Viewing data for Lama glama


Scientific name Lama glama
Common name Llama
Maximum lifespan 28.90 years (Lama glama@AnAge)

Total mtDNA (size: 16597 bases) GC AT G C A T
Base content (bases) 6781 9816 4361 2420 4546 5270
Base content per 1 kb (bases) 409 591 263 146 274 318
Base content (%) 40.9% 59.1%
Total protein-coding genes (size: 11345 bases) GC AT G C A T
Base content (bases) 4624 6721 3123 1501 3241 3480
Base content per 1 kb (bases) 408 592 275 132 286 307
Base content (%) 40.8% 59.2%
D-loop (size: 1163 bases) GC AT G C A T
Base content (bases) 533 630 355 178 270 360
Base content per 1 kb (bases) 458 542 305 153 232 310
Base content (%) 45.8% 54.2%
Total tRNA-coding genes (size: 1500 bases) GC AT G C A T
Base content (bases) 575 925 318 257 412 513
Base content per 1 kb (bases) 383 617 212 171 275 342
Base content (%) 38.3% 61.7%
Total rRNA-coding genes (size: 2536 bases) GC AT G C A T
Base content (bases) 1024 1512 549 475 612 900
Base content per 1 kb (bases) 404 596 216 187 241 355
Base content (%) 40.4% 59.6%
12S rRNA gene (size: 968 bases) GC AT G C A T
Base content (bases) 418 550 231 187 213 337
Base content per 1 kb (bases) 432 568 239 193 220 348
Base content (%) 43.2% 56.8%
16S rRNA gene (size: 1568 bases) GC AT G C A T
Base content (bases) 606 962 318 288 399 563
Base content per 1 kb (bases) 386 614 203 184 254 359
Base content (%) 38.6% 61.4%

ATP6 (size: 681 bases) GC AT G C A T
Base content (bases) 265 416 184 81 206 210
Base content per 1 kb (bases) 389 611 270 119 302 308
Base content (%) 38.9% 61.1%
ATP8 (size: 204 bases) GC AT G C A T
Base content (bases) 71 133 55 16 54 79
Base content per 1 kb (bases) 348 652 270 78 265 387
Base content (%) 34.8% 65.2%
COX1 (size: 1545 bases) GC AT G C A T
Base content (bases) 673 872 400 273 451 421
Base content per 1 kb (bases) 436 564 259 177 292 272
Base content (%) 43.6% 56.4%
COX2 (size: 684 bases) GC AT G C A T
Base content (bases) 276 408 165 111 192 216
Base content per 1 kb (bases) 404 596 241 162 281 316
Base content (%) 40.4% 59.6%
COX3 (size: 784 bases) GC AT G C A T
Base content (bases) 353 431 229 124 228 203
Base content per 1 kb (bases) 450 550 292 158 291 259
Base content (%) 45.0% 55.0%
CYTB (size: 1140 bases) GC AT G C A T
Base content (bases) 476 664 317 159 327 337
Base content per 1 kb (bases) 418 582 278 139 287 296
Base content (%) 41.8% 58.2%
ND1 (size: 957 bases) GC AT G C A T
Base content (bases) 395 562 273 122 283 279
Base content per 1 kb (bases) 413 587 285 127 296 292
Base content (%) 41.3% 58.7%
ND2 (size: 1044 bases) GC AT G C A T
Base content (bases) 388 656 280 108 292 364
Base content per 1 kb (bases) 372 628 268 103 280 349
Base content (%) 37.2% 62.8%
ND3 (size: 350 bases) GC AT G C A T
Base content (bases) 137 213 96 41 109 104
Base content per 1 kb (bases) 391 609 274 117 311 297
Base content (%) 39.1% 60.9%
ND4 (size: 1378 bases) GC AT G C A T
Base content (bases) 570 808 398 172 384 424
Base content per 1 kb (bases) 414 586 289 125 279 308
Base content (%) 41.4% 58.6%
ND4L (size: 297 bases) GC AT G C A T
Base content (bases) 114 183 75 39 96 87
Base content per 1 kb (bases) 384 616 253 131 323 293
Base content (%) 38.4% 61.6%
ND5 (size: 1821 bases) GC AT G C A T
Base content (bases) 733 1088 517 216 517 571
