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PMC1952177_pone-0000848-g004_13364.jpg | What can you see in this picture? | The fine structure of large and small prefrontal terminations in the ventral anterior nucleus.The photographs were obtained from single two-dimensional sections. A–C, Electron microscopic (EM) photomicrographs showing small labeled boutons (sb) forming synapses with PV+ dendrites (d; black rods or grains, yellow arrowh... |
PMC1952177_pone-0000848-g004_13361.jpg | What is shown in this image? | The fine structure of large and small prefrontal terminations in the ventral anterior nucleus.The photographs were obtained from single two-dimensional sections. A–C, Electron microscopic (EM) photomicrographs showing small labeled boutons (sb) forming synapses with PV+ dendrites (d; black rods or grains, yellow arrowh... |
PMC1952177_pone-0000848-g004_13362.jpg | What is the focal point of this photograph? | The fine structure of large and small prefrontal terminations in the ventral anterior nucleus.The photographs were obtained from single two-dimensional sections. A–C, Electron microscopic (EM) photomicrographs showing small labeled boutons (sb) forming synapses with PV+ dendrites (d; black rods or grains, yellow arrowh... |
PMC1952177_pone-0000848-g004_13363.jpg | What is the central feature of this picture? | The fine structure of large and small prefrontal terminations in the ventral anterior nucleus.The photographs were obtained from single two-dimensional sections. A–C, Electron microscopic (EM) photomicrographs showing small labeled boutons (sb) forming synapses with PV+ dendrites (d; black rods or grains, yellow arrowh... |
PMC1952177_pone-0000848-g004_13367.jpg | What can you see in this picture? | The fine structure of large and small prefrontal terminations in the ventral anterior nucleus.The photographs were obtained from single two-dimensional sections. A–C, Electron microscopic (EM) photomicrographs showing small labeled boutons (sb) forming synapses with PV+ dendrites (d; black rods or grains, yellow arrowh... |
PMC1952177_pone-0000848-g004_13366.jpg | What is the focal point of this photograph? | The fine structure of large and small prefrontal terminations in the ventral anterior nucleus.The photographs were obtained from single two-dimensional sections. A–C, Electron microscopic (EM) photomicrographs showing small labeled boutons (sb) forming synapses with PV+ dendrites (d; black rods or grains, yellow arrowh... |
PMC1952204_pmed-0040262-g005_13369.jpg | Can you identify the primary element in this image? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13375.jpg | What is the core subject represented in this visual? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13371.jpg | What is the principal component of this image? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13378.jpg | Can you identify the primary element in this image? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13381.jpg | What key item or scene is captured in this photo? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13377.jpg | What does this image primarily show? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13379.jpg | What is the principal component of this image? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13380.jpg | What can you see in this picture? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1952204_pmed-0040262-g005_13382.jpg | What is being portrayed in this visual content? | Reduction in Hippocampal Plaque Burden following sNEP Cell EngraftmentAged J20 APP transgenic mice were implanted with fibroblasts expressing either sNEP (n = 5) (A, C, E, and G) or GFP (n = 3) (B, D, F, and H). Cells were stereotaxically placed into the right (ipsilateral, right) hippocampus, with the uninjected left ... |
PMC1955230_fig2_13384.jpg | What stands out most in this visual? | An illustration of advances in structural cell biology (a and b) and structural molecular biology (c and d). (a) Drawings of ‘animalcules’ seen by van Leeuwenhoek in a single lens microscope (figure 3 in the reference Leeuwenhoek 1683). (b) Visualization of the actin network (orange colour) and cytoplasmic complexes (l... |
