Active Processes in Cells and Tissues - Symmetry Breaking of Biological Cells - Lecture 1

Active Processes in Cells and Tissues - Symmetry Breaking of Biological Cells - Lecture 1

International Centre for Theoretical Sciences via YouTube Direct link

Active chiral processes

70 of 84

70 of 84

Active chiral processes

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

Active Processes in Cells and Tissues - Symmetry Breaking of Biological Cells - Lecture 1

Automatically move to the next video in the Classroom when playback concludes

  1. 1 DATE: 09 December 2019, 16:00 to
  2. 2 Lecture 1: 9 December 2019, PM
  3. 3 Lecture 2: 10 December 2019, PM
  4. 4 Lecture 3: 11 December 2019, PM
  5. 5 Lecture 4: 12 December 2019, PM
  6. 6 Active processes in cells and tissues Lecture 1
  7. 7 Welcome to ICTS-TIFR
  8. 8 Established in 2007 by the TIFR Campus Imagined in 2007
  9. 9 Programs
  10. 10 Infrastructure at ICTS
  11. 11 ICTS Research
  12. 12 ICTS Faculty
  13. 13 ICTS Programs
  14. 14 What distinguishes ICTS Programs?
  15. 15 ICTS Programs-Format and Duration
  16. 16 Organisational Features
  17. 17 Impact of ICTS Programs
  18. 18 ICTS Programs - A National Resource
  19. 19 Gender Balance in ICTS Programs
  20. 20 ICTS Programs - Special Lectures
  21. 21 ICTS Outreach Initiatives
  22. 22 ICTS at Ten - The 10th Year Celebration
  23. 23 Thank you! See you again at ICTS!
  24. 24 Active Processes in Cells and Tissues
  25. 25 Lecture I Symmetry breaking of biological cells
  26. 26 Lecture I - Outline
  27. 27 Cell movements
  28. 28 Molecular motors
  29. 29 Motility assay
  30. 30 Active filament networks
  31. 31 Passive and active systems
  32. 32 Cell division
  33. 33 From a single cell to an organism
  34. 34 Cell polarity and cell chirality
  35. 35 Asymmetric cell division
  36. 36 Cell polarity
  37. 37 Cell polarity and flows
  38. 38 Mechano-chemical patterning
  39. 39 The cell cortex
  40. 40 Active fluids
  41. 41 Force dipoles
  42. 42 Active stress
  43. 43 Cell surface tension
  44. 44 Rheology of the cell cortex
  45. 45 Constitutive equation
  46. 46 Thin active film
  47. 47 Step change of active tension
  48. 48 Hydrodynamic length scale
  49. 49 Flow measurements
  50. 50 Active stress and flow profile
  51. 51 Self-organisation of active fluids
  52. 52 Dynamic pattern - steady state
  53. 53 Geometry of surfaces
  54. 54 Constitutive equations
  55. 55 Mechano-chemical instability on a sphere
  56. 56 Establishment of cell polarity
  57. 57 A mechano-chemical switch
  58. 58 Quantification and comparison
  59. 59 Spontaneous flow instability
  60. 60 Stability diagram
  61. 61 Spontaneous formation of a contractile ring
  62. 62 Self-organization of shape
  63. 63 Force and torque balances
  64. 64 Instability of an active sphere
  65. 65 Shape instabilities
  66. 66 Tubular instability
  67. 67 Chirality
  68. 68 Chiral flow patterns
  69. 69 Enhanced chiral flows
  70. 70 Active chiral processes
  71. 71 Thin chiral active gel
  72. 72 Active stress and chiral flows
  73. 73 Chiral flows
  74. 74 Left-right symmetry breaking in the roundworm
  75. 75 Rotation of cell division axis
  76. 76 Chiral velocity
  77. 77 Symmetric division: chiral flows
  78. 78 Chiral flows rotate division axis
  79. 79 Left-right asymmetry of organisms
  80. 80 Left-right asymmetry in mammals
  81. 81 Chirality in Biology
  82. 82 Symmetry breaking by active processes
  83. 83 Mechano-chemical instabilities of active surfaces
  84. 84 Max Planck Institute for the Physics of Complex Systems

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Someone learning on their laptop while sitting on the floor.