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Fig 1. Regulation of Foxp3 expression.
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Fig 3. Immunostaining for key Notch proteins in airway epithelial biopsies.
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Fig 1c. EGFP-expressing radial clones observed in individual brain sections at postnatal stages.
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Fig 3A1. Case 3: Dermoscopy reveals a pink, blanchable lesion with dilated capillary loops, mainly perpendicularly orientated, as pinpoint-like or globular structures (white arrows) following serpiginous lines (green line).
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Fig 1a. Schematic demonstration of (A) virus infection, replication, transgene expression, and [18F]FEAU PET imaging.
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Fig 5a. Structures of M. tuberculosis CmaA2 in Complex with Dioctylamine and DDDMAB/SAH.
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Fig 2a. Process for Radiofrequency Ablation (RFA). Transcutaneous insertion of the RFA needle electrode (usually via image guidance) into the tumor.
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Fig 1. Low-grade acinic cell carcinoma. (A) A well-circumscribed tumor nodule (T) surrounded by salivary gland parenchyma.
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Fig 2. Organ-specific barriers to metastatic infiltration.
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Fig 4c. Hras allelic imbalance in papillomas and angiosarcoma from CC/FR-Hras<sup>G12V</sup> mice.
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Fig 2b. Horizontal sectioning of normal-appearing skin with a globular pattern showing small junctional melanocytic nests (arrows).
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Fig 2a. ATPase active site and DNA contacts.
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Fig 1a. Low magnification image demonstrating carcinoma arising within and confined to the urachal remnant.
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The art and politics of science, by Harold Varmus.
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Fig 1. T-cell inhibitors of the immunoglobulin superfamily.
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Fig 4. Microscopic appearance of MA showing densely packed small acini with minimal stroma.
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Fig 1. Immunofluorescence assay of HCT-116 cells after treatment with 50 nM AZD1152HQPA for 24 h and the DAPI stain showing completely misaligned chromosome when compared with untreated controls.
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Fig 1. Synthetic strategy toward homogeneous EPO.
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Fig 2. Immunohistochemical detection of p-4E-BP1 in metastatic melanoma patients.
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Fig 2. Dual-tagged ES cells with H2BñGFP as a nuclear marker and myrñRFP as a label for the plasma membrane.
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Fig 2f. Bone marrow aspirate from a Prdm1:TVB-mRFP transgenic animal.
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Fig 1b. Structure of the OxoG-C Dpo4 Extension Ternary Complex.
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Fig 6f. 14-3-3-beta, but not 14-3-3-gamma, mediates Akt-dependent cytosolic localization of Skp2.
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Fig 5. Effect of depletion of CD4<SUP>+</SUP>CD25<SUP>hi</SUP> cells on NY-ESO-1-specific CD4 T-cell responses.
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Fig 1. Infrared imaging shows confirmation of subtotal RF ablation.
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Fig 6b. Ectopically expressed human factor IX (hFIX) does not alter the morphological phenotype of erythrocytes.
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Fig 1b. Bioluminescent imaging of PG-13 retroviral producer cells expressing the luciferase constructs at 24 h of culture and of signal from tissue culture supernatants (sup). sr, steradiance.
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Fig 1d. Structure of Tas3 C-Terminal TAM Domain and Its Self-Associated Polymer.
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Fig 5c. Role of PRMT5 in developmental globin gene silencing.
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Fig 9a. Stacking between different layers in the human telomeric G-quadruplex Form 3 in K+ solution.
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Fig 2. AZD1152 induces tumor regression of HCT-116 xenografts.
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Fig 6. Transition state structures of PfOPRT and HsOPRT.
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Fig 1. Identification of the transcriptional output of the MEK/ERK pathway in (V600E)BRAF tumor cells.
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Fig 2. Adeno-BAC (100% BAC). The figure shows the BAC which has several lymphoid nodules, but no invasion.
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Fig 3a. FISH analysis of an apparent megakaryocyte with 16n probe copy number.
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Fig 2. Photograph of section of colon shows tumor infiltration into mucosa (long black arrow), submucosa (short black arrow), muscularis propria (white arrow) and subserosa (arrowhead).
