one site-specific binding model Search Results


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Prism One Site Binding Competition Model, supplied by GraphPad Software Inc, 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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GraphPad Software Inc prism model one site-specific binding
Prism Model One Site Specific Binding, supplied by GraphPad Software Inc, 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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Dissociation Constants Using One Site Specific Binding Model, supplied by GraphPad Software Inc, 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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One Sitespecific Binding Model Prism 9, supplied by GraphPad Software Inc, 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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Nonlinear One Site Specific Binding With Hill Slope Model Fitted By Graphpad Prism Version 6.07 For Windows, supplied by GraphPad Software Inc, 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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one site – specific binding model of graphpad prism 10  (GraphPad Software Inc)
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A Cell-free supernatants of 24-h cultures of WT MPAO1 harboring either pSB109 empty plasmid control or pSB109-FLAG-ArqI. AqrI expression was induced (+) or not induced (−) with arabinose. B Quantification of pyoverdine and C pyocyanin in supernatants of three biological replicates of experiment shown in A . n = 4 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. D Thin-layer chromatography (TLC) analysis of extracted PQS from 24-h cultures. Purified PQS (C+) was used as a positive control and standard. E Schematic diagram of the P pqsA -mCherry reporter construct used as a PQS biosensor (this work). F Effect of WT ArqI, ArqI variants, or PA3390 expression on P pqsA -mCherry reporter activity at 24 h post ArqI induction. The y-axis was calculated as relative fluorescent units (RFU) to the empty vector control. n = 3 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. G Above: Schematic diagram of PqsA fragment (residues 164-413) identified by Y2H as interacting with ArqI. Below: Cartoon representation of the full length PqsA structure generated with the deposited N-terminal domain (PDB code 5OE4; ) and AlphaFold . The ArqI-interacting surface is highlighted in red and substrate shown as blue spheres. The reaction catalyzed by PqsA and ensuing PQS biosynthesis is shown below. H Intrinsic tryptophan quenching of ArqI interacting with PqsA in vitro. Excitation (ex) wavelength set at 295 nm and emission (em) scanned at 320-400 nm range. Plot of changes in tryptophan fluorescence intensities (read at 330 nm) of PqsA full-length protein (FL; top panel) and PqsA N-terminal domain (NTD; bottom panel) titrated with increasing ArqI concentrations. Plots are mean values of 4 trials. K d was determined by fitting in binding <t>saturation:</t> One site – specific binding model of GraphPad Prism 10. Shown are the mean K d ± SEM values. ( I ) One representative of three replicates of dansyl-labeled ArqI quenched by addition of purified PqsA NTD . Fluorescence intensity changes were measured at 512 nm. Curve fitting of these data yielded an average dissociation constant (K d ) of 1.0 ± 0.3 µM ( ± SEM). J Above: Schematic representation of the BioID experiment. Left panel: Western blot analysis of HA-tagged PqsA from P. aeruginosa MPAO1 cell lysate after co-expression of either ArqI-BirA*-FLAG or a BirA*-FLAG control. RpoB was used as a loading control. Right panel: Biotin blot analysis of anti-HA immunoprecipitated (IP) proteins from lysates in the left panel. Representative blots shown of three independent experiments. For panels B , C , and F : * P < 0.05; ** P < 0.01; *** P < 0.001 by two-Way ANOVA with Šídák’s multiple comparisons test ( B , C ) or one-sample t test ( F ). For 4b the p value was calculated as 0.0003 and 4c 0.0065. For 4f (left to right) 0.0052, 0.0008, 0.0031, <0.0001. ArqI contains an N-terminal FLAG tag in A-D, F . PA3390 contains a C-terminal FLAG-tag in F . Source data are provided as a Source Data file.
