Methionine aminopeptidase 2
UniProt
MetAP 2, Initiation factor 2-associated 67 kDa glycoprotein (p67), Peptidase M
Show FASTA Format
>sp|P50579|MAP2_HUMAN Methionine aminopeptidase 2 OS=Homo sapiens OX=9606 GN=METAP2 PE=1 SV=1
MAGVEEVAASGSHLNGDLDPDDREEGAASTAEEAAKKKRRKKKKSKGPSAAGEQEPDKES
GASVDEVARQLERSALEDKERDEDDEDGDGDGDGATGKKKKKKKKKRGPKVQTDPPSVPI
CDLYPNGVFPKGQECEYPPTQDGRTAAWRTTSEEKKALDQASEEIWNDFREAAEAHRQVR
KYVMSWIKPGMTMIEICEKLEDCSRKLIKENGLNAGLAFPTGCSLNNCAAHYTPNAGDTT
VLQYDDICKIDFGTHISGRIIDCAFTVTFNPKYDTLLKAVKDATNTGIKCAGIDVRLCDV
GEAIQEVMESYEVEIDGKTYQVKPIRNLNGHSIGQYRIHAGKTVPIVKGGEATRMEEGEV
YAIETFGSTGKGVVHDDMECSHYMKNFDVGHVPIRLPRTKHLLNVINENFGTLAFCRRWL
DRLGESKYLMALKNLCDLGIVDPYPPLCDIKGSYTAQFEHTILLRPTCKEVVSRGDDY
Show Domain Info by CDD
Show Secondary Structure by PSIPRED
# PSIPRED HFORMAT (PSIPRED V3.2)
Conf: 963001210156559999999400022121689989877532036999998988998678
Pred: CCCCHHHHHCCCCCCCCCCCCCCHHCCCCHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCC
AA: MAGVEEVAASGSHLNGDLDPDDREEGAASTAEEAAKKKRRKKKKSKGPSAAGEQEPDKES
10 20 30 40 50 60
Conf: 885258988764321001236788889999999977643333335699988789995442
Pred: CCCHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
AA: GASVDEVARQLERSALEDKERDEDDEDGDGDGDGATGKKKKKKKKKRGPKVQTDPPSVPI
70 80 90 100 110 120
Conf: 124899999995022159999887422246909888774436698999999999979999
Pred: CCCCCCCCCCCCCEEECCCCCCCCCCCCCCCHHHHHHHHHHCHHHHHHHHHHHHHHHHHH
AA: CDLYPNGVFPKGQECEYPPTQDGRTAAWRTTSEEKKALDQASEEIWNDFREAAEAHRQVR
130 140 150 160 170 180
Conf: 999974389970999989876875631102674444436766772100023689999950
Pred: HHHHHHCCCCCHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCE
AA: KYVMSWIKPGMTMIEICEKLEDCSRKLIKENGLNAGLAFPTGCSLNNCAAHYTPNAGDTT
190 200 210 220 230 240
Conf: 100399345411211278174010000138775369999998643211131642003113
Pred: EEECCCEEEEECCCCCCCEEEEEEEECCCCCCCHHHHHHHHHHHHHHHHHCCCCCCCCHH
AA: VLQYDDICKIDFGTHISGRIIDCAFTVTFNPKYDTLLKAVKDATNTGIKCAGIDVRLCDV
250 260 270 280 290 300
Conf: 689999675237888897741211136899875661110582000230897542246506
Pred: HHHHHHHHHHEEEEECCEEEECCCCCCCCCCCCCCCEEECCCCEEEEECCCCCCCCCCCE
AA: GEAIQEVMESYEVEIDGKTYQVKPIRNLNGHSIGQYRIHAGKTVPIVKGGEATRMEEGEV
310 320 330 340 350 360
Conf: 899830677780465297534232358999875445200478999762277035568876
Pred: EEEEECCCCCCEEEECCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHCCCHHHHHHHHH
AA: YAIETFGSTGKGVVHDDMECSHYMKNFDVGHVPIRLPRTKHLLNVINENFGTLAFCRRWL
370 380 390 400 410 420
Conf: 4118203452564332029766699864578651110211465157532114467889
