Summary for Dmd (NES ID: 258)
Full Name
Alternative Names
Dp71d
Organism
Mus musculus (Mouse)
Experimental Evidence for CRM1-mediated Export
LMB Sensitive, Binds CRM1
Mutations That Affect Nuclear Export
*highlighted yellow in the full sequence
L509A/L512A/L515A
Mutations That Affect CRM1 Binding
Unknown
Functional Export Signals
*shown as underlined residues in the full sequence
232-604 (via IP and pull-down assay)
Secondary Structure of Export Signal
Unknown
Other Residues Important for Export
Unknown
Sequence
Show FASTA Format
>tr|A2A9Z1|A2A9Z1_MOUSE Dystrophin OS=Mus musculus GN=Dmd PE=1 SV=1
MREHLKGHETQTTCWDHPKMTELYQSLADLNNVRFSAYRTAMKLRRLQKALCLDLLSLSA
ACDALDQHNLKQNDQPMDILQIINCLTTIYDRLEQEHNNLVNVPLCVDMCLNWLLNVYDT
GRTGRIRVLSFKTGIISLCKAHLEDKYRYLFKQVASSTGFCDQRRLGLLLHDSIQIPRQL
GEVASFGGSNIEPSVRSCFQFANNKPEIEAALFLDWMRLEPQSMVWLPVLHRVAAAETAK
HQAKCNICKECPIIGFRYRSLKHFNYDICQSCFFSGRVAKGHKMHYPMVEYCTPTTSGED
VRDFAKVLKNKFRTKRYFAKHPRMGYLPVQTVLEGDNMETPASSPQLSHDDTHSRIEHYA
SRLAEMENSNGSYLNDSISPNESIDDEHLLIQHYCQSLNQDSPLSQPRSPAQILISLESE
ERGELERILADLEEENRNLQAEYDRLKQQHEHKGLSPLPSPPEMMPTSPQSPRDAELIAE
AKLLRQHKGRLEARMQILEDHNKQLESQLHRLRQLLEQPQAEAKVNGTTVSSPSTSLQRS
DSSQPMLLRVVGSQTSESMGEEDLLSPPQDTSTGLEEVMEQLNNSFPSSRGRNAPGKPMR
EDTM
Show Domain Info by CDD
Show Secondary Structure by PSIPRED
# PSIPRED HFORMAT (PSIPRED V3.2)
Conf: 964333455653347882379999998610163168889898899887772378306888
Pred: CCCCCCCCCCCCCCCCCCHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHCCCCCCHHH
AA: MREHLKGHETQTTCWDHPKMTELYQSLADLNNVRFSAYRTAMKLRRLQKALCLDLLSLSA
10 20 30 40 50 60
Conf: 999984437889998889898999999999999964056778504778899898988539
Pred: HHHHHHHCCCCCCCCCCCHHHHHHHHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHHCC
AA: ACDALDQHNLKQNDQPMDILQIINCLTTIYDRLEQEHNNLVNVPLCVDMCLNWLLNVYDT
70 80 90 100 110 120
Conf: 997806760366899881361377899999887407898534898879889974234453
Pred: CCCCCEEEEHHHHHHHHHCCCCHHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHHHHHH
AA: GRTGRIRVLSFKTGIISLCKAHLEDKYRYLFKQVASSTGFCDQRRLGLLLHDSIQIPRQL
130 140 150 160 170 180
Conf: 034556887774001223201379785458889989731898033188888987642112
Pred: HCCCCCCCCCCCCCHHHHHHCCCCCCCCCHHHHHHHHHCCCCCEEEHHHHHHHHHHHHCC
AA: GEVASFGGSNIEPSVRSCFQFANNKPEIEAALFLDWMRLEPQSMVWLPVLHRVAAAETAK
190 200 210 220 230 240
Conf: 222355565796421000233324522111000354345887688985212235897021
Pred: CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHH
AA: HQAKCNICKECPIIGFRYRSLKHFNYDICQSCFFSGRVAKGHKMHYPMVEYCTPTTSGED
250 260 270 280 290 300
Conf: 578898610234330000149988865763345789888999999999987750367743
Pred: HHHHHHHHHCCCCCCHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHH
AA: VRDFAKVLKNKFRTKRYFAKHPRMGYLPVQTVLEGDNMETPASSPQLSHDDTHSRIEHYA
310 320 330 340 350 360
Conf: 234565311898877888999886367899999985406999999999845775310000
