Viewing data for Mustela frenata


Scientific name Mustela frenata
Common name Long-tailed weasel
Maximum lifespan 8.80 years (Mustela frenata@AnAge)

Total mtDNA (size: 16543 bases) GC AT G C A T
Base content (bases) 6493 10050 4267 2226 4541 5509
Base content per 1 kb (bases) 392 608 258 135 274 333
Base content (%) 39.2% 60.8%
Total protein-coding genes (size: 11353 bases) GC AT G C A T
Base content (bases) 4483 6870 3090 1393 3196 3674
Base content per 1 kb (bases) 395 605 272 123 282 324
Base content (%) 39.5% 60.5%
D-loop (size: 1101 bases) GC AT G C A T
Base content (bases) 441 660 289 152 313 347
Base content per 1 kb (bases) 401 599 262 138 284 315
Base content (%) 40.1% 59.9%
Total tRNA-coding genes (size: 1516 bases) GC AT G C A T
Base content (bases) 558 958 320 238 421 537
Base content per 1 kb (bases) 368 632 211 157 278 354
Base content (%) 36.8% 63.2%
Total rRNA-coding genes (size: 2530 bases) GC AT G C A T
Base content (bases) 985 1545 552 433 603 942
Base content per 1 kb (bases) 389 611 218 171 238 372
Base content (%) 38.9% 61.1%
12S rRNA gene (size: 961 bases) GC AT G C A T
Base content (bases) 382 579 214 168 218 361
Base content per 1 kb (bases) 398 602 223 175 227 376
Base content (%) 39.8% 60.2%
16S rRNA gene (size: 1569 bases) GC AT G C A T
Base content (bases) 603 966 338 265 385 581
Base content per 1 kb (bases) 384 616 215 169 245 370
Base content (%) 38.4% 61.6%

ATP6 (size: 681 bases) GC AT G C A T
Base content (bases) 267 414 191 76 201 213
Base content per 1 kb (bases) 392 608 280 112 295 313
Base content (%) 39.2% 60.8%
ATP8 (size: 204 bases) GC AT G C A T
Base content (bases) 57 147 43 14 65 82
Base content per 1 kb (bases) 279 721 211 69 319 402
Base content (%) 27.9% 72.1%
COX1 (size: 1545 bases) GC AT G C A T
Base content (bases) 610 935 351 259 493 442
Base content per 1 kb (bases) 395 605 227 168 319 286
Base content (%) 39.5% 60.5%
COX2 (size: 684 bases) GC AT G C A T
Base content (bases) 265 419 172 93 196 223
Base content per 1 kb (bases) 387 613 251 136 287 326
Base content (%) 38.7% 61.3%
COX3 (size: 784 bases) GC AT G C A T
Base content (bases) 345 439 230 115 220 219
Base content per 1 kb (bases) 440 560 293 147 281 279
Base content (%) 44.0% 56.0%
CYTB (size: 1140 bases) GC AT G C A T
Base content (bases) 468 672 320 148 332 340
Base content per 1 kb (bases) 411 589 281 130 291 298
Base content (%) 41.1% 58.9%
ND1 (size: 955 bases) GC AT G C A T
Base content (bases) 394 561 280 114 264 297
Base content per 1 kb (bases) 413 587 293 119 276 311
Base content (%) 41.3% 58.7%
ND2 (size: 1042 bases) GC AT G C A T
Base content (bases) 387 655 291 96 271 384
Base content per 1 kb (bases) 371 629 279 92 260 369
Base content (%) 37.1% 62.9%
ND3 (size: 347 bases) GC AT G C A T
Base content (bases) 141 206 97 44 92 114
Base content per 1 kb (bases) 406 594 280 127 265 329
Base content (%) 40.6% 59.4%
ND4 (size: 1378 bases) GC AT G C A T
Base content (bases) 540 838 388 152 381 457
Base content per 1 kb (bases) 392 608 282 110 276 332
Base content (%) 39.2% 60.8%
ND4L (size: 297 bases) GC AT G C A T
Base content (bases) 109 188 77 32 98 90
Base content per 1 kb (bases) 367 633 259 108 330 303
Base content (%) 36.7% 63.3%
ND5 (size: 1830 bases) GC AT G C A T
Base content (bases) 722 1108 518 204 494 614
Base content per 1 kb (bases) 395 605 283 111 270 336
Base content (%) 39.5% 60.5%
ND6 (size: 534 bases) GC AT G C A T
Base content (bases) 198 336 147 51 111 225
Base content per 1 kb (bases) 371 629 275 96 208 421
Base content (%) 37.1% 62.9%

ATP6 (size: 681 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 11 (4.87%)
Alanine (Ala, A)
n = 15 (6.64%)
Serine (Ser, S)
n = 16 (7.08%)
Threonine (Thr, T)
n = 25 (11.06%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 8 (3.54%)
Leucine (Leu, L)
n = 42 (18.58%)
Isoleucine (Ile, I)
n = 27 (11.95%)
Methionine (Met, M)
n = 13 (5.75%)
Proline (Pro, P)
n = 13 (5.75%)
Phenylalanine (Phe, F)
n = 12 (5.31%)
Tyrosine (Tyr, Y)
n = 4 (1.77%)
Tryptophan (Trp, W)
n = 3 (1.33%)
Aspartic acid (Asp, D)
n = 1 (0.44%)
Glutamic acid (Glu, E)
n = 3 (1.33%)
Asparagine (Asn, N)
n = 10 (4.42%)
Glutamine (Gln, Q)
n = 10 (4.42%)
Histidine (His, H)
n = 5 (2.21%)
Lysine (Lys, K)
n = 4 (1.77%)
Arginine (Arg, R)
n = 4 (1.77%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
16 11 10 5 2 16 4 15 8 2 0 1 6 1 4 8
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 0 0 1 10 4 0 3 3 4 1 5 4 4 0 10
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
7 8 0 3 3 5 0 0 5 1 3 1 0 4 6 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
4 2 1 0 1 3 1 0 0 3 1 0 0 1 0 2
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
38 59 84 46
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
23 64 38 102
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
15 68 91 53
ATP8 (size: 204 bases)
