Cell division control protein 6 homolog
UniProt
*shown as underlined residues in the full sequence
310HLVLIG
315
Show FASTA Format
>gi|50400620|sp|Q99741.1|CDC6_HUMAN RecName: Full=Cell division control protein 6 homolog; AltName: Full=CDC6-related protein; AltName: Full=Cdc18-related protein; Short=HsCdc18; AltName: Full=p62(cdc6); Short=HsCDC6
MPQTRSQAQATISFPKRKLSRALNKAKNSSDAKLEPTNVQTVTCSPRVKALPLSPRKRLGDDNLCNTPHL
PPCSPPKQGKKENGPPHSHTLKGRRLVFDNQLTIKSPSKRELAKVHQNKILSSVRKSQEITTNSEQRCPL
KKESACVRLFKQEGTCYQQAKLVLNTAVPDRLPAREREMDVIRNFLREHICGKKAGSLYLSGAPGTGKTA
CLSRILQDLKKELKGFKTIMLNCMSLRTAQAVFPAIAQEICQEEVSRPAGKDMMRKLEKHMTAEKGPMIV
LVLDEMDQLDSKGQDVLYTLFEWPWLSNSHLVLIGIANTLDLTDRILPRLQAREKCKPQLLNFPPYTRNQ
IVTILQDRLNQVSRDQVLDNAAVQFCARKVSAVSGDVRKALDVCRRAIEIVESDVKSQTILKPLSECKSP
SEPLIPKRVGLIHISQVISEVDGNRMTLSQEGAQDSFPLQQKILVCSLMLLIRQLKIKEVTLGKLYEAYS
KVCRKQQVAAVDQSECLSLSGLLEARGILGLKRNKETRLTKVFFKIEEKEIEHALKDKALIGNILATGLP
Show Domain Info by CDD
Show Secondary Structure by PSIPRED
# PSIPRED HFORMAT (PSIPRED V3.2)
Conf: 998764344467898555632233246899877898878665689665678899764358
Pred: CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
AA: MPQTRSQAQATISFPKRKLSRALNKAKNSSDAKLEPTNVQTVTCSPRVKALPLSPRKRLG
10 20 30 40 50 60
Conf: 888889999999999987777799999888888744467776778988743322236777
Pred: CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
AA: DDNLCNTPHLPPCSPPKQGKKENGPPHSHTLKGRRLVFDNQLTIKSPSKRELAKVHQNKI
70 80 90 100 110 120
Conf: 788776665458888878898887211137887879999999951029999878089999
Pred: CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHCCCCCCCCCHHHHH
AA: LSSVRKSQEITTNSEQRCPLKKESACVRLFKQEGTCYQQAKLVLNTAVPDRLPAREREMD
130 140 150 160 170 180
Conf: 999999987159999808860899960777899999999850399328999425689946
Pred: HHHHHHHHHHCCCCCCEEEEECCCCCHHHHHHHHHHHHHHHCCCCCCEEEEECCCCCCHH
AA: VIRNFLREHICGKKAGSLYLSGAPGTGKTACLSRILQDLKKELKGFKTIMLNCMSLRTAQ
190 200 210 220 230 240
Conf: 899999999729998722399999999740379999859999613101015981377640
Pred: HHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCCCCCEEEEEECCCHHHCCCCHHHHHHH
AA: AVFPAIAQEICQEEVSRPAGKDMMRKLEKHMTAEKGPMIVLVLDEMDQLDSKGQDVLYTL
250 260 270 280 290 300
Conf: 288999999388764314689831004120111369970304699999999999999726
Pred: CCCCCCCCCCEEEEEEECCCCCCCCCCCCCCCCCCCCCEEECCCCCCHHHHHHHHHHHHC
AA: FEWPWLSNSHLVLIGIANTLDLTDRILPRLQAREKCKPQLLNFPPYTRNQIVTILQDRLN
310 320 330 340 350 360
Conf: 999998888679999998865422027889879988899988520011234788888999
Pred: CCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCC
AA: QVSRDQVLDNAAVQFCARKVSAVSGDVRKALDVCRRAIEIVESDVKSQTILKPLSECKSP
370 380 390 400 410 420
Conf: 999989854499999999997248502236644116835568999999999997177743
Pred: CCCCCCCCCCHHHHHHHHHHHHCCCHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHCCCCC
AA: SEPLIPKRVGLIHISQVISEVDGNRMTLSQEGAQDSFPLQQKILVCSLMLLIRQLKIKEV
430 440 450 460 470 480
Conf: 199999999999983599999978999999899837826731278776651551589889
Pred: CHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHCCEEEEECCCCCCCCEEEECCCHHH
AA: TLGKLYEAYSKVCRKQQVAAVDQSECLSLSGLLEARGILGLKRNKETRLTKVFFKIEEKE