Pred: HHCCCHHHHHHHHHHHHCCCCCCCCCCCCCCCCEEECCCEEEEECCCCCCCCCCCCCC
AA: DRLGESKYLMALKNLCDLGIVDPYPPLCDIKGSYTAQFEHTILLRPTCKEVVSRGDDY
430 440 450 460 470
Show Conservation Score by AL2CO
1 M -1.000 *
2 A -1.000 *
3 G -1.000 *
4 V -1.000 *
5 E -1.000 *
6 E -1.000 *
7 V -1.000 *
8 A -1.000 *
9 A -1.000 *
10 S -1.000 *
11 G -1.000 *
12 S -1.000 *
13 H -1.000 *
14 L -1.000 *
15 N -1.000 *
16 G -1.000 *
17 D -1.000 *
18 L -1.000 *
19 D -1.000 *
20 P -1.000 *
21 D -1.000 *
22 D -1.000 *
23 R -1.000 *
24 E -1.000 *
25 E -1.000 *
26 G -1.000 *
27 A -1.000 *
28 A -1.000 *
29 S -1.000 *
30 T -1.000 *
31 A -1.000 *
32 E -1.000 *
33 E -1.000 *
34 A -1.000 *
35 A -1.000 *
36 K -1.000 *
37 K -1.000 *
38 K -1.000 *
39 R -1.000 *
40 R -1.000 *
41 K -1.000 *
42 K -1.000 *
43 K -1.000 *
44 K -1.000 *
45 S -1.000 *
46 K -1.000 *
47 G -1.000 *
48 P -1.000 *
49 S -1.000 *
50 A -1.000 *
51 A -1.000 *
52 G -1.000 *
53 E -1.000 *
54 Q -1.000 *
55 E -1.000 *
56 P -1.000 *
57 D -1.000 *
58 K -1.000 *
59 E -1.000 *
60 S -1.000 *
61 G -1.000 *
62 A -1.000 *
63 S -1.000 *
64 V -1.000 *
65 D -1.000 *
66 E -1.000 *
67 V -1.000 *
68 A -1.000 *
69 R -1.000 *
70 Q -1.000 *
71 L -1.000 *
72 E -1.000 *
73 R -1.000 *
74 S -1.195
75 A -1.325
76 L -1.000 *
77 E -1.055
78 D -1.236
79 K -1.346
80 E -1.255
81 R -1.190
82 D -1.286
83 E -1.142
84 D -1.188
85 D -1.199
86 E -1.365
87 D -1.131
88 G -1.032
89 D -1.128
90 G -1.095
91 D -1.203
92 G -1.112
93 D -1.134
94 G -0.976
95 A -1.006
96 T -1.167
97 G -1.069
98 K -1.058
99 K -1.000 *
100 K -0.972
101 K -1.000 *
102 K -1.000 *
103 K -1.000 *
104 K -1.000 *
105 K -1.000 *
106 K -1.000 *
107 R -1.040
108 G -1.111
109 P -1.271
110 K -1.290
111 V -1.123
112 Q 0.034
113 T -0.125
114 D -0.828
115 P 0.781
116 P 0.531
117 S -0.481
118 V -0.070
119 P -0.703
120 I 0.170
121 C -1.338
122 D -1.142
123 L -0.710
124 Y 0.816
125 P -0.803
126 N -1.198
127 G -0.941
128 V -1.261
129 F 0.732
130 P -0.006
131 K -1.261
132 G 1.039
133 Q -0.145
134 E -1.007
135 C -1.037
136 E -1.197
137 Y 0.820
138 P -1.327
139 P -1.218
140 T -1.230
141 Q -1.198
142 D -1.000 *
143 G -1.000 *
144 R -1.000 *
145 T -1.265
146 A -1.000 *
147 A -1.004
148 W -1.386
149 R -0.081
150 T -1.175
151 T -0.868
152 S -1.160
153 E -1.107
154 E -0.676
155 K -1.141
156 K -0.923
157 A -1.236
158 L -1.209
159 D -0.767
160 Q -1.150
161 A -1.146
162 S -1.458
163 E -1.368
164 E -1.282
165 I -1.323
166 W -0.332
167 N -0.883
168 D -1.149
169 F -0.459
170 R 2.097
171 E -0.720
172 A 0.588