Amino acid sequence: MPQLDTSTWFITILSMIITLFFMFQLKVSKYNFPENPEPKLVATSKSITPWENKWTKIYFPHSLPLQ*
Amino acid frequencies:
Glycine (Gly, G)
n = 0 (0%)
Alanine (Ala, A)
n = 1 (1.49%)
Serine (Ser, S)
n = 6 (8.96%)
Threonine (Thr, T)
n = 7 (10.45%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 2 (2.99%)
Leucine (Leu, L)
n = 7 (10.45%)
Isoleucine (Ile, I)
n = 6 (8.96%)
Methionine (Met, M)
n = 3 (4.48%)
Proline (Pro, P)
n = 7 (10.45%)
Phenylalanine (Phe, F)
n = 6 (8.96%)
Tyrosine (Tyr, Y)
n = 2 (2.99%)
Tryptophan (Trp, W)
n = 3 (4.48%)
Aspartic acid (Asp, D)
n = 1 (1.49%)
Glutamic acid (Glu, E)
n = 3 (4.48%)
Asparagine (Asn, N)
n = 3 (4.48%)
Glutamine (Gln, Q)
n = 3 (4.48%)
Histidine (His, H)
n = 1 (1.49%)
Lysine (Lys, K)
n = 6 (8.96%)
Arginine (Arg, R)
n = 0 (0%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
4 2 1 0 0 4 0 3 3 0 0 0 1 1 6 0
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 0 0 1 0 0 0 0 0 0 0 2 2 3 0 2
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
0 4 1 1 0 5 0 0 0 1 1 0 0 1 2 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
0 3 0 1 0 6 0 0 0 0 0 0 0 1 0 3
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
7 15 25 21
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
3 21 20 24
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
4 7 37 20
COX1 (size: 1545 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 47 (9.14%)
Alanine (Ala, A)
n = 38 (7.39%)
Serine (Ser, S)
n = 33 (6.42%)
Threonine (Thr, T)
n = 38 (7.39%)
Cysteine (Cys, C)
n = 1 (0.19%)
Valine (Val, V)
n = 38 (7.39%)
Leucine (Leu, L)
n = 62 (12.06%)
Isoleucine (Ile, I)
n = 39 (7.59%)
Methionine (Met, M)
n = 29 (5.64%)
Proline (Pro, P)
n = 28 (5.45%)
Phenylalanine (Phe, F)
n = 42 (8.17%)
Tyrosine (Tyr, Y)
n = 19 (3.7%)
Tryptophan (Trp, W)
n = 17 (3.31%)
Aspartic acid (Asp, D)
n = 15 (2.92%)
Glutamic acid (Glu, E)
n = 10 (1.95%)
Asparagine (Asn, N)
n = 17 (3.31%)
Glutamine (Gln, Q)
n = 6 (1.17%)
Histidine (His, H)
n = 18 (3.5%)
Lysine (Lys, K)
n = 9 (1.75%)
Arginine (Arg, R)
n = 8 (1.56%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
24 15 22 8 7 18 6 21 5 1 6 2 24 6 19 23
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
7 1 0 10 9 19 0 16 6 21 4 12 5 10 1 9
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
7 21 1 8 6 15 1 2 1 10 9 4 2 9 8 7
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
11 9 1 7 8 8 1 2 1 5 0 0 0 1 0 13
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
148 99 135 133
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
76 134 95 210
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
35 118 212 150
COX2 (size: 684 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 8 (3.52%)
Alanine (Ala, A)
n = 10 (4.41%)
Serine (Ser, S)
n = 19 (8.37%)
Threonine (Thr, T)
n = 17 (7.49%)
Cysteine (Cys, C)
n = 2 (0.88%)
Valine (Val, V)
n = 12 (5.29%)
Leucine (Leu, L)
n = 31 (13.66%)
Isoleucine (Ile, I)
n = 20 (8.81%)
Methionine (Met, M)
n = 18 (7.93%)
Proline (Pro, P)
n = 13 (5.73%)
Phenylalanine (Phe, F)
n = 6 (2.64%)
Tyrosine (Tyr, Y)
n = 10 (4.41%)
Tryptophan (Trp, W)
n = 5 (2.2%)
Aspartic acid (Asp, D)
n = 10 (4.41%)
Glutamic acid (Glu, E)
n = 14 (6.17%)
Asparagine (Asn, N)
n = 6 (2.64%)
Glutamine (Gln, Q)
n = 7 (3.08%)
Histidine (His, H)
n = 8 (3.52%)
Lysine (Lys, K)
n = 5 (2.2%)
Arginine (Arg, R)
n = 6 (2.64%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
12 8 13 3 5 8 1 12 7 0 3 2 7 0 2 4
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 0 2 4 3 2 1 0 4 3 1 3 4 6 0 6
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
6 4 1 5 6 4 0 1 3 5 5 1 2 4 2 3
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
5 13 1 5 5 4 1 0 2 4 0 0 0 1 0 4
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
54 51 70 53
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
25 55 61 87
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
14 66 92 56
COX3 (size: 784 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 20 (7.69%)
Alanine (Ala, A)
n = 16 (6.15%)
Serine (Ser, S)
n = 20 (7.69%)
Threonine (Thr, T)
n = 24 (9.23%)
Cysteine (Cys, C)
n = 2 (0.77%)
Valine (Val, V)
n = 14 (5.38%)
Leucine (Leu, L)
n = 36 (13.85%)
Isoleucine (Ile, I)
n = 13 (5.0%)
Methionine (Met, M)
n = 9 (3.46%)
Proline (Pro, P)
n = 12 (4.62%)
Phenylalanine (Phe, F)
n = 22 (8.46%)
Tyrosine (Tyr, Y)
n = 12 (4.62%)
Tryptophan (Trp, W)
n = 12 (4.62%)
Aspartic acid (Asp, D)
n = 3 (1.15%)
Glutamic acid (Glu, E)
n = 8 (3.08%)
Asparagine (Asn, N)
n = 8 (3.08%)
Glutamine (Gln, Q)
n = 7 (2.69%)
Histidine (His, H)
n = 16 (6.15%)
Lysine (Lys, K)
n = 2 (0.77%)
Arginine (Arg, R)
n = 5 (1.92%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
7 6 6 4 9 14 3 6 7 0 1 5 6 2 8 14
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 2 0 3 10 3 0 2 6 12 0 3 4 5 0 1
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
9 13 1 5 4 7 0 1 3 7 5 0 0 1 7 7
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
9 7 1 2 1 1 1 1 0 4 0 0 0 0 0 12
