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PMC1945041_pbio-0050221-g003_12958.jpg | What is the principal component of this image? | Hem-1 Waves Result from Propagated Recruitment and Release of Hem-1, Not a Moving Front of Translocated Protein(A) Control Hem-1-YFP–expressing cells (pre-polarized in uniform chemoattractant) rapidly recover fluorescence intensity following photobleaching, indicating rapid exchange of membrane-bound Hem-1 with the cyt... |
PMC1945041_pbio-0050221-g003_12944.jpg | Describe the main subject of this image. | Hem-1 Waves Result from Propagated Recruitment and Release of Hem-1, Not a Moving Front of Translocated Protein(A) Control Hem-1-YFP–expressing cells (pre-polarized in uniform chemoattractant) rapidly recover fluorescence intensity following photobleaching, indicating rapid exchange of membrane-bound Hem-1 with the cyt... |
PMC1945041_pbio-0050221-g003_12943.jpg | Can you identify the primary element in this image? | Hem-1 Waves Result from Propagated Recruitment and Release of Hem-1, Not a Moving Front of Translocated Protein(A) Control Hem-1-YFP–expressing cells (pre-polarized in uniform chemoattractant) rapidly recover fluorescence intensity following photobleaching, indicating rapid exchange of membrane-bound Hem-1 with the cyt... |
PMC1945041_pbio-0050221-g003_12959.jpg | What stands out most in this visual? | Hem-1 Waves Result from Propagated Recruitment and Release of Hem-1, Not a Moving Front of Translocated Protein(A) Control Hem-1-YFP–expressing cells (pre-polarized in uniform chemoattractant) rapidly recover fluorescence intensity following photobleaching, indicating rapid exchange of membrane-bound Hem-1 with the cyt... |
PMC1945041_pbio-0050221-g003_12946.jpg | What can you see in this picture? | Hem-1 Waves Result from Propagated Recruitment and Release of Hem-1, Not a Moving Front of Translocated Protein(A) Control Hem-1-YFP–expressing cells (pre-polarized in uniform chemoattractant) rapidly recover fluorescence intensity following photobleaching, indicating rapid exchange of membrane-bound Hem-1 with the cyt... |
PMC1945041_pbio-0050221-g003_12951.jpg | What is the central feature of this picture? | Hem-1 Waves Result from Propagated Recruitment and Release of Hem-1, Not a Moving Front of Translocated Protein(A) Control Hem-1-YFP–expressing cells (pre-polarized in uniform chemoattractant) rapidly recover fluorescence intensity following photobleaching, indicating rapid exchange of membrane-bound Hem-1 with the cyt... |
PMC1945041_pbio-0050221-g003_12949.jpg | What is the main focus of this visual representation? | Hem-1 Waves Result from Propagated Recruitment and Release of Hem-1, Not a Moving Front of Translocated Protein(A) Control Hem-1-YFP–expressing cells (pre-polarized in uniform chemoattractant) rapidly recover fluorescence intensity following photobleaching, indicating rapid exchange of membrane-bound Hem-1 with the cyt... |
PMC1945077_pbio-0050192-g002_12960.jpg | What object or scene is depicted here? | Transcription of Myc and Igh Occurs at Transcription Factories in B CellsRNA immuno-FISH (RNA FISH combined with immunodetection of RNAP II) shows the positions of transcribing Myc (A) and Igh (B) alleles (red) relative to transcription factories (green). Shown are deconvoluted, single optical sections of stimulated B ... |
PMC1945077_pbio-0050192-g002_12961.jpg | What's the most prominent thing you notice in this picture? | Transcription of Myc and Igh Occurs at Transcription Factories in B CellsRNA immuno-FISH (RNA FISH combined with immunodetection of RNAP II) shows the positions of transcribing Myc (A) and Igh (B) alleles (red) relative to transcription factories (green). Shown are deconvoluted, single optical sections of stimulated B ... |