Pred: HHHHHHHHCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHH
AA: SRLAEMENSNGSYLNDSISPNESIDDEHLLIQHYCQSLNQDSPLSQPRSPAQILISLESE
370 380 390 400 410 420
Conf: 024578876433334566777666565532113899999999989999999996889999
Pred: HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCHHHHHH
AA: ERGELERILADLEEENRNLQAEYDRLKQQHEHKGLSPLPSPPEMMPTSPQSPRDAELIAE
430 440 450 460 470 480
Conf: 999842337011333210012467765544455531077432367985568999877767
Pred: HHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCC
AA: AKLLRQHKGRLEARMQILEDHNKQLESQLHRLRQLLEQPQAEAKVNGTTVSSPSTSLQRS
490 500 510 520 530 540
Conf: 899973232468899765556788999978767679999986415999999999999987
Pred: CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHCCCCCCCCCCCCCCCCC
AA: DSSQPMLLRVVGSQTSESMGEEDLLSPPQDTSTGLEEVMEQLNNSFPSSRGRNAPGKPMR
550 560 570 580 590 600
Conf: 6789
Pred: CCCC
AA: EDTM
Show Conservation Score by AL2CO
1 M -1.000 *
2 R -1.000 *
3 E -1.000 *
4 H -1.000 *
5 L -1.000 *
6 K -1.000 *
7 G -1.000 *
8 H -1.000 *
9 E -1.000 *
10 T -1.000 *
11 Q -1.000 *
12 T -1.000 *
13 T -1.000 *
14 C -1.000 *
15 W -1.000 *
16 D -1.000 *
17 H -1.000 *
18 P -1.000 *
19 K -1.000 *
20 M -1.000 *
21 T -1.000 *
22 E -0.385
23 L 0.374
24 Y -0.119
25 Q -0.144
26 S -0.269
27 L 0.723
28 A -0.389
29 D 0.558
30 L 1.064
31 N 0.626
32 N -0.734
33 V 2.230
34 R 1.043
35 F 1.133
36 S 1.272
37 A 1.062
38 Y 3.950
39 R 4.850
40 T 2.163
41 A 2.986
42 M 0.483
43 K 4.850
44 L 1.977
45 R 1.169
46 R -0.187
47 L 1.589
48 Q 3.839
49 K 0.627
50 A -0.554
51 L 1.243
52 C -0.448
53 L 1.585
54 D 0.792
55 L -0.115
56 L 1.617
57 S -0.075
58 L 0.949
59 S -0.761
60 A -0.334
61 A 1.019
62 C -0.928
63 D -0.363
64 A 0.358
65 L 1.827
66 D -0.521
67 Q -0.282
68 H -0.380
69 N -0.415
70 L -0.059
71 K -0.795
72 Q -0.731
73 N -0.551
74 D 0.138
75 Q -0.809
76 P -0.782
77 M 0.311
78 D 0.117
79 I 0.027
80 L -0.794
81 Q 0.560
82 I 1.169
83 I -0.372
84 N -0.655
85 C -0.438
86 L 1.668
87 T -0.625
88 T -0.376
89 I 1.460
90 Y 2.215
91 D -0.906
92 R -0.539
93 L 0.604
94 E -0.508
95 Q -0.168
96 E -0.219
97 H -0.735
98 N 0.051
99 N -0.633
100 L -0.275
101 V -0.021
102 N -0.205
103 V -0.087
104 P -0.130
105 L -0.519
106 C -0.099
107 V 0.034
108 D -0.314
109 M 0.518
110 C 0.658
111 L 0.108
112 N 0.458
113 W 1.849
114 L 1.448
115 L -0.081
116 N -0.279
117 V 0.554
118 Y 1.695
119 D 1.278
120 T -0.288
121 G -0.892
122 R 0.306
123 T -0.521
124 G 0.453
125 R -0.959
126 I 1.181
127 R -0.100
128 V 0.538
129 L 0.070
130 S 0.417
131 F 0.934
132 K 0.728
133 T 0.193
134 G 0.412
135 I 1.059
136 I 0.565
137 S 0.239
138 L 2.018
139 C 1.584
140 K -0.358
141 A 0.229
142 H -0.540
143 L 0.680
144 E -0.638
145 D 0.693
146 K 1.557
147 Y 0.853
148 R 0.403
149 Y 0.142
150 L 0.220
151 F 0.986
152 K -0.395
153 Q 0.154
154 V 0.046
155 A 0.081
156 S -0.033
157 S -0.517
158 T -0.249
159 G -0.042
160 F -0.960
