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PMC2312329_pone-0002064-g003_20274.jpg | What's the most prominent thing you notice in this picture? | STRO-1+ cells in different areas of the pedicle.(a) Methylmetacrylate (Technovit® 9100 New) embedded sample of the pedicle shown in (b) and (c); cross-section, overview, HE-staining. (E) epidermis, (D) dermis, (SC) subcutaneous tissue with superficial muscle (asterisk), (Mf) Part of the frontoscutular muscle, (Fa) fasc... |
PMC2312329_pone-0002064-g003_20265.jpg | Describe the main subject of this image. | STRO-1+ cells in different areas of the pedicle.(a) Methylmetacrylate (Technovit® 9100 New) embedded sample of the pedicle shown in (b) and (c); cross-section, overview, HE-staining. (E) epidermis, (D) dermis, (SC) subcutaneous tissue with superficial muscle (asterisk), (Mf) Part of the frontoscutular muscle, (Fa) fasc... |
PMC2312329_pone-0002064-g003_20270.jpg | What is the dominant medical problem in this image? | STRO-1+ cells in different areas of the pedicle.(a) Methylmetacrylate (Technovit® 9100 New) embedded sample of the pedicle shown in (b) and (c); cross-section, overview, HE-staining. (E) epidermis, (D) dermis, (SC) subcutaneous tissue with superficial muscle (asterisk), (Mf) Part of the frontoscutular muscle, (Fa) fasc... |
PMC2312329_pone-0002064-g003_20267.jpg | What can you see in this picture? | STRO-1+ cells in different areas of the pedicle.(a) Methylmetacrylate (Technovit® 9100 New) embedded sample of the pedicle shown in (b) and (c); cross-section, overview, HE-staining. (E) epidermis, (D) dermis, (SC) subcutaneous tissue with superficial muscle (asterisk), (Mf) Part of the frontoscutular muscle, (Fa) fasc... |
PMC2312330_pgen-1000059-g006_20279.jpg | Describe the main subject of this image. | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2312330_pgen-1000059-g006_20276.jpg | Describe the main subject of this image. | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2312330_pgen-1000059-g006_20284.jpg | What is the focal point of this photograph? | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2312330_pgen-1000059-g006_20280.jpg | What is the principal component of this image? | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2312330_pgen-1000059-g006_20277.jpg | What is being portrayed in this visual content? | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2312330_pgen-1000059-g006_20282.jpg | What object or scene is depicted here? | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2312330_pgen-1000059-g006_20283.jpg | What is the main focus of this visual representation? | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2312330_pgen-1000059-g006_20286.jpg | What is the dominant medical problem in this image? | UV intestinal autofluorescence in lin-35; slr-2 mutants.Representative images from a time course following placement of synchronized wild type and lin-35; slr-2 L1 larvae on plates devoid of a bacterial food source (starved) or containing OP50 E. coli (fed). Intestinal autofluorescence in wild-type starved animals is m... |
PMC2315640_F2_20295.jpg | What can you see in this picture? | In the juliform millipede Nopoiulus kochii (Gervais, 1847) (Blaniulidae), the eighth and the ninth pair of trunk appendages are typical legs since their first appearance in the III post-embryonic instar and so remain in the IV instar (A, D, G), and only turn into short, scale-like appendages with the moult to the V ins... |
PMC2315640_F2_20287.jpg | What key item or scene is captured in this photo? | In the juliform millipede Nopoiulus kochii (Gervais, 1847) (Blaniulidae), the eighth and the ninth pair of trunk appendages are typical legs since their first appearance in the III post-embryonic instar and so remain in the IV instar (A, D, G), and only turn into short, scale-like appendages with the moult to the V ins... |
PMC2315640_F2_20292.jpg | What is the dominant medical problem in this image? | In the juliform millipede Nopoiulus kochii (Gervais, 1847) (Blaniulidae), the eighth and the ninth pair of trunk appendages are typical legs since their first appearance in the III post-embryonic instar and so remain in the IV instar (A, D, G), and only turn into short, scale-like appendages with the moult to the V ins... |
