Essential nuclear protein 1
UniProt
Show FASTA Format
>sp|P38333|ENP1_YEAST Essential nuclear protein 1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) OX=559292 GN=ENP1 PE=1 SV=1
MARASSTKARKQRHDPLLKDLDAAQGTLKKINKKKLAQNDAANHDAANEEDGYIDSKASR
KILQLAKEQQDEIEGEELAESERNKQFEARFTTMSYDDEDEDEDEDEEAFGEDISDFEPE
GDYKEEEEIVEIDEEDAAMFEQYFKKSDDFNSLSGSYNLADKIMASIREKESQVEDMQDD
EPLANEQNTSRGNISSGLKSGEGVALPEKVIKAYTTVGSILKTWTHGKLPKLFKVIPSLR
NWQDVIYVTNPEEWSPHVVYEATKLFVSNLTAKESQKFINLILLERFRDNIETSEDHSLN
YHIYRAVKKSLYKPSAFFKGFLFPLVETGCNVREATIAGSVLAKVSVPALHSSAALSYLL
RLPFSPPTTVFIKILLDKKYALPYQTVDDCVYYFMRFRILDDGSNGEDATRVLPVIWHKA
FLTFAQRYKNDITQDQRDFLLETVRQRGHKDIGPEIRRELLAGASREFVDPQEANDDLMI
DVN
Show Domain Info by CDD
Show Secondary Structure by PSIPRED
# PSIPRED HFORMAT (PSIPRED V3.2)
Conf: 999889886445799708877220386335675444443223756557877657915669
Pred: CCCCCCCCCCCCCCCCCHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHH
AA: MARASSTKARKQRHDPLLKDLDAAQGTLKKINKKKLAQNDAANHDAANEEDGYIDSKASR
10 20 30 40 50 60
Conf: 999999997766630002113221000011258999999865320000257887666889
Pred: HHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHCCCCCCCCCCCCC
AA: KILQLAKEQQDEIEGEELAESERNKQFEARFTTMSYDDEDEDEDEDEEAFGEDISDFEPE
70 80 90 100 110 120
Conf: 870023667338988899999424889998788888668999999888423100123588
Pred: CCHHHHHHHHCCCHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCCCCC
AA: GDYKEEEEIVEIDEEDAAMFEQYFKKSDDFNSLSGSYNLADKIMASIREKESQVEDMQDD
130 140 150 160 170 180
Conf: 510110146667777899999889988579999996867651156799998742468997
Pred: CCHHHHCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCC
AA: EPLANEQNTSRGNISSGLKSGEGVALPEKVIKAYTTVGSILKTWTHGKLPKLFKVIPSLR
190 200 210 220 230 240
Conf: 858776316999999888999878866089969999998664346666310536888630
Pred: CHHHHHHCCCCCCCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHCCCCCCCCH
AA: NWQDVIYVTNPEEWSPHVVYEATKLFVSNLTAKESQKFINLILLERFRDNIETSEDHSLN
250 260 270 280 290 300
Conf: 999999886103986510012200136896235799998876412650341899998512
Pred: HHHHHHHHHHCCCCCCCCCHHHHHCCCCCCCHHHHHHHHHHHHHCCCCHHHHHHHHHHHH
AA: YHIYRAVKKSLYKPSAFFKGFLFPLVETGCNVREATIAGSVLAKVSVPALHSSAALSYLL
310 320 330 340 350 360
Conf: 488999438999997411567752456799998673144578999878777885376878
Pred: CCCCCCCHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCHHHHHH
AA: RLPFSPPTTVFIKILLDKKYALPYQTVDDCVYYFMRFRILDDGSNGEDATRVLPVIWHKA
370 380 390 400 410 420
Conf: 899998523689998799999999773999988789998851677898899988886633
Pred: HHHHHHHHCCCCCHHHHHHHHHHHHHCCCCCCCHHHHHHHHHCCCCCCCCCCCCCCCCCC
AA: FLTFAQRYKNDITQDQRDFLLETVRQRGHKDIGPEIRRELLAGASREFVDPQEANDDLMI
430 440 450 460 470 480