161 C 0.583
162 D 0.081
163 Q -0.693
164 R -0.693
165 R -0.303
166 L 1.304
167 G -0.452
168 L -0.855
169 L 1.587
170 L 2.302
171 H -0.483
172 D 0.507
173 S 0.510
174 I -0.274
175 Q 0.182
176 I 2.013
177 P 1.247
178 R -0.554
179 Q -0.554
180 L 1.517
181 G 0.242
182 E 3.583
183 V -0.239
184 A -0.796
185 S 0.382
186 F 1.463
187 G 0.666
188 G -0.129
189 S -0.409
190 N 0.032
191 I 0.231
192 E 0.083
193 P -0.383
194 S 0.245
195 V 0.524
196 R -0.377
197 S -0.385
198 C 0.882
199 F 1.796
200 Q -0.702
201 F -0.808
202 A -0.578
203 N -0.788
204 N -0.709
205 K -0.702
206 P -0.685
207 E -0.944
208 I 1.157
209 E -0.332
210 A 0.093
211 A -0.877
212 L -0.780
213 F 1.976
214 L 0.188
215 D -0.374
216 W 0.457
217 M 0.246
218 R -0.397
219 L -0.767
220 E 0.811
221 P 2.536
222 Q -0.160
223 S 0.266
224 M 0.862
225 V 0.100
226 W 2.425
227 L 1.338
228 P 0.847
229 V 1.256
230 L 0.971
231 H 0.406
232 R 2.984
233 V 1.482
234 A -0.226
235 A -0.406
236 A 1.077
237 E 0.867
238 T -0.351
239 A 0.674
240 K -0.588
241 H 2.707
242 Q 0.405
243 A 0.439
244 K -0.362
245 C 3.282
246 N -0.506
247 I 0.078
248 C 3.113
249 K 0.687
250 E -0.763
251 C -0.723
252 P 0.950
253 I 1.124
254 I -0.260
255 G 3.390
256 F 1.276
257 R 3.285
258 Y 2.820
259 R 1.024
260 S 2.848
261 L 0.908
262 K 1.064
263 H 2.032
264 F -0.267
265 N 1.040
266 Y 0.856
267 D 0.364
268 I 0.838
269 C 3.793
270 Q 1.943
271 S -0.627
272 C 3.424
273 F 2.611
274 F 1.013
275 S -0.531
276 G 0.903
277 R -0.386
278 V -0.586
279 A 0.037
280 K -0.028
281 G -0.192
282 H 2.251
283 K 0.064
284 M -0.631
285 H -0.249
286 Y 2.241
287 P 0.739
288 M 1.150
289 V -0.169
290 E 2.091
291 Y 0.456
292 C 0.405
293 T -0.124
294 P -0.269
295 T -0.507
296 T 0.141
297 S -0.572
298 G -0.309
299 E -0.071
300 D -0.288
301 V -0.081
302 R 0.507
303 D -0.327
304 F 0.406
305 A -0.135
306 K -0.408
307 V -0.525
308 L 0.657
309 K 0.208
310 N 0.078
311 K -0.306
312 F 0.141
313 R -0.425
314 T -0.621
315 K -0.690
316 R -0.470
317 Y -1.216
318 F -0.770
319 A -0.483
320 K -0.590
321 H -0.664
322 P -0.216
323 R -0.439
324 M -0.769
325 G -0.630
326 Y -0.972
327 L -1.110
328 P -0.167
329 V -0.476
330 Q -0.829
331 T -0.465
332 V -0.841
333 L -0.773
334 E -1.024
335 G -0.710
336 D -0.970
337 N -0.964
338 M -0.768
339 E -0.703
340 T -1.011
341 P -0.849
342 A -1.087
343 S -0.987
344 S -0.812
345 P -0.543
346 Q -1.013
347 L -0.837
348 S -0.726
349 H -0.812
350 D -0.834
351 D -1.016
352 T -0.922
353 H -0.978
354 S -1.010
355 R -1.067
356 I -0.802
357 E -0.766
358 H -1.030
359 Y -1.155
360 A -0.847
361 S -1.036
362 R -0.960
363 L -0.760
364 A -0.934
365 E -0.791
366 M -1.076
367 E -1.089
368 N -1.020
369 S -0.986
370 N -1.070
371 G -0.969
372 S -0.482
373 Y -1.076
374 L -1.021
375 N -1.106
376 D -0.895
377 S -0.939
378 I -0.495
379 S -0.360
380 P -0.971
381 N -0.997
382 E -0.732
383 S -0.582