PMC1947980_F3_12965.jpg | What's the most prominent thing you notice in this picture? | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F3_12967.jpg | What key item or scene is captured in this photo? | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F3_12968.jpg | What can you see in this picture? | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F3_12969.jpg | What's the most prominent thing you notice in this picture? | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F3_12971.jpg | What stands out most in this visual? | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F3_12962.jpg | What can you see in this picture? | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F3_12963.jpg | Describe the main subject of this image. | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F3_12964.jpg | Can you identify the primary element in this image? | Axon wiring defects in lola-/- MARCM clones. Representative confocal images of (a) wild-type control and (b) lola-/- adNB (1), lNB (2) vNB (3) and DL1 SC (4) clones showing PN axons near their normal target: the mushroom body (MB) and lateral horn (LH), both marked by blue dotted circles. (c) Example of an axon mistarg... |
PMC1947980_F5_13002.jpg | What's the most prominent thing you notice in this picture? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_12987.jpg | What stands out most in this visual? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_12989.jpg | What is being portrayed in this visual content? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_12988.jpg | Describe the main subject of this image. | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_12997.jpg | Describe the main subject of this image. | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_13000.jpg | What is the focal point of this photograph? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_12994.jpg | What is the central feature of this picture? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_13003.jpg | What can you see in this picture? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_12999.jpg | What is the principal component of this image? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F5_12995.jpg | What does this image primarily show? | Effects of overexpressing different lola isoforms on dendritic and axonal phenotypes. Representative confocal images of (a) control and (b-f) Gal4-GH146 MARCM overexpression phenotypes in vNB (1), DL1 (2) and DL1 axon (3). UAS-lola A (b) overexpression shows little defects, whereas UAS-lola L (c) and UAS-lola T (d-f) s... |
PMC1947980_F6_12983.jpg | What does this image primarily show? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12980.jpg | What is shown in this image? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12978.jpg | Can you identify the primary element in this image? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12977.jpg | What is the main focus of this visual representation? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12975.jpg | What is the main focus of this visual representation? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12984.jpg | What can you see in this picture? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12985.jpg | What object or scene is depicted here? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12986.jpg | What is the central feature of this picture? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12972.jpg | What is the main focus of this visual representation? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12976.jpg | What is shown in this image? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947980_F6_12979.jpg | What's the most prominent thing you notice in this picture? | UAS-transgene overexpression in lola-/- MARCM clones results in additive dendritic and axonal targeting defects. Representative images of (a) control and (b-e) experimental conditions as indicated for the vNB (1), DL1 single-cell dendrite (2) and axon (3) phenotypes of UAS-lola A (c), UAS-lola L (d) and UAS-lola T (e) ... |
