Viewing data for Oryx gazella


Scientific name Oryx gazella
Common name Gemsbok
Maximum lifespan 23.80 years (Oryx gazella@AnAge)

Total mtDNA (size: 16661 bases) GC AT G C A T
Base content (bases) 6609 10052 4352 2257 4484 5568
Base content per 1 kb (bases) 397 603 261 135 269 334
Base content (%) 39.7% 60.3%
Total protein-coding genes (size: 11338 bases) GC AT G C A T
Base content (bases) 4538 6800 3147 1391 3131 3669
Base content per 1 kb (bases) 400 600 278 123 276 324
Base content (%) 40.0% 60.0%
D-loop (size: 1235 bases) GC AT G C A T
Base content (bases) 510 725 327 183 318 407
Base content per 1 kb (bases) 413 587 265 148 257 330
Base content (%) 41.3% 58.7%
Total tRNA-coding genes (size: 1508 bases) GC AT G C A T
Base content (bases) 540 968 313 227 430 538
Base content per 1 kb (bases) 358 642 208 151 285 357
Base content (%) 35.8% 64.2%
Total rRNA-coding genes (size: 2526 bases) GC AT G C A T
Base content (bases) 1001 1525 555 446 593 932
Base content per 1 kb (bases) 396 604 220 177 235 369
Base content (%) 39.6% 60.4%
12S rRNA gene (size: 955 bases) GC AT G C A T
Base content (bases) 392 563 222 170 215 348
Base content per 1 kb (bases) 410 590 232 178 225 364
Base content (%) 41.0% 59.0%
16S rRNA gene (size: 1571 bases) GC AT G C A T
Base content (bases) 609 962 333 276 378 584
Base content per 1 kb (bases) 388 612 212 176 241 372
Base content (%) 38.8% 61.2%

ATP6 (size: 681 bases) GC AT G C A T
Base content (bases) 268 413 191 77 194 219
Base content per 1 kb (bases) 394 606 280 113 285 322
Base content (%) 39.4% 60.6%
ATP8 (size: 201 bases) GC AT G C A T
Base content (bases) 62 139 49 13 55 84
Base content per 1 kb (bases) 308 692 244 65 274 418
Base content (%) 30.8% 69.2%
COX1 (size: 1545 bases) GC AT G C A T
Base content (bases) 632 913 373 259 474 439
Base content per 1 kb (bases) 409 591 241 168 307 284
Base content (%) 40.9% 59.1%
COX2 (size: 684 bases) GC AT G C A T
Base content (bases) 255 429 161 94 184 245
Base content per 1 kb (bases) 373 627 235 137 269 358
Base content (%) 37.3% 62.7%
COX3 (size: 784 bases) GC AT G C A T
Base content (bases) 348 436 233 115 223 213
Base content per 1 kb (bases) 444 556 297 147 284 272
Base content (%) 44.4% 55.6%
CYTB (size: 1140 bases) GC AT G C A T
Base content (bases) 486 654 332 154 302 352
Base content per 1 kb (bases) 426 574 291 135 265 309
Base content (%) 42.6% 57.4%
ND1 (size: 956 bases) GC AT G C A T
Base content (bases) 373 583 262 111 273 310
Base content per 1 kb (bases) 390 610 274 116 286 324
Base content (%) 39.0% 61.0%
ND2 (size: 1042 bases) GC AT G C A T
Base content (bases) 419 623 310 109 255 368
Base content per 1 kb (bases) 402 598 298 105 245 353
Base content (%) 40.2% 59.8%
ND3 (size: 346 bases) GC AT G C A T
Base content (bases) 140 206 101 39 96 110
Base content per 1 kb (bases) 405 595 292 113 277 318
Base content (%) 40.5% 59.5%
ND4 (size: 1378 bases) GC AT G C A T
Base content (bases) 546 832 397 149 395 437
Base content per 1 kb (bases) 396 604 288 108 287 317
Base content (%) 39.6% 60.4%
ND4L (size: 297 bases) GC AT G C A T
Base content (bases) 113 184 79 34 90 94
Base content per 1 kb (bases) 380 620 266 114 303 316
Base content (%) 38.0% 62.0%
ND5 (size: 1821 bases) GC AT G C A T
Base content (bases) 718 1103 520 198 500 603
Base content per 1 kb (bases) 394 606 286 109 275 331
Base content (%) 39.4% 60.6%
ND6 (size: 528 bases) GC AT G C A T
Base content (bases) 199 329 153 46 112 217
Base content per 1 kb (bases) 377 623 290 87 212 411
Base content (%) 37.7% 62.3%

ATP6 (size: 681 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 11 (4.87%)
Alanine (Ala, A)
n = 19 (8.41%)
Serine (Ser, S)
n = 14 (6.19%)
Threonine (Thr, T)
n = 22 (9.73%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 9 (3.98%)
Leucine (Leu, L)
n = 45 (19.91%)
Isoleucine (Ile, I)
n = 25 (11.06%)
Methionine (Met, M)
n = 13 (5.75%)
Proline (Pro, P)
n = 12 (5.31%)
Phenylalanine (Phe, F)
n = 12 (5.31%)
Tyrosine (Tyr, Y)
n = 2 (0.88%)
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 = 12 (5.31%)
Glutamine (Gln, Q)
n = 9 (3.98%)
Histidine (His, H)
n = 6 (2.65%)
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
18 7 11 8 4 24 4 4 9 0 1 3 5 0 5 7
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 0 0 6 7 6 0 1 3 6 1 3 3 6 0 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 11 2 1 2 6 0 0 5 0 2 0 1 6 6 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
4 2 1 1 0 4 0 2 0 2 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
43 71 81 32
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
23 62 38 104
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
11 58 100 58
ATP8 (size: 201 bases)