490 500 510 520 530 540
Conf: 99984093889887517999
Pred: HHHHHCCCHHHHHHHHCCCC
AA: IEHALKDKALIGNILATGLP
550 560
Show Conservation Score by AL2CO
1 M -1.000 *
2 P -1.000 *
3 Q -1.000 *
4 T -1.000 *
5 R -1.000 *
6 S -1.000 *
7 Q -1.000 *
8 A -1.000 *
9 Q -1.000 *
10 A -1.000 *
11 T -1.000 *
12 I -1.000 *
13 S -1.000 *
14 F -1.000 *
15 P -1.000 *
16 K -1.000 *
17 R -1.000 *
18 K -1.000 *
19 L -1.000 *
20 S -1.000 *
21 R -1.000 *
22 A -1.000 *
23 L -1.000 *
24 N -1.000 *
25 K -1.000 *
26 A -1.000 *
27 K -1.000 *
28 N -1.000 *
29 S -1.000 *
30 S -1.000 *
31 D -1.000 *
32 A -1.000 *
33 K -1.000 *
34 L -1.000 *
35 E -1.000 *
36 P -1.000 *
37 T -1.000 *
38 N -1.000 *
39 V -1.000 *
40 Q -1.000 *
41 T -1.000 *
42 V -1.000 *
43 T -1.000 *
44 C -1.000 *
45 S -1.000 *
46 P -1.000 *
47 R -1.000 *
48 V -1.000 *
49 K -1.000 *
50 A -1.000 *
51 L -1.000 *
52 P -1.000 *
53 L -1.000 *
54 S -1.000 *
55 P -1.000 *
56 R -1.000 *
57 K -1.000 *
58 R -1.000 *
59 L -1.000 *
60 G -1.000 *
61 D -1.000 *
62 D -1.000 *
63 N -1.000 *
64 L -1.000 *
65 C -1.000 *
66 N -1.000 *
67 T -1.000 *
68 P -1.000 *
69 H -1.000 *
70 L -1.000 *
71 P -1.000 *
72 P -1.000 *
73 C -1.000 *
74 S -1.000 *
75 P -1.000 *
76 P -1.000 *
77 K -1.000 *
78 Q -0.421
79 G -0.620
80 K -0.720
81 K -0.674
82 E -0.888
83 N -0.649
84 G -0.863
85 P -0.697
86 P -1.000 *
87 H -1.000 *
88 S -0.653
89 H -0.943
90 T -0.809
91 L -0.939
92 K -0.730
93 G -0.711
94 R -0.620
95 R -0.819
96 L -0.835
97 V -0.920
98 F -0.946
99 D -0.866
100 N -0.617
101 Q -0.940
102 L -0.927
103 T -0.826
104 I -0.787
105 K -0.776
106 S -0.412
107 P -0.448
108 S -0.806
109 K -0.638
110 R -0.844
111 E -0.842
112 L -1.035
113 A -0.883
114 K -0.712
115 V -0.789
116 H -0.944
117 Q -0.868
118 N -0.765
119 K -0.765
120 I -0.807
121 L -1.006
122 S -0.636
123 S -0.642
124 V -0.852
125 R -0.687
126 K -0.612
127 S -0.894
128 Q -0.887
129 E -0.912
130 I -0.912
131 T -0.781
132 T -0.800
133 N -0.847
134 S -0.746
135 E -0.766
136 Q -0.776
137 R -0.721
138 C -0.865
139 P -0.675
140 L -0.776
141 K -0.669
142 K -0.875
143 E -0.818
144 S -0.858
145 A -0.894
146 C -0.824
147 V -0.788
148 R -0.612
149 L -0.778
150 F -0.940
151 K -0.544
152 Q -0.560
153 E -0.795
154 G -0.513
155 T -0.336
156 C -0.642
157 Y -0.040
158 Q -0.496
159 Q -0.527
160 A -0.180
161 K 0.357
162 L -0.561
163 V -0.322
164 L 0.264
165 N -0.238
166 T 0.182
167 A -0.105
168 V -0.296
169 P 0.740
170 D -0.478
171 R -0.696
172 L 1.198
173 P 0.129
174 A 0.693
175 R 3.381
176 E 0.165
177 R -0.546
178 E 2.065
179 M -0.473
180 D -0.609
181 V -0.655
182 I 1.584
183 R -0.730
184 N -0.495
185 F -0.110
186 L 0.692
187 R -0.666
188 E -0.385
189 H -0.116
190 I 0.602
191 C -0.865
192 G -0.472
193 K -0.433
194 K -0.494
195 A 0.991
196 G 0.221
197 S 1.365
198 L 1.079
199 Y 1.595
200 L 1.640
201 S 0.906
202 G 3.847
203 A 0.036
204 P 2.710
205 G 3.847
206 T 1.639
207 G 3.847
208 K 3.847
209 T 2.757
210 A 1.555
211 C 0.633
212 L 0.537
213 S -0.372
214 R -0.622
215 I 1.104
216 L -0.379
217 Q -0.555
218 D -0.831