173 A 1.049
174 E 1.204
175 A 0.034
176 H 1.379
177 R 1.207
178 Q -0.298
179 V 0.667
180 R 2.097
181 K -0.751
182 Y -0.712
183 V -0.366
184 M -0.774
185 S -0.868
186 W -1.280
187 I -0.051
188 K -0.489
189 P 0.766
190 G 1.195
191 M -0.983
192 T -0.992
193 M -0.110
194 I -0.869
195 E -0.731
196 I -0.145
197 C 0.013
198 E -0.374
199 K -1.378
200 L 0.608
201 E 1.595
202 D -0.773
203 C -0.886
204 S -0.307
205 R 0.072
206 K -1.203
207 L 0.062
208 I -0.345
209 K -0.919
210 E -0.470
211 N -0.954
212 G -0.953
213 L -0.896
214 N -1.087
215 A -0.417
216 G 2.097
217 L -0.365
218 A 1.006
219 F 1.690
220 P 2.097
221 T 0.545
222 G 2.097
223 C 0.390
224 S 0.412
225 L -0.088
226 N 1.151
227 N -0.547
228 C 0.177
229 A 0.802
230 A 2.097
231 H 2.097
232 Y 0.825
233 T 0.950
234 P 1.699
235 N 1.700
236 A -0.842
237 G 0.493
238 D -0.262
239 T -0.859
240 T -1.053
241 V -0.425
242 L 0.590
243 Q -0.859
244 Y -1.094
245 D -0.586
246 D 1.429
247 I 1.002
248 C -0.097
249 K 0.881
250 I 0.527
251 D 2.097
252 F 0.476
253 G 1.700
254 T 0.264
255 H 1.029
256 I 0.191
257 S -0.547
258 G 1.700
259 R -0.696
260 I 1.200
261 I 0.023
262 D 2.097
263 C 1.013
264 A 2.097
265 F 1.014
266 T 1.519
267 V -0.557
268 T -0.389
269 F 0.056
270 N -0.294
271 P -0.586
272 K -0.753
273 Y 0.282
274 D 0.087
275 T -1.099
276 L 2.097
277 L -0.123
278 K -0.852
279 A 0.471
280 V 0.215
281 K -0.287
282 D 0.184
283 A 0.957
284 T 2.097
285 N 0.032
286 T -0.175
287 G 2.097
288 I 0.825
289 K -0.083
290 C -1.060
291 A 0.534
292 G 2.097
293 I 0.635
294 D 2.097
295 V 0.606
296 R 0.063
297 L 0.114
298 C -0.377
299 D 0.726
300 V 0.581
301 G 0.931
302 E -0.165
303 A -1.061
304 I 1.078
305 Q 0.820
306 E 1.699
307 V 0.433
308 M 0.571
309 E 0.634
310 S 1.530
311 Y 0.275
312 E 0.509
313 V -0.147
314 E -0.088
315 I 0.157
316 D -0.375
317 G -0.041
318 K -0.572
319 T -0.596
320 Y -0.641
321 Q -0.618
322 V 1.288
323 K 0.867
324 P -0.098
325 I 0.482
326 R -0.547
327 N 0.597
328 L 0.797
329 N -0.423
330 G 0.939
331 H 1.718
332 S -0.278
333 I 0.762
334 G -1.199
335 Q -0.995
336 Y 0.281
337 R -1.045
338 I 0.913
339 H 1.718
340 A 0.253
341 G -0.709
342 K 0.280
343 T -0.304
344 V 1.074
345 P 0.368
346 I -0.529
347 V 0.575
348 K -0.633
349 G -0.877
350 G -1.125
351 E -0.609
352 A -1.118
353 T -0.999
354 R -0.076
355 M 1.286
356 E 0.441
357 E 1.060
358 G 0.524
359 E 0.827
360 V -0.786
361 Y 0.699
362 A 1.707
363 I 0.908
364 E 1.707
365 T 1.375
366 F 1.703
367 G 0.824
368 S 1.009
369 T 1.532
370 G 1.703
371 K -0.724