Base content per 1 kb (bases) 403 597 284 119 284 314
Base content (%) 40.3% 59.7%
ND6 (size: 528 bases) GC AT G C A T
Base content (bases) 193 335 148 45 125 210
Base content per 1 kb (bases) 366 634 280 85 237 398
Base content (%) 36.6% 63.4%

ATP6 (size: 681 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 11 (4.87%)
Alanine (Ala, A)
n = 16 (7.08%)
Serine (Ser, S)
n = 12 (5.31%)
Threonine (Thr, T)
n = 27 (11.95%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 14 (6.19%)
Leucine (Leu, L)
n = 40 (17.7%)
Isoleucine (Ile, I)
n = 20 (8.85%)
Methionine (Met, M)
n = 16 (7.08%)
Proline (Pro, P)
n = 13 (5.75%)
Phenylalanine (Phe, F)
n = 13 (5.75%)
Tyrosine (Tyr, Y)
n = 3 (1.33%)
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 = 11 (4.87%)
Glutamine (Gln, Q)
n = 7 (3.1%)
Histidine (His, H)
n = 7 (3.1%)
Lysine (Lys, K)
n = 4 (1.77%)
Arginine (Arg, R)
n = 5 (2.21%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
14 6 13 5 5 20 2 8 6 1 6 2 6 0 8 5
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 0 0 5 7 4 0 0 3 7 1 4 4 4 1 6
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
10 9 2 4 1 3 0 2 2 1 2 2 0 7 4 5
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 3 0 0 1 3 1 0 2 3 0 0 0 1 0 1
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
45 64 82 36
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
23 64 37 103
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
13 56 91 67
ATP8 (size: 204 bases)
Amino acid sequence: MPQLDTSTWFITILSMLMTLFILFQLKLSKHIYYPTPEPKFSKTHKQNTPWETKWTKIYLPLLLPQQ*
Amino acid frequencies:
Glycine (Gly, G)
n = 0 (0%)
Alanine (Ala, A)
n = 0 (0%)
Serine (Ser, S)
n = 4 (5.97%)
Threonine (Thr, T)
n = 9 (13.43%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 0 (0%)
Leucine (Leu, L)
n = 11 (16.42%)
Isoleucine (Ile, I)
n = 5 (7.46%)
Methionine (Met, M)
n = 3 (4.48%)
Proline (Pro, P)
n = 7 (10.45%)
Phenylalanine (Phe, F)
n = 4 (5.97%)
Tyrosine (Tyr, Y)
n = 3 (4.48%)
Tryptophan (Trp, W)
n = 3 (4.48%)
Aspartic acid (Asp, D)
n = 1 (1.49%)
Glutamic acid (Glu, E)
n = 2 (2.99%)
Asparagine (Asn, N)
n = 1 (1.49%)
Glutamine (Gln, Q)
n = 5 (7.46%)
Histidine (His, H)
n = 2 (2.99%)
Lysine (Lys, K)
n = 7 (10.45%)
Arginine (Arg, R)
n = 0 (0%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
2 3 2 1 2 3 1 3 5 0 0 0 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 3 2 1 1
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
2 2 4 1 0 2 0 1 0 3 0 0 1 0 1 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
1 1 1 0 1 7 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
3 21 26 18
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
4 19 22 23
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
9 15 31 13
COX1 (size: 1545 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 48 (9.34%)
Alanine (Ala, A)
n = 40 (7.78%)
Serine (Ser, S)
n = 30 (5.84%)
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 = 61 (11.87%)
Isoleucine (Ile, I)
n = 39 (7.59%)
Methionine (Met, M)
n = 30 (5.84%)
Proline (Pro, P)
n = 28 (5.45%)
Phenylalanine (Phe, F)
n = 41 (7.98%)
Tyrosine (Tyr, Y)
n = 19 (3.7%)
Tryptophan (Trp, W)
n = 17 (3.31%)
Aspartic acid (Asp, D)
n = 16 (3.11%)
Glutamic acid (Glu, E)
n = 10 (1.95%)
Asparagine (Asn, N)
n = 17 (3.31%)
Glutamine (Gln, Q)
