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PMC449870_pbio-0020207-g003_151.jpg | What is shown in this image? | FISH Confirmation of a Human-Specific Duplication of a Gene Cluster on Chromosome 5q13.3 Detected by Interspecies cDNA aCGH(A) Human duplication of a cluster of genes at Chromosome 5q13.3. is shown by two separate, and sometimes multiple, red BAC probe (CTD-2288G5) signals in interphase cells, with only one green BAC p... |
PMC479042_pbio-0020244-g007_159.jpg | What is being portrayed in this visual content? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_154.jpg | Describe the main subject of this image. | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_165.jpg | What can you see in this picture? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_160.jpg | What is being portrayed in this visual content? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_164.jpg | What is the dominant medical problem in this image? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_156.jpg | What is shown in this image? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_158.jpg | What is the core subject represented in this visual? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_171.jpg | Can you identify the primary element in this image? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_153.jpg | What stands out most in this visual? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_155.jpg | What does this image primarily show? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_172.jpg | What is the main focus of this visual representation? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_169.jpg | What is the dominant medical problem in this image? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_170.jpg | What is the principal component of this image? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_161.jpg | What does this image primarily show? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_157.jpg | What is the principal component of this image? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_167.jpg | What is the main focus of this visual representation? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_168.jpg | What is the principal component of this image? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_162.jpg | What key item or scene is captured in this photo? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC479042_pbio-0020244-g007_163.jpg | What object or scene is depicted here? | Anterior Hyoid Crest Cells Display Aberrant Behavior in integrinα5 MutantsConfocal time-lapse recordings show hyoid cartilage development in wild-type fli1-GFP (Videos S1 and S2) and integrinα5−; fli1-GFP (Video S3) animals from 38 hpf to 86 hpf (nwt = 3; nitga5 = 4). Videos S1 and S2 are different depths of the same t... |
PMC493280_F1_173.jpg | What object or scene is depicted here? | The string-of-beads sign with alternating regions of lumen narrowing and vessel dilatation on angiogram of the ICA (arrows) in a 52-year-old woman sufferning from recurrent transient ischemic attacks. |
PMC493280_F2_174.jpg | What can you see in this picture? | The string-of-beads sign in the color Doppler image in a 51-year-old patient with low-grade stenosing FMD of the ICA. The patient suffered from migraine-like headache. |
PMC497042_F1_184.jpg | What is the dominant medical problem in this image? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_180.jpg | What key item or scene is captured in this photo? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_182.jpg | What is the principal component of this image? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_192.jpg | What stands out most in this visual? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_181.jpg | What key item or scene is captured in this photo? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_194.jpg | What stands out most in this visual? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_186.jpg | What does this image primarily show? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_188.jpg | What is the focal point of this photograph? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_193.jpg | What key item or scene is captured in this photo? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_191.jpg | What object or scene is depicted here? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_185.jpg | Can you identify the primary element in this image? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F1_183.jpg | What is being portrayed in this visual content? | Localization of chlamydial inclusions and caveolin-2 in HeLa cells. HeLa 229 cells were infected with chlamydial strains for 48 h. Cells were fixed and double stained with a rabbit anti-Chlamydia and a mouse anti-caveolin-2 antibody. Inclusions of C. pneumoniae (AR39) Cpn, C. Psittaci (guinea pig inclusion conjunctivit... |
