

S4
Based off your previous answer, how an extracellular molecule know the location of its receptor? Still in progress. I've made these renders for showing purposes.


S10
Inside a cell, large molecules are densely crowded so much so that the average distance between two macromolecules is typically less than the width of a single macromolecule Most likely to not change much. I find the molecules to be vibrating a little too much, so I've made some adjustments for the next render. Although, it just convey the busy-ness of the environment well. Might stick with this, not sure yet.


S3
An extracellular molecule knows the physical location of its receptor: Color for the radar has been updated to a brighter color. Needs to re-render on AE but otherwise finalized. Still fidgeting needed for False. Ligand might need to travel back and forth a few time before it "accidentally" nudges itself into the receptor.


S2 Q1-3
Based on your previous answer and assuming there are several instances of the complementary receptor present, an extracellular molecule tries to move toward: Ligand still looks like it is "thinking." Possible solution to rid of this motion is to remove any hovering artifact, This one is likely to stay the same, unless I can figure out why the top ruler for the second ligand is paler than usual. Very strange...


S1 Q1 and Q2
For the questions: An extracellular molecule tries to move towards a complementary receptor Animations will most likely be set in stone as finals! woo hoo