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PMC1934933_pone-0000714-g001_12511.jpg | What does this image primarily show? | 3D time-lapse series of muscle development in a Ciona intestinalis embryo visualized by electroporation with the sna>Venus plasmid.(A) gastrula, (B) neural plate, (C) neurula, (D) early tailbud, (E) mid tailbud, and (F) late tailbud stages from a single embryo are shown. The anterior of the embryo is to the left, poste... |
PMC1934933_pone-0000714-g001_12513.jpg | What is being portrayed in this visual content? | 3D time-lapse series of muscle development in a Ciona intestinalis embryo visualized by electroporation with the sna>Venus plasmid.(A) gastrula, (B) neural plate, (C) neurula, (D) early tailbud, (E) mid tailbud, and (F) late tailbud stages from a single embryo are shown. The anterior of the embryo is to the left, poste... |
PMC1934933_pone-0000714-g001_12510.jpg | What stands out most in this visual? | 3D time-lapse series of muscle development in a Ciona intestinalis embryo visualized by electroporation with the sna>Venus plasmid.(A) gastrula, (B) neural plate, (C) neurula, (D) early tailbud, (E) mid tailbud, and (F) late tailbud stages from a single embryo are shown. The anterior of the embryo is to the left, poste... |
PMC1934933_pone-0000714-g001_12512.jpg | What is the core subject represented in this visual? | 3D time-lapse series of muscle development in a Ciona intestinalis embryo visualized by electroporation with the sna>Venus plasmid.(A) gastrula, (B) neural plate, (C) neurula, (D) early tailbud, (E) mid tailbud, and (F) late tailbud stages from a single embryo are shown. The anterior of the embryo is to the left, poste... |
PMC1934944_F4_12516.jpg | Can you identify the primary element in this image? | Morphological CT (a) and perfusion map of an emphysematous lung
show good correlation of severe emphysema in the anterior-lateral parts of
the lung and decreased perfusion (green pixels) as compared to the normal
posterior parts of the lung. The bright red pixels represent excluded, air
containing parts of the lung. |
PMC1934944_F4_12517.jpg | What's the most prominent thing you notice in this picture? | Morphological CT (a) and perfusion map of an emphysematous lung
show good correlation of severe emphysema in the anterior-lateral parts of
the lung and decreased perfusion (green pixels) as compared to the normal
posterior parts of the lung. The bright red pixels represent excluded, air
containing parts of the lung. |
PMC1934945_F2_12518.jpg | What is the central feature of this picture? | A slice of 3D GCM of MRI T1. (a) Original image, (b)
gradient magnitude map, (c) gradient phase map, (d) GCM
(Δρ = 1/16, Δθ = π/8,
Δφ = π/8, and Th = 0.10). |
PMC1934945_F2_12521.jpg | What key item or scene is captured in this photo? | A slice of 3D GCM of MRI T1. (a) Original image, (b)
gradient magnitude map, (c) gradient phase map, (d) GCM
(Δρ = 1/16, Δθ = π/8,
Δφ = π/8, and Th = 0.10). |
PMC1934945_F3_12522.jpg | What key item or scene is captured in this photo? | A slice of
3D GCM of PET. (a) Original image, (b) gradient magnitude map, (c)
gradient phase map, (d) GCM (Δρ = 1/16,
Δφ = π/8, Δθ = π/8, and
Th = 0.16). |
PMC1934945_F3_12523.jpg | What is the focal point of this photograph? | A slice of
3D GCM of PET. (a) Original image, (b) gradient magnitude map, (c)
gradient phase map, (d) GCM (Δρ = 1/16,
Δφ = π/8, Δθ = π/8, and
Th = 0.16). |
PMC1934945_F3_12525.jpg | What can you see in this picture? | A slice of
3D GCM of PET. (a) Original image, (b) gradient magnitude map, (c)
gradient phase map, (d) GCM (Δρ = 1/16,
Δφ = π/8, Δθ = π/8, and
Th = 0.16). |
PMC1934945_F3_12524.jpg | Describe the main subject of this image. | A slice of
3D GCM of PET. (a) Original image, (b) gradient magnitude map, (c)
gradient phase map, (d) GCM (Δρ = 1/16,
Δφ = π/8, Δθ = π/8, and
Th = 0.16). |
PMC1934945_F7_12535.jpg | What is the dominant medical problem in this image? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12533.jpg | What can you see in this picture? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12532.jpg | Describe the main subject of this image. | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12538.jpg | What object or scene is depicted here? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12526.jpg | Can you identify the primary element in this image? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12527.jpg | What is shown in this image? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12529.jpg | What stands out most in this visual? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12531.jpg | What's the most prominent thing you notice in this picture? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1934945_F7_12530.jpg | What is the main focus of this visual representation? | Illustration of registration results of PET/MRI T1 pair
with intensity ECC, gradient ECC, and ACMI. (a) The
extracted brain of MRI T1 image (left) and the 50% transparent
profile of extracted brain of PET image (right) are served as the
underlying and the overlying, respectively. (b) The first row:
registration results... |