PMC1947985_F1_13004.jpg | What stands out most in this visual? | Coronal view of computerized tomography myelography visualizing the ventral rootlets. The number or size of rootlets and the connection with the cord are well visualized. |
PMC1947985_F1_13005.jpg | What is the dominant medical problem in this image? | Coronal view of computerized tomography myelography visualizing the ventral rootlets. The number or size of rootlets and the connection with the cord are well visualized. |
PMC1947985_F2_13006.jpg | What object or scene is depicted here? | Oblique coronal view of computerized tomography myelography visualizing the dorsal rootlets. |
PMC1947985_F3_13007.jpg | What is being portrayed in this visual content? | Axial view of computerized tomography myelography visualizing only a part of the rootlets. |
PMC1947996_F2_13010.jpg | What stands out most in this visual? | Autoradiograms of the Southern blot analysis of the presence of Rxfp1 and Rxfp2 mRNA in the vas deferens (NW = not washed, W = washed to remove spermatozoa) and in spermatozoa removed from the cauda epididymis. The amount of cDNA used from the vas deferens was 2 μL. Exposure to film was 2 h for Rxfp1 and 1 h for Rxfp2 ... |
PMC1947996_F2_13008.jpg | Can you identify the primary element in this image? | Autoradiograms of the Southern blot analysis of the presence of Rxfp1 and Rxfp2 mRNA in the vas deferens (NW = not washed, W = washed to remove spermatozoa) and in spermatozoa removed from the cauda epididymis. The amount of cDNA used from the vas deferens was 2 μL. Exposure to film was 2 h for Rxfp1 and 1 h for Rxfp2 ... |
PMC1948005_F2_13026.jpg | What does this image primarily show? | From left to right: transaxial FDG PET-, transaxial FMISO PET-, CDS- and transaxial CT scans in two different patients. A:with a normoxic tumor (pO2 ≤ 2.5 mmHg = 13.0%, pO2 ≤ 5.0 mmHg = 15.1%, pO2 ≤ 10.0 mmHg = 17.0%, median pO2 = 36.2 mmHg, mean pO2 = 41.1 mmHg; CPD = 12.05%; FDGSUVmax = 17.84, FDGSUVmean = 14.80; FMI... |
PMC1948005_F2_13022.jpg | What's the most prominent thing you notice in this picture? | From left to right: transaxial FDG PET-, transaxial FMISO PET-, CDS- and transaxial CT scans in two different patients. A:with a normoxic tumor (pO2 ≤ 2.5 mmHg = 13.0%, pO2 ≤ 5.0 mmHg = 15.1%, pO2 ≤ 10.0 mmHg = 17.0%, median pO2 = 36.2 mmHg, mean pO2 = 41.1 mmHg; CPD = 12.05%; FDGSUVmax = 17.84, FDGSUVmean = 14.80; FMI... |
PMC1948005_F2_13020.jpg | What is shown in this image? | From left to right: transaxial FDG PET-, transaxial FMISO PET-, CDS- and transaxial CT scans in two different patients. A:with a normoxic tumor (pO2 ≤ 2.5 mmHg = 13.0%, pO2 ≤ 5.0 mmHg = 15.1%, pO2 ≤ 10.0 mmHg = 17.0%, median pO2 = 36.2 mmHg, mean pO2 = 41.1 mmHg; CPD = 12.05%; FDGSUVmax = 17.84, FDGSUVmean = 14.80; FMI... |
PMC1948005_F2_13021.jpg | What is being portrayed in this visual content? | From left to right: transaxial FDG PET-, transaxial FMISO PET-, CDS- and transaxial CT scans in two different patients. A:with a normoxic tumor (pO2 ≤ 2.5 mmHg = 13.0%, pO2 ≤ 5.0 mmHg = 15.1%, pO2 ≤ 10.0 mmHg = 17.0%, median pO2 = 36.2 mmHg, mean pO2 = 41.1 mmHg; CPD = 12.05%; FDGSUVmax = 17.84, FDGSUVmean = 14.80; FMI... |
PMC1948005_F2_13023.jpg | What is being portrayed in this visual content? | From left to right: transaxial FDG PET-, transaxial FMISO PET-, CDS- and transaxial CT scans in two different patients. A:with a normoxic tumor (pO2 ≤ 2.5 mmHg = 13.0%, pO2 ≤ 5.0 mmHg = 15.1%, pO2 ≤ 10.0 mmHg = 17.0%, median pO2 = 36.2 mmHg, mean pO2 = 41.1 mmHg; CPD = 12.05%; FDGSUVmax = 17.84, FDGSUVmean = 14.80; FMI... |