Amino acid sequence: MPQLDTSTWLTMILSMFLVLFIIFQMKISKHKFYYNPELTSMETPKQNTPWETKWTKIYLPLSLPL*
Amino acid frequencies:
Glycine (Gly, G)
n = 0 (0%)
Alanine (Ala, A)
n = 0 (0%)
Serine (Ser, S)
n = 5 (7.58%)
Threonine (Thr, T)
n = 8 (12.12%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 1 (1.52%)
Leucine (Leu, L)
n = 10 (15.15%)
Isoleucine (Ile, I)
n = 5 (7.58%)
Methionine (Met, M)
n = 5 (7.58%)
Proline (Pro, P)
n = 6 (9.09%)
Phenylalanine (Phe, F)
n = 4 (6.06%)
Tyrosine (Tyr, Y)
n = 3 (4.55%)
Tryptophan (Trp, W)
n = 3 (4.55%)
Aspartic acid (Asp, D)
n = 1 (1.52%)
Glutamic acid (Glu, E)
n = 3 (4.55%)
Asparagine (Asn, N)
n = 2 (3.03%)
Glutamine (Gln, Q)
n = 3 (4.55%)
Histidine (His, H)
n = 1 (1.52%)
Lysine (Lys, K)
n = 6 (9.09%)
Arginine (Arg, R)
n = 0 (0%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
3 2 4 1 2 3 0 2 3 0 0 1 0 0 2 2
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
1 0 0 0 0 0 0 0 0 0 0 1 2 3 0 0
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
1 6 1 0 0 5 0 0 0 1 2 0 2 0 2 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
0 3 0 1 0 5 1 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
5 16 26 20
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
3 19 20 25
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
5 14 38 10
COX1 (size: 1545 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 47 (9.14%)
Alanine (Ala, A)
n = 41 (7.98%)
Serine (Ser, S)
n = 31 (6.03%)
Threonine (Thr, T)
n = 38 (7.39%)
Cysteine (Cys, C)
n = 1 (0.19%)
Valine (Val, V)
n = 37 (7.2%)
Leucine (Leu, L)
n = 59 (11.48%)
Isoleucine (Ile, I)
n = 38 (7.39%)
Methionine (Met, M)
n = 34 (6.61%)
Proline (Pro, P)
n = 27 (5.25%)
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 = 9 (1.75%)
Asparagine (Asn, N)
n = 19 (3.7%)
Glutamine (Gln, Q)
n = 6 (1.17%)
Histidine (His, H)
n = 17 (3.31%)
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 14 27 7 7 25 5 14 5 1 6 8 20 3 18 24
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
7 1 0 11 12 18 0 6 12 24 5 10 8 8 1 9
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
10 17 2 14 2 10 2 0 3 10 9 3 1 6 13 12
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
5 7 2 7 8 8 1 0 2 5 1 0 0 1 0 14
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
149 102 141 123
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
34 137 203 141
COX2 (size: 684 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 8 (3.52%)
Alanine (Ala, A)
n = 8 (3.52%)
Serine (Ser, S)
n = 21 (9.25%)
Threonine (Thr, T)
n = 18 (7.93%)
Cysteine (Cys, C)
n = 2 (0.88%)
Valine (Val, V)
n = 11 (4.85%)
Leucine (Leu, L)
n = 33 (14.54%)
Isoleucine (Ile, I)
n = 19 (8.37%)
Methionine (Met, M)
n = 17 (7.49%)
Proline (Pro, P)
n = 13 (5.73%)
Phenylalanine (Phe, F)
n = 6 (2.64%)
Tyrosine (Tyr, Y)
n = 11 (4.85%)
Tryptophan (Trp, W)
n = 5 (2.2%)
Aspartic acid (Asp, D)
n = 10 (4.41%)
Glutamic acid (Glu, E)
n = 15 (6.61%)
Asparagine (Asn, N)
n = 5 (2.2%)
Glutamine (Gln, Q)
n = 6 (2.64%)
Histidine (His, H)
n = 7 (3.08%)
Lysine (Lys, K)
n = 6 (2.64%)
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
13 6 16 2 3 11 4 9 5 1 0 4 6 1 4 2
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
1 1 1 1 1 6 0 0 2 5 1 1 3 8 1 2
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 11 0 4 4 8 0 3 2 3 8 0 4 2 3 5
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 15 0 2 8 3 3 1 0 5 0 0 0 1 0 5
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
52 52 70 54
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
26 55 61 86
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
16 54 114 44
COX3 (size: 784 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 20 (7.69%)
Alanine (Ala, A)
n = 15 (5.77%)
Serine (Ser, S)
n = 20 (7.69%)
Threonine (Thr, T)
n = 23 (8.85%)
Cysteine (Cys, C)
n = 2 (0.77%)
Valine (Val, V)
n = 15 (5.77%)
Leucine (Leu, L)
n = 32 (12.31%)
Isoleucine (Ile, I)
n = 15 (5.77%)
Methionine (Met, M)
n = 11 (4.23%)
Proline (Pro, P)
n = 12 (4.62%)
Phenylalanine (Phe, F)
n = 24 (9.23%)
Tyrosine (Tyr, Y)
n = 11 (4.23%)
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 = 7 (2.69%)
Glutamine (Gln, Q)
n = 7 (2.69%)
Histidine (His, H)
n = 17 (6.54%)
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
9 6 7 6 7 12 0 7 7 0 1 7 7 0 11 13
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
4 0 2 2 9 4 0 5 7 8 0 0 7 4 1 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
9 9 1 3 2 9 1 3 2 4 7 2 0 1 6 4
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
13 8 0 0 3 2 0 1 2 1 1 0 0 0 0 10
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
61 66 63 71
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
44 65 55 97
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
10 102 95 54
