Category:In vitro

Subcategories

This category has the following 5 subcategories, out of 5 total.

Media in category "In vitro"

The following 121 files are in this category, out of 121 total.

• A-Helical-Structural-Nucleus-Is-the-Primary-Elongating-Unit-of-Insulin-Amyloid-Fibrils-pbio.0050134.sv001.ogv 1 min 0 s, 320 × 240; 2.68 MB
  
• A-Helical-Structural-Nucleus-Is-the-Primary-Elongating-Unit-of-Insulin-Amyloid-Fibrils-pbio.0050134.sv002.ogv 0.0 s, 240 × 240; 3.1 MB
  
• A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv001.ogv 8.0 s, 360 × 120; 425 KB
  
• A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv002.ogv 7.7 s, 360 × 120; 297 KB
  
• A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv003.ogv 8.3 s, 360 × 120; 409 KB
  
• A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv004.ogv 8.5 s, 360 × 120; 374 KB
  
• A-Phosphatidylinositol-3-Kinase-Dependent-Signal-Transition-Regulates-ARF1-and-ARF6-during-Fcγ-pbio.0040162.sv005.ogv 7.7 s, 360 × 120; 403 KB
  
• An-in-cellulo-derived-structure-of-PAK4-in-complex-with-its-inhibitor-Inka1-ncomms9681-s2.ogv 31 s, 746 × 420; 9.55 MB
  
• An-in-cellulo-derived-structure-of-PAK4-in-complex-with-its-inhibitor-Inka1-ncomms9681-s3.ogv 17 s, 400 × 226; 319 KB
  
• An-in-cellulo-derived-structure-of-PAK4-in-complex-with-its-inhibitor-Inka1-ncomms9681-s4.ogv 8.6 s, 320 × 180; 86 KB
  
• An-in-cellulo-derived-structure-of-PAK4-in-complex-with-its-inhibitor-Inka1-ncomms9681-s5.ogv 21 s, 640 × 360; 1.11 MB
  
• An-in-cellulo-derived-structure-of-PAK4-in-complex-with-its-inhibitor-Inka1-ncomms9681-s6.ogv 11 s, 1,296 × 730; 3.73 MB
  
• An-in-cellulo-derived-structure-of-PAK4-in-complex-with-its-inhibitor-Inka1-ncomms9681-s7.ogv 8.2 s, 1,280 × 720; 6.55 MB
  
• 

  Brinster Mouse Egg Culture 1963 slides.png 1,060 × 1,125; 1.77 MB
  
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  Culture de fibroblastes humains.tif 15,937 × 15,730; 230.62 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s2.ogv 20 s, 1,344 × 1,024; 15.49 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s3.ogv 20 s, 1,344 × 1,024; 12.31 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s4.ogv 20 s, 1,344 × 1,024; 10.26 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s5.ogv 19 s, 1,344 × 1,024; 18.75 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s6.ogv 13 s, 1,344 × 1,024; 10.5 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s7.ogv 13 s, 1,344 × 1,024; 9 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s8.ogv 13 s, 1,344 × 1,024; 10.57 MB
  
• Differential-epigenetic-reprogramming-in-response-to-specific-endocrine-therapies-promotes-ncomms10044-s9.ogv 13 s, 1,344 × 1,024; 8.86 MB
  
• Emergence-of-Large-Scale-Cell-Morphology-and-Movement-from-Local-Actin-Filament-Growth-Dynamics-pbio.0050233.sv001.ogv 5.0 s, 512 × 550; 229 KB
  
• Emergence-of-Large-Scale-Cell-Morphology-and-Movement-from-Local-Actin-Filament-Growth-Dynamics-pbio.0050233.sv002.ogv 6.8 s, 652 × 327; 280 KB
  
• 

  Flask with cloned plant.jpg 1,270 × 2,098; 1.4 MB
  
• Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s2.ogv 12 s, 525 × 488; 312 KB
  
• Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s3.ogv 15 s, 505 × 488; 72 KB
  
• Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s4.ogv 12 s, 517 × 488; 349 KB
  
• Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s5.ogv 12 s, 514 × 480; 80 KB
  