PMC497042_F2_175.jpg | What is the core subject represented in this visual? | Optical Z-axis sections of caveolin-2 associated with chlamydial inclusion membranes. FRT cells were infected with C. trachomatis serovar K for 48 h. Cells were fixed with 10% cold methanol and double stained with a guinea pig anti-Chlamydia and a mouse anti-caveolin-2 antibody. The secondary antibodies were FITC-conju... |
PMC497042_F2_178.jpg | What is the dominant medical problem in this image? | Optical Z-axis sections of caveolin-2 associated with chlamydial inclusion membranes. FRT cells were infected with C. trachomatis serovar K for 48 h. Cells were fixed with 10% cold methanol and double stained with a guinea pig anti-Chlamydia and a mouse anti-caveolin-2 antibody. The secondary antibodies were FITC-conju... |
PMC497042_F2_177.jpg | Can you identify the primary element in this image? | Optical Z-axis sections of caveolin-2 associated with chlamydial inclusion membranes. FRT cells were infected with C. trachomatis serovar K for 48 h. Cells were fixed with 10% cold methanol and double stained with a guinea pig anti-Chlamydia and a mouse anti-caveolin-2 antibody. The secondary antibodies were FITC-conju... |
PMC497042_F2_176.jpg | What is the core subject represented in this visual? | Optical Z-axis sections of caveolin-2 associated with chlamydial inclusion membranes. FRT cells were infected with C. trachomatis serovar K for 48 h. Cells were fixed with 10% cold methanol and double stained with a guinea pig anti-Chlamydia and a mouse anti-caveolin-2 antibody. The secondary antibodies were FITC-conju... |
PMC497045_F1_200.jpg | What can you see in this picture? | Representative immunostaining of paraffin sections with antibodies against Topoisomerase 2A and Aquaporin 1. (A) Upper panel shows two TOP2A positive cores from GBMs; lower panel shows two negative cores on the same tissue micro-array. (B) Upper panel from left to right: cortex and white matter; lower panel from left t... |
PMC497045_F1_199.jpg | What can you see in this picture? | Representative immunostaining of paraffin sections with antibodies against Topoisomerase 2A and Aquaporin 1. (A) Upper panel shows two TOP2A positive cores from GBMs; lower panel shows two negative cores on the same tissue micro-array. (B) Upper panel from left to right: cortex and white matter; lower panel from left t... |
PMC497045_F1_201.jpg | What is the main focus of this visual representation? | Representative immunostaining of paraffin sections with antibodies against Topoisomerase 2A and Aquaporin 1. (A) Upper panel shows two TOP2A positive cores from GBMs; lower panel shows two negative cores on the same tissue micro-array. (B) Upper panel from left to right: cortex and white matter; lower panel from left t... |
PMC497045_F1_197.jpg | What does this image primarily show? | Representative immunostaining of paraffin sections with antibodies against Topoisomerase 2A and Aquaporin 1. (A) Upper panel shows two TOP2A positive cores from GBMs; lower panel shows two negative cores on the same tissue micro-array. (B) Upper panel from left to right: cortex and white matter; lower panel from left t... |
PMC497045_F1_202.jpg | Can you identify the primary element in this image? | Representative immunostaining of paraffin sections with antibodies against Topoisomerase 2A and Aquaporin 1. (A) Upper panel shows two TOP2A positive cores from GBMs; lower panel shows two negative cores on the same tissue micro-array. (B) Upper panel from left to right: cortex and white matter; lower panel from left t... |
PMC497045_F1_196.jpg | What is the core subject represented in this visual? | Representative immunostaining of paraffin sections with antibodies against Topoisomerase 2A and Aquaporin 1. (A) Upper panel shows two TOP2A positive cores from GBMs; lower panel shows two negative cores on the same tissue micro-array. (B) Upper panel from left to right: cortex and white matter; lower panel from left t... |
PMC497045_F1_203.jpg | What is the dominant medical problem in this image? | Representative immunostaining of paraffin sections with antibodies against Topoisomerase 2A and Aquaporin 1. (A) Upper panel shows two TOP2A positive cores from GBMs; lower panel shows two negative cores on the same tissue micro-array. (B) Upper panel from left to right: cortex and white matter; lower panel from left t... |
