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PMC2373794_F2_21917.jpg | What is the focal point of this photograph? | D2-Gpnmb+ bone marrow suppresses iris depigmentation and anterior chamber enlargement. Representative eyes of the indicated strains and ages are shown. The three left most columns show broad beam illumination to assay for the presence of dispersed pigment within the anterior chamber and iris stromal morphology. The fou... |
PMC2373794_F2_21923.jpg | What is the dominant medical problem in this image? | D2-Gpnmb+ bone marrow suppresses iris depigmentation and anterior chamber enlargement. Representative eyes of the indicated strains and ages are shown. The three left most columns show broad beam illumination to assay for the presence of dispersed pigment within the anterior chamber and iris stromal morphology. The fou... |
PMC2373794_F2_21921.jpg | What stands out most in this visual? | D2-Gpnmb+ bone marrow suppresses iris depigmentation and anterior chamber enlargement. Representative eyes of the indicated strains and ages are shown. The three left most columns show broad beam illumination to assay for the presence of dispersed pigment within the anterior chamber and iris stromal morphology. The fou... |
PMC2373794_F2_21930.jpg | What is being portrayed in this visual content? | D2-Gpnmb+ bone marrow suppresses iris depigmentation and anterior chamber enlargement. Representative eyes of the indicated strains and ages are shown. The three left most columns show broad beam illumination to assay for the presence of dispersed pigment within the anterior chamber and iris stromal morphology. The fou... |
PMC2373794_F2_21915.jpg | What can you see in this picture? | D2-Gpnmb+ bone marrow suppresses iris depigmentation and anterior chamber enlargement. Representative eyes of the indicated strains and ages are shown. The three left most columns show broad beam illumination to assay for the presence of dispersed pigment within the anterior chamber and iris stromal morphology. The fou... |
PMC2373794_F4_21908.jpg | What is the central feature of this picture? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373794_F4_21901.jpg | What stands out most in this visual? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373794_F4_21907.jpg | What is shown in this image? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373794_F4_21904.jpg | What can you see in this picture? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373794_F4_21902.jpg | What does this image primarily show? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373794_F4_21903.jpg | What is the focal point of this photograph? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373794_F4_21900.jpg | What is the core subject represented in this visual? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373794_F4_21909.jpg | What is the central feature of this picture? | GPNMB localizes to multiple pigmented tissues of the eye and ocular APCs. Cryosections of whole eyes from wild-type C57BL/6J mice were imaged in brightfield or phase illumination. GPNMB protein localization was imaged by fluorescent immunohistochemistry and confocal microscopy (red). GPNMB is present in: (A, B) multipl... |
PMC2373795_f4_21912.jpg | What stands out most in this visual? | Histological examination of the lens. Epon semi-thin sections were stained with toluidine blue. A: The control animal is shown. A single layer of the cuboidal epithelium (arrow) transforms at the equator into elongated cells representing future lens fibers. B: The lens of +/Dca heterozygotes corresponded in shape nearl... |
PMC2373795_f4_21913.jpg | What does this image primarily show? | Histological examination of the lens. Epon semi-thin sections were stained with toluidine blue. A: The control animal is shown. A single layer of the cuboidal epithelium (arrow) transforms at the equator into elongated cells representing future lens fibers. B: The lens of +/Dca heterozygotes corresponded in shape nearl... |
PMC2373795_f4_21911.jpg | Describe the main subject of this image. | Histological examination of the lens. Epon semi-thin sections were stained with toluidine blue. A: The control animal is shown. A single layer of the cuboidal epithelium (arrow) transforms at the equator into elongated cells representing future lens fibers. B: The lens of +/Dca heterozygotes corresponded in shape nearl... |
PMC2373871_pone-0002110-g001_21933.jpg | What is the focal point of this photograph? | The optic lobe of Drosophila melanogaster.
A Horizontal section showing part of the retina and neuropil layers of the visual system (labeling with antiserum to GABABR2): retina (Re) with photoreceptors, lamina neuropil (La) connected with the medulla neuropil (Me) via the first optic chiasma. Central to these are two n... |
PMC2373871_pone-0002110-g001_21934.jpg | What can you see in this picture? | The optic lobe of Drosophila melanogaster.