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
61 70 60 70
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
43 68 56 94
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
11 92 103 55
CYTB (size: 1140 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 24 (6.33%)
Alanine (Ala, A)
n = 26 (6.86%)
Serine (Ser, S)
n = 25 (6.6%)
Threonine (Thr, T)
n = 23 (6.07%)
Cysteine (Cys, C)
n = 4 (1.06%)
Valine (Val, V)
n = 17 (4.49%)
Leucine (Leu, L)
n = 57 (15.04%)
Isoleucine (Ile, I)
n = 42 (11.08%)
Methionine (Met, M)
n = 13 (3.43%)
Proline (Pro, P)
n = 24 (6.33%)
Phenylalanine (Phe, F)
n = 28 (7.39%)
Tyrosine (Tyr, Y)
n = 15 (3.96%)
Tryptophan (Trp, W)
n = 12 (3.17%)
Aspartic acid (Asp, D)
n = 12 (3.17%)
Glutamic acid (Glu, E)
n = 6 (1.58%)
Asparagine (Asn, N)
n = 17 (4.49%)
Glutamine (Gln, Q)
n = 6 (1.58%)
Histidine (His, H)
n = 11 (2.9%)
Lysine (Lys, K)
n = 9 (2.37%)
Arginine (Arg, R)
n = 8 (2.11%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
21 21 8 6 7 31 0 13 5 1 3 4 9 1 8 20
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 1 3 6 10 10 0 3 7 13 1 6 6 11 1 6
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
7 10 0 3 5 14 0 0 3 5 10 1 0 8 9 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
9 6 0 3 9 9 0 0 2 5 1 1 0 0 0 11
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
85 93 108 94
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
52 95 76 157
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
11 132 156 81
ND1 (size: 955 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 12 (3.79%)
Alanine (Ala, A)
n = 29 (9.15%)
Serine (Ser, S)
n = 21 (6.62%)
Threonine (Thr, T)
n = 22 (6.94%)
Cysteine (Cys, C)
n = 1 (0.32%)
Valine (Val, V)
n = 14 (4.42%)
Leucine (Leu, L)
n = 56 (17.67%)
Isoleucine (Ile, I)
n = 29 (9.15%)
Methionine (Met, M)
n = 20 (6.31%)
Proline (Pro, P)
n = 22 (6.94%)
Phenylalanine (Phe, F)
n = 20 (6.31%)
Tyrosine (Tyr, Y)
n = 12 (3.79%)
Tryptophan (Trp, W)
n = 9 (2.84%)
Aspartic acid (Asp, D)
n = 3 (0.95%)
Glutamic acid (Glu, E)
n = 11 (3.47%)
Asparagine (Asn, N)
n = 12 (3.79%)
Glutamine (Gln, Q)
n = 6 (1.89%)
Histidine (His, H)
n = 4 (1.26%)
Lysine (Lys, K)
n = 7 (2.21%)
Arginine (Arg, R)
n = 8 (2.52%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
12 17 17 6 8 28 4 10 6 0 2 4 7 1 7 13
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 0 1 5 14 10 0 2 2 5 3 5 6 11 0 2
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 15 0 4 4 10 1 1 1 4 8 0 0 1 11 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
3 10 1 0 3 7 0 1 2 5 0 0 0 0 0 9
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
69 86 92 71
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
32 92 55 139
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
13 102 150 53
ND2 (size: 1042 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 16 (4.62%)
Alanine (Ala, A)
n = 18 (5.2%)
Serine (Ser, S)
n = 27 (7.8%)
Threonine (Thr, T)
n = 44 (12.72%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 12 (3.47%)
Leucine (Leu, L)
n = 62 (17.92%)
Isoleucine (Ile, I)
n = 33 (9.54%)
Methionine (Met, M)
n = 34 (9.83%)
Proline (Pro, P)
n = 20 (5.78%)
Phenylalanine (Phe, F)
n = 13 (3.76%)
Tyrosine (Tyr, Y)
n = 9 (2.6%)
Tryptophan (Trp, W)
n = 10 (2.89%)
Aspartic acid (Asp, D)
n = 0 (0%)
Glutamic acid (Glu, E)
n = 5 (1.45%)
Asparagine (Asn, N)
n = 15 (4.34%)
Glutamine (Gln, Q)
n = 8 (2.31%)
Histidine (His, H)
n = 5 (1.45%)
Lysine (Lys, K)
n = 13 (3.76%)
Arginine (Arg, R)
n = 3 (0.87%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
15 18 32 5 6 33 4 14 8 0 1 6 5 0 7 6
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 0 0 3 4 10 1 1 3 10 2 1 10 9 0 7
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
13 23 1 3 7 12 1 0 4 3 6 1 0 1 14 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
5 5 0 0 0 13 0 0 0 3 0 0 0 0 0 9
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
51 84 143 69
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
33 105 55 154
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
12 102 186 47
ND3 (size: 1042 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 16 (4.62%)
Alanine (Ala, A)
n = 18 (5.2%)
Serine (Ser, S)
n = 27 (7.8%)
Threonine (Thr, T)
n = 44 (12.72%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 12 (3.47%)
Leucine (Leu, L)
n = 62 (17.92%)
Isoleucine (Ile, I)
n = 33 (9.54%)
Methionine (Met, M)
n = 34 (9.83%)
Proline (Pro, P)
n = 20 (5.78%)
Phenylalanine (Phe, F)
n = 13 (3.76%)
Tyrosine (Tyr, Y)
n = 9 (2.6%)
Tryptophan (Trp, W)
n = 10 (2.89%)
Aspartic acid (Asp, D)
n = 0 (0%)
Glutamic acid (Glu, E)
n = 5 (1.45%)
Asparagine (Asn, N)
n = 15 (4.34%)
Glutamine (Gln, Q)
n = 8 (2.31%)
Histidine (His, H)
n = 5 (1.45%)
Lysine (Lys, K)
n = 13 (3.76%)
Arginine (Arg, R)
n = 3 (0.87%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
15 18 32 5 6 33 4 14 8 0 1 6 5 0 7 6
