Reevaluation of the Electrophoretic Migration Behavior of Soluble Globular Proteins in the Native and Detergent-Denatured States in Polyacrylamide Gels

“…2A) derived from the R f values determined at 11-18% T (Fig. 1) were linear on gels <18%, although some concavity was observed as T and M r increased (10,(22)(23)(24)(25) (Fig. 2A, Right).…”

“…To quantify these increases, nonlinear regression was applied to define the relationships of K r to M r and of log 10 Y 0 to M r . K r was found to be related to M r by a third-order polynomial in each case (25) (Fig. 2B, Upper), whereas the function relating log 10 Y 0 to M r differed for the TM-mimetic and reference proteins (logarithmic vs. polynomial; Fig.…”

“…The latter finding presumably arises from a change in the balance of the charge and frictional forces known to underlie Y 0 as M r is increased (22). In certain systems, the relationship of Y 0 to M r among typical reference proteins may be approximated by monotonic or polynomial functions (23); in others, Y 0 values among globular, water-soluble polypeptides are nearly independent of M r (22,(25)(26)(27).…”

“…Any factor(s) that alter the molecular size and shape, and/or net charge, of the polypeptide/DS particle are expected to affect SDS/PAGE migration in a complex manner that will depend on both acrylamide concentration and M r . The smaller polypeptides that are typically analyzed on high-percentage gels may be particularly subject to these variations (25). As examples, alterations in DS loading and/or distribution of DS along the polypeptide chain might increase or decrease SDS/PAGE mobility of small polypeptides (e.g., refs.…”

“…The logarithm of R f values obtained by SDS/PAGE on at least three individual gels at each T for each TM-mimetic and reference protein in the M r ranges of 3,500-41,000 and 6,000-55,400, respectively, was plotted as a function of T and fit with linear regression to the relationship (21): log 10 R f = log 10 Y 0 − K r T: [1] To ensure that all data conformed to Eq. 1, R f s of TM-mimetics and reference proteins were sequentially excluded from highest to lowest T until the probability of the linear model reached >0.5 in the runs test; R f values of polypeptides ≥30 kDa obtained on gels of 18% T were omitted from regression analysis (25,35). The resulting lines of best fit had R 2 values ranging from 0.920-0.984, significantly nonzero slopes (P < 0.0001), and probabilities of linearity >0.5 (Tables S3 and S4).…”

Acrylamide concentration determines the direction and magnitude of helical membrane protein gel shifts

“…2A) derived from the R f values determined at 11-18% T (Fig. 1) were linear on gels <18%, although some concavity was observed as T and M r increased (10,(22)(23)(24)(25) (Fig. 2A, Right).…”

“…To quantify these increases, nonlinear regression was applied to define the relationships of K r to M r and of log 10 Y 0 to M r . K r was found to be related to M r by a third-order polynomial in each case (25) (Fig. 2B, Upper), whereas the function relating log 10 Y 0 to M r differed for the TM-mimetic and reference proteins (logarithmic vs. polynomial; Fig.…”

“…The latter finding presumably arises from a change in the balance of the charge and frictional forces known to underlie Y 0 as M r is increased (22). In certain systems, the relationship of Y 0 to M r among typical reference proteins may be approximated by monotonic or polynomial functions (23); in others, Y 0 values among globular, water-soluble polypeptides are nearly independent of M r (22,(25)(26)(27).…”

“…Any factor(s) that alter the molecular size and shape, and/or net charge, of the polypeptide/DS particle are expected to affect SDS/PAGE migration in a complex manner that will depend on both acrylamide concentration and M r . The smaller polypeptides that are typically analyzed on high-percentage gels may be particularly subject to these variations (25). As examples, alterations in DS loading and/or distribution of DS along the polypeptide chain might increase or decrease SDS/PAGE mobility of small polypeptides (e.g., refs.…”

“…The logarithm of R f values obtained by SDS/PAGE on at least three individual gels at each T for each TM-mimetic and reference protein in the M r ranges of 3,500-41,000 and 6,000-55,400, respectively, was plotted as a function of T and fit with linear regression to the relationship (21): log 10 R f = log 10 Y 0 − K r T: [1] To ensure that all data conformed to Eq. 1, R f s of TM-mimetics and reference proteins were sequentially excluded from highest to lowest T until the probability of the linear model reached >0.5 in the runs test; R f values of polypeptides ≥30 kDa obtained on gels of 18% T were omitted from regression analysis (25,35). The resulting lines of best fit had R 2 values ranging from 0.920-0.984, significantly nonzero slopes (P < 0.0001), and probabilities of linearity >0.5 (Tables S3 and S4).…”

Acrylamide concentration determines the direction and magnitude of helical membrane protein gel shifts

Warping two‐dimensional electrophoresis gel images to correct for geometric distortions of the spot pattern

Electrophoresis