PMC1948005_F3_13012.jpg | What stands out most in this visual? | Outlier patient 4, transaxial FDG PET- (A), transaxial FMISO PET- (B), CDS- (C) and transaxial CT (D) scans (pO2 = 2.5 mmHg= 43.0%, pO2 = 5.0 mmHg = 53.0%, pO2 = 10.0 mmHg = 71.5%, median pO2 = 3.7 mmHg, mean pO2 = 8.8 mmHg; CPD = 2.96%; FDGSUVmax = 4.80, FDGSUVmean = 4.55; FMISOT/M = 1.19, FMISOT/B = 1.11). 1/2 = dist... |
PMC1948005_F3_13019.jpg | What is the focal point of this photograph? | Outlier patient 4, transaxial FDG PET- (A), transaxial FMISO PET- (B), CDS- (C) and transaxial CT (D) scans (pO2 = 2.5 mmHg= 43.0%, pO2 = 5.0 mmHg = 53.0%, pO2 = 10.0 mmHg = 71.5%, median pO2 = 3.7 mmHg, mean pO2 = 8.8 mmHg; CPD = 2.96%; FDGSUVmax = 4.80, FDGSUVmean = 4.55; FMISOT/M = 1.19, FMISOT/B = 1.11). 1/2 = dist... |
PMC1948005_F3_13018.jpg | What key item or scene is captured in this photo? | Outlier patient 4, transaxial FDG PET- (A), transaxial FMISO PET- (B), CDS- (C) and transaxial CT (D) scans (pO2 = 2.5 mmHg= 43.0%, pO2 = 5.0 mmHg = 53.0%, pO2 = 10.0 mmHg = 71.5%, median pO2 = 3.7 mmHg, mean pO2 = 8.8 mmHg; CPD = 2.96%; FDGSUVmax = 4.80, FDGSUVmean = 4.55; FMISOT/M = 1.19, FMISOT/B = 1.11). 1/2 = dist... |
PMC1948005_F3_13017.jpg | What is the focal point of this photograph? | Outlier patient 4, transaxial FDG PET- (A), transaxial FMISO PET- (B), CDS- (C) and transaxial CT (D) scans (pO2 = 2.5 mmHg= 43.0%, pO2 = 5.0 mmHg = 53.0%, pO2 = 10.0 mmHg = 71.5%, median pO2 = 3.7 mmHg, mean pO2 = 8.8 mmHg; CPD = 2.96%; FDGSUVmax = 4.80, FDGSUVmean = 4.55; FMISOT/M = 1.19, FMISOT/B = 1.11). 1/2 = dist... |
PMC1948005_F3_13013.jpg | Can you identify the primary element in this image? | Outlier patient 4, transaxial FDG PET- (A), transaxial FMISO PET- (B), CDS- (C) and transaxial CT (D) scans (pO2 = 2.5 mmHg= 43.0%, pO2 = 5.0 mmHg = 53.0%, pO2 = 10.0 mmHg = 71.5%, median pO2 = 3.7 mmHg, mean pO2 = 8.8 mmHg; CPD = 2.96%; FDGSUVmax = 4.80, FDGSUVmean = 4.55; FMISOT/M = 1.19, FMISOT/B = 1.11). 1/2 = dist... |
PMC1948005_F3_13014.jpg | What does this image primarily show? | Outlier patient 4, transaxial FDG PET- (A), transaxial FMISO PET- (B), CDS- (C) and transaxial CT (D) scans (pO2 = 2.5 mmHg= 43.0%, pO2 = 5.0 mmHg = 53.0%, pO2 = 10.0 mmHg = 71.5%, median pO2 = 3.7 mmHg, mean pO2 = 8.8 mmHg; CPD = 2.96%; FDGSUVmax = 4.80, FDGSUVmean = 4.55; FMISOT/M = 1.19, FMISOT/B = 1.11). 1/2 = dist... |
PMC1948005_F3_13016.jpg | What object or scene is depicted here? | Outlier patient 4, transaxial FDG PET- (A), transaxial FMISO PET- (B), CDS- (C) and transaxial CT (D) scans (pO2 = 2.5 mmHg= 43.0%, pO2 = 5.0 mmHg = 53.0%, pO2 = 10.0 mmHg = 71.5%, median pO2 = 3.7 mmHg, mean pO2 = 8.8 mmHg; CPD = 2.96%; FDGSUVmax = 4.80, FDGSUVmean = 4.55; FMISOT/M = 1.19, FMISOT/B = 1.11). 1/2 = dist... |
PMC1948006_F4_13029.jpg | What is the focal point of this photograph? | Detection of SOCS2 in primary mammary carcinoma samples by immunohistochemistry. Representative immunohistochemical stainings of samples with low SOCS2 (A) and high SOCS2 (B) mRNA expression are shown. Note a strong cytoplasmatic epithelial staining for SOCS2 in tumors with high SOCS2 mRNA levels (B). |
PMC1949048_pone-0000797-g005_13030.jpg | What is the principal component of this image? | SpARC1 localizes to the endoplasmic reticulum in Xenopus laevis oocytes and eggs.A, Confocal fluorescence images of Xenopus laevis oocytes co-expressing myc-tagged SpARC1 (red) and GFP-tagged human reduced folate carrier (hRFC, green). SpARC1 expression was detected by immunocytochemistry using an anti-myc primary anti... |