n = 7 (1.36%)
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
20 19 21 2 6 29 9 14 4 3 13 7 16 2 16 25
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
9 1 0 8 15 17 0 7 13 22 6 5 11 11 1 12
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
8 15 3 6 11 9 1 2 1 9 10 3 1 6 11 3
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
14 6 4 9 7 8 1 2 3 3 0 0 0 0 1 14
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
152 106 136 121
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
77 133 96 209
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
44 161 189 121
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 = 18 (7.93%)
Threonine (Thr, T)
n = 19 (8.37%)
Cysteine (Cys, C)
n = 2 (0.88%)
Valine (Val, V)
n = 17 (7.49%)
Leucine (Leu, L)
n = 31 (13.66%)
Isoleucine (Ile, I)
n = 17 (7.49%)
Methionine (Met, M)
n = 15 (6.61%)
Proline (Pro, P)
n = 14 (6.17%)
Phenylalanine (Phe, F)
n = 8 (3.52%)
Tyrosine (Tyr, Y)
n = 11 (4.85%)
Tryptophan (Trp, W)
n = 5 (2.2%)
Aspartic acid (Asp, D)
n = 11 (4.85%)
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 = 6 (2.64%)
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
8 9 8 3 2 16 3 7 5 1 4 6 5 2 5 3
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
7 1 1 2 3 2 1 2 2 4 0 4 1 8 1 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 9 1 4 3 5 1 1 4 7 4 1 0 3 2 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
4 9 6 7 4 4 1 0 2 3 1 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
59 56 66 47
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
26 54 60 88
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
26 55 90 57
COX3 (size: 784 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 19 (7.31%)
Alanine (Ala, A)
n = 16 (6.15%)
Serine (Ser, S)
n = 25 (9.62%)
Threonine (Thr, T)
n = 20 (7.69%)
Cysteine (Cys, C)
n = 2 (0.77%)
Valine (Val, V)
n = 16 (6.15%)
Leucine (Leu, L)
n = 35 (13.46%)
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 = 6 (2.31%)
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
10 3 5 4 5 18 1 7 5 2 3 7 5 1 9 13
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
4 0 2 5 9 2 0 1 7 10 1 4 4 2 2 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
7 9 0 3 8 5 1 2 6 4 8 1 0 5 1 4
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
13 5 3 2 1 2 0 0 1 4 0 0 0 0 0 11
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
62 69 58 72
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
46 65 55 95
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
16 95 90 60
CYTB (size: 1140 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 26 (6.86%)
Alanine (Ala, A)
n = 26 (6.86%)
Serine (Ser, S)
n = 24 (6.33%)
Threonine (Thr, T)
n = 25 (6.6%)
Cysteine (Cys, C)
n = 4 (1.06%)
Valine (Val, V)
n = 19 (5.01%)
Leucine (Leu, L)
n = 58 (15.3%)
Isoleucine (Ile, I)
n = 41 (10.82%)
Methionine (Met, M)
n = 13 (3.43%)
Proline (Pro, P)
n = 23 (6.07%)
Phenylalanine (Phe, F)
n = 25 (6.6%)
Tyrosine (Tyr, Y)
n = 15 (3.96%)
Tryptophan (Trp, W)
n = 12 (3.17%)
Aspartic acid (Asp, D)
n = 11 (2.9%)
Glutamic acid (Glu, E)
n = 6 (1.58%)
Asparagine (Asn, N)
n = 16 (4.22%)
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 = 8 (2.11%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
24 17 7 6 6 33 2 9 4 2 2 7 10 0 9 16