PMC2315640_F2_20289.jpg | What is being portrayed in this visual content? | In the juliform millipede Nopoiulus kochii (Gervais, 1847) (Blaniulidae), the eighth and the ninth pair of trunk appendages are typical legs since their first appearance in the III post-embryonic instar and so remain in the IV instar (A, D, G), and only turn into short, scale-like appendages with the moult to the V ins... |
PMC2315640_F2_20294.jpg | What is being portrayed in this visual content? | In the juliform millipede Nopoiulus kochii (Gervais, 1847) (Blaniulidae), the eighth and the ninth pair of trunk appendages are typical legs since their first appearance in the III post-embryonic instar and so remain in the IV instar (A, D, G), and only turn into short, scale-like appendages with the moult to the V ins... |
PMC2315640_F2_20288.jpg | What is the core subject represented in this visual? | In the juliform millipede Nopoiulus kochii (Gervais, 1847) (Blaniulidae), the eighth and the ninth pair of trunk appendages are typical legs since their first appearance in the III post-embryonic instar and so remain in the IV instar (A, D, G), and only turn into short, scale-like appendages with the moult to the V ins... |
PMC2315640_F2_20290.jpg | Can you identify the primary element in this image? | In the juliform millipede Nopoiulus kochii (Gervais, 1847) (Blaniulidae), the eighth and the ninth pair of trunk appendages are typical legs since their first appearance in the III post-embryonic instar and so remain in the IV instar (A, D, G), and only turn into short, scale-like appendages with the moult to the V ins... |
PMC2315797_pone-0002044-g001_20302.jpg | What is the principal component of this image? | Photosimulation montages of all Paranthropus boisei specimens known to preserve antemortem microwear.Each montage is comprised of photosimulations of 3D point clouds for four adjacent fields representing a total of 276×204 µm of each original occlusal surface. (A) KNM-CH 1, (B) KNM-ER 729, (C) KNM-ER 3230, (D) KNM-ER 3... |
PMC2315797_pone-0002044-g001_20297.jpg | What key item or scene is captured in this photo? | Photosimulation montages of all Paranthropus boisei specimens known to preserve antemortem microwear.Each montage is comprised of photosimulations of 3D point clouds for four adjacent fields representing a total of 276×204 µm of each original occlusal surface. (A) KNM-CH 1, (B) KNM-ER 729, (C) KNM-ER 3230, (D) KNM-ER 3... |
PMC2315797_pone-0002044-g001_20299.jpg | What key item or scene is captured in this photo? | Photosimulation montages of all Paranthropus boisei specimens known to preserve antemortem microwear.Each montage is comprised of photosimulations of 3D point clouds for four adjacent fields representing a total of 276×204 µm of each original occlusal surface. (A) KNM-CH 1, (B) KNM-ER 729, (C) KNM-ER 3230, (D) KNM-ER 3... |
PMC2315797_pone-0002044-g001_20301.jpg | What is the core subject represented in this visual? | Photosimulation montages of all Paranthropus boisei specimens known to preserve antemortem microwear.Each montage is comprised of photosimulations of 3D point clouds for four adjacent fields representing a total of 276×204 µm of each original occlusal surface. (A) KNM-CH 1, (B) KNM-ER 729, (C) KNM-ER 3230, (D) KNM-ER 3... |
PMC2315797_pone-0002044-g001_20300.jpg | What is the focal point of this photograph? | Photosimulation montages of all Paranthropus boisei specimens known to preserve antemortem microwear.Each montage is comprised of photosimulations of 3D point clouds for four adjacent fields representing a total of 276×204 µm of each original occlusal surface. (A) KNM-CH 1, (B) KNM-ER 729, (C) KNM-ER 3230, (D) KNM-ER 3... |
PMC2315797_pone-0002044-g001_20298.jpg | What key item or scene is captured in this photo? | Photosimulation montages of all Paranthropus boisei specimens known to preserve antemortem microwear.Each montage is comprised of photosimulations of 3D point clouds for four adjacent fields representing a total of 276×204 µm of each original occlusal surface. (A) KNM-CH 1, (B) KNM-ER 729, (C) KNM-ER 3230, (D) KNM-ER 3... |
PMC2320979_pgen-1000066-g001_20306.jpg | What is shown in this image? | Severe condensation of the X chromosome by increased Su(var)3-7 expression requires the Dosage Compensation Complex.Polytene chromosomes from male third instar larvae containing a heat-shock transgene over-expressing Su(var)3-7 (Su(var)3-7+++) in combination with the heterozygous or homozygous mle1 mutation. A: Orcein ... |
