Category:Mesoderm

Subcategories

This category has the following 3 subcategories, out of 3 total.

Media in category "Mesoderm"

The following 200 files are in this category, out of 275 total.

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  . Endoderm development in the mouse embryo.png 1,049 × 744; 435 KB
  
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  41392 2022 1024 Fig1 HTML.webp 1,799 × 1,357; 128 KB
  
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  A human embryo of 2 mm. in median sagittal section.jpg 838 × 1,006; 310 KB
  
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  A putative model of how the organizer induces germ layer specification and patterning.png 3,666 × 2,059; 911 KB
  
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  A, Transverse section through the yolk-sac and stalk of a 5 mm. pig embryo showing attachment of amnion. B, Diagram of the fetal membranes and allantoic placenta of a pig embryo in median.jpg 1,117 × 1,573; 818 KB
  
• A-Comprehensive-Panel-of-Three-Dimensional-Models-for-Studies-of-Prostate-Cancer-Growth-Invasion-pone.0010431.s013.ogv 1 min 6 s, 524 × 384; 8.71 MB
  
• A-Multi-cell-Multi-scale-Model-of-Vertebrate-Segmentation-and-Somite-Formation-pcbi.1002155.s016.ogv 1 min 3 s, 640 × 480; 6.71 MB
  
• A-Multi-cell-Multi-scale-Model-of-Vertebrate-Segmentation-and-Somite-Formation-pcbi.1002155.s017.ogv 1 min 2 s, 640 × 480; 6.06 MB
  
• A-Multi-cell-Multi-scale-Model-of-Vertebrate-Segmentation-and-Somite-Formation-pcbi.1002155.s018.ogv 1 min 2 s, 640 × 480; 6.04 MB
  
• A-Multi-cell-Multi-scale-Model-of-Vertebrate-Segmentation-and-Somite-Formation-pcbi.1002155.s019.ogv 29 s, 640 × 480; 630 KB
  
• A-Multi-cell-Multi-scale-Model-of-Vertebrate-Segmentation-and-Somite-Formation-pcbi.1002155.s020.ogv 2 min 5 s, 640 × 480; 5.94 MB
  
• A-Novel-Serum-Free-Monolayer-Culture-for-Orderly-Hematopoietic-Differentiation-of-Human-Pluripotent-pone.0022261.s001.ogv 46 s, 320 × 240; 7.59 MB
  
• A-Novel-Serum-Free-Monolayer-Culture-for-Orderly-Hematopoietic-Differentiation-of-Human-Pluripotent-pone.0022261.s002.ogv 1 min 35 s, 320 × 240; 19.08 MB
  
• A-Novel-Serum-Free-Monolayer-Culture-for-Orderly-Hematopoietic-Differentiation-of-Human-Pluripotent-pone.0022261.s003.ogv 42 s, 320 × 240; 7.93 MB
  
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  Amnion formation in mouse embryos, illustrated by longitudinal sections.jpg 1,200 × 1,394; 1.37 MB
  
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  Amnion Formation In Mouse Embryos, Illustrated By Transverse Sections.jpg 1,200 × 1,416; 969 KB
  
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  Amniota The embryonic origins of the jaw are highly conserved across amniotes despite species-specific differences in form and function.jpg 1,638 × 1,831; 1.31 MB
  
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  Amphibia formation of the neural tube, notochord, mesoderm, and coelom in vertebrates. cross-sections..jpg 1,777 × 712; 592 KB
  
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  Amphioxus Origin of the mesoderm.jpg 1,802 × 756; 793 KB
  
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  Amphioxus Transverse Section of an embryo with five mesodermic pouches.jpg 764 × 726; 305 KB
  
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  An anterior to posterior gradient of proliferation counteracts ingression in the anterior primitive streak (PS) epiblast chicken embryo.jpg 1,268 × 1,637; 353 KB
  
• An-Integrated-Strategy-for-Analyzing-the-Unique-Developmental-Programs-of-Different-Myoblast-pgen.0020016.sv001.ogv 12 s, 435 × 435; 674 KB
  
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  Ascaris megalocephala Segmenting egg in the 102-cell stage seen from beneath.jpg 911 × 862; 494 KB
  
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  Ascaris megalocephala Transverse sections of embryo, in order to show the invagination of the anterior mesoderm cells and of the mother cells of the genital organs.jpg 1,414 × 1,028; 365 KB
  
