ABCC7 p.Asp529Phe

[switch to full view]
Comments [show]
Publications
PMID: 22265409 [PubMed] Mendoza JL et al: "Requirements for efficient correction of DeltaF508 CFTR revealed by analyses of evolved sequences."
No. Sentence Comment
70 Two 508-coupled mutants, D529F and S573E, dramatically increased the relative folding yield of NBD1 by 3.07- &#b1; 0.13-fold and 1.85- &#b1; 0.06-fold, respectively, a level comparable to that of the second-site suppressors identified in the STE6 chimera screen (Figure 3A).
X
ABCC7 p.Asp529Phe 22265409:70:25
status: NEW
 Login to comment
71 Thermal denaturation of purified D529F and S573E NBD1 revealed that S573E raised the Tm by 2 C-5 C relative to wild-type depending on ATP concentration (Figure S4B), indicating the improved folding yield in the complementation assay could be accounted for by increased stability of the native state (Figure 3B).
X
ABCC7 p.Asp529Phe 22265409:71:33
status: NEW
 Login to comment
72 In stark contrast, D529F had no measurable effect on Tm indicating the complementation assay reflects changes in yield and pathway as well as changes in stability or solubility.
X
ABCC7 p.Asp529Phe 22265409:72:19
status: NEW
 Login to comment
108 The same two mutations that improved NBD1 folding yield, D529F and S573E, increased the maturation efficiency of CFTR (Figure 4A, yellow and magenta bars, respectively).
X
ABCC7 p.Asp529Phe 22265409:108:57
status: NEW
 Login to comment
115 Top 20 508-Coupled Positions within NBD1 Using Four Independent Statistical Methods ELSC McBASC OMES SCA 435 453 460 S466T S466T 468 470 472 473 473 474 474 L475Y L475Y L475Y F490L F490L W496V W496V W496V W496V 503 505 507 509 512 513 Y517I Y517I Y517I Y517I 520 520 521 C524A C524A C524A C524A L526A L526A L526A L526A D529F D529F D529F D529F D537F D537F 543 Y563V Y563V Y563V Y563V A566P A566P 569 569 S573E P574A P574A P574A F575T F575T 578 582 E583G E583G 587 591 595 598 602 604 604 604 H609T 617 630 630 640 The alignment of 493 sequences was used to calculate pairwise coupling scores using each method (ELSC, SCA, McBASC, and OMES).
X
ABCC7 p.Asp529Phe 22265409:115:319
status: NEW
X
ABCC7 p.Asp529Phe 22265409:115:325
status: NEW
X
ABCC7 p.Asp529Phe 22265409:115:331
status: NEW
X
ABCC7 p.Asp529Phe 22265409:115:337
status: NEW
 Login to comment
120 Interestingly, the two suppressors identified by the coupling analysis, D529F and S573E, had much more modest effects on NBD1 yield in the presence of the DF508 mutant as might be expected.
X
ABCC7 p.Asp529Phe 22265409:120:72
status: NEW
 Login to comment
127 The surface view A B I539T G550E R553M R555K 3M WT F S466T L475Y F490L W496V Y517I C524A L526A D529F D537F Y563V A566P S573E P574A F575T E583G H609T 0 1 2 3 Relative Yield NBD1 ( -gal.) 25 30 35 40 45 0.0 0.5 1.0 Temperature (C ) Relative Turbitity 0 1 2 3 4 -5 0 5 10 WT F I539T I539T F S573E R555K D529F Relative Yield NBD1 ( -gal.) Tm Figure 3.
X
ABCC7 p.Asp529Phe 22265409:127:95
status: NEW
X
ABCC7 p.Asp529Phe 22265409:127:300
status: NEW
 Login to comment
129 All mutations altered the relative yield relative to wild-type NBD1 as shown in the bar chart (&#b1; standard error of the mean [SEM], n = 9 except for WT, DF508, D529F, and S573E where n = 18).
X
ABCC7 p.Asp529Phe 22265409:129:163
status: NEW
 Login to comment
130 Two of the 508-coupled positions, D529F and S573E, increase the yield of NBD1.
X
ABCC7 p.Asp529Phe 22265409:130:34
status: NEW
 Login to comment
132 (B) Thermal denaturation of 5 mM purified recombinant WT, D529F, and S573E NBD1 in the presence of 2 mM ATP (left panel).
X
ABCC7 p.Asp529Phe 22265409:132:58
status: NEW
 Login to comment
133 See also Figure S4. By contrast to the increased NBD1 folding yield, the D529F mutation (yellow circles) has no observable effect on thermal stability relative to WT (black circles).
X
ABCC7 p.Asp529Phe 22265409:133:73
status: NEW
 Login to comment
136 For mutants on either WT (circles) or DF (triangles) backgrounds, the correlation between stability and folding yield, R = 0.94 when D529F is excluded (yellow circle) (right panel, &#b1;SEM).
X
ABCC7 p.Asp529Phe 22265409:136:133
status: NEW
 Login to comment
166 B C A B 0 1 2 3 0 1 2 Relative Yield NBD1 (b2;-gal.) Relative Yield CFTR (ELISA) WT ࢞F WT ƊF S466T L475Y F490L W496V Y517I C524A L526A D529F D537F Y563V A566P S573E P574A F575T E583G H609T 0 1 2 Relative Yield CFTR (ELISA) I539T G550E R553M R555K 3M Figure 4.
X
ABCC7 p.Asp529Phe 22265409:166:149
status: NEW
 Login to comment
168 (A) The efficiency of full-length CFTR maturation was determined by ELISA (&#b1;SEM, n = 6 for WT, DF508, D529F, and S573E, n = 3 for other mutants).
X
ABCC7 p.Asp529Phe 22265409:168:106
status: NEW
 Login to comment
171 The two 508-coupled positions that increased NBD1 folding yield, D529F and S573E, also increased the maturation yield of CFTR (yellow and magenta bars, respectively).
X
ABCC7 p.Asp529Phe 22265409:171:65
status: NEW
 Login to comment
173 The two F508- coupled position mutations, D529F and S573E, are colored in yellow and magenta circles, respectively.
X
ABCC7 p.Asp529Phe 22265409:173:42
status: NEW
 Login to comment
185 Previously identified second-site suppressor (I539T, G550E, R553M, R555K, and 3M) but not the 508-coupled mutants (D529F and S573E) increase the yield of DF508 NBD1.
X
ABCC7 p.Asp529Phe 22265409:185:115
status: NEW
 Login to comment
190 Identified in this study, D529F and S573E improve folding of NBD1 in isolation and maturation of full-length CFTR in the wild-type background.
X
ABCC7 p.Asp529Phe 22265409:190:26
status: NEW
 Login to comment
233 D529F, S573E, and R555K mutations of human wild-type NBD1 were expressed and purified as previously described (Thibodeau et al., 2005).
X
ABCC7 p.Asp529Phe 22265409:233:0
status: NEW
 Login to comment