilia projecting from cristae on the lateral wall into the lumen. (a) Olfactory pit rim in a laser-manipulated and (b) a control larva showing kinocilia covering the inside wall of the olfactory pit. Kinocilia projecting from lateral cristae in (c) a laser-... |
PMC2270268_F13_19411.jpg | What is the main focus of this visual representation? | High magnification SEM images of the olfactory pit rim and kinocilia projecting from cristae on the lateral wall into the lumen. (a) Olfactory pit rim in a laser-manipulated and (b) a control larva showing kinocilia covering the inside wall of the olfactory pit. Kinocilia projecting from lateral cristae in (c) a laser-... |
PMC2270268_F13_19413.jpg | What object or scene is depicted here? | High magnification SEM images of the olfactory pit rim and kinocilia projecting from cristae on the lateral wall into the lumen. (a) Olfactory pit rim in a laser-manipulated and (b) a control larva showing kinocilia covering the inside wall of the olfactory pit. Kinocilia projecting from lateral cristae in (c) a laser-... |
PMC2270268_F13_19412.jpg | Can you identify the primary element in this image? | High magnification SEM images of the olfactory pit rim and kinocilia projecting from cristae on the lateral wall into the lumen. (a) Olfactory pit rim in a laser-manipulated and (b) a control larva showing kinocilia covering the inside wall of the olfactory pit. Kinocilia projecting from lateral cristae in (c) a laser-... |
PMC2270282_F1_19415.jpg | What does this image primarily show? | MRI of Pituitary – on admission. |
PMC2270282_F2_19416.jpg | Describe the main subject of this image. | MRI of Pituitary – post operative. |
PMC2270292_pmed-0050054-g003_19423.jpg | What is the core subject represented in this visual? | Spontaneous Colitis in Mice with Muc2 Mutations(A) Incidence of premature death or colitis-associated pathology requiring humane killing (chiefly rectal prolapse) in Winnie (n = 309) and Eeyore (n = 355) mice. Mice entering experiments or killed for other reasons were treated as censored observations (designated by upw... |
PMC2270292_pmed-0050054-g003_19424.jpg | What is shown in this image? | Spontaneous Colitis in Mice with Muc2 Mutations(A) Incidence of premature death or colitis-associated pathology requiring humane killing (chiefly rectal prolapse) in Winnie (n = 309) and Eeyore (n = 355) mice. Mice entering experiments or killed for other reasons were treated as censored observations (designated by upw... |
PMC2270292_pmed-0050054-g003_19422.jpg | What is the dominant medical problem in this image? | Spontaneous Colitis in Mice with Muc2 Mutations(A) Incidence of premature death or colitis-associated pathology requiring humane killing (chiefly rectal prolapse) in Winnie (n = 309) and Eeyore (n = 355) mice. Mice entering experiments or killed for other reasons were treated as censored observations (designated by upw... |
PMC2270292_pmed-0050054-g003_19425.jpg | What is shown in this image? | Spontaneous Colitis in Mice with Muc2 Mutations(A) Incidence of premature death or colitis-associated pathology requiring humane killing (chiefly rectal prolapse) in Winnie (n = 309) and Eeyore (n = 355) mice. Mice entering experiments or killed for other reasons were treated as censored observations (designated by upw... |
PMC2270292_pmed-0050054-g003_19419.jpg | What is the dominant medical problem in this image? | Spontaneous Colitis in Mice with Muc2 Mutations(A) Incidence of premature death or colitis-associated pathology requiring humane killing (chiefly rectal prolapse) in Winnie (n = 309) and Eeyore (n = 355) mice. Mice entering experiments or killed for other reasons were treated as censored observations (designated by upw... |
PMC2270292_pmed-0050054-g012_19435.jpg | Can you identify the primary element in this image? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19428.jpg | What is the focal point of this photograph? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19433.jpg | Can you identify the primary element in this image? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19429.jpg | Can you identify the primary element in this image? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19438.jpg | What is the main focus of this visual representation? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19434.jpg | What is being portrayed in this visual content? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19436.jpg | What can you see in this picture? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19437.jpg | What is the core subject represented in this visual? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19432.jpg | What key item or scene is captured in this photo? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19431.jpg | What object or scene is depicted here? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270292_pmed-0050054-g012_19430.jpg | What is the main focus of this visual representation? | Evidence for MUC2 Precursor Accumulation and ER Stress in Human UC(A) The MUC2 precursor and GRP78 were detected immunohistochemically. One normal colonic biopsy and three representative cases of UC of ten examined are shown. Note the MUC2 precursor antibody does not react with goblet cell thecae, where present (arrows... |
PMC2270324_pbio-0060068-g003_19442.jpg | What key item or scene is captured in this photo? |