PMC497050_F1_204.jpg | Describe the main subject of this image. | Stored fluoroscopy following placement of the two Amplatzer septal occluders (ASOs). TEE – Transesophageal echocardiography probe. |
PMC497050_F2_206.jpg | What object or scene is depicted here? | Transesophageal echocardiography four-chamber image following deployment of the two Amplatzer septal occluders (ASO). LA – left atrium, LV – left ventricle, RA – right atrium, RV – right ventricle. |
PMC497050_F2_205.jpg | What does this image primarily show? | Transesophageal echocardiography four-chamber image following deployment of the two Amplatzer septal occluders (ASO). LA – left atrium, LV – left ventricle, RA – right atrium, RV – right ventricle. |
PMC499548_F1_210.jpg | What is the focal point of this photograph? | Anterior-posterior angiogram of right common carotid artery injection of a Papio anubis with a 6 Fr catheter in place both (A.) during vessel spasm on catheter, and (B.) 10 minutes after infusion of intraluminal verapamil (2 mg). Overlay images showing 6 Fr catheter position in CCA (gold) during spasm (C.) and after al... |
PMC499548_F1_208.jpg | What is shown in this image? | Anterior-posterior angiogram of right common carotid artery injection of a Papio anubis with a 6 Fr catheter in place both (A.) during vessel spasm on catheter, and (B.) 10 minutes after infusion of intraluminal verapamil (2 mg). Overlay images showing 6 Fr catheter position in CCA (gold) during spasm (C.) and after al... |
PMC503391_F4_211.jpg | What is the main focus of this visual representation? | Bowing of the median nerve. Ultrasound images of the median nerve in the distal upper arm (upper) with the shoulder girdle in neutral and (lower) protracted. Note substantial bowing with the shoulder girdle in the neutral compared to protracted position. Bar = 10 mm. |
PMC503391_F4_212.jpg | Can you identify the primary element in this image? | Bowing of the median nerve. Ultrasound images of the median nerve in the distal upper arm (upper) with the shoulder girdle in neutral and (lower) protracted. Note substantial bowing with the shoulder girdle in the neutral compared to protracted position. Bar = 10 mm. |
PMC509289_pbio-0020196-g001_216.jpg | What object or scene is depicted here? | Col Expression during Lymph Gland Ontogeny(A) Col expression in lymph gland precursors is first observed in two separate clusters of cells (black arrows) in the dorsal-most mesoderm of thoracic segments T2 and T3 at stage 11 (stages according to Campos-Ortega and Hartenstein [1997]). Col expression in the head region i... |
PMC509289_pbio-0020196-g001_214.jpg | Can you identify the primary element in this image? | Col Expression during Lymph Gland Ontogeny(A) Col expression in lymph gland precursors is first observed in two separate clusters of cells (black arrows) in the dorsal-most mesoderm of thoracic segments T2 and T3 at stage 11 (stages according to Campos-Ortega and Hartenstein [1997]). Col expression in the head region i... |
PMC509289_pbio-0020196-g001_222.jpg | Describe the main subject of this image. | Col Expression during Lymph Gland Ontogeny(A) Col expression in lymph gland precursors is first observed in two separate clusters of cells (black arrows) in the dorsal-most mesoderm of thoracic segments T2 and T3 at stage 11 (stages according to Campos-Ortega and Hartenstein [1997]). Col expression in the head region i... |
PMC509289_pbio-0020196-g001_220.jpg | What is shown in this image? | Col Expression during Lymph Gland Ontogeny(A) Col expression in lymph gland precursors is first observed in two separate clusters of cells (black arrows) in the dorsal-most mesoderm of thoracic segments T2 and T3 at stage 11 (stages according to Campos-Ortega and Hartenstein [1997]). Col expression in the head region i... |
PMC509289_pbio-0020196-g001_219.jpg | Can you identify the primary element in this image? | Col Expression during Lymph Gland Ontogeny(A) Col expression in lymph gland precursors is first observed in two separate clusters of cells (black arrows) in the dorsal-most mesoderm of thoracic segments T2 and T3 at stage 11 (stages according to Campos-Ortega and Hartenstein [1997]). Col expression in the head region i... |
PMC509289_pbio-0020196-g001_218.jpg | What does this image primarily show? | Col Expression during Lymph Gland Ontogeny(A) Col expression in lymph gland precursors is first observed in two separate clusters of cells (black arrows) in the dorsal-most mesoderm of thoracic segments T2 and T3 at stage 11 (stages according to Campos-Ortega and Hartenstein [1997]). Col expression in the head region i... |