PMC1949048_pone-0000797-g005_13034.jpg | What does this image primarily show? | SpARC1 localizes to the endoplasmic reticulum in Xenopus laevis oocytes and eggs.A, Confocal fluorescence images of Xenopus laevis oocytes co-expressing myc-tagged SpARC1 (red) and GFP-tagged human reduced folate carrier (hRFC, green). SpARC1 expression was detected by immunocytochemistry using an anti-myc primary anti... |
PMC1949048_pone-0000797-g005_13033.jpg | What is the principal component of this image? | SpARC1 localizes to the endoplasmic reticulum in Xenopus laevis oocytes and eggs.A, Confocal fluorescence images of Xenopus laevis oocytes co-expressing myc-tagged SpARC1 (red) and GFP-tagged human reduced folate carrier (hRFC, green). SpARC1 expression was detected by immunocytochemistry using an anti-myc primary anti... |
PMC1949048_pone-0000797-g005_13035.jpg | What is the dominant medical problem in this image? | SpARC1 localizes to the endoplasmic reticulum in Xenopus laevis oocytes and eggs.A, Confocal fluorescence images of Xenopus laevis oocytes co-expressing myc-tagged SpARC1 (red) and GFP-tagged human reduced folate carrier (hRFC, green). SpARC1 expression was detected by immunocytochemistry using an anti-myc primary anti... |
PMC1949048_pone-0000797-g005_13032.jpg | What does this image primarily show? | SpARC1 localizes to the endoplasmic reticulum in Xenopus laevis oocytes and eggs.A, Confocal fluorescence images of Xenopus laevis oocytes co-expressing myc-tagged SpARC1 (red) and GFP-tagged human reduced folate carrier (hRFC, green). SpARC1 expression was detected by immunocytochemistry using an anti-myc primary anti... |
PMC1949048_pone-0000797-g005_13031.jpg | What is being portrayed in this visual content? | SpARC1 localizes to the endoplasmic reticulum in Xenopus laevis oocytes and eggs.A, Confocal fluorescence images of Xenopus laevis oocytes co-expressing myc-tagged SpARC1 (red) and GFP-tagged human reduced folate carrier (hRFC, green). SpARC1 expression was detected by immunocytochemistry using an anti-myc primary anti... |
PMC1949048_pone-0000797-g006_13041.jpg | What is being portrayed in this visual content? | SpARC1 localizes to the endoplasmic reticulum in HEK cells.A, Western blot analysis using an anti-myc antibody of homogenates prepared from mock transfected cells (C) or cells transfected with myc-tagged SpARC1 (left). PNGase F treatment (right) was performed as described in Fig. 2. B–C, Expression of myc-tagged SpARC1... |
PMC1949048_pone-0000797-g006_13039.jpg | What is the dominant medical problem in this image? | SpARC1 localizes to the endoplasmic reticulum in HEK cells.A, Western blot analysis using an anti-myc antibody of homogenates prepared from mock transfected cells (C) or cells transfected with myc-tagged SpARC1 (left). PNGase F treatment (right) was performed as described in Fig. 2. B–C, Expression of myc-tagged SpARC1... |
PMC1949048_pone-0000797-g006_13040.jpg | What key item or scene is captured in this photo? | SpARC1 localizes to the endoplasmic reticulum in HEK cells.A, Western blot analysis using an anti-myc antibody of homogenates prepared from mock transfected cells (C) or cells transfected with myc-tagged SpARC1 (left). PNGase F treatment (right) was performed as described in Fig. 2. B–C, Expression of myc-tagged SpARC1... |
PMC1949146_pone-0000784-g004_13050.jpg | What is the core subject represented in this visual? | Colocalization of SIRT2 with the centrosome.(A) U2OS cells expressing SIRT2-HA were stained for HA (green) and for γ-tubulin (red) and analyzed by confocal microscopy. (B) HeLa cells were stained with antisera for endogenous SIRT2 (green) and Aurora A (red) and analyzed by confocal microscopy. (C) HeLa cells were stain... |