PMC1936422_F4_12543.jpg | What is the focal point of this photograph? | Clustering of filaments polymerized from phosphorylated tau. Samples from the 25 μM ARA-induced phosphorylated tau reaction (20 h) shown in Figure 3, were diluted five-fold and prepared for transmission electron microscopy (TEM). Panels A, C and E show representative clusters of filaments at a magnification of 50,000 ×... |
PMC1936422_F4_12540.jpg | What stands out most in this visual? | Clustering of filaments polymerized from phosphorylated tau. Samples from the 25 μM ARA-induced phosphorylated tau reaction (20 h) shown in Figure 3, were diluted five-fold and prepared for transmission electron microscopy (TEM). Panels A, C and E show representative clusters of filaments at a magnification of 50,000 ×... |
PMC1936422_F4_12544.jpg | Can you identify the primary element in this image? | Clustering of filaments polymerized from phosphorylated tau. Samples from the 25 μM ARA-induced phosphorylated tau reaction (20 h) shown in Figure 3, were diluted five-fold and prepared for transmission electron microscopy (TEM). Panels A, C and E show representative clusters of filaments at a magnification of 50,000 ×... |
PMC1936422_F4_12541.jpg | What's the most prominent thing you notice in this picture? | Clustering of filaments polymerized from phosphorylated tau. Samples from the 25 μM ARA-induced phosphorylated tau reaction (20 h) shown in Figure 3, were diluted five-fold and prepared for transmission electron microscopy (TEM). Panels A, C and E show representative clusters of filaments at a magnification of 50,000 ×... |
PMC1936422_F6_12545.jpg | What is shown in this image? | Phosphorylation by GSK-3β is sufficient to promote filament clustering. Panel A and B show products of phosphorylated and polymerized tau (+phos.). Panel C and D show products of phosphorylated tau that was polymerized in the presence of 20 μM ThS (+phos., +ThS). The clusters of filaments were approximately 2 μm across... |
PMC1936422_F6_12548.jpg | Can you identify the primary element in this image? | Phosphorylation by GSK-3β is sufficient to promote filament clustering. Panel A and B show products of phosphorylated and polymerized tau (+phos.). Panel C and D show products of phosphorylated tau that was polymerized in the presence of 20 μM ThS (+phos., +ThS). The clusters of filaments were approximately 2 μm across... |
PMC1936422_F6_12547.jpg | Describe the main subject of this image. | Phosphorylation by GSK-3β is sufficient to promote filament clustering. Panel A and B show products of phosphorylated and polymerized tau (+phos.). Panel C and D show products of phosphorylated tau that was polymerized in the presence of 20 μM ThS (+phos., +ThS). The clusters of filaments were approximately 2 μm across... |
PMC1936422_F6_12546.jpg | Can you identify the primary element in this image? | Phosphorylation by GSK-3β is sufficient to promote filament clustering. Panel A and B show products of phosphorylated and polymerized tau (+phos.). Panel C and D show products of phosphorylated tau that was polymerized in the presence of 20 μM ThS (+phos., +ThS). The clusters of filaments were approximately 2 μm across... |
PMC1936423_F2_12549.jpg | What is the main focus of this visual representation? | Contrast-enhanced CT scan. The exam showed the extraperitoneal pelvic tumor with a heterogeneous surface, necrotic and calcific areas. The cecum and the right colon are displaced forward and to the left side. |
PMC1936429_F3_12552.jpg | What is the principal component of this image? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12556.jpg | What is the dominant medical problem in this image? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12550.jpg | Describe the main subject of this image. | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12560.jpg | What is the principal component of this image? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12551.jpg | What is the main focus of this visual representation? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12562.jpg | What can you see in this picture? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12555.jpg | What is the dominant medical problem in this image? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12553.jpg | What is the dominant medical problem in this image? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12554.jpg | What is the focal point of this photograph? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12557.jpg | Can you identify the primary element in this image? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936429_F3_12558.jpg | What is being portrayed in this visual content? | Histopathology of tumors induced by Akv and derived splice site mutants. Representative examples are shown. (A to D) de novo diffuse large B-cell lymphoma. (A) Low magnification of a spleen infiltrated by a vaguely nodular lymphoid neoplasia (H&E staining). Magnification, ×25. (B) Higher magnification demonstrates that... |
PMC1936989_F8_12563.jpg | What is being portrayed in this visual content? | Char ring created by a single internally cooled electrode with an effective area of 3 cm in length. Longitudinal (A) and cross section (B) of the coagulation obtained by a single 3 cm exposed tip internally cooled electrode at 1800 mA (maximum current) for 10 minutes without using either saline perfusion into the tissu... |
PMC1936995_F1_12565.jpg | What's the most prominent thing you notice in this picture? | FDG PET CT. |