A Horizontal section showing part of the retina and neuropil layers of the visual system (labeling with antiserum to GABABR2): retina (Re) with photoreceptors, lamina neuropil (La) connected with the medulla neuropil (Me) via the first optic chiasma. Central to these are two n... |
PMC2373871_pone-0002110-g001_21936.jpg | What is being portrayed in this visual content? | The optic lobe of Drosophila melanogaster.
A Horizontal section showing part of the retina and neuropil layers of the visual system (labeling with antiserum to GABABR2): retina (Re) with photoreceptors, lamina neuropil (La) connected with the medulla neuropil (Me) via the first optic chiasma. Central to these are two n... |
PMC2373871_pone-0002110-g001_21935.jpg | Describe the main subject of this image. | The optic lobe of Drosophila melanogaster.
A Horizontal section showing part of the retina and neuropil layers of the visual system (labeling with antiserum to GABABR2): retina (Re) with photoreceptors, lamina neuropil (La) connected with the medulla neuropil (Me) via the first optic chiasma. Central to these are two n... |
PMC2373871_pone-0002110-g006_21940.jpg | What key item or scene is captured in this photo? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21946.jpg | What key item or scene is captured in this photo? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21939.jpg | What key item or scene is captured in this photo? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21937.jpg | What is shown in this image? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21943.jpg | What is the central feature of this picture? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21945.jpg | What is the core subject represented in this visual? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21938.jpg | What is being portrayed in this visual content? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21944.jpg | What can you see in this picture? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21942.jpg | What is shown in this image? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21947.jpg | What is shown in this image? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g006_21941.jpg | What is the central feature of this picture? | Tangential and amacrine neurons in lamina, and markers for GABA, glutamate and acetylcholine signaling.A GFP expression driven by Cha-Gal4 reveals putative choline acetyltransferase containing lamina neurons. GFP expression in cell bodies near the medulla (arrow), and lamina morphology together suggests that Cha-Gal4 r... |
PMC2373871_pone-0002110-g007_21950.jpg | What stands out most in this visual? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21958.jpg | What stands out most in this visual? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21957.jpg | What is shown in this image? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21960.jpg | What is the focal point of this photograph? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21962.jpg | What is being portrayed in this visual content? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21952.jpg | What is shown in this image? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21956.jpg | What is the principal component of this image? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21961.jpg | What stands out most in this visual? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21953.jpg | What is the central feature of this picture? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g007_21955.jpg | What is being portrayed in this visual content? | Distribution of vesicular glutamate transporter (vGluT) immunolabeling.Different antisera were combined with OK371-Gal4 driven GFP expression, which reports vGluT-expressing neurons. A1–3 Frontal sections of the lamina (vGluT antiserum) revealing lack of co-localization between vGluT immunolabeling (magenta) and GFP ex... |
PMC2373871_pone-0002110-g008_21970.jpg | What's the most prominent thing you notice in this picture? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21981.jpg | What is shown in this image? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21980.jpg | What is the dominant medical problem in this image? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21979.jpg | What stands out most in this visual? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21973.jpg | What is shown in this image? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21967.jpg | What does this image primarily show? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21978.jpg | What is shown in this image? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21976.jpg | What is shown in this image? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21966.jpg | What's the most prominent thing you notice in this picture? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21969.jpg | What can you see in this picture? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21974.jpg | What stands out most in this visual? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373871_pone-0002110-g008_21977.jpg | What is the central feature of this picture? | Centrifugal neurons in the lamina and markers for GABA signaling.A GFP expression in columnar C3 neuron terminals in the lamina (La) and medulla (Me) driven by the 5-6-8-Gal4. The C3 cell bodies (cb) proximal to the medulla are also visible. Ch: optic chiasma. Scale bar = 10 µm. B Distribution of glutamic acid decarbox... |
PMC2373886_pone-0002141-g002_21988.jpg | What's the most prominent thing you notice in this picture? | MiRNA detection in cryopreserved bone marrow cells by LNA-FISH.Patients n. 109 (lanes 1–3) and n. 111 (lanes 4–6) carrying the t(15;17) and t(9;22) translocations, respectively, are shown. All images were obtained with the confocal microscope as described in the method. The DAPI nuclear staining (blue), the fluorescent... |
PMC2373891_pone-0002197-g003_21994.jpg | What does this image primarily show? | Analysis of EN and GsbN binding sites on polytene chromosomes.Salivary glands from MS1096-Gal4/, UAS-GsbN; UAS-EN L3 larvae were squashed and immunostained with both Rabbit polyclonal anti-EN antibody (detected in red) and guinea-pig polyclonal anti-GsbN antibody (detected in green). DAPI staining was used to visualize... |
PMC2373891_pone-0002197-g003_21999.jpg | What's the most prominent thing you notice in this picture? | Analysis of EN and GsbN binding sites on polytene chromosomes.Salivary glands from MS1096-Gal4/, UAS-GsbN; UAS-EN L3 larvae were squashed and immunostained with both Rabbit polyclonal anti-EN antibody (detected in red) and guinea-pig polyclonal anti-GsbN antibody (detected in green). DAPI staining was used to visualize... |
PMC2373891_pone-0002197-g003_22003.jpg | What is being portrayed in this visual content? | Analysis of EN and GsbN binding sites on polytene chromosomes.Salivary glands from MS1096-Gal4/, UAS-GsbN; UAS-EN L3 larvae were squashed and immunostained with both Rabbit polyclonal anti-EN antibody (detected in red) and guinea-pig polyclonal anti-GsbN antibody (detected in green). DAPI staining was used to visualize... |
PMC2373891_pone-0002197-g003_22001.jpg | What stands out most in this visual? | Analysis of EN and GsbN binding sites on polytene chromosomes.Salivary glands from MS1096-Gal4/, UAS-GsbN; UAS-EN L3 larvae were squashed and immunostained with both Rabbit polyclonal anti-EN antibody (detected in red) and guinea-pig polyclonal anti-GsbN antibody (detected in green). DAPI staining was used to visualize... |
PMC2373891_pone-0002197-g003_22005.jpg | What stands out most in this visual? | Analysis of EN and GsbN binding sites on polytene chromosomes.Salivary glands from MS1096-Gal4/, UAS-GsbN; UAS-EN L3 larvae were squashed and immunostained with both Rabbit polyclonal anti-EN antibody (detected in red) and guinea-pig polyclonal anti-GsbN antibody (detected in green). DAPI staining was used to visualize... |
PMC2373891_pone-0002197-g003_21995.jpg | What is the central feature of this picture? | Analysis of EN and GsbN binding sites on polytene chromosomes.Salivary glands from MS1096-Gal4/, UAS-GsbN; UAS-EN L3 larvae were squashed and immunostained with both Rabbit polyclonal anti-EN antibody (detected in red) and guinea-pig polyclonal anti-GsbN antibody (detected in green). DAPI staining was used to visualize... |
PMC2373891_pone-0002197-g003_21993.jpg | What is the main focus of this visual representation? | Analysis of EN and GsbN binding sites on polytene chromosomes.Salivary glands from MS1096-Gal4/, UAS-GsbN; UAS-EN L3 larvae were squashed and immunostained with both Rabbit polyclonal anti-EN antibody (detected in red) and guinea-pig polyclonal anti-GsbN antibody (detected in green). DAPI staining was used to visualize... |
PMC2374454_F2_22009.jpg | Can you identify the primary element in this image? | Macroscopic observation. Femoral and tibial articular cartilage stained with India ink. Cartilage lesions are indicated by arrowheads. Lat, lateral; Med, medial. |
PMC2374454_F2_22011.jpg | What is being portrayed in this visual content? | Macroscopic observation. Femoral and tibial articular cartilage stained with India ink. Cartilage lesions are indicated by arrowheads. Lat, lateral; Med, medial. |
PMC2374454_F2_22013.jpg | What key item or scene is captured in this photo? | Macroscopic observation. Femoral and tibial articular cartilage stained with India ink. Cartilage lesions are indicated by arrowheads. Lat, lateral; Med, medial. |
