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PMC520751_F5_551.jpg | What object or scene is depicted here? | This figure illustrates some of the pre and post x-rays taken after 4–6 weeks of treatment. |
PMC520751_F5_550.jpg | What does this image primarily show? | This figure illustrates some of the pre and post x-rays taken after 4–6 weeks of treatment. |
PMC520751_F5_545.jpg | Can you identify the primary element in this image? | This figure illustrates some of the pre and post x-rays taken after 4–6 weeks of treatment. |
PMC520751_F5_547.jpg | What is the main focus of this visual representation? | This figure illustrates some of the pre and post x-rays taken after 4–6 weeks of treatment. |
PMC520751_F5_549.jpg | What is the central feature of this picture? | This figure illustrates some of the pre and post x-rays taken after 4–6 weeks of treatment. |
PMC520828_F2_556.jpg | Can you identify the primary element in this image? | Aspergillus antigen-induced lung inflammation appears similar in wild-type, Mcp-1-/- and Ccr2-/- mice. H&E stained lung sections from PBS- or Aspergillus antigen-treated wild-type, Mcp-1-/- and Ccr2-/- mice. Representative normal airway from wild-type control mice (A) (similar findings from Mcp-1-/- and Ccr2-/- control... |
PMC520828_F2_553.jpg | What is shown in this image? | Aspergillus antigen-induced lung inflammation appears similar in wild-type, Mcp-1-/- and Ccr2-/- mice. H&E stained lung sections from PBS- or Aspergillus antigen-treated wild-type, Mcp-1-/- and Ccr2-/- mice. Representative normal airway from wild-type control mice (A) (similar findings from Mcp-1-/- and Ccr2-/- control... |
PMC520828_F2_554.jpg | What is the main focus of this visual representation? | Aspergillus antigen-induced lung inflammation appears similar in wild-type, Mcp-1-/- and Ccr2-/- mice. H&E stained lung sections from PBS- or Aspergillus antigen-treated wild-type, Mcp-1-/- and Ccr2-/- mice. Representative normal airway from wild-type control mice (A) (similar findings from Mcp-1-/- and Ccr2-/- control... |
PMC520828_F4_560.jpg | What is the dominant medical problem in this image? | Aspergillus antigen induced goblet cell hyperplasia in wild-type, Mcp-1-/- and Ccr2-/- mice. Representative PAS-stained lung sections from PBS-treated wild-type mice (A) showed minimal PAS-positive staining (similar findings from Mcp-1-/- and Ccr2-/- control mice are not shown). Aspergillus antigen-treated wild-type (B... |
PMC520828_F4_557.jpg | What key item or scene is captured in this photo? | Aspergillus antigen induced goblet cell hyperplasia in wild-type, Mcp-1-/- and Ccr2-/- mice. Representative PAS-stained lung sections from PBS-treated wild-type mice (A) showed minimal PAS-positive staining (similar findings from Mcp-1-/- and Ccr2-/- control mice are not shown). Aspergillus antigen-treated wild-type (B... |
PMC520828_F7_563.jpg | What is the dominant medical problem in this image? | Increased airway subepithelial collagen deposition after treatment with Aspergillus antigen. Representative lung sections from PBS-treated mice show minimal trichrome staining around small airways (A) (similar findings from Mcp-1-/- and Ccr2-/- control mice are not shown). Increased trichrome staining is noted around s... |
PMC520828_F7_562.jpg | What object or scene is depicted here? | Increased airway subepithelial collagen deposition after treatment with Aspergillus antigen. Representative lung sections from PBS-treated mice show minimal trichrome staining around small airways (A) (similar findings from Mcp-1-/- and Ccr2-/- control mice are not shown). Increased trichrome staining is noted around s... |
PMC520828_F7_564.jpg | What is the core subject represented in this visual? | Increased airway subepithelial collagen deposition after treatment with Aspergillus antigen. Representative lung sections from PBS-treated mice show minimal trichrome staining around small airways (A) (similar findings from Mcp-1-/- and Ccr2-/- control mice are not shown). Increased trichrome staining is noted around s... |
PMC520828_F7_561.jpg | What key item or scene is captured in this photo? | Increased airway subepithelial collagen deposition after treatment with Aspergillus antigen. Representative lung sections from PBS-treated mice show minimal trichrome staining around small airways (A) (similar findings from Mcp-1-/- and Ccr2-/- control mice are not shown). Increased trichrome staining is noted around s... |
PMC520834_F3_568.jpg | What key item or scene is captured in this photo? | Tat-dependent expression of APOBEC3G. HeLa cells were transfected with pNL-A1 and pHIV-APO3G at a 1:1 molar ratio. Transfected cells were grown on cover slips for 24 hr and then either fixed with ice-cold methanol (panels A-C) or with formaldehyde buffer as described in Methods (panels D-F). Cells were stained with an ... |