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 0 0 3 4 10 1 1 3 10 2 1 10 9 0 7
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
13 23 1 3 7 12 1 0 4 3 6 1 0 1 14 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
5 5 0 0 0 13 0 0 0 3 0 0 0 0 0 9
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
51 84 143 69
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
33 105 55 154
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
12 102 186 47
ND4 (size: 1378 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 17 (3.71%)
Alanine (Ala, A)
n = 32 (6.99%)
Serine (Ser, S)
n = 35 (7.64%)
Threonine (Thr, T)
n = 36 (7.86%)
Cysteine (Cys, C)
n = 3 (0.66%)
Valine (Val, V)
n = 16 (3.49%)
Leucine (Leu, L)
n = 97 (21.18%)
Isoleucine (Ile, I)
n = 41 (8.95%)
Methionine (Met, M)
n = 35 (7.64%)
Proline (Pro, P)
n = 21 (4.59%)
Phenylalanine (Phe, F)
n = 15 (3.28%)
Tyrosine (Tyr, Y)
n = 17 (3.71%)
Tryptophan (Trp, W)
n = 14 (3.06%)
Aspartic acid (Asp, D)
n = 4 (0.87%)
Glutamic acid (Glu, E)
n = 8 (1.75%)
Asparagine (Asn, N)
n = 23 (5.02%)
Glutamine (Gln, Q)
n = 11 (2.4%)
Histidine (His, H)
n = 11 (2.4%)
Lysine (Lys, K)
n = 13 (2.84%)
Arginine (Arg, R)
n = 10 (2.18%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
19 22 30 8 10 47 7 21 11 0 2 5 8 1 5 10
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 0 3 8 12 12 0 3 7 5 2 2 11 8 0 7
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
9 20 0 6 7 13 0 2 7 6 11 1 4 4 19 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
9 7 1 1 3 12 1 1 3 6 0 0 0 0 0 13
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
77 125 157 100
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
53 115 87 204
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
22 148 213 76
ND4L (size: 297 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 4 (4.08%)
Alanine (Ala, A)
n = 7 (7.14%)
Serine (Ser, S)
n = 8 (8.16%)
Threonine (Thr, T)
n = 9 (9.18%)
Cysteine (Cys, C)
n = 3 (3.06%)
Valine (Val, V)
n = 5 (5.1%)
Leucine (Leu, L)
n = 22 (22.45%)
Isoleucine (Ile, I)
n = 8 (8.16%)
Methionine (Met, M)
n = 10 (10.2%)
Proline (Pro, P)
n = 1 (1.02%)
Phenylalanine (Phe, F)
n = 5 (5.1%)
Tyrosine (Tyr, Y)
n = 4 (4.08%)
Tryptophan (Trp, W)
n = 0 (0%)
Aspartic acid (Asp, D)
n = 1 (1.02%)
Glutamic acid (Glu, E)
n = 2 (2.04%)
Asparagine (Asn, N)
n = 4 (4.08%)
Glutamine (Gln, Q)
n = 2 (2.04%)
Histidine (His, H)
n = 2 (2.04%)
Lysine (Lys, K)
n = 0 (0%)
Arginine (Arg, R)
n = 1 (1.02%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
5 3 8 2 4 10 1 5 2 0 1 1 3 0 4 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 1 2 1 3 3 0 0 1 2 1 1 0 0 0 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
1 4 0 2 4 1 0 0 1 2 2 0 0 0 4 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 2 0 0 1 0 0 0 0 1 0 0 0 1 0 0
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
19 23 32 25
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
9 24 16 50
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
4 30 42 23
ND5 (size: 1830 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 28 (4.6%)
Alanine (Ala, A)
n = 38 (6.24%)
Serine (Ser, S)
n = 48 (7.88%)
Threonine (Thr, T)
n = 61 (10.02%)
Cysteine (Cys, C)
n = 4 (0.66%)
Valine (Val, V)
n = 17 (2.79%)
Leucine (Leu, L)
n = 90 (14.78%)
Isoleucine (Ile, I)
n = 53 (8.7%)
Methionine (Met, M)
n = 50 (8.21%)
Proline (Pro, P)
n = 24 (3.94%)
Phenylalanine (Phe, F)
n = 46 (7.55%)
Tyrosine (Tyr, Y)
n = 18 (2.96%)
Tryptophan (Trp, W)
n = 12 (1.97%)
Aspartic acid (Asp, D)
n = 11 (1.81%)
Glutamic acid (Glu, E)
n = 10 (1.64%)
Asparagine (Asn, N)
n = 30 (4.93%)
Glutamine (Gln, Q)
n = 19 (3.12%)
Histidine (His, H)
n = 15 (2.46%)
Lysine (Lys, K)
n = 26 (4.27%)
Arginine (Arg, R)
n = 9 (1.48%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
25 28 43 12 11 45 8 13 16 3 3 3 10 1 12 34
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
7 0 4 6 16 16 0 4 6 13 5 4 13 7 0 10
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
27 21 3 4 12 18 1 2 11 9 9 0 1 11 19 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
14 7 3 4 7 24 2 1 3 5 0 0 0 1 0 12
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
104 143 233 130
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
66 158 130 256
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
34 217 251 108
ND6 (size: 534 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 24 (13.56%)
Alanine (Ala, A)
n = 11 (6.21%)
Serine (Ser, S)
n = 14 (7.91%)
Threonine (Thr, T)
n = 8 (4.52%)
Cysteine (Cys, C)
n = 2 (1.13%)
Valine (Val, V)
n = 23 (12.99%)
Leucine (Leu, L)
n = 20 (11.3%)
Isoleucine (Ile, I)
n = 18 (10.17%)
Methionine (Met, M)
n = 7 (3.95%)
Proline (Pro, P)
n = 3 (1.69%)
Phenylalanine (Phe, F)
n = 12 (6.78%)
Tyrosine (Tyr, Y)
n = 9 (5.08%)
Tryptophan (Trp, W)
n = 4 (2.26%)
Aspartic acid (Asp, D)
n = 5 (2.82%)
Glutamic acid (Glu, E)
n = 8 (4.52%)
Asparagine (Asn, N)
n = 3 (1.69%)
Glutamine (Gln, Q)
n = 1 (0.56%)
