Category:Gastrulation
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Phase in the early embryonic development of most animals. | |||||
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Subcategories
This category has the following 12 subcategories, out of 12 total.
E
- Epiboly (27 F)
- Extraembryonic ectoderm (21 F)
- Extraembryonic endoderm (42 F)
- Extraembryonic mesoderm (32 F)
G
- Germ disc (empty)
K
- Koller's sickle (14 F)
P
- Prechordal plate (20 F)
- Primitive groove (3 F)
- Primitive streak (168 F)
Media in category "Gastrulation"
The following 197 files are in this category, out of 197 total.
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ADMP restricts the size of the organizer domain Spemann's organizer.jpg 818 × 665; 397 KB
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ALK1 is required to restrict the size of the organizer domain Spemann's organizer.jpg 1,374 × 1,026; 1.27 MB
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Antedon rosacea early stages.jpg 801 × 735; 425 KB
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Apposition and adhesion of blastocyst to luminal epithelium.jpg 2,017 × 1,363; 597 KB
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Arquénteron.jpg 1,066 × 1,061; 73 KB
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At E6.5, PGC precursors can still change fate when placed heterotopically.png 1,142 × 1,487; 1.29 MB
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Avian development before gastrulation.jpg 2,767 × 3,354; 1.41 MB
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Branchiostoma formation of the neural tube, notochord, mesoderm, and coelom.jpg 1,172 × 857; 562 KB
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Caudata process of invagination and mesoderm-formation.jpg 805 × 823; 698 KB
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CENTROLECITHES.png 351 × 540; 12 KB
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Characterization of MZfz7ab mutants at the embryo and tissue level.jpg 2,199 × 2,662; 667 KB
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Classification of the different types of connective tissues.png 1,448 × 700; 708 KB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s009.ogv 6.2 s, 264 × 264; 701 KB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s010.ogv 6.2 s, 264 × 264; 388 KB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s011.ogv 6.2 s, 264 × 264; 454 KB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s012.ogv 7.6 s, 418 × 416; 1.51 MB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s013.ogv 7.5 s, 419 × 416; 680 KB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s014.ogv 6.5 s, 512 × 512; 532 KB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s016.ogv 11 s, 1,024 × 529; 2.41 MB
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Control-of-Directed-Cell-Migration-In-Vivo-by-Membrane-to-Cortex-Attachment-pbio.1000544.s017.ogv 5.7 s, 370 × 383; 589 KB
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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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Deficient-Induction-Response-in-a-Xenopus-Nucleocytoplasmic-Hybrid-pbio.1001197.s005.ogv 13 s, 434 × 668; 351 KB
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DELAMINATION.png 934 × 573; 26 KB
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Development of the notochord in CS9 to CS12 (19–30 days).tiff 1,300 × 1,308; 1.82 MB
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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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Diversity of vertebrate gastrulation.jpg 1,073 × 1,021; 415 KB
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Early blastocyst adhesion and invasion in primate and mouse.jpg 1,961 × 810; 312 KB
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Early ectodermal patterning at the anterior epiblast.jpg 1,168 × 724; 442 KB
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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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EMBRIO 1 nltxt.jpg 559 × 119; 83 KB
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EMBRIO 1.jpg 571 × 116; 14 KB
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EMBRIO 2.jpg 943 × 729; 59 KB
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EMBRIO 3.jpg 341 × 346; 17 KB
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EMBRIO 4.jpg 376 × 193; 10 KB
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EMBRIO 5.jpg 398 × 283; 10 KB
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Embryonic development in mice versus primates.jpg 1,016 × 1,286; 798 KB
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Embryonic origens of skeletal muscles mouse embryo.png 1,573 × 695; 425 KB
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EPIBOLIE.png 934 × 573; 26 KB
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Epiboly Drawing.png 2,550 × 2,073; 5.64 MB
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Epiboly svg hariadhi.svg 512 × 512; 17 KB