PMC1955230_fig2_13385.jpg | Can you identify the primary element in this image? | An illustration of advances in structural cell biology (a and b) and structural molecular biology (c and d). (a) Drawings of ‘animalcules’ seen by van Leeuwenhoek in a single lens microscope (figure 3 in the reference Leeuwenhoek 1683). (b) Visualization of the actin network (orange colour) and cytoplasmic complexes (l... |
PMC1955445_F1_13388.jpg | What object or scene is depicted here? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13390.jpg | What's the most prominent thing you notice in this picture? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13397.jpg | What object or scene is depicted here? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13392.jpg | What is the central feature of this picture? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13391.jpg | What stands out most in this visual? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13395.jpg | Describe the main subject of this image. | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13394.jpg | What's the most prominent thing you notice in this picture? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13396.jpg | What can you see in this picture? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F1_13393.jpg | What stands out most in this visual? | Macroscopic phenotypes of the edr2-6 mutant. (A, B) Uninfected plants at 25 d after germination; (A) wild type (B) edr2-6. (C, D, F-L) Three-week-old plants photographed at 7 dpi with G. cichoracearum (C) wild type, (D) edr2-6, (E) edr2-6 (1) The top-half or the (2) bottom-half of each leaf was covered with medical tap... |
PMC1955445_F8_13403.jpg | What can you see in this picture? | EDR2 localizes to multiple subcellular compartments. (A) EDR2:HA:eGFP construct, CH2. Note, the eGFP sequence included the sequence for 10 Ala at the N-terminus (pink block). (B) EDR2:HA:GFP (labeled CH2) restores the edr2-6 mutant to disease susceptibility and suppresses the chlorosis and necrosis phenotype. For each ... |
PMC1955445_F8_13400.jpg | What is the main focus of this visual representation? | EDR2 localizes to multiple subcellular compartments. (A) EDR2:HA:eGFP construct, CH2. Note, the eGFP sequence included the sequence for 10 Ala at the N-terminus (pink block). (B) EDR2:HA:GFP (labeled CH2) restores the edr2-6 mutant to disease susceptibility and suppresses the chlorosis and necrosis phenotype. For each ... |
PMC1955445_F8_13406.jpg | Can you identify the primary element in this image? | EDR2 localizes to multiple subcellular compartments. (A) EDR2:HA:eGFP construct, CH2. Note, the eGFP sequence included the sequence for 10 Ala at the N-terminus (pink block). (B) EDR2:HA:GFP (labeled CH2) restores the edr2-6 mutant to disease susceptibility and suppresses the chlorosis and necrosis phenotype. For each ... |
PMC1955445_F8_13401.jpg | What's the most prominent thing you notice in this picture? | EDR2 localizes to multiple subcellular compartments. (A) EDR2:HA:eGFP construct, CH2. Note, the eGFP sequence included the sequence for 10 Ala at the N-terminus (pink block). (B) EDR2:HA:GFP (labeled CH2) restores the edr2-6 mutant to disease susceptibility and suppresses the chlorosis and necrosis phenotype. For each ... |
PMC1955445_F8_13402.jpg | What key item or scene is captured in this photo? | EDR2 localizes to multiple subcellular compartments. (A) EDR2:HA:eGFP construct, CH2. Note, the eGFP sequence included the sequence for 10 Ala at the N-terminus (pink block). (B) EDR2:HA:GFP (labeled CH2) restores the edr2-6 mutant to disease susceptibility and suppresses the chlorosis and necrosis phenotype. For each ... |
PMC1955445_F8_13404.jpg | Describe the main subject of this image. | EDR2 localizes to multiple subcellular compartments. (A) EDR2:HA:eGFP construct, CH2. Note, the eGFP sequence included the sequence for 10 Ala at the N-terminus (pink block). (B) EDR2:HA:GFP (labeled CH2) restores the edr2-6 mutant to disease susceptibility and suppresses the chlorosis and necrosis phenotype. For each ... |