PMC1936995_F3_12567.jpg | What is the central feature of this picture? | high power H & E stain and S100 stain of biopsy. |
PMC1937002_F2_12569.jpg | What is being portrayed in this visual content? | Endoscopic view of fundal polyp in patient 1, biopsies of which confirmed signet-ring adenocarcinoma. |
PMC1937002_F5_12573.jpg | What is shown in this image? | Gastric biopsy from patient 2 is infiltrated by a poorly differentiated adenocarcinoma with signet ring cell morphology (panel A). Immunohistochemistry showing positive staining for CK7 (panel B), oestrogen receptor (panel C) and progesterone receptor (panel D). |
PMC1937002_F5_12572.jpg | What is the core subject represented in this visual? | Gastric biopsy from patient 2 is infiltrated by a poorly differentiated adenocarcinoma with signet ring cell morphology (panel A). Immunohistochemistry showing positive staining for CK7 (panel B), oestrogen receptor (panel C) and progesterone receptor (panel D). |
PMC1937002_F5_12571.jpg | Can you identify the primary element in this image? | Gastric biopsy from patient 2 is infiltrated by a poorly differentiated adenocarcinoma with signet ring cell morphology (panel A). Immunohistochemistry showing positive staining for CK7 (panel B), oestrogen receptor (panel C) and progesterone receptor (panel D). |
PMC1937002_F5_12570.jpg | Can you identify the primary element in this image? | Gastric biopsy from patient 2 is infiltrated by a poorly differentiated adenocarcinoma with signet ring cell morphology (panel A). Immunohistochemistry showing positive staining for CK7 (panel B), oestrogen receptor (panel C) and progesterone receptor (panel D). |
PMC1937005_F2_12575.jpg | What is the main focus of this visual representation? | Loose cluster of epithelioid cells with abundant granular cytoplasm, rounded nuclei with mild to moderate anisokaryosis and prominent eosinophilic macro nucleolus. Note the micro acinus like formation in the centre. Papanicolaou stain × 1000. |
PMC1937007_F4_12578.jpg | Can you identify the primary element in this image? | A-C. Iris disease and IOP in D2-Gpnmb+ mice. A. Broad-beam illumination. B. Transillumination. C. Side view dimensions of the anterior chamber. D2-Gpnmb+ eyes show no IPD but have a distinct form of ISA where the iris appears 'roughened'. D2-Gpnmb+ eyes have no transillumination defects and normal anterior chamber morp... |
PMC1937013_pgen-0030128-g006_12627.jpg | What is being portrayed in this visual content? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12604.jpg | What's the most prominent thing you notice in this picture? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12609.jpg | What is the main focus of this visual representation? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12610.jpg | What is being portrayed in this visual content? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12631.jpg | What is shown in this image? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12624.jpg | What is the focal point of this photograph? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12623.jpg | What object or scene is depicted here? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12626.jpg | What is the main focus of this visual representation? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12614.jpg | What is the central feature of this picture? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12613.jpg | What is the core subject represented in this visual? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12622.jpg | What is the dominant medical problem in this image? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12616.jpg | What is the central feature of this picture? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12611.jpg | What's the most prominent thing you notice in this picture? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12619.jpg | What is the main focus of this visual representation? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12625.jpg | What is shown in this image? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12617.jpg | What is being portrayed in this visual content? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12615.jpg | What is the core subject represented in this visual? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12606.jpg | What can you see in this picture? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12628.jpg | What is the dominant medical problem in this image? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12603.jpg | What is the dominant medical problem in this image? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12621.jpg | What is the main focus of this visual representation? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12629.jpg | What is the dominant medical problem in this image? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12607.jpg | What object or scene is depicted here? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12612.jpg | What does this image primarily show? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g006_12605.jpg | What key item or scene is captured in this photo? | Localization of GFP-Tagged Dynein Suppressor Proteins in Wild-Type EmbryosInsets show 2× magnification of meiotic spindles.(A–D) DYLT-1: oocyte nuclear envelopes (A), meiotic spindle poles (B), nuclear envelopes prior to mitosis (C), and centrosomes and mitotic spindle poles (D). Mitotic localization is most robust in ... |