Conf: 579
Pred: CCC
AA: DVN
Show Conservation Score by AL2CO
1 M 2.954
2 A 0.925
3 R 1.174
4 A -0.786
5 S -0.901
6 S -0.388
7 T -0.904
8 K -0.831
9 A -0.912
10 R -0.946
11 K -0.843
12 Q -0.916
13 R -0.660
14 H -0.441
15 D -0.878
16 P 0.674
17 L 1.851
18 L -0.800
19 K -0.846
20 D 0.573
21 L -0.269
22 D -0.982
23 A -1.022
24 A -0.600
25 Q -1.006
26 G -0.876
27 T -1.043
28 L -0.955
29 K -0.608
30 K -1.059
31 I -0.983
32 N -0.930
33 K -0.776
34 K -0.854
35 K -0.774
36 L -0.964
37 A -1.043
38 Q -0.764
39 N -0.910
40 D -0.822
41 A -0.915
42 A -0.911
43 N -1.032
44 H -0.949
45 D -0.931
46 A -1.104
47 A -1.060
48 N -0.917
49 E -0.854
50 E -0.784
51 D -0.342
52 G -0.956
53 Y -0.481
54 I 0.388
55 D -0.099
56 S -0.426
57 K -0.683
58 A -0.184
59 S 1.477
60 R -0.197
61 K 0.671
62 I 1.701
63 L 0.790
64 Q -0.617
65 L -0.008
66 A 0.753
67 K 0.338
68 E -0.542
69 Q 1.126
70 Q -0.538
71 D -0.871
72 E 0.792
73 I -0.558
74 E -0.798
75 G -1.048
76 E -0.855
77 E -1.060
78 L -1.198
79 A -1.069
80 E -0.933
81 S -0.968
82 E -1.091
83 R -1.071
84 N -1.195
85 K -1.101
86 Q -1.157
87 F -1.171
88 E -1.060
89 A -1.109
90 R -1.134
91 F -1.180
92 T -1.090
93 T -1.132
94 M -1.179
95 S -1.143
96 Y -1.196
97 D -1.056
98 D -1.073
99 E -1.051
100 D -1.107
101 E -1.120
102 D -1.082
103 E -1.203
104 D -1.143
105 E -1.019
106 D -1.055
107 E -1.107
108 E -1.120
109 A -1.088
110 F -1.262
111 G -1.089
112 E -1.023
113 D -1.075
114 I -1.074
115 S -1.125
116 D -1.209
117 F -1.069
118 E -1.094
119 P -1.165
120 E -1.155
121 G -1.170
122 D -1.047
123 Y -1.217
124 K -1.118
125 E -1.045
126 E -0.997
127 E -1.089
128 E -0.990
129 I -1.005
130 V -0.845
131 E -0.847
132 I -0.256
133 D -0.552
134 E -0.391
135 E -0.511
136 D 0.847
137 A -0.631
138 A -0.633
139 M -0.150
140 F -0.073
141 E -0.450
142 Q -0.868
143 Y 0.236
144 F -0.727
145 K -0.763
146 K -0.901
147 S -0.755
148 D -0.603
149 D -0.618
150 F -1.022
151 N -1.003
152 S -1.000 *
153 L -1.123
154 S -0.940
155 G -0.506
156 S -0.798
157 Y -0.771
158 N 0.368
159 L 1.969
160 A 0.569
161 D 0.619
162 K 0.013
163 I 2.309
164 M -0.459
165 A -0.164
166 S 1.042
167 I 1.321
168 R -0.752
169 E 0.012
170 K -0.793
171 E -0.398
172 S -0.721
173 Q -0.908
174 V -0.931
175 E -0.681
176 D -0.928
177 M -1.015
178 Q -1.171
179 D -0.969
180 D -0.943
181 E -1.013
182 P -1.000 *
183 L -1.000 *
184 A -1.000 *
185 N -1.000 *
186 E -1.000 *
187 Q -1.000 *
188 N -1.000 *
189 T -1.000 *
190 S -1.000 *
191 R -1.000 *
192 G -1.000 *
193 N -1.000 *
194 I -1.000 *
195 S -1.000 *
196 S -1.000 *
197 G -1.000 *
198 L -1.020
199 K -0.991
200 S -0.923
201 G -1.184
202 E -0.853
203 G -1.025