Histidine (His, H)
n = 0 (0%)
Lysine (Lys, K)
n = 4 (2.26%)
Arginine (Arg, R)
n = 1 (0.56%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
17 1 2 4 0 1 2 9 0 1 12 0 5 6 11 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 2 0 6 2 1 2 11 1 3 9 3 0 0 0 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
0 3 1 6 0 1 1 4 2 7 2 1 4 3 0 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
0 3 5 5 0 2 2 1 0 0 0 0 0 1 0 3
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
71 12 46 49
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
37 30 31 80
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
39 9 34 96
Total protein-coding genes (size: 11421 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 214 (5.63%)
Alanine (Ala, A)
n = 253 (6.65%)
Serine (Ser, S)
n = 280 (7.36%)
Threonine (Thr, T)
n = 322 (8.46%)
Cysteine (Cys, C)
n = 23 (0.6%)
Valine (Val, V)
n = 182 (4.78%)
Leucine (Leu, L)
n = 607 (15.96%)
Isoleucine (Ile, I)
n = 334 (8.78%)
Methionine (Met, M)
n = 248 (6.52%)
Proline (Pro, P)
n = 194 (5.1%)
Phenylalanine (Phe, F)
n = 235 (6.18%)
Tyrosine (Tyr, Y)
n = 134 (3.52%)
Tryptophan (Trp, W)
n = 105 (2.76%)
Aspartic acid (Asp, D)
n = 68 (1.79%)
Glutamic acid (Glu, E)
n = 96 (2.52%)
Asparagine (Asn, N)
n = 153 (4.02%)
Glutamine (Gln, Q)
n = 88 (2.31%)
Histidine (His, H)
n = 96 (2.52%)
Lysine (Lys, K)
n = 101 (2.66%)
Arginine (Arg, R)
n = 64 (1.68%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
179 155 199 64 73 269 42 145 80 8 34 35 93 20 97 138
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
49 7 16 54 98 97 4 45 48 92 29 49 66 77 2 70
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
94 149 9 51 59 109 5 13 43 61 73 10 14 49 104 25
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
71 81 15 28 40 92 9 8 13 41 2 1 0 7 0 95
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
813 890 1215 887
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
463 993 743 1606
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
218 1126 1627 834

>NC_020640.1 Mustela frenata voucher ROM101452 mitochondrion, complete genome
GTTAATGTAGCTTATTAAATAAAGCAAGGCACTGAAAATGCCTAGAAGAGTCACAAGACTCCATAAACAC
AAAGGTTTGGTCCTGGCCTTCCTATTGATTATTAGCAGAATTACACATGCAAGTCTCCACATCCCGGTGA
AAATGCCCTCTAAATCTGCTATCAGATTAAAAGGAGCGGGTATCAAGCACACTAAATTAGTAGCTCATAA
CACCTTGCTCAACCACACCCCCACGGGATACAGCAGTGATAAAAATTAAGCCATGAACGAAAGTTTGACT
AAGCCATGCTAACCCCAAGAGTTGGTAAATTTCGTGCCAGCCACCGCGGTCATACGATTAACCCAAATCA
ATAGGCCAACGGCGTAAAACGTGTTAAGAATTACATAGCACTAAAGTTAAAACTTAACCAGGCCGTAAAA
AGCTACTGTTAATACAAAATAAACCACGAAAGTGACTTTACTACTTCCGACAACACGATAGCTGAGATCC
AAACTGGGATTAGATACCCCACTATGCTCAGCCCTAAACATAAATAATTTACACAACAAAATTATTTGCC
AGAGAACTACTAGCAATAGCTTAAAACTCAAAGGACTTGGCGGTGCTTTATATCCCTCTAGAGGAGCCTG
TTCTGTAATCGATAAACCCCGATAAACCTCACCACTTCTAGCTAAATCAGTCTATATACCGCCATCTTCA
GCAAACCCTTAAAAGGAGGAAAAGTAAGCACAATAATATTACATAAAAAAGTTAGGTCAAGGTGTAACCC
ATGAGGTGGGAAGAAATGGGCTACATTTTCTAATCAAGAACACACTCACGAAAGTTTTTATGAAAACTAA
AAACTAAAGGTGGATTTAGTAGTAAATTAAGAATAGAGAGCTTAATTGAATAGGGCCATGAGGCACGCAC
ACACCGCCCGTCACCCTCCTCAAGCAACTCACCAAAAAATTACATAATATAAACAAATCAAAAGCAAGAG
GAGATAAGTCGTAACAAGGTAAGCATACTGGAAAGTGTGCTTGGATAAACCAAAGTGTAGCTTAATTAAA
GCATCTGGCTTACACCCAGAAGATTTCATCTACCAATGACCACTTTGAACCAAAACTAGCCCAACCTACT
CATAACACAACTACCACAGTAGCATCAATCAAAACATTTAATCATATTATTACAGTATAGGTGATAGAAA
TTCTACTTGGAGCTATAGAGAAAGTACCGCAAGGGAACGATGAAAGAAACATTAAAAGTAATGAACAGCA
AAGATTACCCCTTATACCTTTTGCATAATGAATTAGCTAGAACAATTTAACAAAGAGACCTTAAGCTAAA
ACCCCCGAAACCAGACGAGCTACCTGCGAACAATCCACAGGGATACACTCATCTATGTTGCAAAATAGTG
AGAAGATTTACAGGTAGAGGTGAAAAGCCTAACGAGCCTGGTGATAGCTGGTTGCCCAGAATAGAATCTC
AGTTCAACTTTAAATTTACCTAATAAACCCAAAATTGTAATGTAAATTTAAAATATAGTCTAAAAAGGTA
CAGCTTTTTAGAATAAGGATACAACCTTGCTTAGAGAGTAAAATCAAACAAAACCATAGTAGGCCTAAAA
GCAGCCATCAATTAAGAAAGCGTTCAAGCTCAACAATATAAACCCCTTAATCCCTATAATCCAAAACAAC
TCCTAATACACTACTGGGCTAATCTATTTTACAATAGAAGCAATAATGCTAGTATGAGTAACAAGAAACA
CTTCTCCTTGCATAAGCCTATACCAGTTAACGAATGCTCACTGATAGTTAACAATATGATATAAACAAAC
CACTAATAAACACACCTATCAAACCAATTGTTAATCCAACACAGGCATGCAATAAGGAAAGATTAAAAGA
AGTAAAAGGAACTCGGCAAACTCAAACCCCGCCTGTTTACCAAAAACATCACCTCCAGCATTACTAGTAT
TGGAGGCACTGCCTGCCCAGTGACATTAGTTTAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCATAA
TCATTTGTTCTCTAAATAGGGACTTGTATGAACGGCCACACGAGGGTTTAACTGTCTCTTACTTCCAATC
AGTGAAATTGACCTTCCCGTGAAGAGGCGGGAATACACTAATAAGACGAGAAGACCCTATGGAGCTTTAA
TTAACTAACCCATAATAACCTACAAACTCACCTACAGGTCTAACACAGCATTATTACTGGGTTAACAATT
TAGGTTGGGGTGACCTCGGAGAATAAAACAACCTCCGAGTGATTTAATCACAGACAAACCAGTCGAAGCA
TTTTATCATTTATTGATCCAATATCTTGATCAACGGAACAAGTTACCCTAGGGATAACAGCGCAATCCTA
TTTGAGAGTCCATATCAACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCTAATGGTGCAGCA
GCTATTAAGGGTTCGTTTGTTCAACGATTAAAGTCCTACGTGATCTGAGTTCAGACCGGAGTAATCCAGG
TCGGTTTCTATCTATTATAATAACTTCTCCCAGTACGAAAGGACAAGAGAAGTAAGGCCAATTCTACCGG
AAAGCCTTAGGACTAACAGATGATATAATCTTAATCTAACCAGTCCACCTCCCACATAACCCTAGAAATA
GGGTTTGTTAGGGTGGCAGAGCCCAGTAATTGCGTAAAACTTAAACCTTTATACCCAGAGGTTCAAATCC