One Site – Specific Binding Model Of Graphpad Prism 10, supplied by GraphPad Software Inc, 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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A Cell-free supernatants of 24-h cultures of WT MPAO1 harboring either pSB109 empty plasmid control or pSB109-FLAG-ArqI. AqrI expression was induced (+) or not induced (−) with arabinose. B Quantification of pyoverdine and C pyocyanin in supernatants of three biological replicates of experiment shown in A . n = 4 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. D Thin-layer chromatography (TLC) analysis of extracted PQS from 24-h cultures. Purified PQS (C+) was used as a positive control and standard. E Schematic diagram of the P pqsA -mCherry reporter construct used as a PQS biosensor (this work). F Effect of WT ArqI, ArqI variants, or PA3390 expression on P pqsA -mCherry reporter activity at 24 h post ArqI induction. The y-axis was calculated as relative fluorescent units (RFU) to the empty vector control. n = 3 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. G Above: Schematic diagram of PqsA fragment (residues 164-413) identified by Y2H as interacting with ArqI. Below: Cartoon representation of the full length PqsA structure generated with the deposited N-terminal domain (PDB code 5OE4; ) and AlphaFold . The ArqI-interacting surface is highlighted in red and substrate shown as blue spheres. The reaction catalyzed by PqsA and ensuing PQS biosynthesis is shown below. H Intrinsic tryptophan quenching of ArqI interacting with PqsA in vitro. Excitation (ex) wavelength set at 295 nm and emission (em) scanned at 320-400 nm range. Plot of changes in tryptophan fluorescence intensities (read at 330 nm) of PqsA full-length protein (FL; top panel) and PqsA N-terminal domain (NTD; bottom panel) titrated with increasing ArqI concentrations. Plots are mean values of 4 trials. K d was determined by fitting in binding <t>saturation:</t> One site – specific binding model of GraphPad Prism 10. Shown are the mean K d ± SEM values. ( I ) One representative of three replicates of dansyl-labeled ArqI quenched by addition of purified PqsA NTD . Fluorescence intensity changes were measured at 512 nm. Curve fitting of these data yielded an average dissociation constant (K d ) of 1.0 ± 0.3 µM ( ± SEM). J Above: Schematic representation of the BioID experiment. Left panel: Western blot analysis of HA-tagged PqsA from P. aeruginosa MPAO1 cell lysate after co-expression of either ArqI-BirA*-FLAG or a BirA*-FLAG control. RpoB was used as a loading control. Right panel: Biotin blot analysis of anti-HA immunoprecipitated (IP) proteins from lysates in the left panel. Representative blots shown of three independent experiments. For panels B , C , and F : * P < 0.05; ** P < 0.01; *** P < 0.001 by two-Way ANOVA with Šídák’s multiple comparisons test ( B , C ) or one-sample t test ( F ). For 4b the p value was calculated as 0.0003 and 4c 0.0065. For 4f (left to right) 0.0052, 0.0008, 0.0031, <0.0001. ArqI contains an N-terminal FLAG tag in A-D, F . PA3390 contains a C-terminal FLAG-tag in F . Source data are provided as a Source Data file.
One Site Specific Binding Modell, supplied by GraphPad Software Inc, 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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prism 8.4.3 one-site specific binding model  (GraphPad Software Inc)
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A Cell-free supernatants of 24-h cultures of WT MPAO1 harboring either pSB109 empty plasmid control or pSB109-FLAG-ArqI. AqrI expression was induced (+) or not induced (−) with arabinose. B Quantification of pyoverdine and C pyocyanin in supernatants of three biological replicates of experiment shown in A . n = 4 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. D Thin-layer chromatography (TLC) analysis of extracted PQS from 24-h cultures. Purified PQS (C+) was used as a positive control and standard. E Schematic diagram of the P pqsA -mCherry reporter construct used as a PQS biosensor (this work). F Effect of WT ArqI, ArqI variants, or PA3390 expression on P pqsA -mCherry reporter activity at 24 h post ArqI induction. The y-axis was calculated as relative fluorescent units (RFU) to the empty vector control. n = 3 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. G Above: Schematic diagram of PqsA fragment (residues 164-413) identified by Y2H as interacting with ArqI. Below: Cartoon representation of the