384 I -0.489
385 D -0.673
386 D -0.106
387 E 0.101
388 H -0.457
389 L -0.946
390 L -0.600
391 I -0.116
392 Q -0.450
393 H -0.552
394 Y -0.614
395 C -0.462
396 Q -0.596
397 S -0.897
398 L -0.270
399 N -0.778
400 Q -0.625
401 D -0.471
402 S -0.925
403 P -0.780
404 L -1.204
405 S -0.904
406 Q -0.983
407 P -0.968
408 R -0.606
409 S -0.315
410 P -0.457
411 A -0.924
412 Q -0.348
413 I -0.778
414 L -0.876
415 I -1.169
416 S -0.799
417 L -0.685
418 E -0.273
419 S -0.899
420 E -0.204
421 E -0.622
422 R -0.508
423 G -0.916
424 E -0.174
425 L -0.323
426 E -0.252
427 R -0.641
428 I -0.407
429 L 0.514
430 A -0.791
431 D -0.661
432 L 0.553
433 E -0.349
434 E -0.742
435 E 0.076
436 N 0.067
437 R -0.327
438 N -1.138
439 L 0.285
440 Q -0.359
441 A -0.897
442 E -0.081
443 Y -0.141
444 D -0.798
445 R 0.214
446 L -0.091
447 K -0.370
448 Q -0.898
449 Q -0.730
450 H -0.720
451 E -1.021
452 H -0.894
453 K -0.813
454 G -0.576
455 L -0.960
456 S -1.128
457 P -0.625
458 L -0.886
459 P -0.662
460 S -0.603
461 P -0.797
462 P -0.799
463 E -0.649
464 M -1.033
465 M -0.889
466 P -0.406
467 T -0.927
468 S -0.671
469 P -0.770
470 Q -1.033
471 S -0.954
472 P -0.699
473 R -0.895
474 D 0.020
475 A -0.720
476 E -0.784
477 L 0.131
478 I -0.288
479 A -0.401
480 E -0.128
481 A -0.297
482 K -0.264
483 L -0.351
484 L -0.098
485 R 0.704
486 Q -0.564
487 H -0.235
488 K 0.084
489 G -0.536
490 R 0.047
491 L 0.651
492 E 0.653
493 A -0.184
494 R 0.338
495 M 0.429
496 Q -0.551
497 I -0.482
498 L 1.182
499 E 0.326
500 D 0.183
501 H 0.201
502 N 0.418
503 K 0.879
504 Q 0.035
505 L 1.514
506 E -0.208
507 S -0.576
508 Q 1.017
509 L 1.104
510 H -0.480
511 R 0.054
512 L 0.278
513 R 0.712
514 Q -0.068
515 L -0.108
516 L 0.435
517 E -0.292
518 Q -0.235
519 P -0.103
520 Q -0.803
521 A -0.707
522 E -0.647
523 A -0.645
524 K -0.546
525 V -1.067
526 N -0.593
527 G -0.074
528 T 0.088
529 T -0.222
530 V -1.025
531 S -0.305
532 S 0.106
533 P -0.492
534 S -0.843
535 T -0.980
536 S -0.266
537 L -0.618
538 Q -0.676
539 R -0.604
540 S -1.000 *
541 D -1.000 *
542 S -1.000 *
543 S -0.509
544 Q -1.027
545 P -0.169
546 M -0.762
547 L -0.788
548 L -1.020
549 R -0.762
550 V -0.833
551 V -0.953
552 G -0.599
553 S -0.581
554 Q -0.775
555 T -0.531
556 S -0.378
557 E -0.482
558 S -0.372
559 M -1.000 *
560 G -1.000 *
561 E -1.000 *
562 E -1.000 *
563 D -1.000 *
564 L -1.000 *
565 L -1.000 *
566 S -0.597
567 P -0.845
568 P -0.140
569 Q -1.000 *
570 D -1.000 *
571 T -1.000 *
572 S -1.000 *
573 T -1.000 *
574 G -1.000 *
575 L -1.000 *
576 E -1.000 *
577 E -1.000 *
578 V -1.000 *
579 M -1.000 *
580 E -1.000 *
581 Q -1.000 *
582 L -1.000 *
583 N -1.000 *
584 N -1.000 *
585 S -1.000 *
586 F -1.000 *
587 P -1.000 *
588 S -1.000 *
589 S -1.000 *
590 R -1.000 *
591 G -1.000 *
592 R -1.000 *
593 N -1.000 *
594 A -1.000 *
595 P -1.000 *
596 G -1.000 *