• Flow-driven-assembly-of-VWF-fibres-and-webs-in-in-vitro-microvessels-ncomms8858-s6.ogv 16 s, 682 × 512; 1.11 MB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s10.ogv 8.0 s, 1,440 × 480; 954 KB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s11.ogv 3.4 s, 960 × 480; 821 KB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s12.ogv 11 s, 1,445 × 480; 1.53 MB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s13.ogv 6.0 s, 1,022 × 480; 1.73 MB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s2.ogv 4.8 s, 1,440 × 480; 1.27 MB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s3.ogv 30 s, 960 × 480; 5.09 MB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s4.ogv 10 s, 960 × 480; 2.56 MB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s5.ogv 6.2 s, 480 × 480; 514 KB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s6.ogv 2.8 s, 1,440 × 480; 460 KB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s7.ogv 9.8 s, 642 × 480; 1.8 MB
  
• Gap-geometry-dictates-epithelial-closure-efficiency-ncomms8683-s9.ogv 6.0 s, 1,440 × 480; 777 KB
  
• Generation-of-functional-hippocampal-neurons-from-self-organizing-human-embryonic-stem-cell-derived-ncomms9896-s2.ogv 8.2 s, 854 × 480; 1.15 MB
  
• Generation-of-functional-hippocampal-neurons-from-self-organizing-human-embryonic-stem-cell-derived-ncomms9896-s3.ogv 46 s, 854 × 480; 12.94 MB
  
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  In vitro - Zakład Cytologii i Embriologii Roślin UJ.jpg 1,536 × 2,048; 539 KB
  
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  In Vitro Compartmentalization.png 1,145 × 1,688; 360 KB
  
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  In Vitro Fertilization (IVF) - English.png 1,200 × 675; 150 KB
  
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  In vitro germination.jpg 1,132 × 1,068; 212 KB
  
• In-vitro-discovery-of-promising-anti-cancer-drug-combinations-using-iterative-maximisation-of-a-srep14118-s5.ogv 12 s, 1,920 × 1,080; 3.29 MB
  
• In-vitro-discovery-of-promising-anti-cancer-drug-combinations-using-iterative-maximisation-of-a-srep14118-s6.ogv 12 s, 1,920 × 1,080; 6.59 MB
  
• In-vitro-discovery-of-promising-anti-cancer-drug-combinations-using-iterative-maximisation-of-a-srep14118-s7.ogv 12 s, 1,920 × 1,080; 3.44 MB
  
• In-vitro-evidence-for-senescent-multinucleated-melanocytes-as-a-source-for-tumor-initiating-cells-cddis201571x2.ogv 14 s, 428 × 328; 545 KB
  
• In-vitro-evidence-for-senescent-multinucleated-melanocytes-as-a-source-for-tumor-initiating-cells-cddis201571x3.ogv 15 s, 179 × 196; 131 KB
  
• In-vitro-evidence-for-senescent-multinucleated-melanocytes-as-a-source-for-tumor-initiating-cells-cddis201571x4.ogv 15 s, 179 × 196; 548 KB
  
• In-vitro-evidence-for-senescent-multinucleated-melanocytes-as-a-source-for-tumor-initiating-cells-cddis201571x5.ogv 15 s, 1,280 × 480; 3.04 MB
  
• 

  Infected petri dish.jpg 3,096 × 4,128; 5.04 MB
  
• Invertebrate-extracellular-phagocyte-traps-show-that-chromatin-is-an-ancient-defence-weapon-ncomms5627-s2.ogv 16 s, 520 × 520; 257 KB
  
• Invertebrate-extracellular-phagocyte-traps-show-that-chromatin-is-an-ancient-defence-weapon-ncomms5627-s3.ogv 5.0 s, 520 × 520; 58 KB
  
• Key-Role-of-Local-Regulation-in-Chemosensing-Revealed-by-a-New-Molecular-Interaction-Based-Modeling-pcbi.0020082.sv001.ogv 1 min 48 s, 432 × 360; 1.96 MB
  
• Key-Role-of-Local-Regulation-in-Chemosensing-Revealed-by-a-New-Molecular-Interaction-Based-Modeling-pcbi.0020082.sv002.ogv 3 min 17 s, 432 × 360; 1.88 MB
  