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Fig 1. Molecular factors involved in plaque evolution.
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Fig 4. Types of periosteal reaction at radiography.
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Fig 6b. Stereo image of the active site of HsPDF with actinonin. HsPDF residues, in gray, contacting actinonin, yellow, are shown as sticks.
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Fig 5. Comparison of the experimental decay rates of the cross-terms between internal and external field gradients.
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Fig 1c. Macrophages at the invasive edge of pancreatic islet cancers express cathepsin B (green), which is associated with loss of epithelial cadherin (red) on the neighbouring cancer cells. Cell nuclei are visualized by DAPI (blue).
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Fig 2c. Hematoxylin and eosin staining of liver and spleen from all leukemic mice, regardless of genotype, show infiltration of hematopoietic cells into liver and abnormal splenic cellularity.
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Fig 3c. Interactions of FMN analogues with the riboswitch.
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Fig 4. Changes in expression of specific gene transcripts in prostate tissues following various treatments.
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Fig 2a. GM (1) bound to yeast Hsp90.
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Fig 1c. Bmi-1 expression enhances self-renewal of embryonic and adult NSCs in vitro.
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Fig 7. A Mechanism to Couple Capping and Elongation at Select Genes.
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Fig 4b. Immunofluorescent staining of germinal centre B cells (GL7<sup>+</sup>, green), follicular B cells (IgD<sup>+</sup>, red), and CD4<sup>+</sup> T cells (blue) in spleens of <i>Irf4<sup>fl/fl</sup> Foxp3<sup>Cre</sup></i> mice and <i>Irf4<sup>fl/+</sup> Foxp3<sup>Cre</sup></i> littermates. Original magnification, 20.
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Fig 6b. Experimental MAD electron density map (contoured at 1.5 sigma level) obtained with the U2656-SeCH3 SRL RNA, detailed view of the A2657-G2664 mismatch.
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Fig 3a. Box-and-whisker plots show median and range of molecular marker levels, expressed as (a) percentages or (b) indices, in clinically insignificant and significant cancer as defined at pathologic examination. Diamonds indicate outliers.
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Fig 2. Expression of membrane-tethered axin blocks Wg signaling in the epidermal patterning of Drosophila embryos.
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Fig 3. RT-planning FDG-PET/CT scan of a patient with esophageal carcinoma.
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Fig 2. The crystal structure of restriction nuclease BglII along with its DNA-recognition sequence.
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Fig 1. The new Ru(II) chloroquine complexes have been synthesized and characterized by use of a combination of NMR and FTIR spectroscopy with DFT calculations.
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Fig 1. The new Ru(II) chloroquine complexes have been synthesized and characterized by use of a combination of NMR and FTIR spectroscopy with DFT calculations.
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Fig 1a. A schematic representation of Cy5 reactive dye incorporated into the core of an amorphous silica nanoparticle.
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Fig 7a. Expression of CD44 and CD62L in splenic OT-II T cells from Foxo1/Foxo1 (wild-type, WT) mice at 8 weeks old.
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Fig 1. Known antifolate antimalarials and their mode of binding to P. falciparum DHFR.
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Fig 2a. SKY picture of HCC1954 genome. (M) chromosome is too complicated to be assigned.
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Fig 2a. Cartoons of E, N, and S modules showing single-stranded ends used for ligation, along with the actual sequences.
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Fig 1e. CNID, with arrows pointing to cells with deletion of the red signal in at least two gene copies, with two wild-type alleles in the same cell.
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Fig 2a. Tumors from mice given pimonidazole and EF5.
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Fig 1a. Venous phase magnetic resonance (MR) image of a recently ruptured liver cell adenoma encompassing nearly 50% of the right hemi liver and extending into the left hemi liver.
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Fig 2b. Total neurosphere cultures prepared from PDGF-induced tumors stain positive for various stem cell markers such as nestin, Oct4, Sox2, Musashi, ABCG2, and GFAP.
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![Fig 1a. Schematic demonstration of (A) virus infection, replication, transgene expression, and [18F]FEAU PET imaging.](https://library.mskcc.org/sparks/sparksimgs/graphics/sparks/archive/archive2009/PLoSone_Brader.jpg)
