single-exponential equation Search Results


single-exponential equation  (SYSTAT)
90
SYSTAT single-exponential equation
Single Exponential 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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single-exponential equation for first-order kinetics f(t) 1⁄4 f0 + fmax(1 e kobst)  (GraphPad Software Inc)
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GraphPad Software Inc single-exponential equation for first-order kinetics f(t) 1⁄4 f0 + fmax(1 e kobst)
Single Exponential Equation For First Order Kinetics F(T) 1⁄4 F0 + Fmax(1 E Kobst), 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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single and double exponential equations  (GraphPad Software Inc)
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GraphPad Software Inc single and double exponential equations
Single And Double Exponential Equations, 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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single exponential equation grafit 5  (ERITHACUS SOFTWARE LIMITED)
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ERITHACUS SOFTWARE LIMITED single exponential equation grafit 5
Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double <t>exponential</t> equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.
Single Exponential Equation Grafit 5, supplied by ERITHACUS SOFTWARE LIMITED, 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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single exponential equation grafit 5 - by Bioz Stars, 2026-04
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single exponential equation using graphpad prism version 6.0b  (GraphPad Software Inc)
90
GraphPad Software Inc single exponential equation using graphpad prism version 6.0b
Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double <t>exponential</t> equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.
Single Exponential Equation Using Graphpad Prism Version 6.0b, 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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single exponential equation using graphpad prism version 6.0b - by Bioz Stars, 2026-04
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single-component negative exponential equation  (SAS institute)
90
SAS institute single-component negative exponential equation
Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double <t>exponential</t> equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.
Single Component Negative Exponential Equation, supplied by SAS institute, 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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two-parameter single-exponential rise to maximum equation  (SYSTAT)
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SYSTAT two-parameter single-exponential rise to maximum equation
Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double <t>exponential</t> equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.
Two Parameter Single Exponential Rise To Maximum 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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single-exponential recovery equation  (OriginLab corp)
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OriginLab corp single-exponential recovery equation
Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double <t>exponential</t> equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.
Single Exponential Recovery Equation, supplied by OriginLab corp, 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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single, three parameter exponential equations graphpad prism 7.0  (GraphPad Software Inc)
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GraphPad Software Inc single, three parameter exponential equations graphpad prism 7.0
Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double <t>exponential</t> equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.
Single, Three Parameter Exponential Equations Graphpad Prism 7.0, 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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single, three parameter exponential equations graphpad prism 7.0 - by Bioz Stars, 2026-04
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Image Search Results


Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double exponential equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.

Journal: PLoS ONE

Article Title: Recombinant hTRBP and hPACT Modulate hAgo2-Catalyzed siRNA-Mediated Target RNA Cleavage In Vitro

doi: 10.1371/journal.pone.0146814

Figure Lengend Snippet: Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 50 nM fluorescently labeled double-stranded siRNA (aslam-FAM/slam) were rapidly mixed with 500 nM hTRBP (A) or hPACT (B). Data were fitted to a double exponential equation yielding the following rates: k 1 : 11.1 (± 2.3) s -1 and k 2 : 0.02 (± 0.001) s -1 for hTRBP and k 1 : 37.8 (± 2.5) s -1 and k 2 : 0.04 (± 0.005) s -1 for hPACT.

Article Snippet: Data were fitted using a single exponential equation (Grafit 5, Erithacus Software).

Techniques: Labeling

The different substrate combinations (ss-siRNA & long target, ds-siRNA & long target, ds-siRNA or ss-siRNA & short target) are depicted as little cartoons on top of the corresponding graph. For target RNA cleavage either 2.5 nM radioactively labeled ICAM-1-IVT (A, B) or s2b (D) were mixed with binary complexes consisting of either 100 nM as2b (A, D) or as2b/s2b (B) and 3 μM hAgo2 in the absence (open circles) or presence of 3 μM hTRBP (closed circles), hTRBP-D12 (open squares) and hPACT (closed squares), respectively. For ds-siRNA cleavage, i.e. passenger cleavage (C), 30 nM 5’-32P-passenger labeled siRNA (as2b/s2b) was mixed with 3 μM hAgo2 in the presence or absence of dsRBPs as described above. Samples were taken at different time points, analyzed by denaturing PAGE (8% for ICAM-1-IVT and 20% for s2b) and detected by autoradiography (Figure H in ). Data shown are averaged from at least three independent measurements. Error bars represent standard deviation. Experimental data were fitted to an exponential equation. Rate constants and corresponding amplitudes are listed in .

Journal: PLoS ONE

Article Title: Recombinant hTRBP and hPACT Modulate hAgo2-Catalyzed siRNA-Mediated Target RNA Cleavage In Vitro

doi: 10.1371/journal.pone.0146814

Figure Lengend Snippet: The different substrate combinations (ss-siRNA & long target, ds-siRNA & long target, ds-siRNA or ss-siRNA & short target) are depicted as little cartoons on top of the corresponding graph. For target RNA cleavage either 2.5 nM radioactively labeled ICAM-1-IVT (A, B) or s2b (D) were mixed with binary complexes consisting of either 100 nM as2b (A, D) or as2b/s2b (B) and 3 μM hAgo2 in the absence (open circles) or presence of 3 μM hTRBP (closed circles), hTRBP-D12 (open squares) and hPACT (closed squares), respectively. For ds-siRNA cleavage, i.e. passenger cleavage (C), 30 nM 5’-32P-passenger labeled siRNA (as2b/s2b) was mixed with 3 μM hAgo2 in the presence or absence of dsRBPs as described above. Samples were taken at different time points, analyzed by denaturing PAGE (8% for ICAM-1-IVT and 20% for s2b) and detected by autoradiography (Figure H in ). Data shown are averaged from at least three independent measurements. Error bars represent standard deviation. Experimental data were fitted to an exponential equation. Rate constants and corresponding amplitudes are listed in .