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
6 0 4 3 10 13 0 2 9 13 2 3 9 10 1 3
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 17 0 6 7 7 2 0 2 7 8 0 2 8 8 5
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
7 6 0 2 9 8 1 2 1 5 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
88 96 107 89
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
53 96 75 156
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
18 125 155 82
ND1 (size: 957 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 13 (4.09%)
Alanine (Ala, A)
n = 31 (9.75%)
Serine (Ser, S)
n = 18 (5.66%)
Threonine (Thr, T)
n = 25 (7.86%)
Cysteine (Cys, C)
n = 1 (0.31%)
Valine (Val, V)
n = 17 (5.35%)
Leucine (Leu, L)
n = 52 (16.35%)
Isoleucine (Ile, I)
n = 25 (7.86%)
Methionine (Met, M)
n = 21 (6.6%)
Proline (Pro, P)
n = 22 (6.92%)
Phenylalanine (Phe, F)
n = 20 (6.29%)
Tyrosine (Tyr, Y)
n = 11 (3.46%)
Tryptophan (Trp, W)
n = 9 (2.83%)
Aspartic acid (Asp, D)
n = 4 (1.26%)
Glutamic acid (Glu, E)
n = 11 (3.46%)
Asparagine (Asn, N)
n = 12 (3.77%)
Glutamine (Gln, Q)
n = 7 (2.2%)
Histidine (His, H)
n = 4 (1.26%)
Lysine (Lys, K)
n = 7 (2.2%)
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 13 16 8 8 28 0 8 6 1 3 6 7 1 15 5
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 0 1 12 11 7 1 4 5 4 0 4 10 7 1 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
10 11 0 4 6 6 1 0 1 4 7 1 0 7 5 3
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
1 9 2 1 3 7 0 0 1 6 1 0 0 1 0 8
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
76 85 91 67
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
32 95 57 135
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
14 93 131 81
ND2 (size: 1044 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 16 (4.61%)
Alanine (Ala, A)
n = 17 (4.9%)
Serine (Ser, S)
n = 30 (8.65%)
Threonine (Thr, T)
n = 38 (10.95%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 15 (4.32%)
Leucine (Leu, L)
n = 52 (14.99%)
Isoleucine (Ile, I)
n = 32 (9.22%)
Methionine (Met, M)
n = 41 (11.82%)
Proline (Pro, P)
n = 19 (5.48%)
Phenylalanine (Phe, F)
n = 14 (4.03%)
Tyrosine (Tyr, Y)
n = 11 (3.17%)
Tryptophan (Trp, W)
n = 10 (2.88%)
Aspartic acid (Asp, D)
n = 1 (0.29%)
Glutamic acid (Glu, E)
n = 5 (1.44%)
Asparagine (Asn, N)
n = 16 (4.61%)
Glutamine (Gln, Q)
n = 11 (3.17%)
Histidine (His, H)
n = 3 (0.86%)
Lysine (Lys, K)
n = 12 (3.46%)
Arginine (Arg, R)
n = 4 (1.15%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
20 12 36 5 10 23 6 8 10 1 3 5 6 1 8 6
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 0 0 2 7 8 0 1 5 8 2 3 9 7 0 11
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
11 15 1 5 9 11 1 0 4 4 7 0 0 6 10 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
3 5 0 0 1 10 2 0 0 4 0 0 0 0 1 10
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
54 81 143 70
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
34 100 60 154
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
20 99 161 68
ND3 (size: 1044 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 16 (4.61%)
Alanine (Ala, A)
n = 17 (4.9%)
Serine (Ser, S)
n = 30 (8.65%)
Threonine (Thr, T)
n = 38 (10.95%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 15 (4.32%)
Leucine (Leu, L)
n = 52 (14.99%)
Isoleucine (Ile, I)
n = 32 (9.22%)
Methionine (Met, M)