PMC1955451_F3_13418.jpg | What is the focal point of this photograph? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13424.jpg | What is the principal component of this image? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13423.jpg | What is the principal component of this image? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13421.jpg | What is the central feature of this picture? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13425.jpg | What can you see in this picture? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13420.jpg | What stands out most in this visual? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13414.jpg | What is the principal component of this image? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13428.jpg | What is the focal point of this photograph? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13417.jpg | What is the focal point of this photograph? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13416.jpg | What can you see in this picture? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13419.jpg | What is the central feature of this picture? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13426.jpg | What is the principal component of this image? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F3_13415.jpg | What's the most prominent thing you notice in this picture? | Ablation of GR protein expression in neurons of the adult brain upon tamoxifen treatment. Vibratome-sections of mice homozygous for a conditional GR allele (GRflox) and heterozygous for the CaMKCreERT2 transgene (GRCaMKCreERT2 mice) have been analyzed by immunohistochemistry. GR protein is expressed in vehicle-treated ... |
PMC1955451_F4_13412.jpg | What is being portrayed in this visual content? | CreERT2-mediated recombination within the adult hippocampus depends on the transgene copy number and the tamoxifen dose. Pyramidal neurons in the hippocampal CA1 region of GRCaMKCreERT2 and control animals were analyzed by immunohistochemistry on vibratome-sections using an antibody against GR. Mice were injected with ... |
PMC1955451_F4_13409.jpg | What object or scene is depicted here? | CreERT2-mediated recombination within the adult hippocampus depends on the transgene copy number and the tamoxifen dose. Pyramidal neurons in the hippocampal CA1 region of GRCaMKCreERT2 and control animals were analyzed by immunohistochemistry on vibratome-sections using an antibody against GR. Mice were injected with ... |
PMC1955451_F4_13408.jpg | What is the principal component of this image? | CreERT2-mediated recombination within the adult hippocampus depends on the transgene copy number and the tamoxifen dose. Pyramidal neurons in the hippocampal CA1 region of GRCaMKCreERT2 and control animals were analyzed by immunohistochemistry on vibratome-sections using an antibody against GR. Mice were injected with ... |
PMC1955451_F4_13413.jpg | What key item or scene is captured in this photo? | CreERT2-mediated recombination within the adult hippocampus depends on the transgene copy number and the tamoxifen dose. Pyramidal neurons in the hippocampal CA1 region of GRCaMKCreERT2 and control animals were analyzed by immunohistochemistry on vibratome-sections using an antibody against GR. Mice were injected with ... |
PMC1955451_F4_13410.jpg | What does this image primarily show? | CreERT2-mediated recombination within the adult hippocampus depends on the transgene copy number and the tamoxifen dose. Pyramidal neurons in the hippocampal CA1 region of GRCaMKCreERT2 and control animals were analyzed by immunohistochemistry on vibratome-sections using an antibody against GR. Mice were injected with ... |
PMC1955451_F4_13407.jpg | Describe the main subject of this image. | CreERT2-mediated recombination within the adult hippocampus depends on the transgene copy number and the tamoxifen dose. Pyramidal neurons in the hippocampal CA1 region of GRCaMKCreERT2 and control animals were analyzed by immunohistochemistry on vibratome-sections using an antibody against GR. Mice were injected with ... |
PMC1959122_pone-0000855-g004_13430.jpg | What is the focal point of this photograph? | The behavior of a cell with well-tuned transcriptional regulation of the enzyme production.The normalized growth rate (see figure 2) was optimized for those A
ext indicated by points, with an equal number of generations spent in each environment. The resulting system responds to A