219 L -0.395
220 K -0.905
221 K -0.569
222 E -0.785
223 L -0.505
224 K -0.672
225 G -0.614
226 F -0.175
227 K -0.664
228 T -0.606
229 I 0.240
230 M -0.375
231 L 1.141
232 N 2.913
233 C 1.203
234 M 0.343
235 S -0.145
236 L 0.207
237 R -0.396
238 T 0.197
239 A 0.304
240 Q -0.550
241 A -0.355
242 V 0.897
243 F 0.528
244 P -0.386
245 A -0.678
246 I 1.306
247 A -0.324
248 Q -0.382
249 E -0.803
250 I -0.025
251 C -0.851
252 Q -0.595
253 E -0.635
254 E -0.618
255 V -0.821
256 S -0.802
257 R -0.737
258 P -0.860
259 A -0.732
260 G -0.382
261 K -0.853
262 D -0.720
263 M -0.882
264 M -0.253
265 R -0.633
266 K -0.710
267 L -0.442
268 E -0.141
269 K -0.632
270 H -0.908
271 M -0.894
272 T -0.829
273 A -0.634
274 E -0.701
275 K -0.814
276 G -0.760
277 P -0.521
278 M -0.357
279 I -0.429
280 V 1.110
281 L 0.924
282 V 0.609
283 L 0.671
284 D 2.263
285 E 2.595
286 M 0.944
287 D 2.595
288 Q -0.356
289 L 0.792
290 D -0.396
291 S -0.017
292 K -0.036
293 G 0.138
294 Q 0.473
295 D 0.105
296 V 0.759
297 L 1.635
298 Y 2.244
299 T -0.031
300 L 1.054
301 F 1.343
302 E 0.216
303 W 0.547
304 P 0.754
305 W -0.696
306 L -0.671
307 S -0.788
308 N -0.668
309 S 0.990
310 H 0.397
311 L 0.869
312 V 0.582
313 L 1.288
314 I 1.138
315 G 1.860
316 I 1.965
317 A 2.070
318 N 3.341
319 T 1.194
320 L 1.632
321 D 0.616
322 L 2.165
323 T 1.020
324 D 1.761
325 R -0.049
326 I 0.321
327 L 0.735
328 P 0.153
329 R 0.761
330 L 1.178
331 Q -0.216
332 A 1.121
333 R -0.072
334 E -0.383
335 K -0.113
336 C 0.222
337 K 0.153
338 P 0.262
339 Q -0.522
340 L 0.183
341 L 1.238
342 N -0.147
343 F 2.299
344 P -0.578
345 P 1.750
346 Y 3.345
347 T 0.929
348 R -0.476
349 N -0.705
350 Q 1.910
351 I 2.025
352 V -0.772
353 T -0.377
354 I 2.141
355 L 1.645
356 Q -0.672
357 D -0.458
358 R 1.713
359 L 0.871
360 N -0.420
361 Q -0.769
362 V -0.060
363 S -0.786
364 R -0.943
365 D -0.670
366 Q -0.560
367 V 0.078
368 L 1.235
369 D -0.236
370 N -0.369
371 A -0.698
372 A 1.065
373 V 1.166
374 Q -0.188
375 F 1.097
376 C 1.088
377 A 2.132
378 R 0.810
379 K 0.923
380 V 2.052
381 S 2.391
382 A 0.702
383 V -0.206
384 S 0.812
385 G 3.847
386 D 3.339
387 V 1.080
388 R 3.847
389 K 1.322
390 A 1.499
391 L 2.318
392 D -0.194
393 V 1.299
394 C 0.544
395 R 0.690
396 R 0.206
397 A 1.125
398 I 0.554
399 E 1.783
400 I 0.239
401 V 0.244
402 E 0.276
403 S -0.799
404 D -0.649
405 V -0.947
406 K -0.643
407 S -0.810
408 Q -0.829
409 T -0.893
410 I -0.756
411 L -0.760
412 K -0.883
413 P -0.826
414 L -0.915
415 S -0.630
416 E -0.761
417 C -0.841
418 K -0.623
419 S -0.606
420 P -0.590
421 S -0.755
422 E -0.688
423 P -0.829
424 L -0.814
425 I -0.730
426 P -0.666
427 K -0.798
428 R -0.817
429 V -0.274
430 G -0.420
431 L -0.108
432 I -0.763
433 H -0.206
434 I 0.793
435 S -0.764
436 Q -0.498
437 V 0.704
438 I -0.318
439 S -0.449
440 E -0.257
441 V 0.701
442 D -0.343
443 G -0.603
444 N -0.125
445 R -0.635
446 M -0.484
447 T -0.420
448 L -0.754
449 S -0.681
450 Q -0.757
451 E -0.636
452 G -0.613
453 A -0.616
454 Q -0.641
455 D -0.349
456 S -0.428
457 F 0.435
458 P 0.842
