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PMC2194709_F3_16037.jpg | What is shown in this image? | Repeat upper endoscopy 5 months after the episode of bleeding showed significant reduction of the tumor size and the previously identified ulcers were completely healed (arrow head). |
PMC2194710_F1_16032.jpg | What is the dominant medical problem in this image? | Radiological evaluation of response to initial treatment with gefitinib on CT cans. (a) before treatment, (b) after treatment. |
PMC2194710_F1_16033.jpg | What key item or scene is captured in this photo? | Radiological evaluation of response to initial treatment with gefitinib on CT cans. (a) before treatment, (b) after treatment. |
PMC2194710_F2_16034.jpg | Can you identify the primary element in this image? | Radiological evaluation of gefitinib-related interstitial lung disease on CT scans. (a) before treatment, (b) after treatment. |
PMC2194710_F2_16035.jpg | What's the most prominent thing you notice in this picture? | Radiological evaluation of gefitinib-related interstitial lung disease on CT scans. (a) before treatment, (b) after treatment. |
PMC2194710_F3_16039.jpg | What is shown in this image? | Radiological evaluation of response to re-treatment with gefitinib on CT scans. (a) before re-treatment, (b) after re-treatment. |
PMC2194710_F3_16038.jpg | What is the dominant medical problem in this image? | Radiological evaluation of response to re-treatment with gefitinib on CT scans. (a) before re-treatment, (b) after re-treatment. |
PMC2198907_F1_16040.jpg | What is shown in this image? | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F1_16047.jpg | What stands out most in this visual? | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F1_16046.jpg | What object or scene is depicted here? | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F1_16041.jpg | What is the focal point of this photograph? | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F1_16042.jpg | What does this image primarily show? | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F1_16044.jpg | What is the core subject represented in this visual? | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F1_16045.jpg | What is the dominant medical problem in this image? | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F1_16043.jpg | Describe the main subject of this image. | A 16-year-old female, AIS, PUMC IId1 type. Preoperative X-ray showed a 39° left lumbar curve and a 20° right thoracic curve and the apex of the lumbar curve was located at L2,3 disc. Preoperative lateral X-ray showed no thoracolumbar kyphosis (A, B). The interspace angle between L4 and L5 was 4°. On the right Bending f... |
PMC2198907_F2_16050.jpg | What is the dominant medical problem in this image? | A 17-year-old female, PUMC Ic type. Preoperative X-ray showed a 52° left lumbar curve with the apex at L1,2 disc(A, B). The interspace angle between L3 and L4 was -5°. On the right Bending film, the interspace angle was 0°(C). On the left Bending film, it was still -5°(D), and T12-L1and L2,3 disc didn't open, so the fu... |
PMC2198907_F2_16051.jpg | What is the main focus of this visual representation? | A 17-year-old female, PUMC Ic type. Preoperative X-ray showed a 52° left lumbar curve with the apex at L1,2 disc(A, B). The interspace angle between L3 and L4 was -5°. On the right Bending film, the interspace angle was 0°(C). On the left Bending film, it was still -5°(D), and T12-L1and L2,3 disc didn't open, so the fu... |
PMC2198907_F2_16049.jpg | What is the central feature of this picture? | A 17-year-old female, PUMC Ic type. Preoperative X-ray showed a 52° left lumbar curve with the apex at L1,2 disc(A, B). The interspace angle between L3 and L4 was -5°. On the right Bending film, the interspace angle was 0°(C). On the left Bending film, it was still -5°(D), and T12-L1and L2,3 disc didn't open, so the fu... |
PMC2198907_F2_16054.jpg | What is being portrayed in this visual content? | A 17-year-old female, PUMC Ic type. Preoperative X-ray showed a 52° left lumbar curve with the apex at L1,2 disc(A, B). The interspace angle between L3 and L4 was -5°. On the right Bending film, the interspace angle was 0°(C). On the left Bending film, it was still -5°(D), and T12-L1and L2,3 disc didn't open, so the fu... |
PMC2198907_F2_16053.jpg | What stands out most in this visual? | A 17-year-old female, PUMC Ic type. Preoperative X-ray showed a 52° left lumbar curve with the apex at L1,2 disc(A, B). The interspace angle between L3 and L4 was -5°. On the right Bending film, the interspace angle was 0°(C). On the left Bending film, it was still -5°(D), and T12-L1and L2,3 disc didn't open, so the fu... |
PMC2198941_pone-0001477-g001_16064.jpg | What is the main focus of this visual representation? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16057.jpg | What is the dominant medical problem in this image? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16065.jpg | What is shown in this image? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16068.jpg | What is being portrayed in this visual content? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16060.jpg | Describe the main subject of this image. | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16063.jpg | What key item or scene is captured in this photo? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16056.jpg | What does this image primarily show? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16067.jpg | What is the core subject represented in this visual? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16062.jpg | What is the principal component of this image? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16066.jpg | What object or scene is depicted here? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16061.jpg | What is the core subject represented in this visual? | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198941_pone-0001477-g001_16059.jpg | Describe the main subject of this image. | Single cell imaging during mitosis.(A) Representative images of the same BSC1 cell visualized by bright field phase contrast illumination during prophase, metaphase or cytokinesis (B) Ortogonal fluorescent views corresponding to the distribution of EGFP-CAAX in the same cell imaged using the confocal spinning head. The... |