CYTB (size: 1140 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 24 (6.33%)
Alanine (Ala, A)
n = 25 (6.6%)
Serine (Ser, S)
n = 24 (6.33%)
Threonine (Thr, T)
n = 28 (7.39%)
Cysteine (Cys, C)
n = 4 (1.06%)
Valine (Val, V)
n = 21 (5.54%)
Leucine (Leu, L)
n = 57 (15.04%)
Isoleucine (Ile, I)
n = 37 (9.76%)
Methionine (Met, M)
n = 15 (3.96%)
Proline (Pro, P)
n = 22 (5.8%)
Phenylalanine (Phe, F)
n = 25 (6.6%)
Tyrosine (Tyr, Y)
n = 15 (3.96%)
Tryptophan (Trp, W)
n = 13 (3.43%)
Aspartic acid (Asp, D)
n = 11 (2.9%)
Glutamic acid (Glu, E)
n = 6 (1.58%)
Asparagine (Asn, N)
n = 18 (4.75%)
Glutamine (Gln, Q)
n = 6 (1.58%)
Histidine (His, H)
n = 12 (3.17%)
Lysine (Lys, K)
n = 9 (2.37%)
Arginine (Arg, R)
n = 7 (1.85%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
12 25 12 8 13 21 4 11 6 0 2 9 10 0 10 15
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 1 3 3 6 16 0 3 7 10 4 2 7 13 0 3
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
7 18 0 3 5 11 0 2 3 8 7 1 0 2 16 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
11 6 0 0 11 8 1 0 0 7 0 1 0 0 0 12
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
87 93 113 87
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
54 94 77 155
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
13 145 162 60
ND1 (size: 956 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 12 (3.79%)
Alanine (Ala, A)
n = 28 (8.83%)
Serine (Ser, S)
n = 22 (6.94%)
Threonine (Thr, T)
n = 22 (6.94%)
Cysteine (Cys, C)
n = 1 (0.32%)
Valine (Val, V)
n = 13 (4.1%)
Leucine (Leu, L)
n = 54 (17.03%)
Isoleucine (Ile, I)
n = 30 (9.46%)
Methionine (Met, M)
n = 20 (6.31%)
Proline (Pro, P)
n = 22 (6.94%)
Phenylalanine (Phe, F)
n = 21 (6.62%)
Tyrosine (Tyr, Y)
n = 11 (3.47%)
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 = 13 (4.1%)
Glutamine (Gln, Q)
n = 7 (2.21%)
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
16 14 19 5 8 27 2 10 7 0 3 2 8 0 8 13
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
1 0 1 6 7 15 0 2 3 6 1 4 8 9 1 2
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
6 13 1 2 4 12 1 0 3 5 6 0 2 5 8 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 9 2 1 2 7 0 0 1 7 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
67 83 95 73
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
33 91 56 138
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
11 88 158 61
ND2 (size: 1042 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 17 (4.91%)
Alanine (Ala, A)
n = 21 (6.07%)
Serine (Ser, S)
n = 31 (8.96%)
Threonine (Thr, T)
n = 42 (12.14%)
Cysteine (Cys, C)
n = 2 (0.58%)
Valine (Val, V)
n = 12 (3.47%)
Leucine (Leu, L)
n = 48 (13.87%)
Isoleucine (Ile, I)
n = 32 (9.25%)
Methionine (Met, M)
n = 32 (9.25%)
Proline (Pro, P)
n = 26 (7.51%)
Phenylalanine (Phe, F)
n = 13 (3.76%)
Tyrosine (Tyr, Y)
n = 7 (2.02%)
Tryptophan (Trp, W)
n = 8 (2.31%)
Aspartic acid (Asp, D)
n = 1 (0.29%)
Glutamic acid (Glu, E)
n = 5 (1.45%)
Asparagine (Asn, N)
n = 14 (4.05%)
Glutamine (Gln, Q)
n = 11 (3.18%)
Histidine (His, H)
n = 4 (1.16%)
Lysine (Lys, K)
n = 15 (4.34%)
Arginine (Arg, R)
n = 6 (1.73%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
12 20 30 7 6 22 5 8 10 1 2 4 6 0 5 8
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 0 2 4 10 5 2 1 5 9 2 2 9 15 0 5
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
16 18 3 4 6 17 0 1 3 4 3 0 0 3 11 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 5 0 0 1 15 0 0 1 4 1 0 0 0 0 8
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
56 87 139 65
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
37 116 57 137
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
16 107 172 52
ND3 (size: 1042 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 17 (4.91%)
Alanine (Ala, A)
n = 21 (6.07%)
Serine (Ser, S)
n = 31 (8.96%)
Threonine (Thr, T)
n = 42 (12.14%)
Cysteine (Cys, C)
n = 2 (0.58%)
Valine (Val, V)
n = 12 (3.47%)
Leucine (Leu, L)
n = 48 (13.87%)
Isoleucine (Ile, I)
n = 32 (9.25%)
Methionine (Met, M)
n = 32 (9.25%)
Proline (Pro, P)
n = 26 (7.51%)
Phenylalanine (Phe, F)
n = 13 (3.76%)
Tyrosine (Tyr, Y)
n = 7 (2.02%)
Tryptophan (Trp, W)
n = 8 (2.31%)
Aspartic acid (Asp, D)
n = 1 (0.29%)
Glutamic acid (Glu, E)
n = 5 (1.45%)
Asparagine (Asn, N)
n = 14 (4.05%)
Glutamine (Gln, Q)
n = 11 (3.18%)
Histidine (His, H)
n = 4 (1.16%)
Lysine (Lys, K)
n = 15 (4.34%)
Arginine (Arg, R)
n = 6 (1.73%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
12 20 30 7 6 22 5 8 10 1 2 4 6 0 5 8
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 0 2 4 10 5 2 1 5 9 2 2 9 15 0 5
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
16 18 3 4 6 17 0 1 3 4 3 0 0 3 11 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 5 0 0 1 15 0 0 1 4 1 0 0 0 0 8