TCTCCCTAACAACATGTTCATAGTTAACATTATCTCACTTATTGTGCCAATTCTACTCGCCGTAGCTTTC
CTTACACTAGTAGAACGAAAAGTACTAGGGTATATACAACTCCGCAAAGGTCCAAACATTGTAGGACCCT
ACGGCCTCCTTCAACCTATTGCAGACGCAGTAAAACTTTTTACAAAAGAACCCCTACGACCACTAACATC
ATCTATCTCTATATTCGTCATAGCCCCTATCCTAGCCCTAACACTAGCCCTGACAATATGAATCCCACTA
CCTATGCCTTACCCACTCATTAACATAAACCTAGGGATCTTATTTATATTAGCAATATCAAGCCTAGCTG
TTTACTCTATCCTATGATCAGGATGAGCCTCAAACTCAAAATACGCTTTAATTGGGGCCCTACGAGCTGT
AGCCCAAACAATCTCATATGAAGTCACACTAGCCATCATCCTCCTATCAGTACTATTAATAAACGGCTCC
TTTACTCTATCCACATTAATCATCACACAAGAACATCTATGACTAATCTTCCCCGCATGACCCCTAGCTA
TAATATGATTCATCTCGACCCTAGCAGAAACCAATCGCGCCCCATTCGACCTGACAGAAGGAGAATCAGA
GCTAGTCTCAGGATTCAACGTCGAATATGCAGCAGGACCATTTGCCCTATTCTTCCTAGCCGAATACGCC
AACATCATTATAATAAACATCCTCACAACCATCTTATTTTTCGGTGCATTCCACACCCCCTACCTGCCAG
AATTATACTCCATTAACTTCACCATAAAAACTCTCCTGCTAACAATCTCTTTCCTATGAATTCGAGCATC
CTATCCACGATTTCGTTACGACCAACTCATGCACTTATTATGAAAAAACTTTCTTCCTCTAACACTAGCC
TTATGCATATGACACATAGCCCTTCCAATTATAACAGCAAGTATTCCACCCCAAACATAAGAAATATGTC
TGACAAAAGAGTTACTTTGATAGAGTAAATCATAGAGGTTCAAACCCTCTTATTTCTAGAACTATAGGAA
TCGAACCTAATCCTAAGAACCCAAAAATCTTCGTGCTACCAAATTTACACCAAATTCTAAAGTAAGGTCA
GCTAAATAAGCTATCGGGCCCATACCCCGAAAATGTTGGTTTATCCCCTTCCCGTACTAATCAAACCCCC
CATTCTCAACATCATCATATTTACCATTGTTTCGGGGACTATCATAGTACTAATAAGCTCTCACTGACTG
ACAATTTGAATTGGGTTCGAAATAAATATACTAGCCGTCATCCCAATCCTAATAAAAAAATTCAGCCCAC
GAACTGTAGAAGCATCAACAAAATATTTCCTCACACAAGCTACCGCATCCATGCTTCTTATATTAGGAAT
TATTGTCAACCTATTATTAACAGGACAATGAACTGTCCTAAACACCCTAAGCCCAATCGCATCTAACATA
ATAACAACAGCTCTAGCAATAAAATTAGGTCTGGCACCTTTTCACTTTTGAATGCCCGAAGTAACTCAAG
GAGTCCCACTAACATCAGGAATAATCTTACTAACCTGACAAAAAATTGCTCCCCTATCCATTTTATATCA
AATCTCCCCCTCCATAAACCCACACTTACTAATAACCATAGCAATTATATCCATCCTAGTCGGAGGATGA
GGAGGCCTAAACCAAACACAACTACGAAAAATCCTAGCCTACTCATCAATCGCACACATAGGATGGATAG
TCGCCGTAACAACATATAACCCAACCATCACACTACTAAACCTCTTAATTTACATTATAATAACTCTAGG
AACGTTTATACTATTTACACTCAGCTCATCTACAACCACACTATCACTATCCCTTATATGAAACAAACTA
CCCCTAATCACCTCACTAACCCTAATCATTATATTATCACTAGGAGGCTTACCCCCACTTTCAGGCTTCA
TTCCCAAATGAATAATCATCCACGAACTCACAAAAAACAACATAACTATTTTAGCAATACTTATAGCAAT
CACAGCCCTACTAAACCTATACTTTTACATACGACTGACATACGCGACAGCACTAACCTTATTCCCCTCA
ACAAACACCATAAAAATAAAATGACAATTTGAATACACAAAAAACACAACCCTACTATCCCCCTTAATTG
TAACCTCAACTATACTACTCCCACTGACACCAATAATATCAACATTATTCTAGAAGTTTAGGTTAAAAAG
ACCAAGGGCCTTCAAAGCCCTAAGTAAGTGCCACTCACTTAACTCCTGACCCATCTTAAGGACTGCAAGA
GCATATCTCACATCTATTGAACGCAAATCAATCACTTTAATTAAGCTAAGCCCTTCCTAGATTGGTGGGC
TACCATCCCACGAAACTTTAGTTAACAGCTAAATACCCTAATCAACTGGCTTCAATCTACTTCTCCCGCC
GCGAAGGGAAAAAAGGCGGGAGAAGCCCCGGCAGGGTTGAAGCTGCTTCTTTGAATTTGCAATTCAATGT
GATATTTCACCACAGAGCTTGGCAAAAAGAGGACTTAAACCCCTATTCTTAGATTTACAGTCTAATGCCC
TTATCGGCCATTTTACCTATGTTCATTAATCGATGGTTATTTTCTACTAATCATAAAGACATTGGCACCC
TTTACCTCCTATTCGGTGCATGAGCCGGAATAGTAGGAACTGCCCTCAGTCTTCTAATCCGTGCTGAATT
AGGTCAACCCGGCGCCCTGCTAGGAGACGACCAGATTTATAATGTAATCGTAACCGCTCACGCATTTGTG
ATAATTTTCTTCATGGTAATACCTATTATACTTGGAGGTTTTGGTAACTGACTCATCCCCTTAATAATTG
GTGCACCTGATATAGCATTCCCACGAATAAATAACATAAGTTTCTGGCTTCTACCCCCTTCCTTCCTCCT
CCTTCTGGCCTCTTCGATAGTAGAAGCAGGTGTAGGAACAGGATGAACTGTTTACCCCCCTCTAGCAGGA
AACCTGGCACACGCAGGAGCATCCGTAGACCTAGCAATTTTTTCTCTACACTTAGCAGGTGTTTCATCCA
TTTTAGGGTCTATCAACTTTATCACAACAATCATCAACATAAAACCGCCCGCTATATCACAATACCAAAC
TCCTTTATTCGTATGATCTGTTTTAATTACAGCTGTATTACTACTTCTATCCTTGCCAGTGCTAGCAGCC
GGTATTACTATATTACTCACAGATCGTAATCTGAATACTACCTTCTTTGATCCAGCCGGAGGAGGAGACC
CTATCCTATATCAACACCTATTCTGATTTTTCGGACATCCAGAAGTATACATCCTAATTCTCCCTGGGTT
TGGTATTATTTCACACGTTGTAACATACTACTCAGGAAAAAAAGAACCTTTTGGTTATATGGGAATAGTA
TGAGCTATAATGTCAATCGGTTTCTTAGGGTTTATCGTATGGGCCCACCATATGTTTACTGTAGGCTTAG
ACGTAGACACACGAGCATATTTCACCTCAGCTACTATAATTATTGCTATTCCAACAGGTGTTAAAGTGTT
CAGCTGACTAGCTACTCTGCACGGAGGAAATATTAAATGATCTCCAGCTATACTATGGGCCTTAGGATTT
ATCTTTTTATTTACAGTGGGTGGTTTAACGGGTATTGTATTATCAAATTCATCACTAGACATTGTCCTTC
ATGATACATACTACGTAGTAGCTCACTTCCACTATGTTCTTTCAATAGGGGCAGTATTTGCAATTATGGG
CGGATTCGTCCATTGATTCCCATTATTTACAGGCTATACCCTAAACGATATCTGAGCAAAAATTCATTTT
ACAATTATATTCGTAGGAGTAAATACAACATTCTTTCCTCAACACTTCCTAGGATTATCAGGTATACCTC
GACGCTATTCTGATTATCCAGATGCATATACAACATGAAACACAGTATCTTCCATGGGCTCATTCATTTC
ATTAACAGCAGTAATACTGATAATCTTCATAATTTGAGAAGCCTTCGCATCCAAACGAGAAGTGTTGACA
GTAGAGTTAACCTCAACAAACATCGAATGATTACATGGATGTCCTCCTCCATACCACACATTTGAAGAAC
CAACCTATGTGTTATCAAAGTAATTAAGAAAGGAAGGAATCGAACCCCCTAGAACTGGTTTCAAGCCAAT
GCCATAACCATTATGTCTTTCTCGATAAGAGGTATTAGTAAAAATTACATGACTTTGTCAAAGTCAAATT
ATAGGTGAAAGTCCTTTATATCTCTATGGCGTACCCCTTCCAAATAGGCCTCCAAGATGCAACTTCCCCT
ATTATAGAAGAACTCTTACACTTTCACGATCATACATTAATAATCGTATTCTTAATCAGCTCCCTTGTTC
TTTACATTATTTCAGTAATGTTAACCACCAAGCTCACGCATACTAGTACTATAGACGCTCAAGCAGTCGA
AACAATCTGAACCATCTTACCAGCTATTATTTTAATTATAATTGCTCTGCCTTCACTACGAATTCTTTAT
ATAATGGATGAAATTAATAACCCCTCCTTAACCGTAAAAACCATAGGCCACCAATGATACTGGAGCTACG
AATATACAGACTATGAAGATTTAAACTTTGACTCCTATATAATCCCAACTCAAGAACTAAAACCCGGAGA
ATTACGATTGTTAGAAGTAGACAATCGAGTAGTCCTCCCAATGGAAATAACAATTCGCATGCTAATCTCT