PMC509289_pbio-0020196-g005_228.jpg | What object or scene is depicted here? | Col-Expressing Cells Play an Instructive Role in Lamellocyte ProductionExpression of the crystal cell marker doxA3 (Waltzer et al. 2003) (A, B, and G); of the lamellocyte markers α-ps4 (M. Meister, unpublished data) (C–F and H) and L1 (Asha et al. 2003) (J); and of Col (I and J); in wt (A, C, and E), col loss-of-functi... |
PMC509289_pbio-0020196-g005_230.jpg | Can you identify the primary element in this image? | Col-Expressing Cells Play an Instructive Role in Lamellocyte ProductionExpression of the crystal cell marker doxA3 (Waltzer et al. 2003) (A, B, and G); of the lamellocyte markers α-ps4 (M. Meister, unpublished data) (C–F and H) and L1 (Asha et al. 2003) (J); and of Col (I and J); in wt (A, C, and E), col loss-of-functi... |
PMC509289_pbio-0020196-g005_223.jpg | What is the central feature of this picture? | Col-Expressing Cells Play an Instructive Role in Lamellocyte ProductionExpression of the crystal cell marker doxA3 (Waltzer et al. 2003) (A, B, and G); of the lamellocyte markers α-ps4 (M. Meister, unpublished data) (C–F and H) and L1 (Asha et al. 2003) (J); and of Col (I and J); in wt (A, C, and E), col loss-of-functi... |
PMC509289_pbio-0020196-g005_226.jpg | What is shown in this image? | Col-Expressing Cells Play an Instructive Role in Lamellocyte ProductionExpression of the crystal cell marker doxA3 (Waltzer et al. 2003) (A, B, and G); of the lamellocyte markers α-ps4 (M. Meister, unpublished data) (C–F and H) and L1 (Asha et al. 2003) (J); and of Col (I and J); in wt (A, C, and E), col loss-of-functi... |
PMC509289_pbio-0020196-g005_227.jpg | What is the focal point of this photograph? | Col-Expressing Cells Play an Instructive Role in Lamellocyte ProductionExpression of the crystal cell marker doxA3 (Waltzer et al. 2003) (A, B, and G); of the lamellocyte markers α-ps4 (M. Meister, unpublished data) (C–F and H) and L1 (Asha et al. 2003) (J); and of Col (I and J); in wt (A, C, and E), col loss-of-functi... |
PMC509289_pbio-0020196-g005_225.jpg | What object or scene is depicted here? | Col-Expressing Cells Play an Instructive Role in Lamellocyte ProductionExpression of the crystal cell marker doxA3 (Waltzer et al. 2003) (A, B, and G); of the lamellocyte markers α-ps4 (M. Meister, unpublished data) (C–F and H) and L1 (Asha et al. 2003) (J); and of Col (I and J); in wt (A, C, and E), col loss-of-functi... |
PMC509289_pbio-0020196-g005_224.jpg | What is being portrayed in this visual content? | Col-Expressing Cells Play an Instructive Role in Lamellocyte ProductionExpression of the crystal cell marker doxA3 (Waltzer et al. 2003) (A, B, and G); of the lamellocyte markers α-ps4 (M. Meister, unpublished data) (C–F and H) and L1 (Asha et al. 2003) (J); and of Col (I and J); in wt (A, C, and E), col loss-of-functi... |
PMC509293_pbio-0020218-g003_248.jpg | What is the main focus of this visual representation? | Plasticity of Isolated Myofibers(A) Phase-contrast micrograph of a live cell at 3 d after plating, showing a lobulated structure in the middle of the fiber.(B) Micrograph of a live fiber at 2 d after plating, showing budding of nuclei at one end. The cell has been counterstained with Syto 13.(C) Fluorescence micrograph... |
PMC509293_pbio-0020218-g003_246.jpg | What is the focal point of this photograph? | Plasticity of Isolated Myofibers(A) Phase-contrast micrograph of a live cell at 3 d after plating, showing a lobulated structure in the middle of the fiber.(B) Micrograph of a live fiber at 2 d after plating, showing budding of nuclei at one end. The cell has been counterstained with Syto 13.(C) Fluorescence micrograph... |
PMC509293_pbio-0020218-g003_247.jpg | What is the core subject represented in this visual? | Plasticity of Isolated Myofibers(A) Phase-contrast micrograph of a live cell at 3 d after plating, showing a lobulated structure in the middle of the fiber.(B) Micrograph of a live fiber at 2 d after plating, showing budding of nuclei at one end. The cell has been counterstained with Syto 13.(C) Fluorescence micrograph... |
PMC509293_pbio-0020218-g003_243.jpg | What is shown in this image? | Plasticity of Isolated Myofibers(A) Phase-contrast micrograph of a live cell at 3 d after plating, showing a lobulated structure in the middle of the fiber.(B) Micrograph of a live fiber at 2 d after plating, showing budding of nuclei at one end. The cell has been counterstained with Syto 13.(C) Fluorescence micrograph... |