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
56 87 139 65
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
37 116 57 137
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
16 107 172 52
ND4 (size: 1378 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 17 (3.71%)
Alanine (Ala, A)
n = 26 (5.68%)
Serine (Ser, S)
n = 39 (8.52%)
Threonine (Thr, T)
n = 35 (7.64%)
Cysteine (Cys, C)
n = 3 (0.66%)
Valine (Val, V)
n = 15 (3.28%)
Leucine (Leu, L)
n = 94 (20.52%)
Isoleucine (Ile, I)
n = 44 (9.61%)
Methionine (Met, M)
n = 35 (7.64%)
Proline (Pro, P)
n = 22 (4.8%)
Phenylalanine (Phe, F)
n = 21 (4.59%)
Tyrosine (Tyr, Y)
n = 15 (3.28%)
Tryptophan (Trp, W)
n = 13 (2.84%)
Aspartic acid (Asp, D)
n = 5 (1.09%)
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 = 12 (2.62%)
Lysine (Lys, K)
n = 11 (2.4%)
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
17 27 32 6 22 38 11 15 11 0 1 6 7 1 10 11
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 1 2 7 6 12 1 1 8 6 2 3 10 9 0 5
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
9 19 2 5 14 9 0 1 10 8 7 0 2 9 14 8
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
4 7 1 3 2 10 1 3 2 5 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
71 132 159 97
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
54 111 85 209
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
24 154 193 88
ND4L (size: 297 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 4 (4.08%)
Alanine (Ala, A)
n = 9 (9.18%)
Serine (Ser, S)
n = 10 (10.2%)
Threonine (Thr, T)
n = 4 (4.08%)
Cysteine (Cys, C)
n = 3 (3.06%)
Valine (Val, V)
n = 6 (6.12%)
Leucine (Leu, L)
n = 22 (22.45%)
Isoleucine (Ile, I)
n = 5 (5.1%)
Methionine (Met, M)
n = 13 (13.27%)
Proline (Pro, P)
n = 1 (1.02%)
Phenylalanine (Phe, F)
n = 4 (4.08%)
Tyrosine (Tyr, Y)
n = 3 (3.06%)
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 = 5 (5.1%)
Glutamine (Gln, Q)
n = 2 (2.04%)
Histidine (His, H)
n = 3 (3.06%)
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
1 4 11 3 2 11 1 5 2 0 0 2 4 0 3 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 0 3 0 4 5 0 0 2 2 0 0 1 0 0 1
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
1 2 0 2 4 3 0 0 1 2 1 0 0 2 3 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
3 2 0 1 0 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
22 24 28 25
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
9 23 17 50
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
3 32 49 15
ND5 (size: 1821 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 28 (4.62%)
Alanine (Ala, A)
n = 38 (6.27%)
Serine (Ser, S)
n = 49 (8.09%)
Threonine (Thr, T)
n = 59 (9.74%)
Cysteine (Cys, C)
n = 5 (0.83%)
Valine (Val, V)
n = 19 (3.14%)
Leucine (Leu, L)
n = 88 (14.52%)
Isoleucine (Ile, I)
n = 58 (9.57%)
Methionine (Met, M)
n = 41 (6.77%)
Proline (Pro, P)
n = 27 (4.46%)
Phenylalanine (Phe, F)
n = 45 (7.43%)
Tyrosine (Tyr, Y)
n = 18 (2.97%)
Tryptophan (Trp, W)
n = 12 (1.98%)
Aspartic acid (Asp, D)
n = 10 (1.65%)
Glutamic acid (Glu, E)
n = 12 (1.98%)
Asparagine (Asn, N)
n = 36 (5.94%)
Glutamine (Gln, Q)
n = 18 (2.97%)
Histidine (His, H)
n = 13 (2.15%)
Lysine (Lys, K)
n = 22 (3.63%)
Arginine (Arg, R)
n = 8 (1.32%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
26 32 38 16 11 45 4 12 15 3 3 7 6 3 17 28
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 1 4 4 12 22 0 2 11 13 2 4 13 9 1 8
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
23 26 2 9 12 14 1 1 12 11 7 2 0 14 22 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
13 10 2 3 7 20 2 1 4 3 0 0 0 1 0 10
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
107 142 229 129
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
66 160 130 251
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
25 218 244 120
ND6 (size: 528 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 26 (14.86%)
Alanine (Ala, A)
n = 6 (3.43%)
Serine (Ser, S)
n = 11 (6.29%)
Threonine (Thr, T)
n = 9 (5.14%)
Cysteine (Cys, C)
n = 1 (0.57%)
Valine (Val, V)
n = 25 (14.29%)
Leucine (Leu, L)
n = 17 (9.71%)
Isoleucine (Ile, I)
n = 16 (9.14%)
Methionine (Met, M)
n = 10 (5.71%)
Proline (Pro, P)
n = 3 (1.71%)
Phenylalanine (Phe, F)
n = 14 (8.0%)
Tyrosine (Tyr, Y)
n = 10 (5.71%)
Tryptophan (Trp, W)
n = 4 (2.29%)
Aspartic acid (Asp, D)
n = 4 (2.29%)
Glutamic acid (Glu, E)
n = 9 (5.14%)
Asparagine (Asn, N)
n = 4 (2.29%)
Glutamine (Gln, Q)
n = 1 (0.57%)
Histidine (His, H)
n = 0 (0%)
Lysine (Lys, K)
n = 4 (2.29%)
Arginine (Arg, R)
n = 1 (0.57%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
14 2 1 0 0 0 1 11 1 0 13 0 3 9 12 2
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
9 1 0 3 1 1 1 9 2 6 9 3 0 0 0 7
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