n = 41 (11.82%)
Proline (Pro, P)
n = 19 (5.48%)
Phenylalanine (Phe, F)
n = 14 (4.03%)
Tyrosine (Tyr, Y)
n = 11 (3.17%)
Tryptophan (Trp, W)
n = 10 (2.88%)
Aspartic acid (Asp, D)
n = 1 (0.29%)
Glutamic acid (Glu, E)
n = 5 (1.44%)
Asparagine (Asn, N)
n = 16 (4.61%)
Glutamine (Gln, Q)
n = 11 (3.17%)
Histidine (His, H)
n = 3 (0.86%)
Lysine (Lys, K)
n = 12 (3.46%)
Arginine (Arg, R)
n = 4 (1.15%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
20 12 36 5 10 23 6 8 10 1 3 5 6 1 8 6
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 0 0 2 7 8 0 1 5 8 2 3 9 7 0 11
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
11 15 1 5 9 11 1 0 4 4 7 0 0 6 10 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
3 5 0 0 1 10 2 0 0 4 0 0 0 0 1 10
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
54 81 143 70
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
34 100 60 154
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
20 99 161 68
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 = 41 (8.95%)
Threonine (Thr, T)
n = 36 (7.86%)
Cysteine (Cys, C)
n = 3 (0.66%)
Valine (Val, V)
n = 15 (3.28%)
Leucine (Leu, L)
n = 93 (20.31%)
Isoleucine (Ile, I)
n = 38 (8.3%)
Methionine (Met, M)
n = 38 (8.3%)
Proline (Pro, P)
n = 21 (4.59%)
Phenylalanine (Phe, F)
n = 16 (3.49%)
Tyrosine (Tyr, Y)
n = 20 (4.37%)
Tryptophan (Trp, W)
n = 13 (2.84%)
Aspartic acid (Asp, D)
n = 4 (0.87%)
Glutamic acid (Glu, E)
n = 9 (1.97%)
Asparagine (Asn, N)
n = 22 (4.8%)
Glutamine (Gln, Q)
n = 11 (2.4%)
Histidine (His, H)
n = 9 (1.97%)
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 21 28 10 14 47 14 7 9 2 4 6 4 1 6 10
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
10 1 2 6 10 15 1 2 8 6 1 4 14 3 0 6
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
11 17 2 5 12 11 0 5 8 9 11 2 1 13 9 5
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
4 7 2 1 3 8 3 1 2 7 0 0 0 0 0 11
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
77 136 158 88
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
56 117 86 200
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
39 145 180 95
ND4L (size: 297 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 4 (4.08%)
Alanine (Ala, A)
n = 8 (8.16%)
Serine (Ser, S)
n = 10 (10.2%)
Threonine (Thr, T)
n = 5 (5.1%)
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 = 6 (6.12%)
Methionine (Met, M)
n = 14 (14.29%)
Proline (Pro, P)
n = 1 (1.02%)
Phenylalanine (Phe, F)
n = 4 (4.08%)
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
3 3 12 3 3 12 3 1 2 0 0 0 5 0 3 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
2 2 1 1 2 4 1 1 3 0 0 1 0 0 0 1
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
2 1 1 4 3 1 0 1 1 1 3 0 0 2 2 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 1 1 1 0 0 0 0 0 0 1 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
20 27 31 21
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
10 22 16 51
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
9 26 40 24
ND5 (size: 1821 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 26 (4.29%)
Alanine (Ala, A)
n = 44 (7.26%)
Serine (Ser, S)
n = 43 (7.1%)
Threonine (Thr, T)
n = 53 (8.75%)
Cysteine (Cys, C)
n = 6 (0.99%)
Valine (Val, V)
n = 24 (3.96%)
Leucine (Leu, L)
n = 95 (15.68%)
Isoleucine (Ile, I)