PMC520834_F3_565.jpg | What stands out most in this visual? | Tat-dependent expression of APOBEC3G. HeLa cells were transfected with pNL-A1 and pHIV-APO3G at a 1:1 molar ratio. Transfected cells were grown on cover slips for 24 hr and then either fixed with ice-cold methanol (panels A-C) or with formaldehyde buffer as described in Methods (panels D-F). Cells were stained with an ... |
PMC520834_F3_566.jpg | What can you see in this picture? | Tat-dependent expression of APOBEC3G. HeLa cells were transfected with pNL-A1 and pHIV-APO3G at a 1:1 molar ratio. Transfected cells were grown on cover slips for 24 hr and then either fixed with ice-cold methanol (panels A-C) or with formaldehyde buffer as described in Methods (panels D-F). Cells were stained with an ... |
PMC520834_F3_570.jpg | What's the most prominent thing you notice in this picture? | Tat-dependent expression of APOBEC3G. HeLa cells were transfected with pNL-A1 and pHIV-APO3G at a 1:1 molar ratio. Transfected cells were grown on cover slips for 24 hr and then either fixed with ice-cold methanol (panels A-C) or with formaldehyde buffer as described in Methods (panels D-F). Cells were stained with an ... |
PMC520834_F3_567.jpg | What key item or scene is captured in this photo? | Tat-dependent expression of APOBEC3G. HeLa cells were transfected with pNL-A1 and pHIV-APO3G at a 1:1 molar ratio. Transfected cells were grown on cover slips for 24 hr and then either fixed with ice-cold methanol (panels A-C) or with formaldehyde buffer as described in Methods (panels D-F). Cells were stained with an ... |
PMC520834_F3_569.jpg | What is the principal component of this image? | Tat-dependent expression of APOBEC3G. HeLa cells were transfected with pNL-A1 and pHIV-APO3G at a 1:1 molar ratio. Transfected cells were grown on cover slips for 24 hr and then either fixed with ice-cold methanol (panels A-C) or with formaldehyde buffer as described in Methods (panels D-F). Cells were stained with an ... |
PMC521078_F2_572.jpg | What is the principal component of this image? | Histology of non-alpha-1 antitrypsin deficiency emphysema. In non-alpha-1 antitrypsin deficiency emphysema, chronic respiratory bronchiolitis, destruction of the alveolar architecture, prominent accumulation of macrophages (A, hematoxylin eosin, original magnification ×40) and marked bronchiolitis of the terminal bronc... |
PMC521078_F3_571.jpg | Describe the main subject of this image. | Histology of normal lung tissue in patients with hamartochondroma. In cases of hamartochondroma, only some macrophages and mucus can be detected in the bronchioli (hematoxylin eosin, original magnification ×15). No signs for emphysema or bronchiolitis could be detected. |
PMC521083_F1_579.jpg | What is the dominant medical problem in this image? | PET images taken before and after RFA treatments: coronal (A, B), and Sagittal (C, D) views of PET scans of lung cancer. (A, C) were taken before RFA treatment; (B, D) were taken two weeks after RFA treatment. |
PMC521083_F1_580.jpg | What key item or scene is captured in this photo? | PET images taken before and after RFA treatments: coronal (A, B), and Sagittal (C, D) views of PET scans of lung cancer. (A, C) were taken before RFA treatment; (B, D) were taken two weeks after RFA treatment. |
PMC521083_F1_577.jpg | Describe the main subject of this image. | PET images taken before and after RFA treatments: coronal (A, B), and Sagittal (C, D) views of PET scans of lung cancer. (A, C) were taken before RFA treatment; (B, D) were taken two weeks after RFA treatment. |
PMC521083_F1_578.jpg | What is being portrayed in this visual content? | PET images taken before and after RFA treatments: coronal (A, B), and Sagittal (C, D) views of PET scans of lung cancer. (A, C) were taken before RFA treatment; (B, D) were taken two weeks after RFA treatment. |
PMC521083_F2_575.jpg | What key item or scene is captured in this photo? | PET images taken before and after RFA treatments. This patient had a tumor size larger than 3.5 cm. PET scans were taken 1 week before (A) and 2 weeks after (B) RFA treatment. |
PMC521083_F3_574.jpg | What is the dominant medical problem in this image? | CT images taken before and after RFA treatments. The same patient PET images were shown as Figure 1. (A) was taken before RFA treatment, (B) was taken 2 week after RFA treatment. |
PMC521083_F3_573.jpg | What is the core subject represented in this visual? | CT images taken before and after RFA treatments. The same patient PET images were shown as Figure 1. (A) was taken before RFA treatment, (B) was taken 2 week after RFA treatment. |
PMC521175_pbio-0020341-g003_581.jpg | What is the focal point of this photograph? | Compensasomes Do Not Spread from the X Chromosome onto Autosomal Regions Inserted on the X(A) Females expressing MSL-2 from an msl2Δ3–21 transgene and bearing a reciprocal translocation between the X and second chromosome (line XIII) do not show additional bands in the regions of the 2L arm juxtaposed to X chromosome m... |
