Deactivation kinetics of melanopsin (Opn4) constructs.

A. In vitro Opn4 signaling kinetics based on normalized calcium imaging data of mouse Opn4 (blue trace), West Indian manatee (green trace), bowhead whale (purple trace), and mouse Opn4 lacking CTD phosphorylation sites (mouse phosphonull mutant—red trace). Negative control of untransfected HEK293 ce...

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Bibliographic Details
Main Authors: Jeffry I. Fasick (3624569), Haya Algrain (11570761), Courtland Samuels (11570764), Padmanabhan Mahadevan (475388), Lorian E. Schweikert (3624572), Zaid J. Naffaa (11570767), Phyllis R. Robinson (204369)
Format: Still Image
Language:unknown
Published: 2021
Subjects:
Biochemistry
Cell Biology
Molecular Biology
Neuroscience
Evolutionary Biology
Ecology
Virology
Environmental Sciences not elsewhere classified
water &# 8217
serve light detection
retinal ganglion cells
carboxyl terminal domain
available light spectra
marine mammal rhodopsins
thus longer mydriasis
extended pupillary constriction
amino acid substitutions
marine mammal species
div >< p
marine mammals may
marine mammals
pupil constriction
mydriasis occurs
identify substitutions
given species
values tuned
values relative
terrestrial counterparts
terrestrial controls
spectral tuning
spectral sensitivity
solar irradiance
significant change
rod retina
rod monochromacy
results suggest
results show
previous work
prevent photobleaching
orders sirenia
likely involved
infraorder cetacea
highly photosensitive
foraging depths
deactivation kinetics
condition known
cdna sequences
absorbance maxima
Indian
bowhead whale
Online Access:https://doi.org/10.1371/journal.pone.0257436.g008
Description
Summary:A. In vitro Opn4 signaling kinetics based on normalized calcium imaging data of mouse Opn4 (blue trace), West Indian manatee (green trace), bowhead whale (purple trace), and mouse Opn4 lacking CTD phosphorylation sites (mouse phosphonull mutant—red trace). Negative control of untransfected HEK293 cells (orange trace) is shown for comparison. B. Deactivation rates are significantly different between mouse Opn4 and the other three constructs. The rate of deactivation of West Indian manatee Opn4 is more similar to mouse Opn4, while the rate of deactivation of bowhead whale Opn4 is more similar to mouse phosphonull mutant. All rates were compared to the mouse Opn4 deactivation rate. *** and **** correspond to p-values of <0.0005 and <0.0001, respectively. Error bars denote standard error of the mean.

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