PMC2320979_pgen-1000066-g001_20308.jpg | What is the principal component of this image? | Severe condensation of the X chromosome by increased Su(var)3-7 expression requires the Dosage Compensation Complex.Polytene chromosomes from male third instar larvae containing a heat-shock transgene over-expressing Su(var)3-7 (Su(var)3-7+++) in combination with the heterozygous or homozygous mle1 mutation. A: Orcein ... |
PMC2320979_pgen-1000066-g001_20303.jpg | What is the principal component of this image? | Severe condensation of the X chromosome by increased Su(var)3-7 expression requires the Dosage Compensation Complex.Polytene chromosomes from male third instar larvae containing a heat-shock transgene over-expressing Su(var)3-7 (Su(var)3-7+++) in combination with the heterozygous or homozygous mle1 mutation. A: Orcein ... |
PMC2320979_pgen-1000066-g001_20305.jpg | What key item or scene is captured in this photo? | Severe condensation of the X chromosome by increased Su(var)3-7 expression requires the Dosage Compensation Complex.Polytene chromosomes from male third instar larvae containing a heat-shock transgene over-expressing Su(var)3-7 (Su(var)3-7+++) in combination with the heterozygous or homozygous mle1 mutation. A: Orcein ... |
PMC2320979_pgen-1000066-g001_20307.jpg | What stands out most in this visual? | Severe condensation of the X chromosome by increased Su(var)3-7 expression requires the Dosage Compensation Complex.Polytene chromosomes from male third instar larvae containing a heat-shock transgene over-expressing Su(var)3-7 (Su(var)3-7+++) in combination with the heterozygous or homozygous mle1 mutation. A: Orcein ... |
PMC2320979_pgen-1000066-g001_20304.jpg | What is the focal point of this photograph? | Severe condensation of the X chromosome by increased Su(var)3-7 expression requires the Dosage Compensation Complex.Polytene chromosomes from male third instar larvae containing a heat-shock transgene over-expressing Su(var)3-7 (Su(var)3-7+++) in combination with the heterozygous or homozygous mle1 mutation. A: Orcein ... |
PMC2320979_pgen-1000066-g002_20318.jpg | What is the core subject represented in this visual? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20317.jpg | What is shown in this image? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20324.jpg | Can you identify the primary element in this image? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20315.jpg | What does this image primarily show? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20321.jpg | What is the principal component of this image? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20320.jpg | What is the core subject represented in this visual? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20322.jpg | What object or scene is depicted here? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20316.jpg | What stands out most in this visual? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g002_20323.jpg | What is shown in this image? | Presence of the Dosage Compensation Complex is sufficient for the X chromosome condensation resulting from Su(var)3-7 over-expression.Polytene chromosomes from female third instar larvae harbouring the heat-shock transgene over-expressing Su(var)3-7 with (DCCON) or without (DCCOFF) the transgene expressing MSL2. A: Orc... |
PMC2320979_pgen-1000066-g004_20311.jpg | What's the most prominent thing you notice in this picture? | The Dosage Compensation Complex is delocalized to the chromocenter of Su(var)3-7 mutant polytene chromosomes.Immunodetection of MSL1 and MSL2 or H4K16ac on wild-type males (WT) or Su(var)3-79/9 males raised at 29°C (Su(var)3-7−/−). Arrows indicate the X chromosome and arrowheads show the chromocenter. Complete chromoso... |
PMC2320979_pgen-1000066-g004_20309.jpg | Can you identify the primary element in this image? | The Dosage Compensation Complex is delocalized to the chromocenter of Su(var)3-7 mutant polytene chromosomes.Immunodetection of MSL1 and MSL2 or H4K16ac on wild-type males (WT) or Su(var)3-79/9 males raised at 29°C (Su(var)3-7−/−). Arrows indicate the X chromosome and arrowheads show the chromocenter. Complete chromoso... |
PMC2320979_pgen-1000066-g004_20312.jpg | What is the dominant medical problem in this image? | The Dosage Compensation Complex is delocalized to the chromocenter of Su(var)3-7 mutant polytene chromosomes.Immunodetection of MSL1 and MSL2 or H4K16ac on wild-type males (WT) or Su(var)3-79/9 males raised at 29°C (Su(var)3-7−/−). Arrows indicate the X chromosome and arrowheads show the chromocenter. Complete chromoso... |