ext as indicated by the thick curve. F... |
PMC1959185_pone-0000867-g001_13433.jpg | What is the core subject represented in this visual? | Magnetic resonance imaging (MRI) scan of intracranial electrodes implanted into the medial temporal lobe (a and b panels, coronal and sagittal views, respectively).Red line cross indicates the location of the two electrode contacts within the hippocampus. C and d panels show the MRI scan of the same locations before th... |
PMC1959185_pone-0000867-g001_13432.jpg | What can you see in this picture? | Magnetic resonance imaging (MRI) scan of intracranial electrodes implanted into the medial temporal lobe (a and b panels, coronal and sagittal views, respectively).Red line cross indicates the location of the two electrode contacts within the hippocampus. C and d panels show the MRI scan of the same locations before th... |
PMC1959185_pone-0000867-g001_13435.jpg | What can you see in this picture? | Magnetic resonance imaging (MRI) scan of intracranial electrodes implanted into the medial temporal lobe (a and b panels, coronal and sagittal views, respectively).Red line cross indicates the location of the two electrode contacts within the hippocampus. C and d panels show the MRI scan of the same locations before th... |
PMC1959191_F3_13443.jpg | What's the most prominent thing you notice in this picture? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13441.jpg | What is being portrayed in this visual content? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13444.jpg | Can you identify the primary element in this image? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13436.jpg | What is the main focus of this visual representation? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13445.jpg | What key item or scene is captured in this photo? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13440.jpg | What is the core subject represented in this visual? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13437.jpg | What is the focal point of this photograph? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13442.jpg | What's the most prominent thing you notice in this picture? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959191_F3_13438.jpg | What stands out most in this visual? | Localization of the episome in interphase nuclei. The qualitative co-localization of the episome with subnuclear structures in interphase nuclei was analyzed using pEPI FISH (A-J). In some experiments pEPI FISH was used in combination with immunofluorescence techniques to analyse the co-localization of pEPI with subnuc... |
PMC1959235_F5_13446.jpg | What can you see in this picture? | Effect of c-Jun overexpression on potential of MCF-7 tumor liver metastases in nude mice. Mice were injected intravenously with 3 × 106 tumor cells in a volume of 200 μl via the lateral tail vein. The livers were autopsied 3–4 weeks post injection and tissues with metastases were photographed for gross morphology or pr... |
PMC1959235_F5_13448.jpg | What does this image primarily show? | Effect of c-Jun overexpression on potential of MCF-7 tumor liver metastases in nude mice. Mice were injected intravenously with 3 × 106 tumor cells in a volume of 200 μl via the lateral tail vein. The livers were autopsied 3–4 weeks post injection and tissues with metastases were photographed for gross morphology or pr... |
PMC1959373_ppat-0030115-g001_13450.jpg | Describe the main subject of this image. | TgSOD2 Contains an Unusual Bipartite N-Terminal Signal and Is Targeted to both Mitochondrion and Apicoplast(A) Alignment of the N-termini of SOD sequences from apicomplexan parasites and two bacteria. Putative SPs as predicted by SignalP are underlined in black, and putative mitochondrial transit peptides as predicted ... |
PMC1959373_ppat-0030115-g001_13455.jpg | What is the dominant medical problem in this image? | TgSOD2 Contains an Unusual Bipartite N-Terminal Signal and Is Targeted to both Mitochondrion and Apicoplast(A) Alignment of the N-termini of SOD sequences from apicomplexan parasites and two bacteria. Putative SPs as predicted by SignalP are underlined in black, and putative mitochondrial transit peptides as predicted ... |