TCCGAAGACGTATTGCACTCATGAGCTGTTCCATCCCTAGGATTAAAAACTGATGCCATCCCAGGACGCC
TAAATCAAACCACTATTATAGCCATACGACCAGGGCTATATTACGGCCAATGCTCTGAAATCTGCGGCTC
TAATCATAGCTTCATACCCATTGTTCTCGAGTTAGTACCTCTATCTCACTTCGAAAAATGATCTGCCTCA
ATACTATAAATTCACCGAGAAGCTAAGCAGCATTAACCTTTTAAGTTAAAGATTGAGAGCATCAACCTCT
CCTCAGTGACATGCCACAACTAGATACTTCAACATGATTTATCACAATTTTATCAATAATTATTACTTTA
TTTTTTATGTTTCAACTAAAAGTATCAAAATACAACTTTCCAGAAAACCCCGAACCAAAACTAGTGGCTA
CATCAAAATCTATTACACCTTGAGAAAATAAATGAACGAAAATCTATTTTCCTCATTCATTACCCCTACA
ATAATAGGACTTCCTATTGTAATTATTATTACAATGTTCCCAAGCATTATATTCCCATCACCTAGCCGAC
TAATCAACAATCGACTCATCTCCCTTCAACAATGACTAGTACAATTAACATCAAAACAGATATTATCTAT
CCACAACCAAAAGGGACAAACCTGGGCCCTAATATTAATATCATTAATTCTATTTATTGGCTCTACTAAC
TTATTAGGCCTACTACCCTACTCATTTACTCCTACCACACAACTATCCCTAAACCTAGGTATAGCCATCC
CCTTATGAGCAGGTACTGTAATCACTGGTTTCCGGTATAAAACAAAAGCCTCTTTAGCCCACTTCTTACC
ACAAGGAACACCACTGCCCCTAATTCCTATACTTATTATCATCGAGACTATTAGCCTATTCATTCAACCC
ATGGCTCTGGCCGTACGACTAACAGCCAATATTACCGCAGGCCATTTATTAATTCACCTGATCGGAGGGG
CCACCCTAGCCTTAATAAACATCAGCACTATTACAGCAATAATTACCTTTACTATCCTTGTCCTCCTAAC
TACCCTAGAATTCGCAGTAGCCCTTATCCAGGCCTACGTGTTCACTTTATTAGTAAGCCTGTACTTACAC
GACAATACTTAATGACCCACCAAACACATTCATATCATATAGTTAACCCAAGCCCATGACCCCTAACAGG
AGCCCTCTCCGCCCTGCTCACAACATCAGGATTAGTGATGTGATTTCACTATAACTCATTATTACTCCTT
ACCTTAGGCACGGCAGCTAACATACTGACTATATACCAATGATGACGAGACGTAGTCCGAGAAAGTACAT
TCCAAGGCCATCATACCCCTACAGTCCAAAAGGGCCTACGATACGGAATAATTCTCTTTATTACCTCAGA
GATTTTCTTCTTCGCAGGTTTCTTCTGAGCTTTCTACCATTCAAGCCTAGCACCAACCCCTGAACTAGGA
GGATGTTGACCACCCACAGGCATTACACCCCTAAACCCCCTAGAAGTACCTCTACTTAATACCTCAGTCC
TCCTAGCCTCCGGAGTCTCTATCACCTGAGCCCATCATAGCCTAATAGAAGGAAACCGTAAACACATGCT
CCAAGCCCTACTCATCACAATCCTCTTAGGCCTATATTTTACCCTTTTACAAGCCTCAGAATACTATGAA
GCCCCATTTACAATTTCTGATGGAATTTATGGTTCCACATTCTTTATAGCCACAGGATTCCACGGCCTTC
ACGTCATCATCGGATCTACCTTTCTCATCGTATGTTTCCTACGACAACTAAACTTCCACTTTACATCTAA
CCACCACTTTGGATTCGAAGCCGCTGCCTGATATTGACACTTCGTAGATGTAGTGTGACTGTTCCTATAC
GTATCTATTTATTGATGAGGATCCTATTTCTCTAGTATTAATAAGTACGGTTGACTTCCAATCAATCAGT
TCTGGTAAAACCCAGAGAGAAATAATAAATATAATACTAACCATATTCATCAATGTATTACTAGCATCCC
TACTTATCATAGTCGCATTTTGACTCCCTCAATTAAACGTCTACACAGAAAAAGCAAGCCCCTATGAATG
CGGCTTTGACCCACTAGGATCAGCACGTCTACCTTTCTCTATAAAATTTTTCCTAGTAGCCATCACATTT
TTGCTATTCGACCTAGAAATTGCCCTCCTCCTACCACTACCATGAGCCTCACAATCAACTAACCTAAAAA
CTACACTCACCATAGCACTAGCACTGATTTCACTACTAGCCGCAAGCCTGGCCTACGAGTGAACCGAAGA
AGGCTTAGAATGAAACGAATATGGTAATTAGTTTAACGAAAACAAATGATTTCGACTCATTAGATTGTAA
ATCGCATTACAATTATCAAATGTCCATAGTATACATCAACATTTTTCTGGCCTTTACTTTATCTTTTATG
GGACTACTCATCTACCGAGCCCACTTAATATCCTCCCTTCTATGCCTAGAAGGAATAATACTATCACTAT
TCGTCATAATAACAATTACTATTCTAACTAACCACCTTACACTAGCCAGCATAACCCCTATTATTCTCCT
CGTATTTGCAGCTTGTGAAGCAGCACTAGGCTTATCCCTCTTAGTTATAATCTCTACTACATATGGGACA
GACTATGTACAAAACTTAAACCTACTACAATGCTAAAAATCATCGTTCCAACCATCATACTAATTCCCCT
AACATGACTATCAAAACCCAACATGATCTGAATTAACACAACAACCCACAGTATACTGGTCAGTTTAATT
AGCCTATCATATCTCAACCAACTTACAGACAATAACCTAAACTTCTCACTACTATTCTTCGCAGATTCCT
TATCAGCACCCCTGCTGGCACTTACAACATGATTACTCCCCCTAATAATTATAGCAAGCCAACACCACTT
GTCAAAAGAAACCTTGATCCGAAAAAAACTTTACATCACAATACTAATCATGCTACAACTATTCCTAATC
ATAACATTCGCCGCTACAGAACTAATCATGTTCTACATTCTATTTGAAGCCACACTCATACCAACATTAA
TTATTATCACCCGATGAGGCAATCAAACAGAACGACTAAACGCTGGCCTGTATTTTTTATTTTACACTCT
AGTAGGCTCACTACCCCTCCTAGTCGCCCTGTTATGAATCCAAAACGACCTAGGTACCTTAAACCTTTTA
ATCATTCAATATTGAACACAACCCCTACTAAACTCCTGATCCAATACCCTACTATGACTAGCATGCATAA
TGGCATTTATAGTGAAGATACCTTTATACGGCCTACACCTATGACTCCCAAAAGCCCACGTAGAGGCTCC
CATCGCAGGATCAATAGTCCTTGCAGCCGTCCTCCTAAAATTAGGTGGGTACGGAATAATACGAATCACT
CTACTGCTAAACCCACTAACAAACTACATAGCATACCCCTTCATAATATTGTCACTATGAGGAATAATCA
TAACTAGCTCTATTTGCTTACGCCAAACAGACCTAAAATCTTTAATCGCCTATTCCTCCGTAAGCCACAT
AGCCCTAGTAATCATAGCTGTACTCATTCAATCACCATGAAGCTATATAGGAGCAACAGCCCTAATAATC
GCCCATGGCCTGACATCATCTATATTATTCTGCTTGGCTAACTCTAACTACGAACGCATCCATAGCCGTA
CCATAATTCTTGCACGAGGCCTACAAATACTCCTACCATTAATAGCTGCATGATGGCTACTCGCCAGCTT
AACTAACTTAGCCTTACCACCCACAATTAACCTAGTAGGAGAACTATTCGTAGTAATAGCCTCATTCTCA
TGATCTAACATTACTATTGTCCTAATAGGCATCAACATCACCATTACCGCTCTTTATTCCCTATACATAT
TAATTACTACACAACGCGGGAAATACACTCACCACATTAAAAACATCAAACCATCATTTACACGAGAAAA
TTCCCTAATAGCTCTACACCTACTACCCTTACTATTACTCTCTCTTAACCCCAAAGTTATTTTAGGTCCT
ATTTACTGTAAATATAGTTTAACAAAAACATTAGATTGTGAATCTAACAATAAAAGCTCAAACCTTTTTA
TTTACCGAAAAAGTAATACGCAAGAACTGCTAACTCATGCTCCCATGTATAAAAACATGGCTTTTTCAAC
TTTTAAAGGATAGTAGTAATCCATTGGTCTTAGGAACCAAAAAATTGGTGCAACTCCAAATAAAAGTAAT
AAATTTATTCACTTCCTCAATACTCGTAACACTATTTATACTGTCCCTTCCCATTATAATAACTAGCACC
ACCATATATACTAACAAACTTTACCCCCAATACGTAAAAACCACTATCTCATACGCCTTCATAATCAGCC
TAATTCCCACAATAATATTCCTCCACCTAGGACAAGATACAATAATTTCAAACTGACACTGAATTACAAT
TCAAACAATGAAATTATCCCTTAGCTTTAAACTCGACTACTTTTCAATAATCTTTATACCAGTAGCCCTA
TTCGTCACGTGATCAATTATAGAATTCTCAATATGATATATACACTCAGATCCCTATATCAACCGATTTT
TCAAATATCTACTCCTATTTCTTATTACCATAATAATCCTAGTCACCGCCAACAATATATTCCAACTATT
CATCGGTTGAGAAGGAGTAGGCATCATATCATTCCTACTAATTGGATGATGATACGGACGAACAGACGCC
AACACAGCCGCACTACAAGCCATCTTGTATAACCGCATTGGAGATGTGGGATTTATCCTAGCTATAGCTT