459 L -0.344
460 Q -0.140
461 Q 0.004
462 K 0.609
463 I 0.359
464 L 0.454
465 V 1.097
466 C -0.574
467 S 1.057
468 L 0.442
469 M 0.192
470 L -0.566
471 L -0.676
472 I -0.761
473 R -0.181
474 Q -0.348
475 L -0.497
476 K 0.152
477 I -0.705
478 K -0.599
479 E -0.518
480 V -0.336
481 T -0.722
482 L 0.316
483 G -0.490
484 K -0.218
485 L 0.806
486 Y -0.429
487 E -0.642
488 A -0.723
489 Y 0.123
490 S -0.793
491 K -0.695
492 V 0.024
493 C 0.180
494 R -0.733
495 K -0.833
496 Q -0.889
497 Q -0.639
498 V -0.683
499 A -0.867
500 A -0.800
501 V -0.104
502 D -0.275
503 Q -1.007
504 S -0.474
505 E -0.536
506 C -0.445
507 L -0.717
508 S -0.448
509 L 0.360
510 S -0.212
511 G -0.614
512 L -0.484
513 L 1.179
514 E -0.557
515 A -0.093
516 R -0.792
517 G 1.118
518 I 0.801
519 L 1.084
520 G -0.653
521 L -0.185
522 K -0.497
523 R -0.805
524 N -0.241
525 K -0.207
526 E -0.872
527 T -0.477
528 R 0.159
529 L -0.788
530 T -0.468
531 K 0.093
532 V 0.746
533 F -0.782
534 F 0.577
535 K -0.553
536 I 0.134
537 E -0.289
538 E -0.698
539 K -0.395
540 E -0.170
541 I 1.222
542 E -0.744
543 H -0.811
544 A 0.473
545 L 1.030
546 K -0.416
547 D -0.232
548 K -0.250
549 A -0.687
550 L -0.241
551 I 0.330
552 G 0.307
553 N -0.170
554 I 0.527
555 L -1.000 *
556 A -1.000 *
557 T -1.000 *
558 G -1.000 *
559 L -1.000 *
560 P -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 - 260.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
MPQTRSQAQA TISFPKRKLS RALNKAKNSS DAKLEPTNVQ TVTCSPRVKA LPLSPRKRLG
70 80 90 100 110 120
DDNLCNTPHL PPCSPPKQGK KENGPPHSHT LKGRRLVFDN QLTIKSPSKR ELAKVHQNKI
130 140 150 160 170 180
LSSVRKSQEI TTNSEQRCPL KKESACVRLF KQEGTCYQQA KLVLNTAVPD RLPAREREMD
190 200 210 220 230 240
VIRNFLREHI CGKKAGSLYL SGAPGTGKTA CLSRILQDLK KELKGFKTIM LNCMSLRTAQ
250 260 270 280 290 300
AVFPAIAQEI CQEEVSRPAG KDMMRKLEKH MTAEKGPMIV LVLDEMDQLD SKGQDVLYTL
310 320 330 340 350 360
FEWPWLSNSH LVLIGIANTL DLTDRILPRL QAREKCKPQL LNFPPYTRNQ IVTILQDRLN
370 380 390 400 410 420
QVSRDQVLDN AAVQFCARKV SAVSGDVRKA LDVCRRAIEI VESDVKSQTI LKPLSECKSP
430 440 450 460 470 480
SEPLIPKRVG LIHISQVISE VDGNRMTLSQ EGAQDSFPLQ QKILVCSLML LIRQLKIKEV
490 500 510 520 530 540
TLGKLYEAYS KVCRKQQVAA VDQSECLSLS GLLEARGILG LKRNKETRLT KVFFKIEEKE
550 560
IEHALKDKAL IGNILATGLP
Cdc6 is part of the prereplication complex, responsible for loading MCM complex onto chromosomes during S phase of cell cycle. Phosphorylation by cyclin A/Cdk2 triggers translocation of Cdc6 from the nucleus to the cytoplasm, where it is targeted for degradation. The two NESs in Cdc6 are differential controlled by phosphorylation at sites S74 and S54, respectively.
[1]. "Multiple mechanisms regulate subcellular localization of human CDC6"
Delmolino LM, Saha P, Dutta A (2001)
J Biol Chem,
276:26947-54
PubMed[2]. "Two nuclear export signals of Cdc6 are differentially associated with CDK-mediated phosphorylation residues for cytoplasmic translocation"
Hwang IS, Woo SU, Park JW, Lee SK, Yim H. (2014)
Biochim Biophys Acta,
1843:223-33
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.