PMC521175_pbio-0020341-g003_584.jpg | What is shown in this image? | Compensasomes Do Not Spread from the X Chromosome onto Autosomal Regions Inserted on the X(A) Females expressing MSL-2 from an msl2Δ3–21 transgene and bearing a reciprocal translocation between the X and second chromosome (line XIII) do not show additional bands in the regions of the 2L arm juxtaposed to X chromosome m... |
PMC521175_pbio-0020341-g003_582.jpg | What is shown in this image? | Compensasomes Do Not Spread from the X Chromosome onto Autosomal Regions Inserted on the X(A) Females expressing MSL-2 from an msl2Δ3–21 transgene and bearing a reciprocal translocation between the X and second chromosome (line XIII) do not show additional bands in the regions of the 2L arm juxtaposed to X chromosome m... |
PMC521488_F1_586.jpg | What's the most prominent thing you notice in this picture? | UVA1 phototherapy in systemic sclerosis. Clinical appearence of acrosclerotic piece-meal necrosis of the first digit in SSc before (Fig. 1) and almost complete clearance following low-dose UVA1 phototherapy (Fig. 2). |
PMC521681_F1_597.jpg | What can you see in this picture? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_590.jpg | What is the dominant medical problem in this image? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_598.jpg | Can you identify the primary element in this image? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_587.jpg | Describe the main subject of this image. | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_594.jpg | Can you identify the primary element in this image? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_596.jpg | What does this image primarily show? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_589.jpg | What is the central feature of this picture? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_592.jpg | What can you see in this picture? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_591.jpg | What does this image primarily show? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_595.jpg | What is the main focus of this visual representation? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_588.jpg | What is the core subject represented in this visual? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F1_599.jpg | What is the central feature of this picture? | The interphase inactive X in normal and mutant cells: histone modification and macroH2A1 association. Photomicrograph examples of normal, ICF, and Rett fibroblasts that were FITC-labeled using antisera to various modified histones. Arrows point to sex chromatin on DAPI-stained cells, and to the corresponding sex chroma... |
PMC521681_F2_603.jpg | What is the central feature of this picture? | Histone modification on the inactive X in metaphases from normal and ICF fibroblasts (FB). Examples are shown of normal and ICF (PT3 and PT4) metaphase cells labeled with antisera to acetylated histone H4 (anti-acH4) and dimethylated K4 histone H3 (anti-meK4H3). Arrows point to X chromosomes stained with DAPI that corr... |
PMC521681_F2_604.jpg | What is the dominant medical problem in this image? | Histone modification on the inactive X in metaphases from normal and ICF fibroblasts (FB). Examples are shown of normal and ICF (PT3 and PT4) metaphase cells labeled with antisera to acetylated histone H4 (anti-acH4) and dimethylated K4 histone H3 (anti-meK4H3). Arrows point to X chromosomes stained with DAPI that corr... |
PMC521686_F2_607.jpg | What is being portrayed in this visual content? | Comparison of CF and AgNO3 staining in potato tissues. Plants were labelled with aqueous CFDA and left to translocate for 5 h prior to harvesting. Tubers or stems were hand sectioned and sections were either incubated in mineral oil and examined under a confocal microscope for CF fluorescence or stained for AsA using e... |
PMC521686_F2_608.jpg | Can you identify the primary element in this image? | Comparison of CF and AgNO3 staining in potato tissues. Plants were labelled with aqueous CFDA and left to translocate for 5 h prior to harvesting. Tubers or stems were hand sectioned and sections were either incubated in mineral oil and examined under a confocal microscope for CF fluorescence or stained for AsA using e... |
PMC521686_F2_605.jpg | What can you see in this picture? | Comparison of CF and AgNO3 staining in potato tissues. Plants were labelled with aqueous CFDA and left to translocate for 5 h prior to harvesting. Tubers or stems were hand sectioned and sections were either incubated in mineral oil and examined under a confocal microscope for CF fluorescence or stained for AsA using e... |