PMC2198945_pone-0001470-g001_16073.jpg | What is the core subject represented in this visual? | Activations for the Local ([Ldiff–Same]) (red) and Global ([Gdiff–Same]) (blue) contrasts superimposed on a tilted (pitch: −0.5) normalised average structural scan covering STS.Activations are thresholded at p<0.005 (uncorrected), for display purposes. Plots show the BOLD signal at local maxima in left and right pSTS. ... |
PMC2198945_pone-0001470-g002_16070.jpg | What is shown in this image? | Activations for the Local–Global ([Ldiff–Gdiff]) contrast superimposed on coronal sections of participants' normalised average structural scan.Plots show the BOLD signal at local maxima in right PT (top right) and pSTS (bottom right). |
PMC2198947_pone-0001483-g003_16078.jpg | What's the most prominent thing you notice in this picture? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16077.jpg | What key item or scene is captured in this photo? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16091.jpg | What is the main focus of this visual representation? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16087.jpg | Describe the main subject of this image. | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16097.jpg | What stands out most in this visual? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16080.jpg | What key item or scene is captured in this photo? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16082.jpg | What is shown in this image? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16079.jpg | What is being portrayed in this visual content? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16090.jpg | What stands out most in this visual? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16092.jpg | What does this image primarily show? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16096.jpg | What is the central feature of this picture? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16094.jpg | What is the core subject represented in this visual? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16084.jpg | What is the central feature of this picture? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16088.jpg | What does this image primarily show? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2198947_pone-0001483-g003_16086.jpg | What is being portrayed in this visual content? | EB1089 stimulates differentiation of ectopic hair follicles formation in the D4 line of K14ΔNβ-cateninER transgenic mice.Epidermal whole mounts (A–D) or sections (E–X) of wild type (WT) or transgenic (β-cat-D4) tail skin treated with 4OHT and/or EB1089. (A–D) Immunolabelling for keratin 17 (green) with Hoechst (blue) a... |
PMC2199309_f2-ehp0116-000086_16099.jpg | What is shown in this image? | High-resolution computerized tomography scan image with patient in prone position demonstrating calcification of anterior pericardium. |
PMC2200795_pone-0001491-g001_16101.jpg | What key item or scene is captured in this photo? | ICP27 Is Required for the Formation of Hsc70 Nuclear Foci.Vero cells or 2-2 cells were either mock-infected, infected with WT HSV-1 KOS or ICP27 null mutant 27-LacZ, or were first transfected with plasmid pSG130B/S, which expresses ICP27 [48], and were then infected 24 h later with 27-LacZ, as indicated. All infections... |
PMC2200795_pone-0001491-g001_16100.jpg | What is the focal point of this photograph? | ICP27 Is Required for the Formation of Hsc70 Nuclear Foci.Vero cells or 2-2 cells were either mock-infected, infected with WT HSV-1 KOS or ICP27 null mutant 27-LacZ, or were first transfected with plasmid pSG130B/S, which expresses ICP27 [48], and were then infected 24 h later with 27-LacZ, as indicated. All infections... |
PMC2200863_pone-0001510-g002_16104.jpg | Can you identify the primary element in this image? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16109.jpg | What is the core subject represented in this visual? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16113.jpg | What object or scene is depicted here? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16112.jpg | What is the principal component of this image? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16102.jpg | What is the main focus of this visual representation? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16108.jpg | What is the dominant medical problem in this image? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16111.jpg | What object or scene is depicted here? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16106.jpg | What key item or scene is captured in this photo? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16105.jpg | What object or scene is depicted here? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16110.jpg | What is the dominant medical problem in this image? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16107.jpg | Describe the main subject of this image. | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g002_16103.jpg | What is the core subject represented in this visual? | PIN2-eGFP vacuolar accumulation in dark-grown plants.(A) PIN2-eGFP (green) asymmetric localization at the apical plasmamembrane (PM) of root epidermis cells of 5-day-old light-grown plants (left; inset). No vacuolar accumulation of PIN2-eGFP was observed by DIC imaging (middle and right; insets). (B) In dark-grown seed... |