n = 59 (9.74%)
Methionine (Met, M)
n = 35 (5.78%)
Proline (Pro, P)
n = 28 (4.62%)
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 = 12 (1.98%)
Glutamic acid (Glu, E)
n = 11 (1.82%)
Asparagine (Asn, N)
n = 30 (4.95%)
Glutamine (Gln, Q)
n = 19 (3.14%)
Histidine (His, H)
n = 12 (1.98%)
Lysine (Lys, K)
n = 26 (4.29%)
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 33 30 17 18 38 6 14 16 3 0 8 14 2 24 21
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 2 4 4 22 16 2 2 9 12 3 7 14 7 0 12
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
14 23 4 6 11 16 0 3 7 8 10 0 2 11 19 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
10 8 3 4 8 19 7 0 5 3 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
117 146 213 131
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
62 158 129 258
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
37 213 229 128
ND6 (size: 528 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 25 (14.29%)
Alanine (Ala, A)
n = 6 (3.43%)
Serine (Ser, S)
n = 13 (7.43%)
Threonine (Thr, T)
n = 10 (5.71%)
Cysteine (Cys, C)
n = 1 (0.57%)
Valine (Val, V)
n = 22 (12.57%)
Leucine (Leu, L)
n = 16 (9.14%)
Isoleucine (Ile, I)
n = 17 (9.71%)
Methionine (Met, M)
n = 13 (7.43%)
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 = 8 (4.57%)
Asparagine (Asn, N)
n = 3 (1.71%)
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
16 1 10 1 0 1 1 8 0 1 5 3 7 7 13 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 1 0 4 1 0 1 9 0 5 11 0 1 0 2 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
0 3 3 6 0 0 1 5 1 7 3 3 5 3 0 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
0 4 4 4 0 1 3 0 0 0 1 0 0 1 0 1
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
65 8 53 50
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
37 26 31 82
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
46 11 41 78
Total protein-coding genes (size: 11413 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 216 (5.68%)
Alanine (Ala, A)
n = 255 (6.71%)
Serine (Ser, S)
n = 274 (7.21%)
Threonine (Thr, T)
n = 315 (8.29%)
Cysteine (Cys, C)
n = 24 (0.63%)
Valine (Val, V)
n = 204 (5.37%)
Leucine (Leu, L)
n = 595 (15.65%)
Isoleucine (Ile, I)
n = 320 (8.42%)
Methionine (Met, M)
n = 253 (6.65%)
Proline (Pro, P)
n = 197 (5.18%)
Phenylalanine (Phe, F)
n = 233 (6.13%)
Tyrosine (Tyr, Y)
n = 141 (3.71%)
Tryptophan (Trp, W)
n = 104 (2.74%)
Aspartic acid (Asp, D)
n = 71 (1.87%)
Glutamic acid (Glu, E)
n = 96 (2.52%)
Asparagine (Asn, N)
n = 147 (3.87%)
Glutamine (Gln, Q)
n = 92 (2.42%)
Histidine (His, H)
n = 92 (2.42%)
Lysine (Lys, K)
n = 99 (2.6%)
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
178 142 193 69 86 279 50 98 75 17 44 57 86 17 123 110
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
60 9 15 54 101 93 7 31 65 93 27 42 83 62 10 72
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
87 135 21 55 72 78 8 23 38 65 76 14 13 74 73 31
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
61 68 28 31 40 80 19 5 18 38 4 1 0 7 2 90
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
842 930 1196 835
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
471 980 747 1605
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
297 1124 1476 906

>NC_012102.1 Lama glama mitochondrion, complete genome