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  Aves Diagrammatic transverse section of a chick embryo.jpg 1,057 × 862; 471 KB
  
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  Aves FGF signalling in mesoderm migration.jpg 2,152 × 612; 371 KB
  
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  Aves gastrulation Tissue flows driving primitive streak formation.jpg 1,663 × 1,621; 710 KB
  
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  Aves Neural tube and somites in chick embryo.jpg 1,472 × 1,144; 674 KB
  
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  Aves Transverse section caudal to the fovea cardiaca of a thirty-six-hour chick embryo.jpg 1,384 × 779; 473 KB
  
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  Aves Transverse section through the caudal end of the heart of a thirty-six-hour chick embryo.jpg 1,624 × 755; 522 KB
  
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  Aves Transverse section through the fore-brain of a thirty-six-hour chick embryo.jpg 1,041 × 818; 385 KB
  
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  Aves Transverse section through the fourteenth pair of mesodermal segments of a thirty-six-hour chick embryo.jpg 1,579 × 841; 589 KB
  
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  Aves Transverse section through the fovea cardiaca of a thirty-six-hour chick embryo.jpg 1,629 × 827; 602 KB
  
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  Aves Transverse section through the fovea cardiaca of a twenty-five-hour chick embryo..jpg 1,544 × 713; 461 KB
  
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  Aves Transverse section through the heart of a twenty-five-hour chick embryo..jpg 1,537 × 785; 440 KB
  
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  Aves Transverse section through the hind-brain and auditory placodes of a thirty-six-hour chick embryo.jpg 1,481 × 759; 506 KB
  
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  Aves Transverse section through the pharyngeal membrane of a thirty-six-hour chick embryo.jpg 1,007 × 861; 412 KB
  
• Axon-fasciculation-in-the-developing-olfactory-nerve-1749-8104-5-20-S10.ogv 20 s, 536 × 528; 7.71 MB
  
• Axon-fasciculation-in-the-developing-olfactory-nerve-1749-8104-5-20-S2.ogv 27 s, 612 × 528; 10.46 MB
  
• Axon-fasciculation-in-the-developing-olfactory-nerve-1749-8104-5-20-S5.ogv 20 s, 536 × 528; 8.37 MB
  
• Axon-fasciculation-in-the-developing-olfactory-nerve-1749-8104-5-20-S6.ogv 18 s, 624 × 528; 9.46 MB
  
• Axon-fasciculation-in-the-developing-olfactory-nerve-1749-8104-5-20-S7.ogv 20 s, 536 × 528; 9.24 MB
  
• Axon-fasciculation-in-the-developing-olfactory-nerve-1749-8104-5-20-S8.ogv 17 s, 624 × 528; 6.07 MB
  
• Axon-fasciculation-in-the-developing-olfactory-nerve-1749-8104-5-20-S9.ogv 17 s, 624 × 528; 7.2 MB
  
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  Blastome The fate of the mesoderm and the formation of mesenchyme.jpg 1,085 × 489; 353 KB
  
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  Branchiostoma formation of the neural tube, notochord, mesoderm, and coelom.jpg 1,172 × 857; 562 KB
  
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  Bulk cell density and WntTGFbeta signalling regulate mesendodermal patterning of human pluripotent stem cells Decisive factors in PS patterning.jpg 1,453 × 811; 349 KB
  
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  Caudata process of invagination and mesoderm-formation.jpg 805 × 823; 698 KB
  
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  Cell contacts and pericellular matrix in the Xenopus gastrula chordamesoderm Abundance of cell contacts but not relative adhesiveness is reduced in adhesion factor morphants.PNG 1,685 × 2,100; 2.68 MB
  
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  Cell contacts and pericellular matrix in the Xenopus gastrula chordamesoderm LSM in FN, Has1 and Syn-4 depleted CM.PNG 1,338 × 2,011; 2.32 MB
  
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  Cell contacts and pericellular matrix in the Xenopus gastrula chordamesoderm LSM in gaps..PNG 1,342 × 1,857; 876 KB
  
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  Cell contacts and pericellular matrix in the Xenopus gastrula chordamesoderm LSM in normal and C-cad depleted CM..PNG 1,656 × 1,947; 2.9 MB
  
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  Cells of the SOX2T-positive territory of the anterior primitive streak epiblast contribute to the neural tube and paraxial mesoderm tissues during axis formation chicken embryo.jpg 1,803 × 2,306; 855 KB
  