PMC2320979_pgen-1000066-g004_20313.jpg | What is the focal point of this photograph? | The Dosage Compensation Complex is delocalized to the chromocenter of Su(var)3-7 mutant polytene chromosomes.Immunodetection of MSL1 and MSL2 or H4K16ac on wild-type males (WT) or Su(var)3-79/9 males raised at 29°C (Su(var)3-7−/−). Arrows indicate the X chromosome and arrowheads show the chromocenter. Complete chromoso... |
PMC2320979_pgen-1000066-g004_20310.jpg | Describe the main subject of this image. | The Dosage Compensation Complex is delocalized to the chromocenter of Su(var)3-7 mutant polytene chromosomes.Immunodetection of MSL1 and MSL2 or H4K16ac on wild-type males (WT) or Su(var)3-79/9 males raised at 29°C (Su(var)3-7−/−). Arrows indicate the X chromosome and arrowheads show the chromocenter. Complete chromoso... |
PMC2320979_pgen-1000066-g005_20331.jpg | What can you see in this picture? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20326.jpg | What is the main focus of this visual representation? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20334.jpg | What stands out most in this visual? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20327.jpg | What is shown in this image? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20333.jpg | What is shown in this image? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20328.jpg | What is shown in this image? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20332.jpg | What is the dominant medical problem in this image? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20330.jpg | What is the focal point of this photograph? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2320979_pgen-1000066-g005_20329.jpg | What does this image primarily show? | The Dosage Compensation Complex is delocalized to autosomal sites on polytene chromosomes over-expressing Su(var)3-7.A: MSL1 immunodetection on chromosomes harbouring zero (WT), one (Su(var)3-7+++/+) or two copies (Su(var)3-7+++/Su(var)3-7+++) of the heat-shock transgene expressing Su(var)3-7. Male larvae were submitte... |
PMC2322833_ppat-1000054-g004_20335.jpg | What is the focal point of this photograph? | Electron micrographs of the P10 fractions of SARS-CoV-infected cells.Immunogold labeling of the P10 fraction of SARS-CoV-infected (A, B) or uninfected (C) Vero-E6 cells using rabbit antisera recognizing nsp3 (A, C) or nsp4 (B) was followed by negative staining. The white arrow indicates a part of the specimen clearly s... |
PMC2322833_ppat-1000054-g004_20336.jpg | What key item or scene is captured in this photo? | Electron micrographs of the P10 fractions of SARS-CoV-infected cells.Immunogold labeling of the P10 fraction of SARS-CoV-infected (A, B) or uninfected (C) Vero-E6 cells using rabbit antisera recognizing nsp3 (A, C) or nsp4 (B) was followed by negative staining. The white arrow indicates a part of the specimen clearly s... |
PMC2322833_ppat-1000054-g004_20337.jpg | What object or scene is depicted here? | Electron micrographs of the P10 fractions of SARS-CoV-infected cells.Immunogold labeling of the P10 fraction of SARS-CoV-infected (A, B) or uninfected (C) Vero-E6 cells using rabbit antisera recognizing nsp3 (A, C) or nsp4 (B) was followed by negative staining. The white arrow indicates a part of the specimen clearly s... |
PMC2322957_F1_20340.jpg | What can you see in this picture? | Analysis of LV volumes using 3D-echocardiography. In the selected LV image (upper left), the algorithm (4D LV-Analysis CRT 1.0, TomTec) provides semi-automated delineation of the endocardial border (upper right). By superposition of LV contours from 6 insonation planes (lower left) in 3D space, the LV volumes are calcu... |
PMC2322967_F1_20344.jpg | What is the dominant medical problem in this image? | Laser-assisted microdissection of follicles in the ileal PP. Nuclei of the tissue sections were stained with hematoxylin. After laser-assisted dissection of each area (a) the samples were collected (b) using an adhesive membrane and transferred to a cap of a 0.5 ml reaction tube and kept at -20°C until RNA extraction. ... |