full length PqsA structure generated with the deposited N-terminal domain (PDB code 5OE4; ) and AlphaFold . The ArqI-interacting surface is highlighted in red and substrate shown as blue spheres. The reaction catalyzed by PqsA and ensuing PQS biosynthesis is shown below. H Intrinsic tryptophan quenching of ArqI interacting with PqsA in vitro. Excitation (ex) wavelength set at 295 nm and emission (em) scanned at 320-400 nm range. Plot of changes in tryptophan fluorescence intensities (read at 330 nm) of PqsA full-length protein (FL; top panel) and PqsA N-terminal domain (NTD; bottom panel) titrated with increasing ArqI concentrations. Plots are mean values of 4 trials. K d was determined by fitting in binding <t>saturation:</t> One site – specific binding model of GraphPad Prism 10. Shown are the mean K d ± SEM values. ( I ) One representative of three replicates of dansyl-labeled ArqI quenched by addition of purified PqsA NTD . Fluorescence intensity changes were measured at 512 nm. Curve fitting of these data yielded an average dissociation constant (K d ) of 1.0 ± 0.3 µM ( ± SEM). J Above: Schematic representation of the BioID experiment. Left panel: Western blot analysis of HA-tagged PqsA from P. aeruginosa MPAO1 cell lysate after co-expression of either ArqI-BirA*-FLAG or a BirA*-FLAG control. RpoB was used as a loading control. Right panel: Biotin blot analysis of anti-HA immunoprecipitated (IP) proteins from lysates in the left panel. Representative blots shown of three independent experiments. For panels B , C , and F : * P < 0.05; ** P < 0.01; *** P < 0.001 by two-Way ANOVA with Šídák’s multiple comparisons test ( B , C ) or one-sample t test ( F ). For 4b the p value was calculated as 0.0003 and 4c 0.0065. For 4f (left to right) 0.0052, 0.0008, 0.0031, <0.0001. ArqI contains an N-terminal FLAG tag in A-D, F . PA3390 contains a C-terminal FLAG-tag in F . Source data are provided as a Source Data file.
Prism 8.4.3 One Site Specific Binding Model, supplied by GraphPad Software Inc, 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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A Cell-free supernatants of 24-h cultures of WT MPAO1 harboring either pSB109 empty plasmid control or pSB109-FLAG-ArqI. AqrI expression was induced (+) or not induced (−) with arabinose. B Quantification of pyoverdine and C pyocyanin in supernatants of three biological replicates of experiment shown in A . n = 4 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. D Thin-layer chromatography (TLC) analysis of extracted PQS from 24-h cultures. Purified PQS (C+) was used as a positive control and standard. E Schematic diagram of the P pqsA -mCherry reporter construct used as a PQS biosensor (this work). F Effect of WT ArqI, ArqI variants, or PA3390 expression on P pqsA -mCherry reporter activity at 24 h post ArqI induction. The y-axis was calculated as relative fluorescent units (RFU) to the empty vector control. n = 3 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. G Above: Schematic diagram of PqsA fragment (residues 164-413) identified by Y2H as interacting with ArqI. Below: Cartoon representation of the full length PqsA structure generated with the deposited N-terminal domain (PDB code 5OE4; ) and AlphaFold . The ArqI-interacting surface is highlighted in red and substrate shown as blue spheres. The reaction catalyzed by PqsA and ensuing PQS biosynthesis is shown below. H Intrinsic tryptophan quenching of ArqI interacting with PqsA in vitro. Excitation (ex) wavelength set at 295 nm and emission (em) scanned at 320-400 nm range. Plot of changes in tryptophan fluorescence intensities (read at 330 nm) of PqsA full-length protein (FL; top panel) and PqsA N-terminal domain (NTD; bottom panel) titrated with increasing ArqI concentrations. Plots are mean values of 4 trials. K d was determined by fitting in binding <t>saturation:</t> One site – specific binding model of GraphPad Prism 10. Shown are the mean K d ± SEM values. ( I ) One representative of three replicates of dansyl-labeled ArqI quenched by addition of purified PqsA NTD . Fluorescence intensity changes were measured at 512 nm. Curve fitting of these data yielded an average dissociation constant (K d ) of 1.0 ± 0.3 µM ( ± SEM). J Above: Schematic representation of the BioID experiment. Left panel: Western blot analysis of HA-tagged PqsA from P. aeruginosa