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  Characterization of the SOX2T-positive territory of the epiblast in chicken embryo.jpg 2,113 × 1,581; 1.21 MB
  
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  Chordamesoderm Early processes are not affected by U0126 with the exception of apoptosis.jpg 2,146 × 3,365; 2.73 MB
  
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  Coelomate 01.png 250 × 250; 12 KB
  
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  Comparative embryology of the vertebrates; with 2057 drawings and photos. grouped as 380 illus (1953) (20047812224).jpg 1,878 × 1,822; 927 KB
  
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  Comparative embryology of the vertebrates; with 2057 drawings and photos. grouped as 380 illus (1953) (20661197932).jpg 1,404 × 2,002; 1.33 MB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s009.ogv 6.2 s, 264 × 264; 701 KB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s010.ogv 6.2 s, 264 × 264; 388 KB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s011.ogv 6.2 s, 264 × 264; 454 KB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s012.ogv 7.6 s, 418 × 416; 1.51 MB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s013.ogv 7.5 s, 419 × 416; 680 KB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s014.ogv 6.5 s, 512 × 512; 532 KB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s015.ogv 10 s, 308 × 309; 426 KB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s016.ogv 11 s, 1,024 × 529; 2.41 MB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s017.ogv 5.7 s, 370 × 383; 589 KB
  
• Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s018.ogv 6.5 s, 370 × 370; 738 KB
  
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  Coordination of Cell Polarity during Xenopus Gastrulation A heterogeneous combination of tissues can confer planar cell polarity..png 2,916 × 4,607; 4.35 MB
  
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  Coordination of Cell Polarity during Xenopus Gastrulation EB3 shows polarized movement independent of cell morphology in the early phases..png 3,487 × 4,215; 6.24 MB
  
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  Coordination of Cell Polarity during Xenopus Gastrulation Notochord-somite boundary andor extra-notochord tissue attracts EB3 movement..png 2,989 × 2,442; 4.15 MB
  
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  Diagram of a transverse section of a zygote, in which the neural tube has formed but has not separated from the surface ectoderm.png 1,690 × 836; 2.03 MB
  
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  Diagram of cross-sections of vertebrate embryos to show the differentiation of the epimere into dermatome (skin-producer), myotome (muscle-producer), and sclerotome (skeleton-producer).jpg 1,754 × 766; 660 KB
  
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  Differentiation of the mesoderm in holoblastic and meroblastic types of development.jpg 1,617 × 1,467; 1,022 KB
  
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  Differentiation oi Zygote and Cells (Hypothetical).png 565 × 605; 538 KB
  
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  Diversity of vertebrate gastrulation.jpg 1,073 × 1,021; 415 KB
  
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  Dose-dependent reshaping of primitive streak.jpg 968 × 1,236; 743 KB
  
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  Downregulation of neuromesodermal progenitors’ (NMPs) epithelial phenotype during development chicken embryo.jpg 2,079 × 2,253; 918 KB
  
• Dynamic-3D-Cell-Rearrangements-Guided-by-a-Fibronectin-Matrix-Underlie-Somitogenesis-pone.0007429.s003.ogv 19 s, 800 × 600; 5.04 MB
  
• Dynamic-3D-Cell-Rearrangements-Guided-by-a-Fibronectin-Matrix-Underlie-Somitogenesis-pone.0007429.s004.ogv 29 s, 800 × 477; 9.51 MB
  
• Dynamic-3D-Cell-Rearrangements-Guided-by-a-Fibronectin-Matrix-Underlie-Somitogenesis-pone.0007429.s005.ogv 25 s, 800 × 800; 4.74 MB
  
• Dynamic-3D-Cell-Rearrangements-Guided-by-a-Fibronectin-Matrix-Underlie-Somitogenesis-pone.0007429.s006.ogv 12 s, 800 × 600; 3.1 MB
  
• Dynamics of mesodermal cell ingression chicken embryo.ogv 12 s, 226 × 720; 4.2 MB
  
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  Early gastrulation in amphibian embryos.png 3,570 × 1,358; 1,007 KB
  
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  Early human embryo (01).jpg 675 × 563; 209 KB
  
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  Early human embryo (02).jpg 915 × 432; 257 KB
  
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  Early human embryo.jpg 761 × 738; 272 KB
  
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  Effect of phototoxicity by illumination on the development of mouse embryos during gastrulation.tiff 1,952 × 998; 747 KB
  