PMC2322967_F1_20343.jpg | What is shown in this image? | Laser-assisted microdissection of follicles in the ileal PP. Nuclei of the tissue sections were stained with hematoxylin. After laser-assisted dissection of each area (a) the samples were collected (b) using an adhesive membrane and transferred to a cap of a 0.5 ml reaction tube and kept at -20°C until RNA extraction. ... |
PMC2322992_F2_20350.jpg | What object or scene is depicted here? | Stress perfusion (top), resting perfusion (middle) and late post-gadolinium imaging shows a significant subendocardial perfusion abnormality, most prominent along the basal inferoseptum as seen in the horizontal long axis (left) and basal short axis (right) planes. Corresponding LGE images show no hyperenhancement in t... |
PMC2322992_F2_20347.jpg | What does this image primarily show? | Stress perfusion (top), resting perfusion (middle) and late post-gadolinium imaging shows a significant subendocardial perfusion abnormality, most prominent along the basal inferoseptum as seen in the horizontal long axis (left) and basal short axis (right) planes. Corresponding LGE images show no hyperenhancement in t... |
PMC2322992_F2_20349.jpg | Can you identify the primary element in this image? | Stress perfusion (top), resting perfusion (middle) and late post-gadolinium imaging shows a significant subendocardial perfusion abnormality, most prominent along the basal inferoseptum as seen in the horizontal long axis (left) and basal short axis (right) planes. Corresponding LGE images show no hyperenhancement in t... |
PMC2322992_F2_20352.jpg | What is the main focus of this visual representation? | Stress perfusion (top), resting perfusion (middle) and late post-gadolinium imaging shows a significant subendocardial perfusion abnormality, most prominent along the basal inferoseptum as seen in the horizontal long axis (left) and basal short axis (right) planes. Corresponding LGE images show no hyperenhancement in t... |
PMC2322992_F2_20348.jpg | Describe the main subject of this image. | Stress perfusion (top), resting perfusion (middle) and late post-gadolinium imaging shows a significant subendocardial perfusion abnormality, most prominent along the basal inferoseptum as seen in the horizontal long axis (left) and basal short axis (right) planes. Corresponding LGE images show no hyperenhancement in t... |
PMC2322992_F3_20345.jpg | What object or scene is depicted here? | Invasive coronary angiography shows no disease in the epicardial coronary arteries with right coronary artery dominance. |
PMC2323006_F1_20353.jpg | What is shown in this image? | Esophago-gastroscopy. Preoperative esophago-gastroscopy, showing an ulcerous lesion of the esophagogastric junction. |
PMC2323006_F2_20354.jpg | What is shown in this image? | Initial CT-Scan. Initial CT scan showing the advanced tumor of the esophagogastric junction before starting neoadjuvant therapy. |
PMC2323006_F6_20357.jpg | What is the core subject represented in this visual? | Postoperative CT-Scan. Postoperative follow-up CT scan after 18 months showing the jejunal interposition (gastro-jejunostomy: interrupted arrow). |
PMC2323011_F1_20360.jpg | What is shown in this image? | Skeletal scintigraphy showing diffusely increased uptake and the absent kidney sign (a super scan). |
PMC2323011_F1_20359.jpg | What is shown in this image? | Skeletal scintigraphy showing diffusely increased uptake and the absent kidney sign (a super scan). |
PMC2323011_F3_20361.jpg | What is the central feature of this picture? | X-ray of the femur showing extensive characteristic periosteal bone apposition. |
PMC2323013_F2_20363.jpg | What is the central feature of this picture? | Contrast-enhanced CT-scan images with maximum intensity projections showing an intravascular filling defect in the left ovarian vein. 3D-reconstruction showing an intravascular filling defect in the left ovarian vein (open arrow) related to thrombosis. No thrombus progression into the left renal vein was observed (arro... |
PMC2323013_F2_20364.jpg | What is the main focus of this visual representation? | Contrast-enhanced CT-scan images with maximum intensity projections showing an intravascular filling defect in the left ovarian vein. 3D-reconstruction showing an intravascular filling defect in the left ovarian vein (open arrow) related to thrombosis. No thrombus progression into the left renal vein was observed (arro... |