0 1 1 4 1 2 0 3 1 6 4 1 5 4 0 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
0 2 7 2 2 0 4 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
70 6 47 53
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
36 25 33 82
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
47 15 32 82
Total protein-coding genes (size: 11403 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 217 (5.71%)
Alanine (Ala, A)
n = 245 (6.45%)
Serine (Ser, S)
n = 283 (7.45%)
Threonine (Thr, T)
n = 321 (8.45%)
Cysteine (Cys, C)
n = 25 (0.66%)
Valine (Val, V)
n = 188 (4.95%)
Leucine (Leu, L)
n = 586 (15.43%)
Isoleucine (Ile, I)
n = 328 (8.64%)
Methionine (Met, M)
n = 253 (6.66%)
Proline (Pro, P)
n = 199 (5.24%)
Phenylalanine (Phe, F)
n = 239 (6.29%)
Tyrosine (Tyr, Y)
n = 128 (3.37%)
Tryptophan (Trp, W)
n = 103 (2.71%)
Aspartic acid (Asp, D)
n = 67 (1.76%)
Glutamic acid (Glu, E)
n = 97 (2.55%)
Asparagine (Asn, N)
n = 163 (4.29%)
Glutamine (Gln, Q)
n = 90 (2.37%)
Histidine (His, H)
n = 96 (2.53%)
Lysine (Lys, K)
n = 98 (2.58%)
Arginine (Arg, R)
n = 65 (1.71%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
167 161 214 72 93 250 43 111 83 7 33 54 84 17 109 130
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
39 7 18 49 80 112 4 30 62 98 27 35 72 87 5 55
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
94 157 15 51 57 109 5 14 47 62 66 9 17 55 108 37
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
59 82 15 22 45 85 13 9 13 40 3 1 0 7 0 94
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
814 908 1225 852
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
472 987 746 1594
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
219 1159 1614 807

>NC_016422.1 Oryx gazella mitochondrion, complete genome
GTTCATGTAGCTTAAAACCAAAGCAAGGCACTGAAAATGCCTAGATGAGTATATTAACTCCATAAACACA
TAGGTTTGGTCCCAGCCTTCTTGTTAACTTTCAATAGACTTACACATGCAAGCATCTACGCCCCGGTGAG
AATGCCCTCTAAGTCAACTAGACCATGAGGAGCGGGTATCAAGCACACTACTAGTAGCTCATGACACCTT
GCTTAACCACACCCCCACGGGAAACAGCAGTGACAAAAATTAAGCCATGAACGAAAGTTTGACTAAGCCA
TATTGACTAGGGTTGGTAAATCTCGTGCCAGCCACCGCGGTCATACGATTAACCCAAGCTAACAAGAATA
CGGCGTAAAACGTGTTAAAGCGCTACACCAAATAGAGTTAAGTTTTTATTAAACTGTAAAAAGTCATAAT
TACAATAAAAATAAACGACGAAAGTAACTCTACAACAGCTGATACACCATAGCTAAGACCCAAACTGGGA
TTAGATACCCCACTATGCTTAGCCCTAAACATAAATAATTATAAAACAAAATTATTCGCCAGAGTACTAC
CGGCAACGGCCCAAAACTCAAAGGACTTGGCGGTGCTTTATACCCTTCTAGAGGAGCCTGTTCTATAATC
GATAAACCCCGATAAACCCTGCCAATCCTTGCTAATGCAGTCTATATACCGCCATCTTCAGCAAACCCTA
AAAAAGGAACAAAAGTAAGCATAATCATTACACATAAAAACGTTAGGTCAAGGTGTAACCTATGGAATGG
AAAGAAATGGGCTACATTTTCTACTTTAAGAAAACCCACACGAAAGTTATTATGAAACTAATAACCAAAG
GAGGATTTAGTAGTAAGCTAAGAATAGAGTGCTTAGCTGAATCAGGCCATGAAGCACGCACACACCGCCC
GTCACCCTCCTCAAGTAATTTACGATGCACTCAAACTTATTACATGCACCAACCATATAAGAGGAGACAA
GTCGTAACAAGGTAAGCATACTGGAAAGTGTGCTTGGATAAACCAAAACATAGCTTAAACAAAGCATCTA
GTTTACACCTAGAAGATTTCACATATCATGAATGTTTTGAACCACATCTAGCCCAAATCCTCATTTTCCA
ATTTAACAACCAAAACAAAATAAAGTAAAACATTTACCCTAGTTTAAAGTATAGGAGATAGAAATTCTAA
ACATGGCGCTATAGAGATAGTACCGCAAGGGAACGATGAAAGAAAAAAGTCAAAGTACAAAAAAGCAAAG
ATTAGCCCTTGTACCTTTTGCATAATGAGTTAACGAGCAGAAGACTTAACAAAACGAATTTTAGCTAAGC
AACCCGAAACCAGACGAGCTACTCATGGACAGTTTATTAGAACCAACTCATCTATGTGGCAAAATAGTGA
GAAGATCCATAAGTAGAGGTGACATGCCTAACGAGCCTGGTGATAGCTGGTTGTCCAGGAAATGAATCTT
AGTTCAGCTTTAAAAATACCAAAAATATAAACAAATTCTACTGTATTTTTAAAAGTTAGTCTAAAAAGGT
ACAGCCTTTTAGAAACGGATACAACCTTCACTAGAGAGTAAAATTTAACAATACCATAGTAGGCCTAAAA
GCAGCCATCAATTAAGAAAGCGTTAAAGCTCAACAATAATAACTATATTAATTCCAACAGCAAACGACCA
ACTCCTAGCCCCAATACTGGACTACTCTATAATAAAATAGAAGCAATAATGTTAATATGAGTAACAAGAA
ATATTTTCTCCTCGCACAAGTTTAAATCAGTACCTGATAATAGACTGATTGTTAACAGTAAATAAATATA
ATCCAACAATAAATAATTTATTAACCACACTGTTAACCCAACACAGGAGTGCACTCACGAAAGATTCAAA
GAAGTAAAAGGAACTCGGCAAACACAAACCCCGCCTGTTTACCAAAAACATCACCTCCAGCATTCCCAGT
ATTGGAGGCACTGCCTGCCCAGTGACGAATGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAGCAT
AATCATTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTTTACTGTCTCTTACTTCCAA
TCAGTGAAATTGACCTCCCCGTGAAGAGGCGGGGATGAACCAACAAGACGAGAAGACCCTATGGAGCTTC
AACTAACTAGCTCAAAGAGAACAAACTTAATCACCAAGAGATAACAGCACTCTGTATGAGTTAGCAGTTT
TGGTTGGGGTGACCTCGGAGAATAAAAAATCCTCCGAGCGATTTTAAAGACTAGACCCACAAGTCAAATC
AAACTATCGCTTATTGATCCAAATATTTGATCAACGGAATAAGTTACCCTAGGGATAACAGCGCAATCCT
ATTCAAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCCGATGGTGCAAC
CGCTATCAAAGGTTCGTTTGTTCAACGATTAAAGTCCTACGTGATCTGAGTTCAGACCGGAGTAATCCAG
GTCGGTTTCTATCTGTTATGTATTTCTCCCAGTACGAAAGGACAAGAGAAATGAGGCCAACTTTAATAAA
GCGCCTCAGACCAATTAATGATCTTATCTCAATTAACCTCACAAACAAACCCTGCCCTAGAAAAGGGCCC
AGTTAAGGTGGCAGAGCCCGGTAATTGCGTAAAATTTAAACCTTTATATTCAGAGATTCAAATCCTCTCC
TTAACAAATGTTCATAGTTAATACCCTCATACTAATTATCCCTATTCTCCTAGCCGTAGCTTTCCTAACG
TTAGTTGAACGAAAAATCCTAGGTTACATACAATTTCGAAAAGGTCCAAATGTTGTAGGCCCATACGGCC