204 V -1.091
205 A -0.851
206 L 0.599
207 P 0.655
208 E -0.648
209 K -0.199
210 V 0.732
211 I -0.199
212 K -0.519
213 A 0.082
214 Y 1.249
215 T -0.471
216 T -0.341
217 V 0.605
218 G 0.356
219 S -0.958
220 I 0.016
221 L 1.692
222 K -0.533
223 T -0.216
224 W 0.984
225 T 1.391
226 H 0.324
227 G 1.670
228 K 0.329
229 L 0.840
230 P 2.954
231 K 1.600
232 L 0.314
233 F 0.835
234 K 1.632
235 V -0.091
236 I 1.224
237 P 1.793
238 S -0.182
239 L 0.304
240 R -0.717
241 N -0.813
242 W 1.751
243 Q -0.223
244 D -0.288
245 V 0.476
246 I 0.769
247 Y -0.877
248 V 0.222
249 T 1.305
250 N -0.703
251 P 2.487
252 E -0.280
253 E -0.699
254 W 2.091
255 S 1.429
256 P 0.569
257 H 0.574
258 V 0.607
259 V -0.154
260 Y -0.070
261 E -0.228
262 A 0.363
263 T 1.224
264 K 1.705
265 L 0.669
266 F 1.790
267 V 0.438
268 S 1.181
269 N 0.015
270 L -0.355
271 T -0.462
272 A -0.457
273 K -1.184
274 E -0.755
275 S -0.101
276 Q 0.737
277 K -0.764
278 F 1.743
279 I 0.108
280 N -0.619
281 L -0.934
282 I 1.323
283 L 1.308
284 L 0.886
285 E 0.564
286 R -0.124
287 F 0.613
288 R 0.908
289 D -0.386
290 N 0.326
291 I 1.025
292 E -0.171
293 T -1.000 *
294 S -0.823
295 E -0.184
296 D -0.328
297 H 0.643
298 S 0.091
299 L 1.187
300 N 0.929
301 Y 0.108
302 H 0.778
303 I 0.148
304 Y 1.466
305 R -0.451
306 A 0.983
307 V 0.751
308 K 0.167
309 K 0.905
310 S 0.900
311 L 0.439
312 Y 1.695
313 K 1.238
314 P 1.305
315 S 0.130
316 A 0.467
317 F 0.869
318 F 0.944
319 K 0.352
320 G 2.205
321 F 0.687
322 L 1.240
323 F 1.001
324 P 1.708
325 L 1.549
326 V 0.281
327 E -0.458
328 T -0.451
329 G -0.192
330 C 0.794
331 N 1.443
332 V 0.032
333 R 1.002
334 E 2.248
335 A 1.566
336 T -0.417
337 I 2.171
338 A 0.329
339 G 1.192
340 S 1.327
341 V 1.035
342 L 0.820
343 A -0.414
344 K 0.688
345 V -0.459
346 S 0.652
347 V 1.440
348 P 2.089
349 A -0.395
350 L -0.087
351 H 1.287
352 S 1.301
353 S 0.887
354 A 0.252
355 A 0.771
356 L 1.017
357 S -0.727
358 Y -0.399
359 L 1.280
360 L 0.349
361 R -0.353
362 L 0.130
363 P -0.377
364 F 0.250
365 S -0.437
366 P 0.885
367 P 0.550
368 T -0.086
369 T 0.841
370 V 0.288
371 F 1.372
372 I 1.519
373 K 0.898
374 I -0.011
375 L 1.237
376 L 0.469
377 D 0.344
378 K 2.489
379 K 1.623
380 Y 1.259
381 A 0.354
382 L 1.860
383 P 2.954
384 Y 1.008
385 Q 0.410
386 T 0.782
387 V 1.185
388 D 1.955
389 D 0.007
390 C 0.230
391 V 0.407
392 Y -0.664
393 Y 1.647
394 F 2.132
395 M 0.097
396 R -0.136
397 F 0.481
398 R -0.586
399 I -0.876
400 L -0.898
401 D -0.834
402 D -0.846
403 G -0.765
404 S -0.904
405 N -1.010
406 G -0.856
407 E -0.994
408 D -0.832
409 A -0.796
410 T -0.991
411 R -1.002
412 V -0.798
413 L 0.937
414 P 1.585
