Exam 2-Vision Flashcards
rhodopsin
retinal + opsin
pigment (absorbs light)
retinal
- derived from vitamin A
- as it becomes trans moves away from opsin (bleaching occurs)
- cis: low energy form (fits within opsin)
opsin
transmembrane protein; g protein linked (transducin)
photoreceptors
rods: low light conditions (mostly free folding disks)
cones: light and color (stacks of membranes allowing for more rhodopsin)
photoreceptors in dark
- lots of Na channels open in the dark (less negative -depolarize)
- cGMP: binds to keep channels open
- K efflux, Na influx (depolarization)
photoreceptors in light
- retinal becomes trans and shape of rhodopsin changes
- transduction (G protein) activates enzyme
cGMP phophodiesterase - making cGMP n longer cyclic (which was opening Na channels)
- Na channel closes (hyperpolarize and stop releasing neurotransmitter which is normally released when not active-inhibitory)
cones
3 (red, blue, green)
-opsin excited at different wavelengths (sensitive to different band of wavelengths)
rods
“wimpy” version of opsin (lower threshold)
eye anatomy
cornea, pupil, iris, ciliary muscle, lens, vitreous humor, retina, blind spot, fovea, optic nerve
retina
- photoreceptors
- all rhodopsin at furthest point in back of eye (closest to blood supply
- ganglion cells: blocks light (blind spot-brain corrects for this)
- multiple cones to one bipolar cell; only one rod to a bipolar cell
visual activity
rods: convergent info, increased sensitivity: decreased acuity
cones: decreased sensitivity: increased acuity
cornea
bent surface (refracts light into small hole) does most of the refracting
lens
bends light for focus (slight bending)
always convex
physics and focusing
- close up light (more of an angle; more refraction; more round)
- further away objects (less angle; less refraction; less round)
ciliary muscle
- elastic (stretch and return to original position)
- ciliary muscle: keeps lens from being completely round
- ciliary zonule: suspensory ligaments (connect muscle to lens)