PMC2374454_F2_22012.jpg | What is the principal component of this image? | Macroscopic observation. Femoral and tibial articular cartilage stained with India ink. Cartilage lesions are indicated by arrowheads. Lat, lateral; Med, medial. |
PMC2374454_F2_22010.jpg | What key item or scene is captured in this photo? | Macroscopic observation. Femoral and tibial articular cartilage stained with India ink. Cartilage lesions are indicated by arrowheads. Lat, lateral; Med, medial. |
PMC2374457_F1_22015.jpg | Describe the main subject of this image. | Erosions in the wrist of a rheumatoid arthritis patient. Wrist of a rheumatoid arthritis patient visualised by (a, b) computed tomography and (c, d) T1-weighted magnetic resonance imaging in the (a, c) coronal and (b, d) axial planes. A bone erosion at the distal radius is seen on both computed tomography and magnetic ... |
PMC2374457_F1_22018.jpg | What is being portrayed in this visual content? | Erosions in the wrist of a rheumatoid arthritis patient. Wrist of a rheumatoid arthritis patient visualised by (a, b) computed tomography and (c, d) T1-weighted magnetic resonance imaging in the (a, c) coronal and (b, d) axial planes. A bone erosion at the distal radius is seen on both computed tomography and magnetic ... |
PMC2374457_F1_22014.jpg | Describe the main subject of this image. | Erosions in the wrist of a rheumatoid arthritis patient. Wrist of a rheumatoid arthritis patient visualised by (a, b) computed tomography and (c, d) T1-weighted magnetic resonance imaging in the (a, c) coronal and (b, d) axial planes. A bone erosion at the distal radius is seen on both computed tomography and magnetic ... |
PMC2374457_F1_22016.jpg | What is shown in this image? | Erosions in the wrist of a rheumatoid arthritis patient. Wrist of a rheumatoid arthritis patient visualised by (a, b) computed tomography and (c, d) T1-weighted magnetic resonance imaging in the (a, c) coronal and (b, d) axial planes. A bone erosion at the distal radius is seen on both computed tomography and magnetic ... |
PMC2374466_F1_22019.jpg | What is the principal component of this image? | Correlation matrix from original variables measured in NOD and Balb/c mice. Correlation matrix of proteins differently expressed (P < 0.05) between nonobese diabetic (NOD) and Balb/c mice or significantly associated with autoimmune manifestations in NOD (r > 0.6, P < 0.05) sorted according to protein family membership ... |
PMC2374596_F6_22025.jpg | Can you identify the primary element in this image? | Cells subjected to pathologic cyclic stretch (CS) (18%, 2 hours) were pretreated with vehicle (a) or OxPAPC (20 μg/mL) (b) followed by thrombin (0.5 U/mL) stimulation for 30 (c,d) or 50 (e,f) minutes. F-actin was visualized by immunofluorescence staining with Texas-Red phalloidin. Cells subjected to CS and thrombins (3... |
PMC2374596_F6_22023.jpg | What's the most prominent thing you notice in this picture? | Cells subjected to pathologic cyclic stretch (CS) (18%, 2 hours) were pretreated with vehicle (a) or OxPAPC (20 μg/mL) (b) followed by thrombin (0.5 U/mL) stimulation for 30 (c,d) or 50 (e,f) minutes. F-actin was visualized by immunofluorescence staining with Texas-Red phalloidin. Cells subjected to CS and thrombins (3... |
PMC2374596_F6_22021.jpg | What is the central feature of this picture? | Cells subjected to pathologic cyclic stretch (CS) (18%, 2 hours) were pretreated with vehicle (a) or OxPAPC (20 μg/mL) (b) followed by thrombin (0.5 U/mL) stimulation for 30 (c,d) or 50 (e,f) minutes. F-actin was visualized by immunofluorescence staining with Texas-Red phalloidin. Cells subjected to CS and thrombins (3... |
PMC2374596_F6_22024.jpg | Can you identify the primary element in this image? | Cells subjected to pathologic cyclic stretch (CS) (18%, 2 hours) were pretreated with vehicle (a) or OxPAPC (20 μg/mL) (b) followed by thrombin (0.5 U/mL) stimulation for 30 (c,d) or 50 (e,f) minutes. F-actin was visualized by immunofluorescence staining with Texas-Red phalloidin. Cells subjected to CS and thrombins (3... |
PMC2374596_F6_22022.jpg | What is the central feature of this picture? | Cells subjected to pathologic cyclic stretch (CS) (18%, 2 hours) were pretreated with vehicle (a) or OxPAPC (20 μg/mL) (b) followed by thrombin (0.5 U/mL) stimulation for 30 (c,d) or 50 (e,f) minutes. F-actin was visualized by immunofluorescence staining with Texas-Red phalloidin. Cells subjected to CS and thrombins (3... |
PMC2374696_F6_22028.jpg | What is the main focus of this visual representation? | Microvesicles budding from the flagellar pocket and plasma membrane of leishmania. Stationary phase leishmania promastigotes were fixed and coated for scanning electron microscopy as described in Materials and methods. (a) A leishmania promastigote, (b) 10× magnification of the exposed flagellar pocket region of panel ... |