415 V 1.371
416 I 1.212
417 W 1.407
418 H 1.072
419 K 0.947
420 A 0.731
421 F 1.244
422 L 2.490
423 T -0.189
424 F 1.231
425 A 0.459
426 Q 0.937
427 R 0.602
428 Y 2.489
429 K 0.615
430 N -0.712
431 D 0.384
432 I 0.902
433 T -0.427
434 Q -0.623
435 D 0.668
436 Q 1.097
437 R 1.684
438 D -0.360
439 F -0.652
440 L 1.040
441 L -0.519
442 E -0.904
443 T 0.917
444 V 0.113
445 R -0.163
446 Q -0.957
447 R -0.205
448 G -0.811
449 H 2.954
450 K -0.812
451 D -0.719
452 I 0.943
453 G 0.798
454 P -0.378
455 E 1.124
456 I 1.596
457 R 0.107
458 R 0.944
459 E 1.846
460 L 2.074
461 L -0.880
462 A -0.635
463 G 0.557
464 A -0.776
465 S -0.366
466 R 1.538
467 E 0.109
468 F -0.826
469 V -0.763
470 D -0.904
471 P -0.929
472 Q -0.926
473 E -0.968
474 A -1.052
475 N -0.765
476 D -0.350
477 D -0.552
478 L -0.664
479 M -0.107
480 I -1.000 *
481 D -1.000 *
482 V -1.000 *
483 N -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 - 373.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
MARASSTKAR KQRHDPLLKD LDAAQGTLKK INKKKLAQND AANHDAANEE DGYIDSKASR
70 80 90 100 110 120
KILQLAKEQQ DEIEGEELAE SERNKQFEAR FTTMSYDDED EDEDEDEEAF GEDISDFEPE
130 140 150 160 170 180
GDYKEEEEIV EIDEEDAAMF EQYFKKSDDF NSLSGSYNLA DKIMASIREK ESQVEDMQDD
190 200 210 220 230 240
EPLANEQNTS RGNISSGLKS GEGVALPEKV IKAYTTVGSI LKTWTHGKLP KLFKVIPSLR
250 260 270 280 290 300
NWQDVIYVTN PEEWSPHVVY EATKLFVSNL TAKESQKFIN LILLERFRDN IETSEDHSLN
310 320 330 340 350 360
YHIYRAVKKS LYKPSAFFKG FLFPLVETGC NVREATIAGS VLAKVSVPAL HSSAALSYLL
370 380 390 400 410 420
RLPFSPPTTV FIKILLDKKY ALPYQTVDDC VYYFMRFRIL DDGSNGEDAT RVLPVIWHKA
430 440 450 460 470 480
FLTFAQRYKN DITQDQRDFL LETVRQRGHK DIGPEIRREL LAGASREFVD PQEANDDLMI
DVN
6FAI (CryoEm,3.4 Å resolution)
Enp1 is previously known to be associated to the export of the pre-40S particles from the nucleus to the cytoplasm. It is identified in proteomics study by Kirli et al. as a CRM1 binder, suggesting that it may be an export adaptor for pre-40S particles. Export activity is verified as GFP- and GFP-NLS-fusions in an LMB-sensitive manner. No putative NES have been identified yet.
Ref.1A deep proteomics perspective on CRM1-mediated nuclear export and nucleocytoplasmic partitioning, Kirli et al., eLife, 2015
[1]. "A deep proteomics perspective on CRM1-mediated nuclear export and nucleocytoplasmic partitioning"
Kırlı K, Karaca S, Dehne HJ, Samwer M, Pan KT, Lenz C, Urlaub H, Görlich D. (2015)
eLife,
4:e11466
PubMed
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
by providing either a positive or negative flag for the NES in this entry. Supporting comments are required to process the flag.