GTTAATGTAGCTTAACTTAAAAGCAAGGCGCTGAAAATGCCTAGATGGGCTCACGGCCCCATAAACACAC
AGGTTTGATCCCAGCCTTTCTATTAGTTTCTGATAAATTTACACATGCAAGTATCCGCATCCCAGTGAGA
ATGCCCCCTAAGTCCTAGTTGAACAGAAGGAGCGGGCATCAAGCACACAACCCCGTAGCTAACGACGCCT
TGCTTGGCCACACCCCCACGGGATACAGCAGTGACAAAAATTAAGCTATAAACGAAAGTTTGACTTAGTT
ATATTACTTAAGGGTTGGTAAATTTCGTGCCAGCCACCGCGGTCATACGATTAACCCGAATTAATAGAAA
CCCGGCGTAAAGCGTGTTAACGAGAGACTAGTAAATAGAGTTAAGCCCTGGCCAAGATGTAAAAAGCTAT
GGCCAGCGTAAAAATAAACTACGAAAGTGACCCTAATGCAATCCACTACACGACAGCTAAGACTCAAACT
GGGATTAGATACCCCACTATGCTTAGCCCTAAATTTAAGTGATTACAATAACAAAATCGCTCGCCAGAGT
ACTACTAGCAACAGCTTAAAACTCAAAGGACTTGGCGGTGCTTCATACCCCCTAGAGGAGCCTGTTCTAT
AATCGATACACCCCGATCAACCTTACCAGCCCTTGCTAATTCAGTCTATATACCGCCATCTCCAGCAAAC
CCCTATAGGGAACAAAAGTAAGCTCAACTATTTAAACATAAAAACGTTAGGTCAAGGTGTAACCAATGGG
ATGGGAAGAAATGGGCTACATTTTCTTATCCCAAGAAAATCTCAAAACCCTTACGAAAGCCCCTATGAAA
CTAAGGGCCAAAGGAGGATTTAGCAGTAAATTAAGAATAGAGTGCTTAATTGAACTAGGCCATGAAGCAC
GCACACACCGCCCGTCACCCTCTTCAAGTATAACAGGCCCGTAAGCAAACATAACAAGTGTCAAATATAT
GAGAAGAGACAAGTCGTAACAAGGTAAGCATACTGGAAAGTGTGCTTGGATAAACAAAACGTAGCTTAAG
AAAAGCACCTAGTTTACACCTAGGAGATTTCATAAAAATGAACGTGTTGAACTAAAGCTAGCCCAGAAAC
CACCATATTTCAACTATTTTAAAACTATTAAACAAAACATTTATTCACTCTTTTAAAGTATAGGAGATAG
AAATTTATTTATTGGCGCTATAGAGAGAGTACCGTAAGGGAACGATGAAAGAATACCTAAAAGTAATAAA
AAGCAAAGATTAACCCTTGTACCTTTTGCATAATGATTTAACTAGAAAATTTTAGCAAAGAGAACTTAAG
TTAAATGCCCCGAAACCAGACGAGCTACTTGTGAACAGCCTACGGAGCGAACTCGTCTATGTGGCAAAAT
AGTGAGAAGATTTGCAAGTAGAGGTGACAAGCCTAACGAGCCTGGTGATAGCTGGTTGTCCAGGAAAAGA
ATGTAAGTTCAACTTTAAAAATACCTAAAAAACCGCTAATTTTAATGTATTTTTAAAAGCTAGTCTAAAA
GGGTACAGCTTTTTAGACCGAGGATACAACCTTACTTAGAGAGTAAAAACAACCAACACCATAGTTGGCT
TAAAAGCAGCCATCAATTAAGAAAGCGTTCAAGCTCAACATTAAACATAGTTTTAATTCCAATAGTCAAC
AAGGAACTCCTAACCCAATACTGGACTAATCTATTAATTAATAGAAGCAATAATGTTAATATGAGTACCA
AGAAATATTTCTCCCTGCATAAGCTTATGTCAGCAACGGATATTCTACTGACAGTTAACACTTAATAAAT
TTAACCCACCAATGAACAATTTATTAAATTTACTGTTAACCCAACACAGGCATGCATTAAGGAAAGATTA
AAAGAAGCAAAAGGAACTCGGCAAACACGAGCCCCGCCTGTTTACCAAAAACATCACCTCTAGCATTACT
AGTATTAGAGGCACTGCCTGCCCAGTGACATTAGTTAAACGGCCGCGGTATCCTGACCGTGCAAAGGTAG
CATAATCATTTGTTCTCTAAATAAGGACTTGTATGAATGGCCACACGAGGGTTCTACTGTCTCTTGCTTC
CAATCAGTGAAATTGACCTCCCCGTGCAGAGGCGGGGATGAACAAATAAGACGAGAAGACCCTATGGAGC
TTCAATTAACTAGCCCAAAGAAAATACGATTAACCACCAAGGGATAACAACACTCTACCTGGGCTAACAA
TTTCGGTTGGGGTGACCTCGGAGAACAGAAAAACCTCCGAGTGACTAAAATTTAGATCTGCCGATCAAAA
TGTAGTGTCACTTATTGATCCAAAGTTATTTGATCAACGGAACAAGTTACCCTAGGGATAACAGCGCAAT
CCTATTCAAGAGTCCATATCGACAATAGGGTTTACGACCTCGATGTTGGATCAGGACATCCCAATGGTGC
AGCCGCTATTAAAGGTTCGTTTGTTCAACGATTAAAGTCCTACGTGATCTGAGTTCAAACCGGAGCAATC
CAGGTCGGTTTCTATCTATTTGTCAATTTCTCCCAGTACGAAAGGACAAGAGAAATAAGGCCTACCCTAC
AGGGGCGCCTTAGACCTAATTAATGATATAATCTTAACTTAACTAGTTCAAAAAAACACAGCCCTAGATC
AGGGTTTGTTAGGGTGGCAGAGACCGGTAATTGCATAAAACTTAAGATTTTACACCCAGAGGTTCAATTC
CCCTCCCTAACATACATGTTCATAATTAATATCCTTACACTTATTGTCCCTATCCTCTTAGCAGTAGCAT
TTCTCACCCTAGTAGAACGAAAAGTCCTAGGCTATATACAACTTCGAAAAGGCCCTAATGTCGTAGGACC
CTACGGTCTACTACAACCAATTGCGGACGCTATCAAACTATTTACTAAAGAACCACTACGCCCCGCCACC
TCTTCTATCACCATATTTATCCTCGCCCCCATCCTAGCTCTAACCCTAGCTCTAACCATATGGATCCCCC
TCCCAATGCCACAGCCCCTTGTTGACATAAACTTAGGTGTACTATTTATACTAGCTATGTCCAGCTTAGC
TGTCTACTCTATTCTATGATCTGGCTGAGCCTCCAATTCAAAATATGCACTAATTGGTGCTCTCCGAGCT
GTTGCTCAAACTATCTCATATGAAGTTACACTAGCCATTATTCTACTCTCCGTGCTTCTAATAAATGGAT