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Example of a Gastruloid.png 673 × 336; 134 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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Extraembryonic tissues during amniote development.jpg 1,456 × 1,398; 1.97 MB
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Feto-maternal interface showing uterine milk.jpg 2,994 × 1,475; 458 KB
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Fig 3. Proceso de gastrulación en el nemátodo C.elegans..png 1,278 × 427; 121 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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Frog egg gray crescent.jpg 1,060 × 816; 133 KB
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From mesenchymal stem cells to specific connective tissue cell types.png 1,085 × 877; 337 KB
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Gastrulatie.png 1,780 × 1,520; 1.6 MB
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LL-Q150 (fra)-WikiLucas00-gastrulation.wav 1.4 s; 131 KB
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Gastrulation (01).jpg 1,001 × 980; 289 KB
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Gastrulation forms in vertebrates.jpeg 1,280 × 1,173; 88 KB
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Gastrulation of Asterina pectinifer.jpg 1,351 × 521; 212 KB
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Gastrulation.png 801 × 486; 63 KB
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Gastrulatsiooni toimumine.jpg 690 × 354; 67 KB
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Gastrulação.png 695 × 349; 13 KB
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Gray12.png 1,115 × 491; 192 KB
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HETEROLECITHES.png 322 × 224; 5 KB
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Histological sections of three stage 8 (17–19 days) human embryos.tiff 1,234 × 652; 702 KB
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Implantation depth in primates at lacunar stage.jpg 1,985 × 2,656; 1.13 MB
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INGRESSION.png 934 × 573; 26 KB
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Initial invasion of luminal epithelium.jpg 1,441 × 622; 281 KB
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Koller's Sickle and Avian Gastrulation.jpg 1,967 × 1,968; 863 KB
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Koller's sickle and its role in avian gastrulation.jpg 271 × 448; 47 KB
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Kudede päritolu gastrulatsioonis.jpg 600 × 700; 74 KB
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Left-right asymmetry in the sea urchin - journal.pbio.1001404.g001.png 1,459 × 420; 235 KB
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Live imaging of Histone H2B–GFP mouse embryo at E6.5.ogv 6.4 s, 804 × 631; 674 KB
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Live imaging of mouse embryo at E5.5.ogv 4.3 s, 366 × 375; 145 KB
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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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Mesoderm-ring to -crescent transition.jpg 1,173 × 1,826; 1.01 MB
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Meyers b5 s0350 b1.png 570 × 218; 53 KB
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Modeling-Gastrulation-in-the-Chick-Embryo-Formation-of-the-Primitive-Streak-pone.0010571.s002.ogv 17 s, 648 × 492; 16.95 MB
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Modeling-Gastrulation-in-the-Chick-Embryo-Formation-of-the-Primitive-Streak-pone.0010571.s003.ogv 9.5 s, 700 × 350; 5.23 MB
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Modeling-Gastrulation-in-the-Chick-Embryo-Formation-of-the-Primitive-Streak-pone.0010571.s004.ogv 21 s, 700 × 350; 17.02 MB
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Modeling-Gastrulation-in-the-Chick-Embryo-Formation-of-the-Primitive-Streak-pone.0010571.s005.ogv 22 s, 1,050 × 350; 19.89 MB
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Modeling-Gastrulation-in-the-Chick-Embryo-Formation-of-the-Primitive-Streak-pone.0010571.s007.ogv 15 s, 700 × 700; 10.8 MB
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Modeling-Gastrulation-in-the-Chick-Embryo-Formation-of-the-Primitive-Streak-pone.0010571.s008.ogv 30 s, 1,050 × 350; 22.29 MB
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Modeling-Gastrulation-in-the-Chick-Embryo-Formation-of-the-Primitive-Streak-pone.0010571.s009.ogv 0.0 s, 1,056 × 352; 22.13 MB
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Morphological characterization of END2, PYS2 and XEN cells.png 2,068 × 1,632; 2.77 MB
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Morphological differences between human and mouse gastrulation.jpg 2,994 × 3,411; 397 KB
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MZfz7ab prechordal plate progenitor migration.jpg 1,747 × 1,802; 438 KB