PMC2323013_F3_20365.jpg | What's the most prominent thing you notice in this picture? | Contrast-enhanced CT-scan images with maximum intensity projections showing a large number of uterine variceal vessels. Three-dimensional reconstruction and anteroposterior view in which a large number of uterine variceal vessels can be seen (open arrow) as well as collateral venous drainage pathways (solid arrow). |
PMC2323113_pone-0002084-g001_20409.jpg | What does this image primarily show? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20412.jpg | Can you identify the primary element in this image? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20408.jpg | What does this image primarily show? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20397.jpg | What is shown in this image? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20399.jpg | Can you identify the primary element in this image? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20411.jpg | What is the dominant medical problem in this image? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20402.jpg | What object or scene is depicted here? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20398.jpg | Can you identify the primary element in this image? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20407.jpg | What is the central feature of this picture? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20410.jpg | Can you identify the primary element in this image? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20406.jpg | What key item or scene is captured in this photo? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20404.jpg | What is the central feature of this picture? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20400.jpg | What key item or scene is captured in this photo? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20403.jpg | What is the core subject represented in this visual? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g001_20401.jpg | What does this image primarily show? | Localization of Dg at the NMJ.A-D) Dg (A2, B2, C2, D2) and HRP (A3, B3, C3, D3) immunoreactivity at the NMJ of muscle 4. Merge of both images with Dg in magenta and HRP in green (A1, B1, C1, D1). The LG5 antibody was used to analyze Dg localization. (A) In wild-type (ywCS) flies, Dg concentration is clearly visible at ... |
PMC2323113_pone-0002084-g003_20370.jpg | What stands out most in this visual? | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g003_20371.jpg | Describe the main subject of this image. | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g003_20368.jpg | What is the main focus of this visual representation? | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g003_20374.jpg | What can you see in this picture? | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g003_20372.jpg | What stands out most in this visual? | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g003_20369.jpg | What is the principal component of this image? | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g003_20373.jpg | What's the most prominent thing you notice in this picture? | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g003_20375.jpg | What key item or scene is captured in this photo? | Dg controls synaptic Dys localization.Triple staining for HRP (blue), Dys (red) and Dlg (green) in control (ywCS) (A), dg mutant (B) and Dg-C overexpressing (C) larvae. Merge images are shown in A1, B1, C1. Single channel stainings are shown in A2, B2, C2 for HRP, A3, B3, C3 for Dys and A4, B4, C4 for Dlg. In dge01554/... |
PMC2323113_pone-0002084-g005_20382.jpg | What does this image primarily show? | Dg controls postsynaptic Cora concentration.Double staining for Cora (Magenta) and HRP (green)(1) in (A) control (ywCS) larvae, (B) larvae expressing muscle dg-RNAi (dg-RNAi/+; 24B Gal4/dg-RNAi), (C) dge01554/dg323 mutant larvae and (D) larvae overexpressing Dg-C in muscles (24B-Gal4/UAS-DgC). Arrows indicate patches o... |
PMC2323113_pone-0002084-g005_20384.jpg | What is the dominant medical problem in this image? | Dg controls postsynaptic Cora concentration.Double staining for Cora (Magenta) and HRP (green)(1) in (A) control (ywCS) larvae, (B) larvae expressing muscle dg-RNAi (dg-RNAi/+; 24B Gal4/dg-RNAi), (C) dge01554/dg323 mutant larvae and (D) larvae overexpressing Dg-C in muscles (24B-Gal4/UAS-DgC). Arrows indicate patches o... |
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