PMC1949146_pone-0000784-g004_13047.jpg | What key item or scene is captured in this photo? | Colocalization of SIRT2 with the centrosome.(A) U2OS cells expressing SIRT2-HA were stained for HA (green) and for γ-tubulin (red) and analyzed by confocal microscopy. (B) HeLa cells were stained with antisera for endogenous SIRT2 (green) and Aurora A (red) and analyzed by confocal microscopy. (C) HeLa cells were stain... |
PMC1949146_pone-0000784-g004_13049.jpg | What's the most prominent thing you notice in this picture? | Colocalization of SIRT2 with the centrosome.(A) U2OS cells expressing SIRT2-HA were stained for HA (green) and for γ-tubulin (red) and analyzed by confocal microscopy. (B) HeLa cells were stained with antisera for endogenous SIRT2 (green) and Aurora A (red) and analyzed by confocal microscopy. (C) HeLa cells were stain... |
PMC1949146_pone-0000784-g004_13042.jpg | What is being portrayed in this visual content? | Colocalization of SIRT2 with the centrosome.(A) U2OS cells expressing SIRT2-HA were stained for HA (green) and for γ-tubulin (red) and analyzed by confocal microscopy. (B) HeLa cells were stained with antisera for endogenous SIRT2 (green) and Aurora A (red) and analyzed by confocal microscopy. (C) HeLa cells were stain... |
PMC1949146_pone-0000784-g004_13048.jpg | What is shown in this image? | Colocalization of SIRT2 with the centrosome.(A) U2OS cells expressing SIRT2-HA were stained for HA (green) and for γ-tubulin (red) and analyzed by confocal microscopy. (B) HeLa cells were stained with antisera for endogenous SIRT2 (green) and Aurora A (red) and analyzed by confocal microscopy. (C) HeLa cells were stain... |
PMC1949146_pone-0000784-g004_13051.jpg | Describe the main subject of this image. | Colocalization of SIRT2 with the centrosome.(A) U2OS cells expressing SIRT2-HA were stained for HA (green) and for γ-tubulin (red) and analyzed by confocal microscopy. (B) HeLa cells were stained with antisera for endogenous SIRT2 (green) and Aurora A (red) and analyzed by confocal microscopy. (C) HeLa cells were stain... |
PMC1949402_F2_13052.jpg | What does this image primarily show? | Photomicrograph of hematoxylin and eosin specimen from (1). Arrows indicate granulomatous inflammation centered on breast lobules, while arrowhead indicates the presence of multinucleated giant cells within non-caseating granulomatous inflammation (magnification 100×; bar = 150 μm). |
PMC1949814_F7_13053.jpg | What is the central feature of this picture? | Lumbar spinal cord motor axon projections to the ventral flank. (a-d) E13.5 normal and BmprIaflox/- embryos carrying an Hb9-GFP transgene imaged via indirect fluorescence. The embryos were eviscerated and the ventral abdominal wall was reflected to allow examination from a peritoneal aspect. Images of rostral (a,c) and... |
PMC1949814_F7_13055.jpg | What key item or scene is captured in this photo? | Lumbar spinal cord motor axon projections to the ventral flank. (a-d) E13.5 normal and BmprIaflox/- embryos carrying an Hb9-GFP transgene imaged via indirect fluorescence. The embryos were eviscerated and the ventral abdominal wall was reflected to allow examination from a peritoneal aspect. Images of rostral (a,c) and... |
PMC1949817_F2_13062.jpg | What is the main focus of this visual representation? | Representative autoradiograms showing calcyon mRNA at the level of the frontal cortex and rostral striatum in three-, five-, and ten-week-old SHR and WKY rats. Coronal sections are from approximate bregma levels +2.6 and +1.6, respectively (arbitrary scale). The abbreviations are as follows: mPFC, medial prefrontal cor... |
PMC1949817_F2_13058.jpg | What is the focal point of this photograph? | Representative autoradiograms showing calcyon mRNA at the level of the frontal cortex and rostral striatum in three-, five-, and ten-week-old SHR and WKY rats. Coronal sections are from approximate bregma levels +2.6 and +1.6, respectively (arbitrary scale). The abbreviations are as follows: mPFC, medial prefrontal cor... |