PMC1959373_ppat-0030115-g001_13452.jpg | What is shown in this image? | TgSOD2 Contains an Unusual Bipartite N-Terminal Signal and Is Targeted to both Mitochondrion and Apicoplast(A) Alignment of the N-termini of SOD sequences from apicomplexan parasites and two bacteria. Putative SPs as predicted by SignalP are underlined in black, and putative mitochondrial transit peptides as predicted ... |
PMC1959517_F6_13458.jpg | What is the main focus of this visual representation? | Life cell imaging. Fluorescence microscopy of growing E. coli cells. A) Nomarski DIC (bright field) image and GFP channel of cells expressing NuoJ-GFP, B) FM4-64 stained membranes or GFP fluorescence of cells expressing CyaY-GFP. White bars 2 μm. |
PMC1959517_F6_13457.jpg | What is the principal component of this image? | Life cell imaging. Fluorescence microscopy of growing E. coli cells. A) Nomarski DIC (bright field) image and GFP channel of cells expressing NuoJ-GFP, B) FM4-64 stained membranes or GFP fluorescence of cells expressing CyaY-GFP. White bars 2 μm. |
PMC1959517_F6_13459.jpg | What is the central feature of this picture? | Life cell imaging. Fluorescence microscopy of growing E. coli cells. A) Nomarski DIC (bright field) image and GFP channel of cells expressing NuoJ-GFP, B) FM4-64 stained membranes or GFP fluorescence of cells expressing CyaY-GFP. White bars 2 μm. |
PMC1963318_pone-0000891-g003_13463.jpg | What is the central feature of this picture? | a) cortical networks activated by the decision task relating to action observation vs rest (Vd-Perc vs rest, red) and action observation vs perceptual decisions on photos of the same objects (Vd-Perc vs Ph-Perc, blue). The large bihemispheric networks found for both contrasts were very similar, suggesting that the fMRI... |
PMC1963318_pone-0000891-g003_13465.jpg | What is the main focus of this visual representation? | a) cortical networks activated by the decision task relating to action observation vs rest (Vd-Perc vs rest, red) and action observation vs perceptual decisions on photos of the same objects (Vd-Perc vs Ph-Perc, blue). The large bihemispheric networks found for both contrasts were very similar, suggesting that the fMRI... |
PMC1963318_pone-0000891-g003_13464.jpg | What can you see in this picture? | a) cortical networks activated by the decision task relating to action observation vs rest (Vd-Perc vs rest, red) and action observation vs perceptual decisions on photos of the same objects (Vd-Perc vs Ph-Perc, blue). The large bihemispheric networks found for both contrasts were very similar, suggesting that the fMRI... |
PMC1963318_pone-0000891-g004_13462.jpg | What's the most prominent thing you notice in this picture? | Areas showing a significantly higher activation for decision on action observation (“is the hand holding the object with all five fingers?”) than for conceptual or phonological tasks involving the same video stimuli (Vd-Perc > (Vd-Phon+Vd-Conc)).Comparison with the bilateral network for action observation (Fig. 3a) rev... |
PMC1963318_pone-0000891-g004_13461.jpg | What is the central feature of this picture? | Areas showing a significantly higher activation for decision on action observation (“is the hand holding the object with all five fingers?”) than for conceptual or phonological tasks involving the same video stimuli (Vd-Perc > (Vd-Phon+Vd-Conc)).Comparison with the bilateral network for action observation (Fig. 3a) rev... |
PMC1963326_F7_13467.jpg | What object or scene is depicted here? | (a and b). Histopathology of a Sweet's syndrome lesion from a patient with concurrent erythema nodosum. Skin biopsy from one of the Sweet's syndrome plaques on the right dorsal wrist of a woman with concurrent biopsy-confirmed Sweet's sydrome and biopsy-confirmed erythema nodosum. The characteristic histopathologic fea... |
PMC1963326_F7_13466.jpg | What is the central feature of this picture? | (a and b). Histopathology of a Sweet's syndrome lesion from a patient with concurrent erythema nodosum. Skin biopsy from one of the Sweet's syndrome plaques on the right dorsal wrist of a woman with concurrent biopsy-confirmed Sweet's sydrome and biopsy-confirmed erythema nodosum. The characteristic histopathologic fea... |