597 K -1.000 *
598 P -1.000 *
599 M -1.000 *
600 R -1.000 *
601 E -1.000 *
602 D -1.000 *
603 T -1.000 *
604 M -1.000 *
* gap fraction no less than 0.50; conservation set to M-S
M: mean; S: standard deviation
al2co - The parameters are:
Input alignment file - 258.paln
Output conservation - STDOUT
Weighting scheme - independent-count based
Conservation calculation method - entropy-based
Window size - 1
Conservation normalized to zero mean and unity variance
Gap fraction to suppress calculation - 0.50
10 20 30 40 50 60
MREHLKGHET QTTCWDHPKM TELYQSLADL NNVRFSAYRT AMKLRRLQKA LCLDLLSLSA
70 80 90 100 110 120
ACDALDQHNL KQNDQPMDIL QIINCLTTIY DRLEQEHNNL VNVPLCVDMC LNWLLNVYDT
130 140 150 160 170 180
GRTGRIRVLS FKTGIISLCK AHLEDKYRYL FKQVASSTGF CDQRRLGLLL HDSIQIPRQL
190 200 210 220 230 240
GEVASFGGSN IEPSVRSCFQ FANNKPEIEA ALFLDWMRLE PQSMVWLPVL HRVAAAETAK
250 260 270 280 290 300
HQAKCNICKE CPIIGFRYRS LKHFNYDICQ SCFFSGRVAK GHKMHYPMVE YCTPTTSGED
310 320 330 340 350 360
VRDFAKVLKN KFRTKRYFAK HPRMGYLPVQ TVLEGDNMET PASSPQLSHD DTHSRIEHYA
370 380 390 400 410 420
SRLAEMENSN GSYLNDSISP NESIDDEHLL IQHYCQSLNQ DSPLSQPRSP AQILISLESE
430 440 450 460 470 480
ERGELERILA DLEEENRNLQ AEYDRLKQQH EHKGLSPLPS PPEMMPTSPQ SPRDAELIAE
490 500 510 520 530 540
AKLLRQHKGR LEARMQILED HNKQLESQLH RLRQLLEQPQ AEAKVNGTTV SSPSTSLQRS
550 560 570 580 590 600
DSSQPMLLRV VGSQTSESMG EEDLLSPPQD TSTGLEEVME QLNNSFPSSR GRNAPGKPMR
EDTM
3D Structures in PDB
Not Available
Comments
The DMD (Duchenne muscular dystrophy) gene product, Dp71, has been found in the nucleus of
a number of different cell types, and has shown produce several different isoform via alternative splicing of exon 78 of Dp71.
The isoform Dp71d includes the domains encoded by exons 78 and 79 and exhibits a predominant nuclear localisation,
whereas Dp71f, a variant harboring an alternative 31 amino acid C-terminal domain, through removal of exon 78, is exclusively cytoplasmic.
The NLS of Dp71d is mapped within the zinc finger regions within the 232-340 residues and has shown to be recognized by IMP?2/?1 to enable passage through the NPC (in-vivo(IF) and in-vitro (pull-down).
References
[1]. "Nucleocytoplasmic shuttling of the Duchenne muscular dystrophy gene product dystrophin Dp71d is dependent on the importin ?/? and CRM1 nuclear transporters and microtubule motor dynein."
Suárez-Sánchez R, Aguilar A, Wagstaff KM, Velez G, Azuara-Medina PM, Gomez P, Vásquez-Limeta A, Hernández-Hernández O, Lieu KG, Jans DA, Cisneros B. (2014)
Biochim Biophys Acta,
May;1843(5):985-1001
PubMedUser Input
Accurate identification of NESs is difficult because many sequences in the genome match the NES consensus.
Therefore, some published NESs may be mistakenly identified. Please help us improve the accuracy of NESdb
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