PMC509293_pbio-0020218-g003_245.jpg | What stands out most in this visual? | Plasticity of Isolated Myofibers(A) Phase-contrast micrograph of a live cell at 3 d after plating, showing a lobulated structure in the middle of the fiber.(B) Micrograph of a live fiber at 2 d after plating, showing budding of nuclei at one end. The cell has been counterstained with Syto 13.(C) Fluorescence micrograph... |
PMC509293_pbio-0020218-g004_236.jpg | What is the principal component of this image? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_238.jpg | What's the most prominent thing you notice in this picture? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_232.jpg | What is the focal point of this photograph? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_242.jpg | What's the most prominent thing you notice in this picture? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_233.jpg | What is the core subject represented in this visual? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_241.jpg | What is the central feature of this picture? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_237.jpg | What does this image primarily show? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_234.jpg | Can you identify the primary element in this image? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509293_pbio-0020218-g004_240.jpg | What is shown in this image? | Analysis of Nuclear Migration and Fragmentation by Time-Lapse Microscopy(A) Single frames illustrating the migration of three nuclei (yellow arrows) along a myofiber, of which two are incorporated into a terminal aggregate by 11.4 h. One nucleus (green arrow) remained stationary during this period.(B) Single frames ill... |
PMC509297_pbio-0020225-g003_254.jpg | What is shown in this image? | Lesion AnalysisRepresentative photomicrographs of cresyl-violet-stained coronal brain sections taken from subjects belonging to each of the three lesion groups—partial hippocampal lesion (A), sham lesion (B), and complete hippocampal lesion (C). In each case, sections corresponding to anterior, middle, and posterior le... |
PMC509297_pbio-0020225-g003_255.jpg | What is being portrayed in this visual content? | Lesion AnalysisRepresentative photomicrographs of cresyl-violet-stained coronal brain sections taken from subjects belonging to each of the three lesion groups—partial hippocampal lesion (A), sham lesion (B), and complete hippocampal lesion (C). In each case, sections corresponding to anterior, middle, and posterior le... |
PMC509297_pbio-0020225-g003_253.jpg | What is the main focus of this visual representation? | Lesion AnalysisRepresentative photomicrographs of cresyl-violet-stained coronal brain sections taken from subjects belonging to each of the three lesion groups—partial hippocampal lesion (A), sham lesion (B), and complete hippocampal lesion (C). In each case, sections corresponding to anterior, middle, and posterior le... |
PMC509297_pbio-0020225-g003_252.jpg | What can you see in this picture? | Lesion AnalysisRepresentative photomicrographs of cresyl-violet-stained coronal brain sections taken from subjects belonging to each of the three lesion groups—partial hippocampal lesion (A), sham lesion (B), and complete hippocampal lesion (C). In each case, sections corresponding to anterior, middle, and posterior le... |
PMC509297_pbio-0020225-g003_258.jpg | What can you see in this picture? | Lesion AnalysisRepresentative photomicrographs of cresyl-violet-stained coronal brain sections taken from subjects belonging to each of the three lesion groups—partial hippocampal lesion (A), sham lesion (B), and complete hippocampal lesion (C). In each case, sections corresponding to anterior, middle, and posterior le... |
PMC509297_pbio-0020225-g003_250.jpg | What is being portrayed in this visual content? | Lesion AnalysisRepresentative photomicrographs of cresyl-violet-stained coronal brain sections taken from subjects belonging to each of the three lesion groups—partial hippocampal lesion (A), sham lesion (B), and complete hippocampal lesion (C). In each case, sections corresponding to anterior, middle, and posterior le... |
PMC509297_pbio-0020225-g003_251.jpg | What is the central feature of this picture? | Lesion AnalysisRepresentative photomicrographs of cresyl-violet-stained coronal brain sections taken from subjects belonging to each of the three lesion groups—partial hippocampal lesion (A), sham lesion (B), and complete hippocampal lesion (C). In each case, sections corresponding to anterior, middle, and posterior le... |