PMC2374696_F6_22027.jpg | What is the main focus of this visual representation? | Microvesicles budding from the flagellar pocket and plasma membrane of leishmania. Stationary phase leishmania promastigotes were fixed and coated for scanning electron microscopy as described in Materials and methods. (a) A leishmania promastigote, (b) 10× magnification of the exposed flagellar pocket region of panel ... |
PMC2374714_F3_22032.jpg | What is being portrayed in this visual content? | Examples of mutant phenotypes representing the nine major phenotypic groups. (a) Plant 566: cotyledon color, albino. (b) Plant 939: plantlet architecture, bushy; plant architecture, hyper compact; leaf color, pale green; stem size, extreme dwarf. (c) Plant 54: plant architecture, determinate growth. (d) Plant 1,236: pl... |
PMC2374714_F3_22030.jpg | What is the principal component of this image? | Examples of mutant phenotypes representing the nine major phenotypic groups. (a) Plant 566: cotyledon color, albino. (b) Plant 939: plantlet architecture, bushy; plant architecture, hyper compact; leaf color, pale green; stem size, extreme dwarf. (c) Plant 54: plant architecture, determinate growth. (d) Plant 1,236: pl... |
PMC2374714_F3_22031.jpg | What is the principal component of this image? | Examples of mutant phenotypes representing the nine major phenotypic groups. (a) Plant 566: cotyledon color, albino. (b) Plant 939: plantlet architecture, bushy; plant architecture, hyper compact; leaf color, pale green; stem size, extreme dwarf. (c) Plant 54: plant architecture, determinate growth. (d) Plant 1,236: pl... |
PMC2374714_F3_22033.jpg | What stands out most in this visual? | Examples of mutant phenotypes representing the nine major phenotypic groups. (a) Plant 566: cotyledon color, albino. (b) Plant 939: plantlet architecture, bushy; plant architecture, hyper compact; leaf color, pale green; stem size, extreme dwarf. (c) Plant 54: plant architecture, determinate growth. (d) Plant 1,236: pl... |
PMC2374723_F5_22045.jpg | What object or scene is depicted here? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22039.jpg | What does this image primarily show? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22040.jpg | What does this image primarily show? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22046.jpg | What is being portrayed in this visual content? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22043.jpg | What is the principal component of this image? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22044.jpg | What is the dominant medical problem in this image? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22041.jpg | What is shown in this image? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22042.jpg | What is the central feature of this picture? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374723_F5_22038.jpg | What is the dominant medical problem in this image? | Spindle defects observed for RNAi phenotypes using confocal fluorescence microscopy. Cells transfected with single (double-stranded) small interfering RNA targeting (a) KIAA1604, (b) KIAA1569/Cep192, (c) FLJ10460/Cep27, (d) SON, (e) KIAA1160, (f) FLJ13111/CENP-T, (g) SMU-1, (h) C18orf24/SKA1, and (i) negative control. ... |
PMC2374764_F1_22052.jpg | What can you see in this picture? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22058.jpg | What can you see in this picture? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22055.jpg | What is the central feature of this picture? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22049.jpg | What is the principal component of this image? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22054.jpg | What is the principal component of this image? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22047.jpg | Describe the main subject of this image. | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22053.jpg | Can you identify the primary element in this image? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22057.jpg | Can you identify the primary element in this image? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
PMC2374764_F1_22048.jpg | What can you see in this picture? | Morphological features of human MDMs after 24 h of in vitro treatment with Eucalyptus oil. a-f, phase-contrast microscopy after Wright Giemsa staining: a, d, untreated control; b, e, MDMs stimulated with 0.1 μg/ml of bacterial lipopolysaccharide (LPS); c, f, MDMs treated with 0.016% Eucalyptus oil; a, b, c, original ma... |
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