372 G 1.457
373 V -1.048
374 V -0.114
375 H -1.251
376 D -0.652
377 D -0.922
378 M -1.096
379 E -0.247
380 C 0.140
381 S 1.088
382 H 1.087
383 Y 1.503
384 M 0.271
385 K -0.080
386 N -1.189
387 F -1.424
388 D -0.887
389 V -1.177
390 G -1.073
391 H -1.140
392 V -0.917
393 P -1.015
394 I -0.388
395 R -0.279
396 L -0.879
397 P -0.958
398 R 0.025
399 T 0.760
400 K -0.100
401 H -0.971
402 L 1.070
403 L -0.291
404 N -1.072
405 V -0.829
406 I 1.158
407 N -0.481
408 E -0.583
409 N -0.566
410 F 1.115
411 G 0.106
412 T 0.578
413 L 0.855
414 A 0.159
415 F 1.126
416 C 0.717
417 R 0.636
418 R 1.214
419 W 0.142
420 L 0.644
421 D 0.265
422 R -0.168
423 L -0.908
424 G 0.608
425 E -0.914
426 S -0.614
427 K -0.168
428 Y 0.827
429 L -0.698
430 M -0.388
431 A 0.045
432 L 1.056
433 K 0.129
434 N -1.043
435 L 2.097
436 C 0.139
437 D -0.635
438 L -1.025
439 G 0.297
440 I -0.232
441 V 0.863
442 D -1.109
443 P -0.989
444 Y 0.507
445 P -0.550
446 P 1.709
447 L 0.801
448 C -0.907
449 D 1.614
450 I -0.829
451 K -0.827
452 G 0.483
453 S 0.644
454 Y -0.335
455 T 0.414
456 A 0.843
457 Q 2.097
458 F -0.036
459 E 1.707
460 H 1.702
461 T 1.664
462 I 0.172
463 L -0.102
464 L 0.555
465 R 0.187
466 P 0.123
467 T -0.235
468 C -0.881
469 K 0.723
470 E 2.097
471 V 1.031
472 V 0.360
473 S 1.339
474 R 0.827
475 G 2.097
476 D -0.641
477 D 2.097
478 Y 1.353
* gap fraction no less than 0.50; conservation set to M-S
M: mean; S: standard deviation
al2co - The parameters are:
Input alignment file - 362.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
MAGVEEVAAS GSHLNGDLDP DDREEGAAST AEEAAKKKRR KKKKSKGPSA AGEQEPDKES
70 80 90 100 110 120
GASVDEVARQ LERSALEDKE RDEDDEDGDG DGDGATGKKK KKKKKKRGPK VQTDPPSVPI
130 140 150 160 170 180
CDLYPNGVFP KGQECEYPPT QDGRTAAWRT TSEEKKALDQ ASEEIWNDFR EAAEAHRQVR
190 200 210 220 230 240
KYVMSWIKPG MTMIEICEKL EDCSRKLIKE NGLNAGLAFP TGCSLNNCAA HYTPNAGDTT
250 260 270 280 290 300
VLQYDDICKI DFGTHISGRI IDCAFTVTFN PKYDTLLKAV KDATNTGIKC AGIDVRLCDV
310 320 330 340 350 360
GEAIQEVMES YEVEIDGKTY QVKPIRNLNG HSIGQYRIHA GKTVPIVKGG EATRMEEGEV
370 380 390 400 410 420
YAIETFGSTG KGVVHDDMEC SHYMKNFDVG HVPIRLPRTK HLLNVINENF GTLAFCRRWL
430 440 450 460 470
DRLGESKYLM ALKNLCDLGI VDPYPPLCDI KGSYTAQFEH TILLRPTCKE VVSRGDDY
MAP2/MetAP2 is the peptidase responsible for cotranslationally removing the N-terminal methionine from nascent proteins. It is identified in proteomics study by Kirli et al. as a CRM1 binder. 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.