TACTTCAACCCATCGCAGATGCAATTAAACTTTTCATTAAAGAGCCTTTACGACCTGCTACATCCTCAAT
CTCAATATTTATTCTAGCACCCATTTTAGCCCTAAGCCTAGCCCTAACCATATGAATCCCCCTGCCTATA
CCCCATCCACTCATTAATATAAACTTAGGAGTCCTTTTTATATTAGCCATATCAAGCCTAGCTGTATACT
CAATCCTCTGATCAGGCTGAGCTTCCAACTCAAAATATGCTCTCATTGGGGCTCTACGAGCAGTAGCACA
AACAATCTCATATGAAGTAACACTAGCAATTATCCTATTGTCAGTATTGCTAATAAACGGATCCTTCACC
CTCTCCACATTAATTATTACTCAAGAACAAACATGACTAATCTTCCCGGCATGACCCTTAGCAATAATAT
GATTTATCTCAACACTAGCAGAAACAAACCGAGCACCATTTGACCTTACCGAAGGAGAATCAGAGCTAGT
CTCGGGATTTAACGTAGAATATGCAGCAGGACCATTCGCCCTGTTTTTCATAGCAGAATATGCCAACATT
ATTATAATAAACATCTTCACAACAACCCTATTCCTAGGAGCATTTCACAATCCATATATACCAGAACTTT
ACACAATCAACTTCACCATTAAATCATTATTACTCACAATCACTTTCCTATGAATTCGAGCATCTTACCC
ACGATTCCGCTACGACCAACTAATACACTTACTATGAAAAAATTTCCTACCCCTAACACTAGCCCTATGC
ATATGACATGTATCTATACCCATTCTCCTATCAAGCATCCCCCCACAAACATAAGAAATATGTCTGACAA
AAGAGTTACTTTGATAGAGTAAATAATAGAGGTTTAAACCCTCTTATTTCGAGAACTATAGGAATTGAAC
CTACTCCTAAGAACCCAAAACTCTTCGTGCTCCCAGTTACGCCAAATTCTAACAGTAAGGTCAGCTAATT
AAGCTATCGGGCCCATACCCCGAAAATGTTGGTTTATATCCTTCCCGTACTAATAAACCCAATCACCTTT
ACTATTATTTTAACAACCATTATATTTGGAACCATTATCGTTATAATTAGCTCACATTGACTACTTATCT
GAATCGGATTCGAAATAAATATACTCGCTATCATTCCCATTATAATAAAAAAATATAACCCACGAGCCAC
AGAAGCATCAACCAAATATTTCCTAACTCAATCAACAGCCTCAATACTATTAATAATAGCTGTCATCATC
AACTTAATATTCTCAGGCCAATGAACTGTAATAAAATTATTTAATCCAACGGCCTCTATACTTGTAACAG
CAGCCCTTACCATAAAACTAGGAATAGCTCCATTCCACTTCTGAGTCCCAGAAGGAACCCAAGGTATCTC
TCTGTCCTCAGGCCTAATCTTACTTACATGACAAAAACCAGCACCTGTATCAGTACTCTATCAGATCTCT
CCACCCATTAACCTAAATTTAATCCTAAGCCTATCAATCCTGTCAATTATAATCGGGGGCTGAGGGGGAC
TAAACCAAACCCAACTACAAAAAATCATAGCCTACTCATCAATCGCCCGCATAGGCTGCATAACAGCGGC
CCTGCGACCCAACCCCACCACGATACCACTAAACCCAGTCACCTGCGTCATTAAAACCTCCCCCATGTCT
ACACTATTCATAGCCCACTCAGCCACAGCTACTCGATCACTGTCACATCCACGGACCAAAGCGCCTATGA
TCACAGCCCTAGTTCCCGGCACCCTCCTATCAACGGGAGGACTCCCCCCACTGTCAGGATTTATACCAAA
ATGAGTAATCATCCAAGAAATAACAAAAAACGACAACAGTATTCTACCCACCCTCATAGCAATTACAGCA
CTATTAAGCCTATACTTCTATATACGACTTACATACTCCACCACACTTACAATATTTCCCTCCACAAACA
ACATAAAAATAAAATGACAATTCTCCACCATAAAACAAATAACCCTCCTACCAACAACAGGAGTACTATC
CACTAAACTATTACCACTTACACCAATCCTATCAATCCTAGAATAGGAATTTAGGTTAAACAGACCAAGA
GTCTTCAAAGCCCTAAGCAAGTATAATTTACTTAATTCCTGATAAGGACTGCAAGACTATATCTTACATC
AACTGAATGCAAATCAACCACTTTAATTAAGCTAAGTCCTCACTAGATTGGTGGGTTCCACCCCCACGAA
ACTTTAGTTAACAGCTAAATACCCTAAACAACTGGCTTCAATCTACTTCTGCCACCGTGAGAAAAAAAAG
GCGGGAGAAGCCCCGGCTGAATTGAAGCTGCTTCTTTGAATTTGCACTTCAATATGTTAATTCACCACAG
AGCTTGGTAAAAAGAGGAGTCAAACATCTGTCAGATTTACAGTCTAATGCTTCACTCAGCCATTTTACCT
ATGTTCATTAACCGCTGATTATTTTCAACCAACCATAAAGATATTGGTACCTTGTACCTCCTATTCGGTG
CTTGAGCTGGCATAGTGGGAACCGCCCTGAGCTTACTAATTCGCGCTGAATTAGGCCAGCCTGGGACTTT
ACTTGGAGATGATCAAATCTACAACGTAGTCGTAACCGCACATGCATTCGTAATAATCTTCTTTATAGTA
ATACCTATTATGATTGGAGGGTTTGGCAACTGGCTAGTCCCTTTAATAATTGGAGCCCCCGACATAGCAT
TCCCTCGAATAAACAATATAAGCTTTTGACTGCTTCCTCCTTCTTTTCTATTACTCCTAGCATCTTCTAT
AGTTGAAGCTGGAGCCGGAACAGGTTGAACCGTATATCCCCCTCTAGCTGGCAACCTAGCCCATGCAGGA
GCCTCAGTGGATCTCACTATTTTCTCTTTACACTTAGCAGGTGTTTCCTCAATTCTAGGAGCCATCAATT
TTATTACAACAATTATTAACATAAAACCCCCTGCAATAACACAATATCAAACTCCCCTGTTTGTATGATC
TGTATTAATTACTGCTGTTTTACTTCTCCTTTCGCTCCCTGTATTAGCAGCCGGCATTACAATACTATTA
ACAGATCGAAATCTAAATACAACCTTCTTTGACCCGGCAGGAGGGGGAGACTCTATCTTATATCAACATC
TATTCTGATTCTTTGGTCACCCTGAAGTATATATCCTTATTCTACCCGGATTTGGAATGATTTCTCATAT
CGTAACCTACTACTCAGGAAAAAAAGAACCATTTGGGTATATAGGAATAGTGTGGGCCATGATATCAATC
GGATTCCTGGGGTTCATCGTATGAGCTCATCATATGTTCACAGTCGGAATAGACGTCGACACACGAGCCT
ACTTCACATCAGCTACCATAATTATTGCAATCCCAACCGGAGTAAAGGTCTTTAGCTGACTGGCAACACT
CCATGGAGGTAATATCAAATGATCTCCCGCTATAATGTGGGCCCTAGGCTTCATTTTCCTCTTCACAGTT
GGAGGCCTAACTGGAATTGTTCTAGCCAACTCTTCTCTTGACATTGTTCTTCATGATACATACTATGTAG
TCGCACATTTCCACTATGTCCTATCTATAGGAGCTGTATTCGCTATCATAGGAGGATTTGTACATTGATT
TCCACTATTCTCAGGCTATACTCTAAACATAACATGAGCCAAAATCCATTTCGCAATTATGTTTGTAGGC
GTAAACATAACATTCTTCCCACAACACTTCTTAGGCCTATCTGGCATACCACGACGATATTCTGATTATC
CAGACGCATACACGATATGAAATACTATCTCATCTATAGGCTCATTTATTTCACTAACAGCAGTAATACT
AATAATTTTCATTATCTGAGAGGCATTTGCATCCAAACGGGAAGTCTCGACTGTAGACCTAACTACGACC
AACCTAGAGTGACTAAACGGATGTCCCCCACCATACCACACATTTGAAGAACCCGCATACGTAAACCTAA
AATAAGAAAGGAAGGAATCGAACCCCCTATAATTGGTTTCAAGCCAACACCATAACCACTATGTCTTTCT
CAATTAATGAGGTGTTAGTAAAACATTACATAACCTTGTCAAGATTAAATTACAGGTGAAAATCCCGTAC
ATCTCATATGGCATACCCCATACAACTAGGATTTCAAGACGCAACATCACCTATTATAGAAGAATTATTA
CATTTCCATGACCATACACTAATAATCGTCTTTTTAATTAGTTCATTGGTACTTTATATTATTTCCCTGA
TACTGACAACAAAGTTAACCCATACTAGTACTATAGATGCACAAGAAGTAGAAACAATCTGAACCATTTT
GCCAGCCATCATTTTGATCATAATTGCTCTCCCATCTTTACGAATTTTATATATAATAGACGAAATCAAC
AACCCATCTCTCACAGTAAAGACCATAGGACATCAGTGATACTGAAGCTACGAATACACAGATTACGAAG
ACTTAAGCTTCGACTCCTACATAATTCCAACATCAGAATTAAAACCAGGAGAACTACGACTACTGGAAGT
GGACAATCGAGTCGTATTACCCATAGAAATAACAATTCGAATACTAATTTCCTCCGAAGACGTATTGCAC