MPAO1 cell lysate after co-expression of either ArqI-BirA*-FLAG or a BirA*-FLAG control. RpoB was used as a loading control. Right panel: Biotin blot analysis of anti-HA immunoprecipitated (IP) proteins from lysates in the left panel. Representative blots shown of three independent experiments. For panels B , C , and F : * P < 0.05; ** P < 0.01; *** P < 0.001 by two-Way ANOVA with Šídák’s multiple comparisons test ( B , C ) or one-sample t test ( F ). For 4b the p value was calculated as 0.0003 and 4c 0.0065. For 4f (left to right) 0.0052, 0.0008, 0.0031, <0.0001. ArqI contains an N-terminal FLAG tag in A-D, F . PA3390 contains a C-terminal FLAG-tag in F . Source data are provided as a Source Data file.
One Site–Specific Binding Fitting Model Graphpad Prism Version 10.2.1, supplied by GraphPad Software Inc, 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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saturation binding one-site specific non-linear regression analysis model graphpad prism 5  (GraphPad Software Inc)
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(A) A <t>saturation</t> binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).
Saturation Binding One Site Specific Non Linear Regression Analysis Model Graphpad Prism 5, supplied by GraphPad Software Inc, 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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A Cell-free supernatants of 24-h cultures of WT MPAO1 harboring either pSB109 empty plasmid control or pSB109-FLAG-ArqI. AqrI expression was induced (+) or not induced (−) with arabinose. B Quantification of pyoverdine and C pyocyanin in supernatants of three biological replicates of experiment shown in A . n = 4 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. D Thin-layer chromatography (TLC) analysis of extracted PQS from 24-h cultures. Purified PQS (C+) was used as a positive control and standard. E Schematic diagram of the P pqsA -mCherry reporter construct used as a PQS biosensor (this work). F Effect of WT ArqI, ArqI variants, or PA3390 expression on P pqsA -mCherry reporter activity at 24 h post ArqI induction. The y-axis was calculated as relative fluorescent units (RFU) to the empty vector control. n = 3 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. G Above: Schematic diagram of PqsA fragment (residues 164-413) identified by Y2H as interacting with ArqI. Below: Cartoon representation of the full length PqsA structure generated with the deposited N-terminal domain (PDB code 5OE4; ) and AlphaFold . The ArqI-interacting surface is highlighted in red and substrate shown as blue spheres. The reaction catalyzed by PqsA and ensuing PQS biosynthesis is shown below. H Intrinsic tryptophan quenching of ArqI interacting with PqsA in vitro. Excitation (ex) wavelength set at 295 nm and emission (em) scanned at 320-400 nm range. Plot of changes in tryptophan fluorescence intensities (read at 330 nm) of PqsA full-length protein (FL; top panel) and PqsA N-terminal domain (NTD; bottom panel) titrated with increasing ArqI concentrations. Plots are mean values of 4 trials. K d was determined by fitting in binding saturation: One site – specific binding model of GraphPad Prism 10. Shown are the mean K d ± SEM values. ( I ) One representative of three replicates of dansyl-labeled ArqI quenched by addition of purified PqsA NTD . Fluorescence intensity changes were measured at 512 nm. Curve fitting of these data yielded an average dissociation constant (K d ) of 1.0 ± 0.3 µM ( ± SEM). J Above: Schematic representation of the BioID experiment. Left panel: Western blot analysis of HA-tagged PqsA from P. aeruginosa MPAO1 cell lysate after co-expression of either ArqI-BirA*-FLAG or a BirA*-FLAG control. RpoB was used as a loading control. Right panel: Biotin blot analysis of anti-HA immunoprecipitated (IP) proteins from lysates in the left panel. Representative blots shown of three independent experiments. For panels B , C , and F : * P < 0.05; ** P < 0.01; *** P < 0.001 by two-Way ANOVA with Šídák’s multiple comparisons test ( B , C ) or one-sample t test ( F ). For 4b the p value was calculated as 0.0003 and 4c 0.0065. For 4f (left to right) 0.0052, 0.0008, 0.0031, <0.0001. ArqI contains an N-terminal FLAG tag in A-D, F . PA3390 contains a C-terminal FLAG-tag in F . Source data are provided as a Source Data file.