PMC1963332_F9_13475.jpg | What is the dominant medical problem in this image? | Synthesis/transport of synaptic vesicle in wing nerve of sGC mutants. The strains P [GawB] elav [C155], P [UAS-syt.eGFP], w* and P [GawB] elav [C155], P [UAS-n-syb.eGFP], w*/FM7 were crossed with sGC mutants (see materials and methods section). Flies bearing one copy of hybrid GFP (first chromosome) and homozygous for ... |
PMC1963332_F9_13472.jpg | What is the main focus of this visual representation? | Synthesis/transport of synaptic vesicle in wing nerve of sGC mutants. The strains P [GawB] elav [C155], P [UAS-syt.eGFP], w* and P [GawB] elav [C155], P [UAS-n-syb.eGFP], w*/FM7 were crossed with sGC mutants (see materials and methods section). Flies bearing one copy of hybrid GFP (first chromosome) and homozygous for ... |
PMC1963332_F9_13476.jpg | What does this image primarily show? | Synthesis/transport of synaptic vesicle in wing nerve of sGC mutants. The strains P [GawB] elav [C155], P [UAS-syt.eGFP], w* and P [GawB] elav [C155], P [UAS-n-syb.eGFP], w*/FM7 were crossed with sGC mutants (see materials and methods section). Flies bearing one copy of hybrid GFP (first chromosome) and homozygous for ... |
PMC1963332_F9_13477.jpg | What is being portrayed in this visual content? | Synthesis/transport of synaptic vesicle in wing nerve of sGC mutants. The strains P [GawB] elav [C155], P [UAS-syt.eGFP], w* and P [GawB] elav [C155], P [UAS-n-syb.eGFP], w*/FM7 were crossed with sGC mutants (see materials and methods section). Flies bearing one copy of hybrid GFP (first chromosome) and homozygous for ... |
PMC1963332_F9_13473.jpg | What does this image primarily show? | Synthesis/transport of synaptic vesicle in wing nerve of sGC mutants. The strains P [GawB] elav [C155], P [UAS-syt.eGFP], w* and P [GawB] elav [C155], P [UAS-n-syb.eGFP], w*/FM7 were crossed with sGC mutants (see materials and methods section). Flies bearing one copy of hybrid GFP (first chromosome) and homozygous for ... |
PMC1963332_F9_13474.jpg | What is the main focus of this visual representation? | Synthesis/transport of synaptic vesicle in wing nerve of sGC mutants. The strains P [GawB] elav [C155], P [UAS-syt.eGFP], w* and P [GawB] elav [C155], P [UAS-n-syb.eGFP], w*/FM7 were crossed with sGC mutants (see materials and methods section). Flies bearing one copy of hybrid GFP (first chromosome) and homozygous for ... |
PMC1963332_F9_13479.jpg | What is the principal component of this image? | Synthesis/transport of synaptic vesicle in wing nerve of sGC mutants. The strains P [GawB] elav [C155], P [UAS-syt.eGFP], w* and P [GawB] elav [C155], P [UAS-n-syb.eGFP], w*/FM7 were crossed with sGC mutants (see materials and methods section). Flies bearing one copy of hybrid GFP (first chromosome) and homozygous for ... |
PMC1963335_F1_13468.jpg | What is shown in this image? | Brain metastases in vivo spectra. Axial T1 weighted contrast enhanced MR images of two patients with brain metastases from breast cancer (patient 1 and 12) with corresponding spectra. A: short echo time spectra of two metastases (a and b). B: Short and long echo time spectra in the same VOI. The lipid peak at 1.3 ppm i... |
PMC1963445_F2_13482.jpg | What's the most prominent thing you notice in this picture? | Illustration of the examination process. (a) 4 s after a bolus injection of the self-made contrast agent. First, the contrast agent arrived at the hepatic artery (arrow) 4 s after the injection. PV was only slightly enhanced. (b) 6 s after a bolus injection of the self-made contrast agent. The contrast agent then arriv... |
PMC1963445_F2_13481.jpg | Describe the main subject of this image. | Illustration of the examination process. (a) 4 s after a bolus injection of the self-made contrast agent. First, the contrast agent arrived at the hepatic artery (arrow) 4 s after the injection. PV was only slightly enhanced. (b) 6 s after a bolus injection of the self-made contrast agent. The contrast agent then arriv... |
PMC1964536_pone-0000859-g002_13484.jpg | What is the dominant medical problem in this image? | PET blot analysis identifying PrPSc in the tubular structures of the cortex and medulla in naturally scrapie-sick Sarda sheep.(A) Brains of scrapie-sick (left) and healthy sheep (right) as a control for PET blot analysis procedure. Scale bar = 100 µm. (B) Low magnification of transverse paraffin sections from kidneys o... |