• Efficient-Differentiation-of-Embryonic-Stem-Cells-into-Mesodermal-Precursors-by-BMP-Retinoic-Acid-pone.0036405.s001.ogv 3 min 19 s, 480 × 360; 49.48 MB
  
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  Embryologie von Physa fontinalis L. (1905) (20662318504).jpg 3,466 × 2,452; 1.44 MB
  
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  Embryologie von Physa fontinalis L. (1905) (20663869963).jpg 3,544 × 1,380; 546 KB
  
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  Embryologie von Physa fontinalis L. (1905) (20663883103).jpg 1,838 × 3,060; 747 KB
  
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  Embryologie von Physa fontinalis L. (1905) (20663888563).jpg 2,172 × 3,170; 1,009 KB
  
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  Embryologie von Physa fontinalis L. (1905) (20663916513).jpg 2,172 × 3,210; 988 KB
  
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  Embryologie von Physa fontinalis L. (1905) (20663935813).jpg 3,544 × 2,566; 1.44 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21096895540).jpg 1,680 × 3,026; 723 KB
  
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  Embryologie von Physa fontinalis L. (1905) (21096929580).jpg 3,516 × 2,544; 1.5 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21096946320).jpg 3,474 × 2,514; 1.59 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21097115988).jpg 3,412 × 2,576; 1.08 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21097136908).jpg 2,080 × 3,024; 1.24 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21097142248).jpg 2,100 × 2,954; 1.17 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21098108329).jpg 3,520 × 1,574; 482 KB
  
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  Embryologie von Physa fontinalis L. (1905) (21098144009).jpg 3,468 × 2,434; 1.45 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21258748426).jpg 2,208 × 3,435; 1.08 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21258750436).jpg 2,166 × 2,892; 1.15 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21258759966).jpg 2,180 × 3,048; 1.01 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21258778116).jpg 2,108 × 3,004; 1.12 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21274404152).jpg 1,810 × 3,643; 1,012 KB
  
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  Embryologie von Physa fontinalis L. (1905) (21274437582).jpg 2,068 × 2,876; 1.24 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21274456262).jpg 3,514 × 2,544; 1.63 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21285006125).jpg 2,154 × 3,074; 1.21 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21285013045).jpg 3,450 × 2,668; 1.44 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21293118491).jpg 2,182 × 3,174; 1.19 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21293127841).jpg 2,170 × 2,896; 1.01 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21293131931).jpg 3,380 × 2,300; 1.41 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21293139221).jpg 2,196 × 3,074; 1.07 MB
  
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  Embryologie von Physa fontinalis L. (1905) (21293146721).jpg 2,080 × 3,046; 1.16 MB
  
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  Embryology (1949) (21285693065).jpg 1,035 × 1,115; 581 KB
  
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  Embryonic and extra-embryonic mesoderm populations have different morphology and migration pattern.jpg 1,500 × 931; 321 KB
  
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  Embryonic and extraembryonic ectoderm demarcation in the amniochorionic fold.jpg 1,200 × 1,937; 1.62 MB
  
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  Embryonic development in mice versus primates.jpg 1,016 × 1,286; 798 KB
  
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  Embryonic myogenesis mouse.jpg 1,261 × 1,278; 938 KB
  
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  End of week 4 Embryo with somites nltxt.jpg 925 × 674; 203 KB
  
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  End of week 4 Embryo with somites.jpg 960 × 720; 121 KB
  
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  Experimental manipulation of the gastrulation mode in different organisms.jpg 1,166 × 1,480; 850 KB
  
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  Expression of neuromesodermal progenitor (NMP) signature genes in chicken and mouse embryos.jpg 1,518 × 3,202; 721 KB
  
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  Expression patterns of foxc1a, tbx1 and tbx20 genes resolve into three longitudinal strips in zebrafish head mesoderm (3ss, 11hpf).jpg 1,602 × 799; 843 KB
  
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  Expression patterns of L. fluviatilis NogginA (a–j), NogginC (k–r) and NogginD (s–v).jpg 1,495 × 2,037; 1.69 MB
  
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  Extraembryonic tissues and organs in a mouse embryo and foetus.jpg 1,200 × 581; 542 KB
  
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  Figure 2. Résultats de différenciation de cellules souches en une des trois différentes catégories de cellules qui se sous-divisent en types de cellules spécifiques avec des rôles précis7.gif 561 × 274; 35 KB
  