PMC521686_F2_606.jpg | What is the dominant medical problem in this image? | Comparison of CF and AgNO3 staining in potato tissues. Plants were labelled with aqueous CFDA and left to translocate for 5 h prior to harvesting. Tubers or stems were hand sectioned and sections were either incubated in mineral oil and examined under a confocal microscope for CF fluorescence or stained for AsA using e... |
PMC521694_F2_609.jpg | Describe the main subject of this image. | Assessment of asynchrony in parasternal long axis view by M-mode: Time difference between peak of septal and inferior myocardial contraction. |
PMC521694_F3_614.jpg | What is the main focus of this visual representation? | Tissue Doppler velocity data for the quantification of asynchrony from apical four chamber view. Sample volumes are in the basal lateral and basal septal segment. A) Normal control patient. There is a synchronous myocardial velocity in the septal (=yellow) and the lateral (=green curve) segment. IVC = isovolumetric con... |
PMC521694_F3_615.jpg | Describe the main subject of this image. | Tissue Doppler velocity data for the quantification of asynchrony from apical four chamber view. Sample volumes are in the basal lateral and basal septal segment. A) Normal control patient. There is a synchronous myocardial velocity in the septal (=yellow) and the lateral (=green curve) segment. IVC = isovolumetric con... |
PMC521694_F4_611.jpg | What is shown in this image? | Assessment of asynchrony by strain from the apical four chamber view. The sample volumes are in the basal septal and the basal lateral segments. A) Normal strain curve in a control patient. ICT = isovolumetric contraction time. B) Strain curve with asynchronous myocardial velocity in the septal (=yellow) and the latera... |
PMC521694_F4_612.jpg | What key item or scene is captured in this photo? | Assessment of asynchrony by strain from the apical four chamber view. The sample volumes are in the basal septal and the basal lateral segments. A) Normal strain curve in a control patient. ICT = isovolumetric contraction time. B) Strain curve with asynchronous myocardial velocity in the septal (=yellow) and the latera... |
PMC521694_F4_613.jpg | What object or scene is depicted here? | Assessment of asynchrony by strain from the apical four chamber view. The sample volumes are in the basal septal and the basal lateral segments. A) Normal strain curve in a control patient. ICT = isovolumetric contraction time. B) Strain curve with asynchronous myocardial velocity in the septal (=yellow) and the latera... |
PMC522804_F3_616.jpg | What key item or scene is captured in this photo? | Mucinous deposition of the upper and mid-dermis accompanied by an elevated occurrence of MIB-1+ dermal fibroblasts. |
PMC522808_F3_623.jpg | What is being portrayed in this visual content? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_626.jpg | What is being portrayed in this visual content? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_617.jpg | What is the core subject represented in this visual? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_627.jpg | What object or scene is depicted here? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_628.jpg | What's the most prominent thing you notice in this picture? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_629.jpg | What can you see in this picture? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_625.jpg | What's the most prominent thing you notice in this picture? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_620.jpg | What is the dominant medical problem in this image? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_631.jpg | What object or scene is depicted here? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_632.jpg | What is the central feature of this picture? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_618.jpg | What is the focal point of this photograph? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_621.jpg | What is the core subject represented in this visual? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_630.jpg | What key item or scene is captured in this photo? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_622.jpg | Describe the main subject of this image. | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F3_624.jpg | What is the focal point of this photograph? | FRAP of GFP-E-APC and GFP-tagged AJ proteins in early embryonic epithelial cells. Face-on views of live ~6 hours old embryos (stage 11) expressing (a) GFP-E-APC, (b) E-cadherin-GFP, (c) Armadillo-GFP, (d) α-catenin-GFP, with white squares marking sections of cell interfaces that were bleached, and red squares marking u... |
PMC522808_F5_635.jpg | What is the dominant medical problem in this image? | FRAP of GFP-E-APC patches in late embryonic epithelial cells. Face-on views of ~17 hours old embryo (stage 17) expressing GFP-E-APC, showing patches of GFP-E-APC at the apical plasma membrane of epidermal cells forming denticles (pre-bleach and subsequent images labelled as in Fig. 3). Note the fast recovery of the flu... |