TCATGAGCAGTACCCTCTCTAGGACTGAAAACAGACGCAATTCCAGGCCGTCTAAACCAAACAACCCTTA
TATCAACCCGACCGGGACTATACTACGGCCAATGTTCAGAAATCTGCGGGTCAAATCACAGTTTTATACC
AATTGTCCTCGAACTAGTCCCACTAAAATATTTTGAAAAGTGATCTGCATCAATACTATAATATCGCCAA
GAAGCTATATCAGCGTTAACCTTTTAAGCTAAAGATTGAGAGCATATTAACTCTCCTTGACGACATGCCA
CAACTAGATACATCAACATGACTCACAATAATCTTATCAATATTTCTAGTCCTCTTTATTATTTTCCAAA
TAAAAATTTCAAAACATAAATTCTACTACAACCCAGAATTAACATCAATAGAAACACCAAAGCAAAACAC
CCCCTGAGAAACAAAATGAACGAAAATCTATTTGCCTCTTTCATTGCCCCTATAATTCTAGGCCTTCCCC
TTGTTACCCTAATCGTCTTATTCCCCAGCCTACTGTTTCCTACATCAAACCGACTAATTAACAATCGTCT
TATCTCCCTCCAACAATGAATACTCCAACTTGTATCAAAACAAATAATAAGCATTCACAATGCCAAAGGA
CAAACATGAACACTAATACTAATATCCCTAATTCTATTTATTGGATCAACAAACCTACTAGGCCTACTAC
CCCACTCATTTACACCAACTACACAACTATCAATAAATCTGGGTATAGCTATTCCTCTATGAGCAGGAGC
TGTCATTACAGGCTTCCGTAACAAAACTAAAGCATCACTTGCCCATTTCTTGCCACAAGGGACACCAACC
CCACTGATTCCAATGTTAGTAATTATTGAGACTATCAGCCTTTTCATCCAACCAATAGCCCTTGCTGTAC
GACTAACAGCTAATATCACAGCAGGACACCTACTAATTCATTTAATCGGAGGAGCCACCCTAGCACTAAT
AAATATTAGCACCGCAACTGCCCTTATTACGTTCATTATCCTAATTCTACTAACAATTCTCGAATTCGCA
GTAGCTATAATTCAAGCTTACGTATTTACCCTCTTAGTCAGCCTATACCTGCACGATAACACGTAATGAC
ACACCAAACCCATGCTTACCACATAGTAAACCCAAGCCCCTGACCCCTCACAGGAGCATTATCCGCCCTC
TTAATAACGTCTGGTTTAATTATATGATTTCACTTCAACTCAATGACCCTATTAATGCTTGGCCTAACAA
CAAACATATTAACAATATATCAATGATGGCGGGACATCATCCGAGAAAGTACATTTCAAGGTCACCACAC
CCCGACCGTCCAAAAAGGCCTTCGCTACGGAATAATTCTATTTATTATTTCAGAAGTCCTATTCTTTACC
GGATTCTTCTGAGCATTTTACCACTCAAGTCTTGCCCCCACACCCGAACTAGGTGGCTGCTGGCCCCCAA
CAGGTATTCACCCACTCAATCCCCTAGAAGTCCCATTACTCAACACTTCCGTCCTTCTAGCCTCAGGAGT
CTCAATCACTTGAGCCCACCACAGCCTTATAGAAGGAAACCGCAACCACATGCTACAAGCCCTATTCATC
ACCATTGCCCTAGGTGTATACTTCACACTCCTACAAGCCTCAGAATATTACGAAGCACCCTTTACCATCT
CAGACGGCGTCTACGGCTCGACCTTTTTCGTAGCCACTGGATTCCATGGCCTCCATGTAATTATTGGATC
TACTTTCTTAATCGTCTGCTTTTTCCGTCAACTAAAATTTCACTTTACCTCAAGTCACCACTTTGGCTTC
GAAGCAGCTGCCTGATACTGACATTTCGTAGACGTAGTATGACTTTTCCTCTATGTTTCTATTTATTGAT
GAGGATCATGTTCTTTTAGTATTAATTAGTACAACTGACTTCCAATCAGTTAGTTTCGGTCTAATCCGAA
AAAGAATAATAAACCTAATAATAGCCCTCCTAACTAACCTCACACTAACTACACTACTCGTCACTATTGC
ATTCTGACTTCCCCAGTTAAATGTATACTCAGAAAAAACAAGCCCATACGAATGTGGATTTGATCCTATA
GGATCAGCCCGCCTCCCTTTCTCCATAAAATTTTTCCTAGTAGCCATCACATTCCTCCTCTTTGACTTAG
AAATTGCACTACTCCTGCCATTACCATGAGCTTCACAAACAACTAACCTAAACACAATACTTACCATGGC
CCTCCTTCTAATCTTTCTACTAGCTGTTAGCCTGGCCTACGAATGAACCCAAAAAGGACTAGAATGAACT
GAATATGGTACTTAGTTTAAAATAAAATAAATGATTTCGACTCATTAGATTATGATTAAACTCATAATTA
CCAAATGTCCCTCGTACACATAAATATTATAATAGCATTCGCAGTATCTCTCACAGGATTACTAATATAT
CGATCTCACCTAATATCATCCCTTTTATGCCTTGAAGGAATAATATTATCCTTATTTATCATAGCCGCCC
TAATAATCCTAAATTCACACTTTACCCTAGCCAGCATAATACCCATCATCCTACTAGTATTTGCAGCCTG
CGAAGCAGCACTGGGCCTATCCCTACTAGTCATGGTCTCAAACACATATGGCACTGATTACGTACAAAAC
CTTAACTTACTACAATGCTAAAATATATTATCCCCACAGCAATACTCGTACCCCTGACCTGATTATCAAA
AAATAATATAATCTGAATTAACCCCACCCTCCACAGCCTACTAATCAGCCTCACAAGTCTACTCCTCCTA
AATCAATTCAACGATAATAGCCTCAACTTTTCATTAATCTTTTTCTCCGATTCTTTATCTATACCACTAC
TCATTCTAACTATATGACTTCTCCCTCTGATATTAATGGCTAGCCAACATCATCTATCAAAAGAAAACCT
GACCCGAAAAAAACTATTTATCTCCATACTAATTCTATTACAACTATTTCTAATCATAACATTCACTGCC
ACAGAGCTGATCTTCTTTTATATTATATTCGAAACAACACTAGTCCCAACACTCATTATTATTACTCGAT
GAGGAAATCAAACAGAACGTCTAAACGCTGGCCTCTACTTCCTGTTCTATACACTAACGGGGTCCCTACC
CCTACTAGTCGCGCTAATCCATATTCAAGACATAATAGGATCCTTGAACTTCCTGATCCTCCAATACTGA
GTCCAACCAATACCCAACTCTTGATCCAACATTTTCATATGATTGGCATGCATAATAGCCTTTATAGTAA
AAATACCACTATACGGCCTCCACCTTTGACTACCTAAAGCTCATGTGGAAGCCCCCATTGCAGGCTCTAT
AGTCCTCGCAGCAATCTTACTAAAACTAGGAGGATATGGTATATTACGAATTACATTAATCTTAAATCCA
GTAACCGACTTTATAGCATATCCCTTTATCATATTATCCCTATGAGGCATAATCATGACTAGCTCAATCT
GTCTCCGCCAAACGGATCTGAAGTCACTTATCGCATACTCCTCCGTCAGCCACATAGCACTGGTTATCGT
AGCCATCCTTATCCAAACACCCTGAAGCTATATAGGGGCTACCGCCTTAATAATCGCTCATGGCCTCACA
TCCTCCATACTTTTTTGCCTGGCAAATTCTAACTATGAACGTATTCATAGCCGTACAATAATTCTAGCTC
GCGGCCTACAAACACTTCTCCCACTCATAGCAACCTGATGACTCCTAGCAAGCCTAACCAACCTGGCTCT
ACCCCCAACAATTAATCTAATCGGAGAATTATTCGTAGTAATATCAACCTTCTCATGATCCAACATCACA
GTCATCTTAATAGGACTCAACATAGTAATCACTGCCCTATACTCCCTCTACATATTAATCACAACACAAC
GAGGCAAATATACCCACCATATCAACAGCATCTCACCTTCCTTTACACGAGAAAATGCACTCATATCACT
ACATATTCTACCACTGCTACTCCTATCCCTAAACCCAAAAATTATCCTAGGCCCCTTATACTGTGAATAT
AGTTTAAAAAAAACATTAGATTGTGAATCTAACAATAGAAGCCTACTATCTTCTTATTTACCGAAAAAGT
ACGCAAGAACTGCTAATTCTATGCCCCCATGCCTAACAACATGGCTTTTTCAAACTTTTAAAGGATGGTA
GTTATCCATTGGTCTTAGGAACCAAAAAATTGGTGCAACTCCAAATAAAAGTAATAAATATATTCTCCTC
CTTCGCACTAATAACCCTACTCCTACTAACCGTGCCCATCATAATAGCAAGCTCCAGCACCCACAAAACC
CCTAACTACCCACTTTACGTAAAAACAACTGTCTCATGTGCCTTCATCACCAGCATAATTCCCACAGTAA
TATTTATTCACACAGGACAGGAAATAATTATCTCAAACTGACACTGATTAACTATCCAAACCCTTAAGTT
ATCACTCAGTTTTAAAATAGACTACTTCTCAATAATATTTGTCCCAGTAGCATTATTCGTCACATGATCC
ATCCTAGAATTCTCAATATGATATATACACTCAGACCCTAACATCAACCAATTCTTTAAATATATACTCT