Article Snippet: Data were fitted using a single exponential equation (Grafit 5, Erithacus Software).

Techniques: Labeling, Autoradiography, Standard Deviation

Representative stopped-flow graphs are shown. Ternary complexes composed of 500 nM hAgo2, 20 nM guide RNA (as2b-FAM) and 40 nM target RNA (s2b) were preassembled and subsequently rapidly mixed with 2 μM unlabeled guide RNA and 500 nM hTRBP-D12 (A) or hTRBP (B). In both cases data could be best fitted using a triple exponential equation, yielding the following rate constants: (A) k -1 : 18.4 (± 1.2) s -1 , k -2 : 0.1 (± 0.007) s -1 , k -3 : 0.002 (± 0.0005) s -1 and (B) k -1 : 15.9 (± 4.6) s -1 , k -2 : 0.05 (± 0.001) s -1 , k -3 : 0.0005 (± 0.0002) s -1 . Rate constants are summarized in .

Journal: PLoS ONE

Article Title: Recombinant hTRBP and hPACT Modulate hAgo2-Catalyzed siRNA-Mediated Target RNA Cleavage In Vitro

doi: 10.1371/journal.pone.0146814

Figure Lengend Snippet: Representative stopped-flow graphs are shown. Ternary complexes composed of 500 nM hAgo2, 20 nM guide RNA (as2b-FAM) and 40 nM target RNA (s2b) were preassembled and subsequently rapidly mixed with 2 μM unlabeled guide RNA and 500 nM hTRBP-D12 (A) or hTRBP (B). In both cases data could be best fitted using a triple exponential equation, yielding the following rate constants: (A) k -1 : 18.4 (± 1.2) s -1 , k -2 : 0.1 (± 0.007) s -1 , k -3 : 0.002 (± 0.0005) s -1 and (B) k -1 : 15.9 (± 4.6) s -1 , k -2 : 0.05 (± 0.001) s -1 , k -3 : 0.0005 (± 0.0002) s -1 . Rate constants are summarized in .

Article Snippet: Data were fitted using a single exponential equation (Grafit 5, Erithacus Software).

Techniques:

Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 20 nM of fluorescently labeled double-stranded siRNA (as2b-FAM/s2B) were pre-incubated with 600 nM hTRBP (A, C) or hPACT (B, D). The binary complexes were subsequently rapidly mixed with either hAgo2 (400 nM in case of A and 600 nM in case of B) or 600 nM hAgo2-PAZ9 (C, D). Data were fitted to an exponential equation. For hAgo2 & hTRBP: k 1 : 28.8 (± 10.8) s -1 , k 2 : 0.33 (±0.03) s -1 and k 3 : 0.002 (± 0.0001) s -1 and for hAgo2 & hPACT: k 1 : 18.6 (± 3.5) s -1 , k 2 : 0.13 (± 0.02) s -1 and k 3 : 0.01 (± 0.001) s -1 were determined. With the mutant hAgo2-PAZ9 the following rate constant were calculated: k 1 : 14.9 (± 2.7) s -1 , k 2 : 0.07 (±0.01) s -1 and k 3 : 0.01 (± 0.0009) s -1 in the presence of hTRBP and k 1 : 16.2 (± 0.6) s -1 , k 2 : 0.38 (±0.01) s -1 and k 3 : 0.007 (± 0.002) s -1 in the presence of hPACT.

Journal: PLoS ONE

Article Title: Recombinant hTRBP and hPACT Modulate hAgo2-Catalyzed siRNA-Mediated Target RNA Cleavage In Vitro

doi: 10.1371/journal.pone.0146814

Figure Lengend Snippet: Representative stopped-flow graphs are shown. The inserts show the reaction on a shorter time scale. 20 nM of fluorescently labeled double-stranded siRNA (as2b-FAM/s2B) were pre-incubated with 600 nM hTRBP (A, C) or hPACT (B, D). The binary complexes were subsequently rapidly mixed with either hAgo2 (400 nM in case of A and 600 nM in case of B) or 600 nM hAgo2-PAZ9 (C, D). Data were fitted to an exponential equation. For hAgo2 & hTRBP: k 1 : 28.8 (± 10.8) s -1 , k 2 : 0.33 (±0.03) s -1 and k 3 : 0.002 (± 0.0001) s -1 and for hAgo2 & hPACT: k 1 : 18.6 (± 3.5) s -1 , k 2 : 0.13 (± 0.02) s -1 and k 3 : 0.01 (± 0.001) s -1 were determined. With the mutant hAgo2-PAZ9 the following rate constant were calculated: k 1 : 14.9 (± 2.7) s -1 , k 2 : 0.07 (±0.01) s -1 and k 3 : 0.01 (± 0.0009) s -1 in the presence of hTRBP and k 1 : 16.2 (± 0.6) s -1 , k 2 : 0.38 (±0.01) s -1 and k 3 : 0.007 (± 0.002) s -1 in the presence of hPACT.

Article Snippet: Data were fitted using a single exponential equation (Grafit 5, Erithacus Software).

Techniques: Labeling, Incubation, Mutagenesis