PMC522808_F5_636.jpg | What is the core subject represented in this visual? | FRAP of GFP-E-APC patches in late embryonic epithelial cells. Face-on views of ~17 hours old embryo (stage 17) expressing GFP-E-APC, showing patches of GFP-E-APC at the apical plasma membrane of epidermal cells forming denticles (pre-bleach and subsequent images labelled as in Fig. 3). Note the fast recovery of the flu... |
PMC522808_F5_633.jpg | What is being portrayed in this visual content? | FRAP of GFP-E-APC patches in late embryonic epithelial cells. Face-on views of ~17 hours old embryo (stage 17) expressing GFP-E-APC, showing patches of GFP-E-APC at the apical plasma membrane of epidermal cells forming denticles (pre-bleach and subsequent images labelled as in Fig. 3). Note the fast recovery of the flu... |
PMC522808_F5_634.jpg | What can you see in this picture? | FRAP of GFP-E-APC patches in late embryonic epithelial cells. Face-on views of ~17 hours old embryo (stage 17) expressing GFP-E-APC, showing patches of GFP-E-APC at the apical plasma membrane of epidermal cells forming denticles (pre-bleach and subsequent images labelled as in Fig. 3). Note the fast recovery of the flu... |
PMC522813_F3_643.jpg | What is the main focus of this visual representation? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_642.jpg | What object or scene is depicted here? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_639.jpg | What is the core subject represented in this visual? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_638.jpg | What stands out most in this visual? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_641.jpg | What is shown in this image? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_645.jpg | What is the principal component of this image? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_648.jpg | What is the central feature of this picture? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_647.jpg | What is the main focus of this visual representation? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_637.jpg | Describe the main subject of this image. | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522813_F3_646.jpg | What is being portrayed in this visual content? | Immunolocalization of ABCG5 and ABCG8 in human liver sections. Panel A shows the staining pattern of ABCG5 and panel B that for ABCG8. The pre-immune controls for both antibodies are as marked and shown in the top right hand corners of each panel. The top panels of each section are at low magnification (bar is 50 μm) a... |
PMC522876_F5_649.jpg | Describe the main subject of this image. | Recapitulation of human xanthinuria type 1 by rosy mutants. (a) Wild-type tubule; (b) tubule from adult ry2 homozygous fly. Both micrographs are at the same magnification, and the diameter of the wild-type tubule can be taken as 35 μm. |
PMC522876_F5_650.jpg | What is being portrayed in this visual content? | Recapitulation of human xanthinuria type 1 by rosy mutants. (a) Wild-type tubule; (b) tubule from adult ry2 homozygous fly. Both micrographs are at the same magnification, and the diameter of the wild-type tubule can be taken as 35 μm. |
PMC523228_pbio-0020352-g004_656.jpg | Can you identify the primary element in this image? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_657.jpg | What is the principal component of this image? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_667.jpg | What is being portrayed in this visual content? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_652.jpg | What is shown in this image? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_662.jpg | What is the main focus of this visual representation? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_655.jpg | What key item or scene is captured in this photo? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_653.jpg | What is the central feature of this picture? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_661.jpg | What is being portrayed in this visual content? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_664.jpg | What is the central feature of this picture? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_669.jpg | What is shown in this image? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
PMC523228_pbio-0020352-g004_654.jpg | What can you see in this picture? | Five Newly Identified Motifs Function as Pharyngeal Enhancers(A–C) Nomarski differential contrast interference images of embryos representing three different stages of embryonic development: (A) “early” development, when the pharynx primordium is formed, (B) “mid” development, when the pharynx has completed cell divisi... |
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