• Key-Role-of-Local-Regulation-in-Chemosensing-Revealed-by-a-New-Molecular-Interaction-Based-Modeling-pcbi.0020082.sv003.ogv 2 min 39 s, 432 × 360; 1.44 MB
  
• Key-Role-of-Local-Regulation-in-Chemosensing-Revealed-by-a-New-Molecular-Interaction-Based-Modeling-pcbi.0020082.sv004.ogv 6 min 26 s, 432 × 360; 3.62 MB
  
• Key-Role-of-Local-Regulation-in-Chemosensing-Revealed-by-a-New-Molecular-Interaction-Based-Modeling-pcbi.0020082.sv005.ogv 8 min 42 s, 288 × 240; 3.93 MB
  
• Key-Role-of-Local-Regulation-in-Chemosensing-Revealed-by-a-New-Molecular-Interaction-Based-Modeling-pcbi.0020082.sv006.ogv 4 min 17 s, 288 × 240; 3.36 MB
  
• Key-Role-of-Local-Regulation-in-Chemosensing-Revealed-by-a-New-Molecular-Interaction-Based-Modeling-pcbi.0020082.sv007.ogv 5 min 19 s, 432 × 360; 4.2 MB
  
• Kinesin-5-is-a-microtubule-polymerase-ncomms9160-s2.ogv 6.0 s, 100 × 129; 1.76 MB
  
• Kinesin-5-is-a-microtubule-polymerase-ncomms9160-s3.ogv 10 s, 68 × 103; 649 KB
  
• Kinesin-5-is-a-microtubule-polymerase-ncomms9160-s4.ogv 10 s, 75 × 77; 590 KB
  
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  Mammillaria mabudae, ve zkumavce (001).jpg 1,539 × 2,327; 829 KB
  
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  Mammillaria matuadae, ve zkumavce (002).jpg 2,304 × 3,072; 3.71 MB
  
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  Mammillaria miegiana, klíčení.jpg 3,072 × 2,304; 3.48 MB
  
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  Mammillaria miegiana, roots II.jpg 1,669 × 2,822; 1.21 MB
  
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  Mammillaria miegiana, roots.jpg 2,304 × 3,072; 4.54 MB
  
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  Mammillaria miegiana, ve zkumavce s kalusem.jpg 1,185 × 2,048; 552 KB
  
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  Mammillaria nana, ve zkumavce.jpg 1,540 × 2,559; 867 KB
  
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  Mammillaria sp. (001).jpg 828 × 1,402; 279 KB
  
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  Mammillaria sp. (002).jpg 2,304 × 3,072; 3.54 MB
  
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  Mammillaria sp. (003).jpg 2,304 × 3,072; 4.64 MB
  
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  Mammillaria sp. (004).jpg 3,072 × 2,304; 4.76 MB
  
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  Mammillaria sp. (005).jpg 1,605 × 2,463; 1.01 MB
  
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  Mammillaria sp. (006).jpg 3,072 × 2,304; 4.62 MB
  
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  MCF7-cells.tif 399 × 678; 815 KB
  
• Patterns-of-Mesenchymal-Condensation-in-a-Multiscale-Discrete-Stochastic-Model-pcbi.0030076.sv001.ogv 4 min 10 s, 480 × 480; 729 KB
  
• Patterns-of-Mesenchymal-Condensation-in-a-Multiscale-Discrete-Stochastic-Model-pcbi.0030076.sv002.ogv 4 min 10 s, 480 × 480; 414 KB
  
• Patterns-of-Mesenchymal-Condensation-in-a-Multiscale-Discrete-Stochastic-Model-pcbi.0030076.sv003.ogv 1 min 7 s, 480 × 480; 6.09 MB
  
• Patterns-of-Mesenchymal-Condensation-in-a-Multiscale-Discrete-Stochastic-Model-pcbi.0030076.sv004.ogv 1 min 7 s, 480 × 480; 5.33 MB
  
• Precise-Positioning-of-Myosin-VI-on-Endocytic-Vesicles-In-Vivo-pbio.0050210.sv001.ogv 3.1 s, 252 × 496; 896 KB
  
• Precise-Positioning-of-Myosin-VI-on-Endocytic-Vesicles-In-Vivo-pbio.0050210.sv002.ogv 3.1 s, 500 × 413; 583 KB
  