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MZfz7ab prechordal plate progenitor protrusion formation.jpg 2,042 × 2,918; 599 KB
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Nematode Variations in gastrulation.jpg 1,800 × 1,909; 1.74 MB
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Neurula.png 873 × 317; 21 KB
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OLIGOLECITHES.png 324 × 235; 4 KB
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Only epiblast cells that contact the posterior part of the embryo become PGCs.png 1,102 × 1,378; 1.06 MB
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Paracentrotus lividus gastrula.jpg 1,245 × 934; 1.08 MB
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PhOTO-Zebrafish-A-Transgenic-Resource-for-In-Vivo-Lineage-Tracing-during-Development-and-pone.0032888.s005.ogv 1.7 s, 1,984 × 1,952; 2.06 MB
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PhOTO-Zebrafish-A-Transgenic-Resource-for-In-Vivo-Lineage-Tracing-during-Development-and-pone.0032888.s006.ogv 1.7 s, 1,984 × 1,476; 1.5 MB
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PhOTO-Zebrafish-A-Transgenic-Resource-for-In-Vivo-Lineage-Tracing-during-Development-and-pone.0032888.s007.ogv 2.5 s, 1,972 × 1,972; 5.84 MB
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PhOTO-Zebrafish-A-Transgenic-Resource-for-In-Vivo-Lineage-Tracing-during-Development-and-pone.0032888.s008.ogv 2.5 s, 1,972 × 1,476; 3.08 MB
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Proximal VE and ExE are sufficient to induce PGCs in distal epiblast.png 1,142 × 2,493; 2.96 MB
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Reconstructed epiblast nuclei from a lateral view.ogv 6.4 s, 1,031 × 728; 518 KB
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Reconstructed epiblast nuclei from distal view.ogv 6.4 s, 924 × 636; 571 KB
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Reconstructed trajectories of mesodermal cells.ogv 4.3 s, 637 × 567; 807 KB
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Regulation-of-Embryonic-Cell-Adhesion-by-the-Prion-Protein-pbio.1000055.sv001.ogv 8.0 s, 299 × 299; 1.19 MB
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Regulation-of-Embryonic-Cell-Adhesion-by-the-Prion-Protein-pbio.1000055.sv002.ogv 8.0 s, 356 × 357; 1.66 MB
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Regulation-of-Embryonic-Cell-Adhesion-by-the-Prion-Protein-pbio.1000055.sv003.ogv 12 s, 158 × 155; 88 KB
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Regulation-of-Embryonic-Cell-Adhesion-by-the-Prion-Protein-pbio.1000055.sv004.ogv 12 s, 158 × 156; 92 KB
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Regulation-of-Embryonic-Cell-Adhesion-by-the-Prion-Protein-pbio.1000055.sv005.ogv 2.1 s, 1,024 × 1,024; 1.68 MB
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Regulation-of-Embryonic-Cell-Adhesion-by-the-Prion-Protein-pbio.1000055.sv006.ogv 12 s, 523 × 512; 340 KB
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RG347357480 Fig1.png 850 × 377; 60 KB
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Rho kinase (ROCK1) is expressed during the mammalian gastrulation.jpg 795 × 563; 466 KB
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Sea Urchin Gastrulation.png 752 × 300; 187 KB
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Spectrum of pluripotency in the human embryo.jpg 1,950 × 1,006; 324 KB
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Spectrum of pluripotency in the mouse embryo.jpg 1,959 × 838; 904 KB
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Stages of mammals embryos.jpg 976 × 1,102; 849 KB
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Staging Human Gastrulation.jpg 3,493 × 3,010; 538 KB
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TELOLECITHES.png 487 × 384; 5 KB
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The Biological bulletin (19758011533).jpg 2,004 × 1,310; 608 KB
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The changing morphology and tissue composition of the mouse conceptus.jpg 1,881 × 1,891; 651 KB
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The evolution of man (1920) plate III.jpg 753 × 1,173; 1.21 MB
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The process during the embryo implantation.jpg 1,944 × 567; 217 KB
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Time-lapse changes of triangles connected neighboring nuclei at the first time point (2).ogv 5.5 s, 638 × 541; 1.77 MB
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Time-lapse migrations of mesodermal cells.ogv 9.1 s, 635 × 569; 2.26 MB
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Tracking of EB3-GFP movement shows microtubule growth in Xenopus explants.png 2,243 × 2,960; 1.42 MB
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VE and ExE are both important for the formation of PGC precursors.jpg 1,200 × 800; 554 KB
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Xenopus-Nucleocytoplasmic-Hybrid.ogv 15 s, 292 × 782; 557 KB
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