Datisca, Medicago, and Tropaeolum SYMRK Restore Fungal and Bacterial Endosymbioses in Lotus symrk-10 MutantsTransgenic roots were identified via fluorescence of eGFP encoded on the transfer-DNA.(A–D) L. japonicus (Lotus) symrk-10 roots transformed with the respective control vector lacking a SYMRK expression cassette.... |
PMC2270324_pbio-0060068-g003_19446.jpg | What can you see in this picture? |
Datisca, Medicago, and Tropaeolum SYMRK Restore Fungal and Bacterial Endosymbioses in Lotus symrk-10 MutantsTransgenic roots were identified via fluorescence of eGFP encoded on the transfer-DNA.(A–D) L. japonicus (Lotus) symrk-10 roots transformed with the respective control vector lacking a SYMRK expression cassette.... |
PMC2270324_pbio-0060068-g003_19443.jpg | What is the core subject represented in this visual? |
Datisca, Medicago, and Tropaeolum SYMRK Restore Fungal and Bacterial Endosymbioses in Lotus symrk-10 MutantsTransgenic roots were identified via fluorescence of eGFP encoded on the transfer-DNA.(A–D) L. japonicus (Lotus) symrk-10 roots transformed with the respective control vector lacking a SYMRK expression cassette.... |
PMC2270324_pbio-0060068-g003_19441.jpg | What is the central feature of this picture? |
Datisca, Medicago, and Tropaeolum SYMRK Restore Fungal and Bacterial Endosymbioses in Lotus symrk-10 MutantsTransgenic roots were identified via fluorescence of eGFP encoded on the transfer-DNA.(A–D) L. japonicus (Lotus) symrk-10 roots transformed with the respective control vector lacking a SYMRK expression cassette.... |
PMC2270324_pbio-0060068-g003_19447.jpg | What does this image primarily show? |
Datisca, Medicago, and Tropaeolum SYMRK Restore Fungal and Bacterial Endosymbioses in Lotus symrk-10 MutantsTransgenic roots were identified via fluorescence of eGFP encoded on the transfer-DNA.(A–D) L. japonicus (Lotus) symrk-10 roots transformed with the respective control vector lacking a SYMRK expression cassette.... |
PMC2270324_pbio-0060068-g003_19439.jpg | Describe the main subject of this image. |
Datisca, Medicago, and Tropaeolum SYMRK Restore Fungal and Bacterial Endosymbioses in Lotus symrk-10 MutantsTransgenic roots were identified via fluorescence of eGFP encoded on the transfer-DNA.(A–D) L. japonicus (Lotus) symrk-10 roots transformed with the respective control vector lacking a SYMRK expression cassette.... |
PMC2270324_pbio-0060068-g003_19440.jpg | What key item or scene is captured in this photo? |
Datisca, Medicago, and Tropaeolum SYMRK Restore Fungal and Bacterial Endosymbioses in Lotus symrk-10 MutantsTransgenic roots were identified via fluorescence of eGFP encoded on the transfer-DNA.(A–D) L. japonicus (Lotus) symrk-10 roots transformed with the respective control vector lacking a SYMRK expression cassette.... |
PMC2270343_ppat-1000038-g002_19448.jpg | What is the focal point of this photograph? | MP enhances cell-to-cell spread of local GFP silencing.(A) Examples showing the rim of GFP-silenced cells surrounding the agroinfiltrated leaf areas. Magnifications of the highlighted areas (dashed boxes) are shown at the lower right. (B) Relative average width of the silenced rim in plants expressing no MP (-/-; GFP/-... |
PMC2270343_ppat-1000038-g006_19464.jpg | What is the principal component of this image? | PS1:GFP moves cell-to-cell.Single epidermal cells from N. benthamiana leaves were infiltrated with agrobacteria co-transformed with plasmids for specific co-expression in the same cells of the red fluorescent cell-autonomous nuclear marker RMS2 together with either MP:GFP (A to F) or PS1:GFP (G to L). (Left panels: DIC... |
PMC2270343_ppat-1000038-g006_19459.jpg | What is the central feature of this picture? | PS1:GFP moves cell-to-cell.Single epidermal cells from N. benthamiana leaves were infiltrated with agrobacteria co-transformed with plasmids for specific co-expression in the same cells of the red fluorescent cell-autonomous nuclear marker RMS2 together with either MP:GFP (A to F) or PS1:GFP (G to L). (Left panels: DIC... |
PMC2270343_ppat-1000038-g006_19458.jpg | What is shown in this image? | PS1:GFP moves cell-to-cell.Single epidermal cells from N. benthamiana leaves were infiltrated with agrobacteria co-transformed with plasmids for specific co-expression in the same cells of the red fluorescent cell-autonomous nuclear marker RMS2 together with either MP:GFP (A to F) or PS1:GFP (G to L). (Left panels: DIC... |
PMC2270343_ppat-1000038-g006_19468.jpg | What object or scene is depicted here? | PS1:GFP moves cell-to-cell.Single epidermal cells from N. benthamiana leaves were infiltrated with agrobacteria co-transformed with plasmids for specific co-expression in the same cells of the red fluorescent cell-autonomous nuclear marker RMS2 together with either MP:GFP (A to F) or PS1:GFP (G to L). (Left panels: DIC... |
PMC2270343_ppat-1000038-g006_19467.jpg | What is the main focus of this visual representation? | PS1:GFP moves cell-to-cell.Single epidermal cells from N. benthamiana leaves were infiltrated with agrobacteria co-transformed with plasmids for specific co-expression in the same cells of the red fluorescent cell-autonomous nuclear marker RMS2 together with either MP:GFP (A to F) or PS1:GFP (G to L). (Left panels: DIC... |
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