• Fli+-etsrp+-Hemato-Vascular-Progenitor-Cells-Proliferate-at-the-Lateral-Plate-Mesoderm-during-pone.0014732.s008.ogv 7.2 s, 1,388 × 1,040; 1.36 MB
  
• Fli+-etsrp+-Hemato-Vascular-Progenitor-Cells-Proliferate-at-the-Lateral-Plate-Mesoderm-during-pone.0014732.s009.ogv 19 s, 1,388 × 1,040; 1.13 MB
  
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  Flowchart of paraxial mesodermal development and sclerotome specification.jpg 1,385 × 1,417; 673 KB
  
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  FMIB 52520 Sponges - to illustrate choanocyles (Ch)- section o, a, calcareous sponge Ect ectoderm; Mes mesoderm; N, calcerous spicule; Eis.jpeg 501 × 555; 180 KB
  
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  Formation of the primitive body plan following gastrulation in the mouse.png 1,279 × 1,187; 1,016 KB
  
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  Four diagrams showing hypothetical stages of early human embryos.jpg 1,631 × 1,434; 943 KB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s013.ogv 47 s, 1,272 × 322; 4.94 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s014.ogv 47 s, 1,272 × 322; 5.34 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s015.ogv 44 s, 1,272 × 322; 5.64 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s016.ogv 52 s, 1,272 × 322; 5.66 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s017.ogv 47 s, 1,272 × 322; 5.34 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s018.ogv 42 s, 1,272 × 322; 4.44 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s019.ogv 23 s, 1,277 × 274; 2.45 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s020.ogv 44 s, 1,277 × 160; 5.22 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s021.ogv 1 min 16 s, 1,272 × 322; 13.51 MB
  
• From-Dynamic-Expression-Patterns-to-Boundary-Formation-in-the-Presomitic-Mesoderm-pcbi.1002586.s022.ogv 56 s, 1,272 × 322; 7.98 MB
  
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  Fundulus heteroclitus presumptive organ-forming areas of the blastoderm.jpg 1,020 × 796; 779 KB
  
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  Further Differentiation of Zygote (Hypothetical).png 552 × 445; 422 KB
  
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  Gastrulation gives rise to the three primary germ layers of the mouse embryo proper..png 1,209 × 806; 202 KB
  
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  Genes important in notochord differentiation exhibit two types of regulatory pattern during chordamesoderm to mature NC transition..jpg 2,362 × 2,852; 2.95 MB
  
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  Gray29.png 500 × 306; 15 KB
  
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  Human embryo Recent findings about tissue-specific lymphatic progenitor cells..jpg 1,380 × 912; 289 KB
  
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  Human embryo Section of embryonic rudiment in Peters' ovum (first week).jpg 1,141 × 857; 540 KB
  
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  Human embryo Transverse Section of a Zygote, showing early stage- of development of embryonic coelom and differentiation of mesoderm.jpg 965 × 615; 483 KB
  
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  Human embryo Transverse Section.jpg 932 × 792; 477 KB
  
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  Human embryo. The origin of lymphatic progenitor cells and physiological lymphagiogenesis process at E12.5.png 3,258 × 1,593; 1.25 MB
  
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  Human embryoTransverse Sectiox of a Zygote, showing early stage of embryonic secondary mesoderm before the appearance of the embryonic parts of coelom.jpg 927 × 576; 627 KB
  
• In-Silico-Patterning-of-Vascular-Mesenchymal-Cells-in-Three-Dimensions-pone.0020182.s001.ogv 15 s, 550 × 633; 1.46 MB
  
• In-Silico-Patterning-of-Vascular-Mesenchymal-Cells-in-Three-Dimensions-pone.0020182.s002.ogv 15 s, 550 × 633; 1.89 MB
  
• In-Silico-Patterning-of-Vascular-Mesenchymal-Cells-in-Three-Dimensions-pone.0020182.s003.ogv 14 s, 550 × 631; 669 KB
  
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  Intermediate mesoderm.png 486 × 447; 58 KB
  
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  Kirkes' handbook of physiology (1907) (14769687492).jpg 1,091 × 918; 435 KB
  
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  Limited convergence and ingression of the NMP territory in the epiblast chicken embryo.jpg 1,403 × 1,834; 744 KB
  