GATTCCTGATCAATCTAAACACATGAGACCTCCAACAAATCTTCATAACCAACCACAAAAACCTAACCAT
ACCCCTCATAGGTCTTATATTAGCAGCTACCGGAAAATCTGCACAATTTGGCCTTCACCCATGACTACCC
TCAGCCATAGAAGGCCCAACCCCTGTATCAGCCCTACTGCACTCAAGCACAATAGTTGTAGCAGGGGTAT
TCCTACTAATCCGATTCCACCCTCTAATAGAACACAACAAAACCATACAAACCATTACACTATGCTTAGG
AGCAATTACAACCCTATTCACAGCAATATGCGCTCTAACACAAAATGACATCAAAAAAATTGTTGCCTTC
TCCACCTCAAGTCAACTAGGGTTAATAATCGTAACCATCGGCATCAACCAACCCTACCTAGCATTCCTCC
ACATTTGCACCCACGCATTTTTCAAGGCCATACTATTCATATGCTCTGGATCCATTATCCACAGCCTAAA
TGATGAACAAGACATCCGAAAAATAGGAGGGCTATTCAAAGCACTACCATTCACCACCACCTCCTTAATT
GTCGGAAGCCTAGCACTCACAGGTATGCCCTTCCTAACAGGGTTCTATTCCAAAGACCTGATCATTGAGA
CCGCCAACACGTCGTATACCAACGCCTGAGCCCTTCTAATAACCCTCGTTGCCACCTCCATAACGGCTGC
CTACAGCACTCGAATCATATTCTTTGCACTACTAGGACAACCCCGCTTTAATCCCATTATTACAATCAAC
GAGAATAATCCACTCCTAATCAACTCTATTAAACGTCTCTTATTCGGGAGTATTTTTGCAGGATTCCTAA
TCTCCAACAATATTACACCCACCACCACCCCACAGATAACTATGCCTCATTATCTTAAAATAACAGCTCT
TATCGTAACTATCTTAGGTTTCATCCTGGCACTAGAACTAAACCTTACAATGCAGAGCCTGAAATTCAAG
TACCCCTCAAGCCTATTCAAATTCTCAAATATGCTGGGCTACTTCCCTACTATTGCCCACCGCTTAATAC
CCAAAACAAACCTATTAATAAGCCAAAAATCAGCATCAGCACTGTTAGACATGACTTGATTAGAAACAAT
CCTACCAAAATCCATCTCCCACTTCCAAATAAAATCCTCAATTACCATTTCAAACCAGAAAGGCCTAATT
AAACTATATTTCATGTCTTTCATACTAACTTTAACCCTTAGCCTACTAGCACTTAATTTCCACGAGTAAT
CTCCATAATCACTACCACCCCAATAAGAAGAGATCAACCTGTAACAATAACAAGCCAAGTCCCATAGCTA
TACAAGGCCGCAATTCCCATAGCCTCTTCACTGAAAAAACCTGAATCACCTGTATCATAAATTACTCAAT
CACCCGCCCCATTAAACTTCAACACAACCTCAACTTCAATATCATCACCTTTTAAAATATAACAAGCAGT
AAGTAACTCAGATAACAGACCAACAATAAAAGCACCTAAAACAGCCTTATTAGAAACTCAAACCTCAGGA
TACTGTTCTGCGGCTATAGCCGTAGTATACCCAAAAACAACTAATATCCCTCCTAAATAAATTAAAAACA
CCATTAAACCCAGAAAAGACCCACCAAAACTCAACACAATACCACAACCAATAGCCCCGCTAATAATTAA
CACCAACCCGCCGTAGATAGGAGAAGGTTTCGAAGAAAACCCTACAAAACTAACTACAAAAATAACACTT
AGAATAAATACAATGTATGTCATCATTATTCCTACATGGAATCTAACCATGACTAGTGACATGAAAAATC
ACCGTTGTATTTCAACTATAAGAACATTAATGACCAACATTCGCAAAACTCACCCATTAACCAAAATCAT
CAACAACTCATTTATTGATTTACCTGCCCCATCAAACATCTCAGCATGATGAAACTTTGGATCCCTACTC
GGAATTTGCCTAATTATTCAAATTCTCACAGGCCTATTCTTAGCCATACATTATACATCAGACACAGCTA
CAGCCTTTTCATCAGTTACTCACATCTGCCGAGACGTCAATTACGGCTGAATCATCCGATATATACACGC
AAATGGAGCTTCTATATTCTTTGTCTGCCTATTCCTACACGTAGGACGAGGCTTATACTATGGATCTTAT
ATATTTCCCGAAACATGAAATATTGGCATTATCTTATTATTCGCAGTGATGGCAACAGCATTCATAGGTT
ACGTATTACCATGGGGTCAAATGTCATTTTGAGGTGCAACCGTAATTACCAACTTACTTTCAGCTATCCC
ATACATCGGAACTGATCTTGTAGAATGAATTTGAGGAGGATTTTCAGTAGACAAAGCTACCCTAACACGA
TTTTTCGCCTTCCACTTCATCCTTCCATTCATCATTTCAGCACTAGCAGCAGTCCACCTACTATTCCTAC
ACGAAACAGGATCCAATAACCCTTCCGGAATCCCATCTGACTCAGACAAAATTCCCTTCCACCCTTATTA
CACTATTAAAGACATCCTAGGGGCCCTATTCCTTATCTTAACACTCATACTACTAGTACTATTCTCACCT
GACCTATTAGGAGACCCAGACAACTACATTCCCGCCAATCCGCTCAACACACCTCCCCATATCAAACCTG
AATGATACTTCCTATTCGCATACGCCATTCTACGGTCCATTCCCAATAAACTAGGAGGAGTACTTGCCCT
AGTTCTCTCCATCTTAGTTCTAGCCATCATCCCCCTACTACACACCTCAAAACAACGAAGCATAATATTC
CGCCCACTAAGCCAATGTCTATTCTGATTACTAGTAGCTGATCTCCTAACTCTAACCTGAATTGGCGGCC
AACCAGTAGAATACCCATTCATCACTATCGGCCAGCTAGCTTCAATCCTCTACTTCATGATTCTTCTAGT
CTTCATGCCAATTGCCAGCATTATTGAAAATAATTTACTAAAATGAAGAGTCTTTGTAGTATATTAATTA
CTTTGGTCTTGTAAACCAAGAATGGAGAACCCCATCTCCCTAAGACTCAAGGAAGAAGCAATAGCCCCAC
CATCAGCACCCAAAGCTGACATTCTAATTAAACTATTCCCTGATTTCCTCACCACTATTATTCAATTCAT
ATATTTAATAACATTTAATGTGCTTCCCCAGTATGTGTCTTTTTACCCCCCCTATGTATATCGTGCATTA
ATGGTTTGCCCCATGCATATAAGCATGTACATACTATGGTTAATCTTACATGTATCCACCTCACTTAGAC
CACGAGCTTTATCACCATGCCTCGAGAAACCATCAATCCTTGCCTGAAGTATACCTCTTCTCGCTCCGGG
CCCATTAAATGTGGGGGTTTCTATTCTGAAACTATATCTGACATCTGGTTCTTACTTCAGGGCCATTATA
GTCCTCAATCCAATCCTACTAACCTCTCAAATGGGACATCTCGATGGACTAATGACTAATCAGCCCATGA
TCACACATAACTGTGGTGTCATGCATTTGGTATTTTTAATTTTTGGGGGGGGAGAAATTGGTATCACTCA
GCTATGGCCAAGTGTGGCCTCGTAGCAGTCAAATAACTTGTAGCTGGGCTTATCCTTCATCATTTATCCG
CATCGCACAACCATAAGGTGCTATTCAGTCAATGGTCACAGGACATACACACACACGTACACACGTACAC
ACGTACACACGTACACACGTATACACGTACACACGTATACACGTACACACGTATACACGTACACACGTAT
ACACGTATACACGTACACACGTATACACGTATACACGTACACACGTATACACGTACACACGTATACACGT
ATACACGTACACACGTACACACGTATACACGTATACACGTATACACGTATACACGTACACACGTACACAC
GTATACACGTACACGCATCCAACAGATAGAAATTAACTTAGATCAAACCCCCCTTACCCCCCGTAGCTTC
AAAAGTATGCAAACACTTATAATCGCTCTGCCAAACCCCAAAAACAGAACTAAGCACATGCAACATGTAT
TAGAAGCCACTCACACTGATATCACATACTGTAATCCCTAAAAACTTACCCATTGAAAAAATCTCTATCC
AAAAAGCTATCTATAGATGTATTTTTTTTACTTCAACTGCCCTCTGAAAAATCCCTTGTAATAAGTTTCA
AATTTTAATTATTTTTATCATTT


Contact: Vadim E. Fraifeld, MD, PhD

Head: Lab for the Biology of Aging, The Shraga Segal Department of Microbiology, Immunology and Genetics, Faculty of Health Sciences, Ben-Gurion University of the Negev
P.O. Box 653, Beer-Sheva 8410501, Israel

Email:
How to cite us:

If you would like to cite this database please use:
Toren D, Barzilay T, Tacutu R, Lehmann G, Muradian KK, Fraifeld VE. MitoAge: a database for comparative analysis of mitochondrial DNA, with a special focus on animal longevity. Nucleic Acids Res. 2016; 44(D1):D1262-5.