PMC2200863_pone-0001510-g004_16116.jpg | What key item or scene is captured in this photo? | Enhanced PIN2-eGFP vacuolar accumulation in dark-grown det3-1 mutant.PIN2-eGFP was slightly enhanced in diffuse and punctate cytoplasmic structures in light-grown det3-1 mutant, compared to the eir1-1 control plant (A, C). In dark-grown det3-1 mutant, a high level of PIN2-eGFP was detected both at the PM and in vacuola... |
PMC2200863_pone-0001510-g004_16114.jpg | What object or scene is depicted here? | Enhanced PIN2-eGFP vacuolar accumulation in dark-grown det3-1 mutant.PIN2-eGFP was slightly enhanced in diffuse and punctate cytoplasmic structures in light-grown det3-1 mutant, compared to the eir1-1 control plant (A, C). In dark-grown det3-1 mutant, a high level of PIN2-eGFP was detected both at the PM and in vacuola... |
PMC2200863_pone-0001510-g004_16121.jpg | What stands out most in this visual? | Enhanced PIN2-eGFP vacuolar accumulation in dark-grown det3-1 mutant.PIN2-eGFP was slightly enhanced in diffuse and punctate cytoplasmic structures in light-grown det3-1 mutant, compared to the eir1-1 control plant (A, C). In dark-grown det3-1 mutant, a high level of PIN2-eGFP was detected both at the PM and in vacuola... |
PMC2200863_pone-0001510-g004_16118.jpg | What is the focal point of this photograph? | Enhanced PIN2-eGFP vacuolar accumulation in dark-grown det3-1 mutant.PIN2-eGFP was slightly enhanced in diffuse and punctate cytoplasmic structures in light-grown det3-1 mutant, compared to the eir1-1 control plant (A, C). In dark-grown det3-1 mutant, a high level of PIN2-eGFP was detected both at the PM and in vacuola... |
PMC2200863_pone-0001510-g004_16119.jpg | What can you see in this picture? | Enhanced PIN2-eGFP vacuolar accumulation in dark-grown det3-1 mutant.PIN2-eGFP was slightly enhanced in diffuse and punctate cytoplasmic structures in light-grown det3-1 mutant, compared to the eir1-1 control plant (A, C). In dark-grown det3-1 mutant, a high level of PIN2-eGFP was detected both at the PM and in vacuola... |
PMC2200863_pone-0001510-g006_16135.jpg | What does this image primarily show? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16133.jpg | What is the dominant medical problem in this image? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16137.jpg | Describe the main subject of this image. | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16124.jpg | What is being portrayed in this visual content? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16129.jpg | What does this image primarily show? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16136.jpg | What can you see in this picture? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16132.jpg | Describe the main subject of this image. | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16130.jpg | What stands out most in this visual? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16125.jpg | What is the central feature of this picture? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16122.jpg | What does this image primarily show? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16138.jpg | What is the central feature of this picture? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16131.jpg | Can you identify the primary element in this image? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16134.jpg | Describe the main subject of this image. | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g006_16127.jpg | What key item or scene is captured in this photo? | Time course of PIN2-eGFP vacuolar targeting.Five-day-old light-grown PIN2-eGFP seedlings were pulse-labeled with an endocytosis marker, FM4-64, and then transferred to dark (A–D) or kept in light (E–H). Both PIN2-eGFP (green) and FM4-64 (red) were restricted to the plasma membrane (PM) at T = 0 (A, E). At T = 30 min af... |
PMC2200863_pone-0001510-g007_16154.jpg | What stands out most in this visual? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16155.jpg | What's the most prominent thing you notice in this picture? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16147.jpg | What does this image primarily show? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16139.jpg | Describe the main subject of this image. | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16159.jpg | What object or scene is depicted here? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16150.jpg | What stands out most in this visual? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16158.jpg | Can you identify the primary element in this image? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16142.jpg | What is the focal point of this photograph? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16144.jpg | What is the dominant medical problem in this image? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16156.jpg | What can you see in this picture? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16149.jpg | What is the main focus of this visual representation? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16157.jpg | Describe the main subject of this image. | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16140.jpg | What is the focal point of this photograph? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16148.jpg | What is the principal component of this image? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16143.jpg | What is shown in this image? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16151.jpg | What is the main focus of this visual representation? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
PMC2200863_pone-0001510-g007_16141.jpg | What's the most prominent thing you notice in this picture? | Light signaling in the regulation of PIN2 intracellular distribution.(A) PIN2-eGFP was localized at the apical PM of root epidermal cells of plants grown in continuous white light. (B) PIN2-eGFP asymmetric location in root epidermis cells was maintained in light-grown plants shifted to continuous blue light (475 nm) fo... |
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