• Live imaging of Histone H2B–GFP mouse embryo at E6.5.ogv 6.4 s, 804 × 631; 674 KB
  
• Live imaging of mouse embryo at E5.5.ogv 4.3 s, 366 × 375; 145 KB
  
• Live imaging of mouse embryo at E6.ogv 8.6 s, 520 × 491; 497 KB
  
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  Live imaging of the whole mouse embryo at E6 (A to D) and E5.5. (E to H).png 1,910 × 2,240; 3.3 MB
  
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  Live imaging of the whole mouse embryo at E6.5 using DSLM.png 2,059 × 1,366; 2.24 MB
  
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  Localization of PGCs in mouse, rabbit and chick by the end of gastrulation.png 1,204 × 931; 587 KB
  
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  Location of the intermediate mesoderm nephrogenic cord..jpg 600 × 227; 58 KB
  
• Long-term tracking of a nuclear red stained chicken embryo.ogv 10 s, 248 × 718; 4.63 MB
  
• Long-term tracking of the mesodermal progenitors chicken embryo.ogv 10 s, 236 × 432; 889 KB
  
• Longevity of tracks along the primitive streak (PS) chicken embryo.ogv 5.9 s, 286 × 720; 1.48 MB
  
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  Lumbricus foetidus Lateral view of an embryo in which the germ bands are clearly visible.jpg 911 × 1,051; 623 KB
  
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  Mammals Dorsal surface view of a twenty-hour chick embryo showing primitive streak and extent of mesoderm.jpg 1,219 × 1,153; 999 KB
  
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  Mammals Embryo Origin of the germ layers of mammals as seen in transverse section.jpg 1,750 × 742; 422 KB
  
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  Mammals Transverse sections through the embryonic area of a twenty-hour chick. A, through the head process; B, through the primitive node; C, through the primitive streak.jpg 1,934 × 1,407; 944 KB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s006.ogv 10 s, 309 × 320; 436 KB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s007.ogv 6.0 s, 240 × 240; 17 KB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s008.ogv 14 s, 312 × 312; 63 KB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s009.ogv 13 s, 240 × 240; 39 KB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s010.ogv 1 min 7 s, 318 × 320; 2.44 MB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s011.ogv 16 s, 420 × 312; 281 KB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s012.ogv 22 s, 418 × 320; 161 KB
  
• Matrix-Bound-PAI-1-Supports-Cell-Blebbing-via-RhoAROCK1-Signaling-pone.0032204.s013.ogv 16 s, 448 × 320; 302 KB
  
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  Mesoderm development.svg 512 × 197; 27 KB
  
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  Mesoderm-ring to -crescent transition.jpg 1,173 × 1,826; 1.01 MB
  
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  Mosaic membrane GFP labeling of nascent mesoderm allows following individual cell migration through embryo live imaging.jpg 1,500 × 1,391; 516 KB
  
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  Neurula.png 873 × 317; 21 KB
  
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  Not all tissues receiving notochord-emitted signals are affected by U0126 treatment.jpg 2,362 × 1,496; 1.48 MB
  
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  Ocular neural crest migration and establishment of the ocular anterior segment.jpg 2,060 × 1,765; 258 KB
  
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  Overview of iPS cells.png 478 × 361; 13 KB
  
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  Overview of the mesodermal derivatives.jpg 1,494 × 1,147; 656 KB
  
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  Pedicellina echinata Early stages in the development of the egg.jpg 1,278 × 844; 239 KB
  
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  Pluripotency factor expression during early embryonic development. Pluripotency factors are expressed throughout the pluripotency state.jpg 1,158 × 791; 489 KB
  
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  Posterior to anterior exhaustion of primitive streak (PS) progenitor territories results in NMPs remaining as the major PS remnant in the tail bud.jpg 1,640 × 1,341; 541 KB
  
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  Primitiv Node.jpg 720 × 504; 42 KB
  
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  Primitive Trilaminar Human Embryo in Tubal Pregnancy (40X) (3944578509).jpg 1,712 × 1,206; 875 KB
  
• PS-Integrins-and-Laminins-Key-Regulators-of-Cell-Migration-during-Drosophila-Embryogenesis-pone.0023893.s005.ogv 16 s, 484 × 264; 674 KB
  
• PS-Integrins-and-Laminins-Key-Regulators-of-Cell-Migration-during-Drosophila-Embryogenesis-pone.0023893.s006.ogv 16 s, 482 × 187; 119 KB