PMC1937013_pgen-0030128-g007_12581.jpg | What does this image primarily show? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12595.jpg | What key item or scene is captured in this photo? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12580.jpg | What stands out most in this visual? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12598.jpg | What is the principal component of this image? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12600.jpg | What object or scene is depicted here? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12584.jpg | What is the focal point of this photograph? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12590.jpg | What is being portrayed in this visual content? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12586.jpg | What is the focal point of this photograph? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12594.jpg | What is the core subject represented in this visual? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12597.jpg | What can you see in this picture? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12599.jpg | What stands out most in this visual? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12587.jpg | Can you identify the primary element in this image? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12585.jpg | What is the dominant medical problem in this image? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12589.jpg | What is the dominant medical problem in this image? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12592.jpg | What is the central feature of this picture? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12591.jpg | What is the main focus of this visual representation? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937013_pgen-0030128-g007_12602.jpg | What is the main focus of this visual representation? | Time-Lapse Images of GFP::DYRB-1 and GFP::DYLT-1 in Wild-Type and dhc-1(or195) Mutant EmbryosImages represent pronuclear migration to telophase in the first embryonic cell cycle. Identical conditions were used during microscopy and image manipulation so that images are directly comparable.(A) Faint localization of GFP:... |
PMC1937017_pcbi-0030155-g001_12635.jpg | What is the dominant medical problem in this image? | Comparison between Simulated and Experimental Images for Different Types of Radiation(A) Shows RIF within a nucleus traversed by high energy Fe ions (1 GeV/amu Fe).(B) shows a nucleus exposed to photons.Shown at the top are RIF images of nuclei taken from a microscope (DAPI in blue and DNA damage marker γH2AX in green)... |
PMC1937017_pcbi-0030155-g001_12634.jpg | What is being portrayed in this visual content? | Comparison between Simulated and Experimental Images for Different Types of Radiation(A) Shows RIF within a nucleus traversed by high energy Fe ions (1 GeV/amu Fe).(B) shows a nucleus exposed to photons.Shown at the top are RIF images of nuclei taken from a microscope (DAPI in blue and DNA damage marker γH2AX in green)... |
PMC1937017_pcbi-0030155-g006_12641.jpg | What object or scene is depicted here? | Illustration of Rdna and Rgrad MeasurementsThree hypothetical foci patterns over the same nucleus are illustrated with their corresponding Rdna and Rgrad values. Upper images (A,C,E) are overlays of the DAPI image with the center of hypothetical foci (in red). Lower images (B,D,F) are overlays of the foci location with... |
PMC1937017_pcbi-0030155-g006_12644.jpg | What is being portrayed in this visual content? | Illustration of Rdna and Rgrad MeasurementsThree hypothetical foci patterns over the same nucleus are illustrated with their corresponding Rdna and Rgrad values. Upper images (A,C,E) are overlays of the DAPI image with the center of hypothetical foci (in red). Lower images (B,D,F) are overlays of the foci location with... |
PMC1937017_pcbi-0030155-g006_12643.jpg | What is the core subject represented in this visual? | Illustration of Rdna and Rgrad MeasurementsThree hypothetical foci patterns over the same nucleus are illustrated with their corresponding Rdna and Rgrad values. Upper images (A,C,E) are overlays of the DAPI image with the center of hypothetical foci (in red). Lower images (B,D,F) are overlays of the foci location with... |
PMC1937017_pcbi-0030155-g006_12645.jpg | Describe the main subject of this image. | Illustration of Rdna and Rgrad MeasurementsThree hypothetical foci patterns over the same nucleus are illustrated with their corresponding Rdna and Rgrad values. Upper images (A,C,E) are overlays of the DAPI image with the center of hypothetical foci (in red). Lower images (B,D,F) are overlays of the foci location with... |
PMC1937017_pcbi-0030155-g006_12642.jpg | What can you see in this picture? | Illustration of Rdna and Rgrad MeasurementsThree hypothetical foci patterns over the same nucleus are illustrated with their corresponding Rdna and Rgrad values. Upper images (A,C,E) are overlays of the DAPI image with the center of hypothetical foci (in red). Lower images (B,D,F) are overlays of the foci location with... |
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