hill equation fitted with a nonlinear least squares algorithm sigmaplot 9.0 Search Results


jasco circular dichroism spectrophotometer  (JASCO Inc)
99
JASCO Inc jasco circular dichroism spectrophotometer
Jasco Circular Dichroism Spectrophotometer, supplied by JASCO Inc, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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component exponential function  (SYSTAT)
99
SYSTAT component exponential function
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Component Exponential Function, supplied by SYSTAT, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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four-parameter hill equation  (SYSTAT)
90
SYSTAT four-parameter hill equation
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Four Parameter Hill Equation, supplied by SYSTAT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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sigmaplot 12.0 software  (SYSTAT)
90
SYSTAT sigmaplot 12.0 software
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Sigmaplot 12.0 Software, supplied by SYSTAT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/sigmaplot 12.0 software/product/SYSTAT
Average 90 stars, based on 1 article reviews
sigmaplot 12.0 software - by Bioz Stars, 2026-03
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hill equation fitted with a non-linear least squares algorithm  (SYSTAT)
90
SYSTAT hill equation fitted with a non-linear least squares algorithm
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Hill Equation Fitted With A Non Linear Least Squares Algorithm, supplied by SYSTAT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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hill equation fitted with a non-linear least squares algorithm - by Bioz Stars, 2026-03
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sigmaplot 9.0  (Jandel Engineering)
90
Jandel Engineering sigmaplot 9.0
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Sigmaplot 9.0, supplied by Jandel Engineering, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/sigmaplot 9.0/product/Jandel Engineering
Average 90 stars, based on 1 article reviews
sigmaplot 9.0 - by Bioz Stars, 2026-03
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av800mhz spectrometer  (Bruker Corporation)
90
Bruker Corporation av800mhz spectrometer
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Av800mhz Spectrometer, supplied by Bruker Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/av800mhz spectrometer/product/Bruker Corporation
Average 90 stars, based on 1 article reviews
av800mhz spectrometer - by Bioz Stars, 2026-03
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three dimensional contour mapping feature of sigmaplot version 9.0 with a scatterplot overlay  (SYSTAT)
90
SYSTAT three dimensional contour mapping feature of sigmaplot version 9.0 with a scatterplot overlay
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Three Dimensional Contour Mapping Feature Of Sigmaplot Version 9.0 With A Scatterplot Overlay, supplied by SYSTAT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/three dimensional contour mapping feature of sigmaplot version 9.0 with a scatterplot overlay/product/SYSTAT
Average 90 stars, based on 1 article reviews
three dimensional contour mapping feature of sigmaplot version 9.0 with a scatterplot overlay - by Bioz Stars, 2026-03
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4 parameter gaussian envelope sigmaplot 9.0  (SYSTAT)
90
SYSTAT 4 parameter gaussian envelope sigmaplot 9.0
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
4 Parameter Gaussian Envelope Sigmaplot 9.0, supplied by SYSTAT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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j-1500  (JASCO Inc)
96
JASCO Inc j-1500
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
J 1500, supplied by JASCO Inc, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/j-1500/product/JASCO Inc
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least-square regression  (SYSTAT)
90
SYSTAT least-square regression
Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component <t>exponential</t> decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).
Least Square Regression, supplied by SYSTAT, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/least-square regression/product/SYSTAT
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least-square regression - by Bioz Stars, 2026-03
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Image Search Results


Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component exponential decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).

Journal: bioRxiv

Article Title: Melanopsin ganglion cells in the mouse retina independently evoke pupillary light reflex

doi: 10.1101/2024.05.14.594181

Figure Lengend Snippet: Temporal features of high light-evoked PLRs were equivalent between WT and MNU eyes: A) The initial phase of high light-evoked PLRs is displayed in a short time scale. The latency from the light stimulus onset (black dotted line) to the start of the PLR in WT eyes (blue dotted line) and MNU eyes (red dotted line) are shown. B) A summary graph shows the latency in WT and MNU eyes, which showed a significant delay (p<0.05, Student’s unpaired t-test ). The means for WT and MNU are presented in blue and red. C) The onsets of high light-evoked PLRs were fit by single component exponential decay curves for WT eyes (blue) and MNU (red) injected mice (R2>0.90). D) A scatter plot showing each curve fit’s time constant (tau). MNU exhibited low tau, indicating a faster PLR constriction phase than WT PLR (p<0.05, n=12 mice). E) A scatter plot showing peak constriction showed no differences between WT and MNU mice (p= 0.07, n=12 mice).

Article Snippet: For the analysis of the transient constriction during high light conditions, raw traces were fitted with a single component exponential function (R 2 > .90, SigmaPlot14.5, Systat).

Techniques: Injection