TATTCCTAATCACCATACTCATCCTTGTTACCGCAAATAATCTCTTTCAACTGTTCATCGGCTGAGAAGG
GGTGGGAATTATATCTTTCCTACTTATCGGATGATGGTACGGACGAGCAGATGCAAACACAGCAGCCCTG
CAAGCAATCCTATATAACCGCATTGGCGACATTGGATTCGTCTTAGCAATAGCATGATTTCTAACCAATC
TCAACACTTGGGACCTTCAACAAATTTTCATACTAGAACCAAACAACTCAAACCTACCCCTAATAGGCCT
AGTATTAGCTGCAACAGGAAAATCCGCACAATTCGGCCTACACCCATGACTACCCTCCGCAATAGAAGGT
CCAACTCCTGTCTCAGCATTACTTCACTCAAGCACAATAGTGGTAGCAGGCATTTTCCTGCTTATTCGCT
TCTACCCGCTAACAGAAAACAACAAACCCGTTCAATCTATCATATTATGCCTAGGAGCTATCACCACATT
ATTCACAGCAATATGCGCCCTCACCCAAAACGATATTAAGAAAATTGTTGCCTTTTCTACATCCAGCCAA
CTAGGCCTTATGATAGTAACAATCGGCATTAATCAACCCTATCTAGCATTTCTTCACATCTGCACCCACG
CCTTTTTCAAAGCTATACTATTTATATGCTCCGGCTCTATTATCCACAGCCTAAATGACGAACAGGACAT
CCGAAAAATGGGAGGCCTATTTAAAGCAATACCATTTACCACAACAGCCCTTATTATTGGCAGCCTCGCA
CTCACAGGAATACCCTTCCTTACCGGATTTTACTCTAAAGATCTAATCATCGAATCTGCCAATACGTCGT
ATACCAACGCCTGAGCCCTTTTAATAACACTAATCGCCACCTCTTTCACAGCCATCTATAGCACACGTAT
TATTTTCTTCGCTCTACTAGGACAGCCCCGATTTATAACCCTTATTACCATCAACGAAAATAATCCTTTC
CTAATTAACTCAATCAAACGCCTACTAATTGGAAGCCTCTTCGCAGGGTTCATTATTTCCAATAATATTC
CCCCAACAACAATTCCCCAAATAACTATACCCCACTACCTAAAACTAACAGCCCTAACGGTCACAATCCT
GGGTTTTATCCTAGCACTAGAGATCAGCAATATAACCCACAACCTAAAATTTAACTATCCATCAAACACC
TTTAAATTCTCCAACCTACTAGGATATTATCCCACAATTATGCACCGCCTAACTCCCTATATAAATCTAA
CAATAAGCCAAAAATCAGCATCATCTCTCCTAGACCTAATCTGACTAGAAAACATCTTACCAAAAACCAT
CTCATCCACCCAAATAAAAATATCCACTATAGTCACAAACCAAAAAGGCCTAATCAAATTATATTTCCTT
TCTTTCCTAATTACTATCCTTACCAGCACAATCCTACTTAATTTCCACGAGTAATCTCCATAATAACCAC
AACACCAATTAACAGGGATCAGCCAGTCACAATAACCAATCAAGTACCATAACTGTATAAGGCCGCAATA
CCCATAGCCTCCTCACTAAAAAATCCAGAGTCCCCAGTGTCGTAAATAACCCAATCTCCTACCCCATTAA
ACTTGAACACAATTTCAACCTCCTCATCCTTTAACACATAATAAACCATTAAAAATTCCATCAATAACCC
AGTAACAAATGCTCCTAAAACAGTCTTATTAGAAACTCAAACCTCAGGGTATTGCTCAGTAGCCATAGCC
GTTGTATAACCAAAAACCACCATCATACCCCCTAAATAAATCAAAAAAACCATTAAACCTAAGAAAGACC
CACCAAAATTCAACACGATGCCACACCCAACCCCACCGCTCACAATTAACCCCAATCCCCCATAAATAGG
TGAAGGCTTTGAAGAAAATCCCACAAAACCAATCACAAAAATAATACTTAAGATAAATACAATGTATACT
ATCATTATTCTCACATGGAATCTAACCACGACTAATGATATGAAAAACCATCGTTGTCATTCAACTACGA
GAACATTAATGACCAACATTCGAAAAACTCACCCACTAATAAAAATTGTAAACAACGCATTCATCGACCT
CCCAACCCCATCAAACATCTCATCATGATGAAACTTTGGCTCCCTGCTAGGTGTCTGCCTAATTCTGCAA
ATTCTAACAGGTCTATTCCTAGCAATACACTATACATCTGACACAACAACAGCATTTTCCTCTGTCACCC
ACATTTGCCGAGACGTCAACTATGGCTGAATCATCCGATACATACACGCAAACGGAGCATCAATATTTTT
CATCTGCCTGTTCATACACGTAGGACGAGGCCTCTACTATGGGTCATATACTTTCTTAGAAACATGAAAC
ATCGGAGTAATCCTTTTATTCGCAACAATAGCTACAGCATTTATAGGCTACGTCCTACCATGAGGACAAA
TATCATTTTGAGGGGCAACAGTCATCACTAACCTTCTCTCAGCAATCCCATACATCGGCACAAACCTAGT
CGAATGGATTTGAGGGGGATTCTCCGTAGACAAAGCAACCCTCACCCGATTCTTCGCCTTCCACTTTATT
CTCCCCTTTATTATCGCTGCCCTTGCCATAGTCCATCTACTCTTTCTCCACGAAACAGGCTCCAACAACC
CTACAGGAAGTTCATCAGACACAGACAAGATCCCATTCCACCCCTATTATACCATTAAAGACATCTTAGG
CGCCCTATTACTAATCCTCAGCCTCATGCTACTAGTATTATTCGCACCCGACCTACTTGGAGACCCAGAC
AATTATACCCCAGCAAATCCACTTAACACACCCCCTCACATCAAACCCGAATGATACTTCTTATTTGCAT
ACGCAATCTTACGATCAATCCCCAACAAACTAGGAGGGGTCCTAGCCCTAGTCCTCTCAATCCTAATCCT
GGTACTCGTACCCACACTCCACACATCCAAACAACGAAGCATGATATTCTGACCAATCAGCCAATGTGTT
TTTTGAATCTTAGTAGCAGACTTATTAACACTTACATGAATCGGTGGACAACCAGTTGAACACCCATACA
TTATCATCGGACAATTAGCATCTATCATATATTTCCTACTTATTCTAGTACTCATACCAGTAGCTAGTGC
CATTGAAAACAACCTTCTAAAATGAAGACAAGTCTTTGTAGTATATTTAATACATTGGTCTTGTAAACCA
AAAAAGGAGAACAACCAACCCCCCTAAGACTCAAGGAAGAAGCTATAGCCCCACTATCAACACCCAAAGC
TGAAGTTCTATTTAAACTACTCCCTGAAGCACTATCAATATATCTCCATAAACACTAAGAGCCTTCCCAG
TATTAAACCATCTAAAACTCCTAAAAAATCAACACAAACCTTCCACCCCATAACCCACGCACCTGCACGC
GAAAAATTTCATAACACTACCATAAACAAATACCACGTGTACATGCCATGCCCACATAACCCACCTTACC
GTACGTGAACCAACACGTACACAATCACCACGGACATGGCATACTCACAATATGCCAAGCGACCTATTCA
TGTATAGACCAGTATATGCAAACCGATGTATTACAGACATGACATGTATACAGTACATTAAACAATCATA
CACGCCAGAAATGTGCAGAACACATTAATATCCTACAAATACTGTATATAGTACATTAAATGGTTTATCT
CACGCGCTGATGTACTGAAGACATAGTATGTACGCGGTACATCAAACAGCTTGCTCATGCGCATTAAGCC
AGTACATATAAATTAATGTACTCCGGACATAATATGTATATATTACATTAAATTATTGTCCCCATGCGTA
TAAGCCAGTACAATTTACATAATAACCGTACATAAGACATAATATGTTTAATCGTACATAGCACATTCAA
GTCAAATCCATTCTCGTCAACATGCGTATCCCGCCCACTAGATCACGAGCTTAACTACCATGCCGCGTGA
AACCAACAACCCGCTCGGCAAGGATCCCTCTTCTCGCTCCGGGCCCATTACTTGTGGGGGTAGCTAACGA
ATGAACTTTATCAGACATCTGGTTCTTTCTTCAGGGCCATCTCATCTAAAACCGCCCACTCTTTCCCCTT
AAATAAGACATCTCGATGGACTAATGACTAATCAGCCCATGCCGACACATAACTGTGCTGTCATGCATTT
GGTATTTTTTAATTTTCGGGGATGCTTGGACTCAGCTATGGCCGTCTGAGGCCCCGACACGGAGCATATA
TTGTAGCTGGACTTAACTGCATCTTGAGCATCACCATAATGGTAGGCAAGAGCATCACGCTTGAATGGTA
GCAGGACATGGTCTGTCATTAAGCATGAATATTATAGTCAATGGTCACAGGACATAAACACTATACATCC
CCCAGGCCTTCCCCTATATATTTACCCCGTTTTCAACATACTCCCCCCAAGATACTAATTTGAATTTATC
CTACTCCCAATACTTAAATTAGCACTCCAAATAAGGTAAGTATATAAGCACCTAGACCATCCTACAACAC
A


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.