• Precise-Positioning-of-Myosin-VI-on-Endocytic-Vesicles-In-Vivo-pbio.0050210.sv003.ogv 3.1 s, 300 × 438; 683 KB
  
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  Schéma de la micropropagation.png 1,280 × 720; 160 KB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s2.ogv 7.6 s, 960 × 720; 2.86 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s3.ogv 7.0 s, 720 × 720; 4.9 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s4.ogv 5.1 s, 870 × 720; 2.81 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s5.ogv 9.6 s, 720 × 720; 4.3 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s6.ogv 15 s, 980 × 720; 3.43 MB
  
• Self-organizing-human-cardiac-microchambers-mediated-by-geometric-confinement-ncomms8413-s7.ogv 30 s, 980 × 720; 5.63 MB
  
• Structure-of-the-Chloroplast-Ribosome-Novel-Domains-for-Translation-Regulation-pbio.0050209.sv001.ogv 1 min 6 s, 426 × 320; 4.87 MB
  
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  Test d'invasion de fibroblastes par des parasites Toxoplasma gondii.jpg 2,625 × 2,006; 549 KB
  
• The-HIF-1glial-TIM-3-axis-controls-inflammation-associated-brain-damage-under-hypoxia-ncomms7340-s2.ogv 7.6 s, 240 × 180; 92 KB
  
• The-HIF-1glial-TIM-3-axis-controls-inflammation-associated-brain-damage-under-hypoxia-ncomms7340-s3.ogv 16 s, 240 × 180; 206 KB
  
• The-HIF-1glial-TIM-3-axis-controls-inflammation-associated-brain-damage-under-hypoxia-ncomms7340-s4.ogv 10 s, 240 × 180; 157 KB
  
• The-HIF-1glial-TIM-3-axis-controls-inflammation-associated-brain-damage-under-hypoxia-ncomms7340-s5.ogv 27 s, 240 × 180; 427 KB
  
• Three-Dimensional-Blood-Brain-Barrier-Model-for-in-vitro-Studies-of-Neurovascular-Pathology-srep15222-s2.ogv 20 s, 480 × 640; 1.26 MB
  
• Three-Dimensional-Blood-Brain-Barrier-Model-for-in-vitro-Studies-of-Neurovascular-Pathology-srep15222-s3.ogv 8.0 s, 480 × 640; 114 KB
  
• Three-Dimensional-Blood-Brain-Barrier-Model-for-in-vitro-Studies-of-Neurovascular-Pathology-srep15222-s4.ogv 7.0 s, 304 × 304; 70 KB
  
• Three-Dimensional-Blood-Brain-Barrier-Model-for-in-vitro-Studies-of-Neurovascular-Pathology-srep15222-s5.ogv 9.0 s, 240 × 477; 65 KB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s10.ogv 19 s, 1,024 × 1,024; 4.31 MB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s11.ogv 13 s, 453 × 415; 1.18 MB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s2.ogv 6.8 s, 373 × 378; 790 KB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s3.ogv 9.5 s, 384 × 366; 693 KB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s4.ogv 8.3 s, 390 × 354; 370 KB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s5.ogv 5.2 s, 802 × 417; 491 KB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s6.ogv 11 s, 422 × 447; 465 KB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s7.ogv 16 s, 376 × 438; 763 KB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s8.ogv 15 s, 594 × 358; 2.99 MB
  
• TrkBBDNF-signalling-patterns-the-sympathetic-nervous-system-ncomms9281-s9.ogv 21 s, 548 × 548; 8.29 MB
  
• Uncoiling-Mechanics-of-Escherichia-coli-Type-I-Fimbriae-Are-Optimized-for-Catch-Bonds-pbio.0040298.sv001.ogv 19 s, 400 × 800; 784 KB
  
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  Колба із клонованою рослиною in vitro.jpg 3,264 × 3,264; 3.76 MB
  
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  Молоді клони рослин in vitro.jpg 3,309 × 2,192; 2.94 MB
  
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  Стелажі із клонованими рослинами.jpg 4,130 × 2,735; 6.62 MB
  
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  इन-विट्रो-फर्टिलाईजेशन (आई.वी.एफ).png 1,200 × 720; 183 KB