PMC1949817_F2_13057.jpg | What key item or scene is captured in this photo? | Representative autoradiograms showing calcyon mRNA at the level of the frontal cortex and rostral striatum in three-, five-, and ten-week-old SHR and WKY rats. Coronal sections are from approximate bregma levels +2.6 and +1.6, respectively (arbitrary scale). The abbreviations are as follows: mPFC, medial prefrontal cor... |
PMC1949817_F2_13061.jpg | What is being portrayed in this visual content? | Representative autoradiograms showing calcyon mRNA at the level of the frontal cortex and rostral striatum in three-, five-, and ten-week-old SHR and WKY rats. Coronal sections are from approximate bregma levels +2.6 and +1.6, respectively (arbitrary scale). The abbreviations are as follows: mPFC, medial prefrontal cor... |
PMC1949817_F2_13059.jpg | What is the principal component of this image? | Representative autoradiograms showing calcyon mRNA at the level of the frontal cortex and rostral striatum in three-, five-, and ten-week-old SHR and WKY rats. Coronal sections are from approximate bregma levels +2.6 and +1.6, respectively (arbitrary scale). The abbreviations are as follows: mPFC, medial prefrontal cor... |
PMC1949822_F4_13075.jpg | What is shown in this image? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13079.jpg | What is being portrayed in this visual content? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13085.jpg | What is the central feature of this picture? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13076.jpg | Describe the main subject of this image. | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13068.jpg | What stands out most in this visual? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13071.jpg | What object or scene is depicted here? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13086.jpg | What is the dominant medical problem in this image? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13069.jpg | What key item or scene is captured in this photo? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13078.jpg | What stands out most in this visual? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13063.jpg | What is shown in this image? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13084.jpg | What is the focal point of this photograph? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13082.jpg | What is shown in this image? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13070.jpg | What is the central feature of this picture? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13083.jpg | Describe the main subject of this image. | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13080.jpg | What stands out most in this visual? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13074.jpg | What is the dominant medical problem in this image? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13066.jpg | What is the central feature of this picture? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13073.jpg | What is the dominant medical problem in this image? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13077.jpg | What is the main focus of this visual representation? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
PMC1949822_F4_13067.jpg | What is the core subject represented in this visual? | Cell and biofilm morphology of Salmonella Typhimurium UMR1 (wt) and its mutants MAE52 (csgD++), MAE51 (csgD), MAE14 (csgBA), MAE222 (bcsA) and MAE619 (bapA) after growth for 24 hours. The first column shows light microscope (LM) images (with a frame width of approx. 0.6 mm) before drying, the second column light micros... |
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