PMC509304_pbio-0020242-g002_260.jpg | Describe the main subject of this image. | Metastasis of Primary SCC to Lymph Nodes and Lungs in p19 Arf-Deficient Mice(A) Underside of skin from tumor-bearing mouse shows newly formed blood vessels surrounding tumor site (arrow) and leading to inguinal lymph node (arrowhead).(B) Enlarged inquinal lymph node (left) containing metastatic SCC and blood vessel for... |
PMC509304_pbio-0020242-g002_269.jpg | What does this image primarily show? | Metastasis of Primary SCC to Lymph Nodes and Lungs in p19 Arf-Deficient Mice(A) Underside of skin from tumor-bearing mouse shows newly formed blood vessels surrounding tumor site (arrow) and leading to inguinal lymph node (arrowhead).(B) Enlarged inquinal lymph node (left) containing metastatic SCC and blood vessel for... |
PMC509304_pbio-0020242-g002_266.jpg | What is the principal component of this image? | Metastasis of Primary SCC to Lymph Nodes and Lungs in p19 Arf-Deficient Mice(A) Underside of skin from tumor-bearing mouse shows newly formed blood vessels surrounding tumor site (arrow) and leading to inguinal lymph node (arrowhead).(B) Enlarged inquinal lymph node (left) containing metastatic SCC and blood vessel for... |
PMC509304_pbio-0020242-g002_261.jpg | What is being portrayed in this visual content? | Metastasis of Primary SCC to Lymph Nodes and Lungs in p19 Arf-Deficient Mice(A) Underside of skin from tumor-bearing mouse shows newly formed blood vessels surrounding tumor site (arrow) and leading to inguinal lymph node (arrowhead).(B) Enlarged inquinal lymph node (left) containing metastatic SCC and blood vessel for... |
PMC509304_pbio-0020242-g002_264.jpg | What key item or scene is captured in this photo? | Metastasis of Primary SCC to Lymph Nodes and Lungs in p19 Arf-Deficient Mice(A) Underside of skin from tumor-bearing mouse shows newly formed blood vessels surrounding tumor site (arrow) and leading to inguinal lymph node (arrowhead).(B) Enlarged inquinal lymph node (left) containing metastatic SCC and blood vessel for... |
PMC509304_pbio-0020242-g002_263.jpg | What is the core subject represented in this visual? | Metastasis of Primary SCC to Lymph Nodes and Lungs in p19 Arf-Deficient Mice(A) Underside of skin from tumor-bearing mouse shows newly formed blood vessels surrounding tumor site (arrow) and leading to inguinal lymph node (arrowhead).(B) Enlarged inquinal lymph node (left) containing metastatic SCC and blood vessel for... |
PMC509411_pbio-0020299-g001_271.jpg | Can you identify the primary element in this image? | Emerging leaf tips (yellow arrow) and hypocotyl (orange arrows) of an Arabidopsis mutant |
PMC509425_F5_272.jpg | What is the core subject represented in this visual? | The figure shows static acquisition images with gamma camera 2, 24, and 48 h, and 2, 24, 48 and 72 h after inoculation with 111In-Oxine-labelled iDC and mDC, respectively, for patient no. 3. Greater migration activity of mDC is clearly visible. (IS, inoculation site: LN, lymph node). |
PMC512287_F1_274.jpg | What object or scene is depicted here? | Magnetic resonance imaging of brain on hospital day six. T2 weighted image showing obstructive hydrocephalus and ventriculitis. |
PMC512287_F2_275.jpg | What is the principal component of this image? | Magnetic resonance imaging of brain on hospital day six. T1 weighted, post-gadolinium image showing obstructive hydrocephalus and ventriculitis. |
PMC512287_F3_277.jpg | What is the main focus of this visual representation? | Magnetic resonance imaging of brain on hospital day six. Diffusion image showing acute infarcts in the cerebellum. |
PMC512287_F4_276.jpg | What is being portrayed in this visual content? | Magnetic resonance imaging of brain on hospital day six. T2 weighted image showing fluid within the right mastoid air cells. |
PMC514490_pbio-0020261-g009_281.jpg | What can you see in this picture? | Immunolocalisation of Rabankyrin-5 in the Mouse KidneyMouse kidney cortex was processed for frozen section immunoelectron microscopy. Sections were (A and B) single labelled for Rabankyrin-5 (arrowheads, 10 nm) or (C and D) double labelled (arrows, 5 nm) for Rabankyrin-5 and LAMP-1.(A) Low-magnification view of the api... |
PMC514490_pbio-0020261-g009_279.jpg | Can you identify the primary element in this image? | Immunolocalisation of Rabankyrin-5 in the Mouse KidneyMouse kidney cortex was processed for frozen section immunoelectron microscopy. Sections were (A and B) single labelled for Rabankyrin-5 (arrowheads, 10 nm) or (C and D) double labelled (arrows, 5 nm) for Rabankyrin-5 and LAMP-1.(A) Low-magnification view of the api... |
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