Journal: Nature Communications

Article Title: A glyoxal-specific aldehyde signaling axis in Pseudomonas aeruginosa that influences quorum sensing and infection

doi: 10.1038/s41467-025-61469-8

Figure Lengend Snippet: A Cell-free supernatants of 24-h cultures of WT MPAO1 harboring either pSB109 empty plasmid control or pSB109-FLAG-ArqI. AqrI expression was induced (+) or not induced (−) with arabinose. B Quantification of pyoverdine and C pyocyanin in supernatants of three biological replicates of experiment shown in A . n = 4 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. D Thin-layer chromatography (TLC) analysis of extracted PQS from 24-h cultures. Purified PQS (C+) was used as a positive control and standard. E Schematic diagram of the P pqsA -mCherry reporter construct used as a PQS biosensor (this work). F Effect of WT ArqI, ArqI variants, or PA3390 expression on P pqsA -mCherry reporter activity at 24 h post ArqI induction. The y-axis was calculated as relative fluorescent units (RFU) to the empty vector control. n = 3 biological replicates. Bars indicate arithmetic mean. Whiskers denote standard deviation. G Above: Schematic diagram of PqsA fragment (residues 164-413) identified by Y2H as interacting with ArqI. Below: Cartoon representation of the full length PqsA structure generated with the deposited N-terminal domain (PDB code 5OE4; ) and AlphaFold . The ArqI-interacting surface is highlighted in red and substrate shown as blue spheres. The reaction catalyzed by PqsA and ensuing PQS biosynthesis is shown below. H Intrinsic tryptophan quenching of ArqI interacting with PqsA in vitro. Excitation (ex) wavelength set at 295 nm and emission (em) scanned at 320-400 nm range. Plot of changes in tryptophan fluorescence intensities (read at 330 nm) of PqsA full-length protein (FL; top panel) and PqsA N-terminal domain (NTD; bottom panel) titrated with increasing ArqI concentrations. Plots are mean values of 4 trials. K d was determined by fitting in binding saturation: One site – specific binding model of GraphPad Prism 10. Shown are the mean K d ± SEM values. ( I ) One representative of three replicates of dansyl-labeled ArqI quenched by addition of purified PqsA NTD . Fluorescence intensity changes were measured at 512 nm. Curve fitting of these data yielded an average dissociation constant (K d ) of 1.0 ± 0.3 µM ( ± SEM). J Above: Schematic representation of the BioID experiment. Left panel: Western blot analysis of HA-tagged PqsA from P. aeruginosa MPAO1 cell lysate after co-expression of either ArqI-BirA*-FLAG or a BirA*-FLAG control. RpoB was used as a loading control. Right panel: Biotin blot analysis of anti-HA immunoprecipitated (IP) proteins from lysates in the left panel. Representative blots shown of three independent experiments. For panels B , C , and F : * P < 0.05; ** P < 0.01; *** P < 0.001 by two-Way ANOVA with Šídák’s multiple comparisons test ( B , C ) or one-sample t test ( F ). For 4b the p value was calculated as 0.0003 and 4c 0.0065. For 4f (left to right) 0.0052, 0.0008, 0.0031, <0.0001. ArqI contains an N-terminal FLAG tag in A-D, F . PA3390 contains a C-terminal FLAG-tag in F . Source data are provided as a Source Data file.

Article Snippet: K d was determined by fitting in binding saturation: One site – specific binding model of GraphPad Prism 10.

Techniques: Plasmid Preparation, Control, Expressing, Standard Deviation, Thin Layer Chromatography, Purification, Positive Control, Construct, Activity Assay, Generated, In Vitro, Fluorescence, Binding Assay, Labeling, Western Blot, Immunoprecipitation, FLAG-tag

(A) A saturation binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).

Journal: Bioconjugate chemistry

Article Title: Generation of clickable Pittsburgh Compound B for the detection and capture of β-amyloid in Alzheimer’s Disease brain

doi: 10.1021/acs.bioconjchem.7b00500

Figure Lengend Snippet: (A) A saturation binding assay was used to derive a Kd of 164.7 nM for fluorescent clicked PiB (4). (B) Dose-response curve showing displacement of fluorescent clicked PiB (4) (at 140 nM) with increasing concentrations (0–100,000 nM) of PiB (2) ( ) and clickable PiB (3) ( ). From these data, binding affinities (Ki) of 678.4 and 264.7 nM were determined for compounds 2 and 3, respectively (summarized in Table 1).

Article Snippet: Binding affinities were derived using the saturation binding one-site specific non-linear regression analysis model of GraphPad Prism 5 (GraphPad Software Inc., California).

Techniques: Saturation Assay, Binding Assay