PMC1964536_pone-0000859-g002_13488.jpg | What does this image primarily show? | PET blot analysis identifying PrPSc in the tubular structures of the cortex and medulla in naturally scrapie-sick Sarda sheep.(A) Brains of scrapie-sick (left) and healthy sheep (right) as a control for PET blot analysis procedure. Scale bar = 100 µm. (B) Low magnification of transverse paraffin sections from kidneys o... |
PMC1964536_pone-0000859-g002_13490.jpg | What is the central feature of this picture? | PET blot analysis identifying PrPSc in the tubular structures of the cortex and medulla in naturally scrapie-sick Sarda sheep.(A) Brains of scrapie-sick (left) and healthy sheep (right) as a control for PET blot analysis procedure. Scale bar = 100 µm. (B) Low magnification of transverse paraffin sections from kidneys o... |
PMC1964536_pone-0000859-g002_13489.jpg | What's the most prominent thing you notice in this picture? | PET blot analysis identifying PrPSc in the tubular structures of the cortex and medulla in naturally scrapie-sick Sarda sheep.(A) Brains of scrapie-sick (left) and healthy sheep (right) as a control for PET blot analysis procedure. Scale bar = 100 µm. (B) Low magnification of transverse paraffin sections from kidneys o... |
PMC1964536_pone-0000859-g002_13486.jpg | What is the focal point of this photograph? | PET blot analysis identifying PrPSc in the tubular structures of the cortex and medulla in naturally scrapie-sick Sarda sheep.(A) Brains of scrapie-sick (left) and healthy sheep (right) as a control for PET blot analysis procedure. Scale bar = 100 µm. (B) Low magnification of transverse paraffin sections from kidneys o... |
PMC1964547_pone-0000782-g004_13496.jpg | What can you see in this picture? | Nvp63 localizes to gametes.A–G Non-radioactive in situ hybridization revealed nvp63 expression in mesenterial gametes. A Adult N. vectensis polyps were sectioned longitudinally in the middle of the body column. B The Hematoxylin and Eosin staining (H&E) of the boxed region in A depicts the three prominent tissues in an... |
PMC1964547_pone-0000782-g004_13497.jpg | What is the central feature of this picture? | Nvp63 localizes to gametes.A–G Non-radioactive in situ hybridization revealed nvp63 expression in mesenterial gametes. A Adult N. vectensis polyps were sectioned longitudinally in the middle of the body column. B The Hematoxylin and Eosin staining (H&E) of the boxed region in A depicts the three prominent tissues in an... |
PMC1964547_pone-0000782-g004_13492.jpg | Describe the main subject of this image. | Nvp63 localizes to gametes.A–G Non-radioactive in situ hybridization revealed nvp63 expression in mesenterial gametes. A Adult N. vectensis polyps were sectioned longitudinally in the middle of the body column. B The Hematoxylin and Eosin staining (H&E) of the boxed region in A depicts the three prominent tissues in an... |
PMC1964547_pone-0000782-g004_13493.jpg | Can you identify the primary element in this image? | Nvp63 localizes to gametes.A–G Non-radioactive in situ hybridization revealed nvp63 expression in mesenterial gametes. A Adult N. vectensis polyps were sectioned longitudinally in the middle of the body column. B The Hematoxylin and Eosin staining (H&E) of the boxed region in A depicts the three prominent tissues in an... |
PMC1964547_pone-0000782-g004_13491.jpg | What stands out most in this visual? | Nvp63 localizes to gametes.A–G Non-radioactive in situ hybridization revealed nvp63 expression in mesenterial gametes. A Adult N. vectensis polyps were sectioned longitudinally in the middle of the body column. B The Hematoxylin and Eosin staining (H&E) of the boxed region in A depicts the three prominent tissues in an... |
PMC1964759_F5_13518.jpg | What stands out most in this visual? | Co-localisation of Hydra 14-3-3 proteins with tubulin and actin. (a, b) right hand panel shows schematic drawings of an epithelial cell (a) and a nerve cell (b) in hydra macerates that were stained with anti-tubulin (green, left hand panel) and anti-14-3-3 antibodies (second panel from left). Single optical sections af... |
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