CCTTTACTCTTTCAACACTCATCACAACACAAGAGCATATATGAATAATTATCCCAGCCTGACCTCTAGC
CATAATATGATTTATCTCCACACTAGCCGAAACCAACCGGGCCCCATTCGACCTTACCGAAGGAGAGTCA
GAATTAGTATCGGGCTTTAACGTAGAATATGCAGCTGGCCCTTTCGCCATATTTTTTATGGCAGAATACG
CTAACATTATTATAATAAATGCTTTTACAACTATTTTATTCTTCGGAGCCTTTCATAATCCCTACATGCC
AGAACTATACACAGCTAACTTTGTCCTTAAAACACTACTATTAACCGTAACCTTTCTATGAATCCGAGCA
TCCTACCCCCGATTTCGATACGATCAACTAATACACCTACTATGAAAAAATTTTCTCCCCCTAACCTTAG
CCCTATGCATATGACATGTCTCATTACCCATCTCAACAGCAGGTATTCCGCCCCAAACATAAGAAATATG
TCTGACAAAAGAATTACTTTGATAGAGTAAATAATAGAGGTTTAAGCCCTCTTATTTCTAGAACTGCAGG
AGTTGAACCTACCCCTAAGAATTCAAAATTCTTCGTGCTACCACACTACACCATGTTCTATAGTAAGGTC
AGCTAAATAAGCTATCGGGCCCATACCCCGAAAATGTTGGTTTATACCCTTCCCGTACTAATAAATCCCC
TAATCTTTAGCATTATCTTACTCACAATTATAGCAGGAACTTTAATTGTTATAATTAGCTCTCACTGATT
ATTTATCTGAATTGGCTTCGAAATAAACATGCTTGCCATCATTCCAGTCCTAATAAAAAATTTCAGCCCC
CGATCCATAGAAGCCTCCACTAAGTATTTTCTTACCCAAGCTACCGCATCAATACTACTCATGCTAGGAG
TAATTATTAACTTACTATATTCAGGTCAATGAACTACCACAAAGATCTTCAACCAAACCTCATCCATCAT
AATCACTACCGCCCTAACCATAAAACTGGGACTGGCCCCATTCCACTTCTGAGTACCAGAAGTCACACAA
GGCATTCCCTTAGCATCAGGACTGATCCTACTGACCTGACAAAAACTAGCTCCCCTTTCCGTGCTCTACC
AAATTGCCCCATCCATTAACTCAAACATACTATTAACTATATCTGTCCTATCAATTATAATTGGAGGCTG
AGGGGGGCTCAATCAAACGCAACTACGAAAAATTATAGCCTACTCATCAATTGGACACATAGGCTGAATG
ACCGCAGTAACAGTCTACAACCCCACTATAACAGTACTGTACCTACTAATATATCTCACAATAACAATCA
CAATATTTATACTATTTATAATCAACTCCACTACTACACTCCTTTCTCTATCACAAACCTGAAACAAAAC
ACCCGTCATTACAACACTAATTCTCACTGTTATAATGTCCATAGGAGGCCTCCCTCCCCTATCTGGATTT
GCACCCAAATGAATAATCATCCAAGAATTAACAAAAAATGACAGCATTATTCTTCCAACTATAATAGCCA
TAATAGCACTATTAAACCTATACTTTTATATGCGACTAGCATACTCCACAGCACTCACCATATTCCCCTC
ATCTAATAACATAAAAATAAAATGACAGTTTGAAAATACAAAACGAATACCATCGCTGCCAATTATAGTA
GTTCTATCCACTATAATACTACCTCTCACCCCTATAATATCAGTACTATACTAGGAATTTAGGTTAAACT
AGACCAAGAGCCTTCAAAGCTCTAAGCAAGTACAAATACTTAATTCCTGCCTAATAAGGACTGCAAGACT
CTATCCTACATCAATTGAATGCAAATCAACTACTTTAATTAAGCTAAGCCCTTCCTAGATTGGTGGGCCT
GTATCCCACGAAATTTTAGTTAACAGCTAAATACCCTAGTCAACTGGCTTCAATCTACTTCTCCCGCCGT
GAGAAAAAAAAAGGCGGGAGAAGCCCCGGCAGAGTTTGAAGCTGCTTCTTTGAACTTGCAATTCAATGTG
TTAATCACCACAGGACTTGATAAGAAGAGGGTTGTCACCTCTGTCTTTAGATTTACAGTCTAATGCCTAC
TCGGCCATCTTACCTATGTTCATAAACCGCTGATTATTTTCAACAAACCACAAAGATATCGGTACCCTCT
ATCTGCTATTCGGCGCTTGGGCTGGGATAGTAGGAACAGGGCTAAGTCTACTGATTCGAGCCGAATTAGG
ACAGCCCGGAACGCTACTCGGAGATGACCAAATCTACAACGTAGTTGTTACGGCCCACGCATTTGTTATA
ATTTTCTTTATAGTTATACCAATCATGATCGGGGGCTTCGGAAATTGACTAGTTCCTTTAATGATTGGCG
CACCAGACATGGCATTCCCCCGTATGAACAACATGAGCTTCTGGCTGCTACCCCCCTCATTCCTATTACT
TCTAGCATCATCCATAGTTGAAGCCGGGGCAGGCACTGGTTGAACTGTTTACCCTCCCCTAGCCGGAAAC
CTGGCCCATGCAGGTGCTTCTGTTGACCTAACTATTTTCTCCTTACACCTAGCAGGAGTATCTTCAATCC
TAGGGGCCATTAATTTTATTACTACTATCATCAACATAAAACCACCCGCCATATCCCAATATCAGACTCC
CCTGTTCGTCTGATCCGTCTTAATCACCGCTGTCCTCTTACTACTCTCCCTGCCAGTACTAGCAGCCGGT
ATTACTATACTACTAACAGATCGTAACTTAAATACAACTTTCTTTGATCCTGCAGGAGGAGGAGACCCCA
TCCTGTACCAACATCTATTCTGATTCTTCGGCCACCCAGAAGTCTATATTCTAATTTTACCTGGCTTTGG
AATAATCTCCCACATCGTCACTTATTACTCTGGAAAAAAGGAACCCTTCGGCTACATGGGAATAGTCTGA
GCTATGATATCCATTGGCTTCCTAGGCTTTATTGTGTGAGCCCACCACATATTTACCGTAGGTATAGACG
TAGATACACGCGCTTATTTTACATCCGCCACAATAATCATTGCAATCCCAACGGGAGTAAAAGTATTTAG
TTGACTAGCAACACTCCACGGAGGCAACATTAAATGATCCCCCGCTATACTATGAGCTCTAGGCTTTATC
TTCCTGTTCACCGTAGGAGGTCTAACAGGAATTGTACTAGCCAATTCATCATTAGATATTGTTCTTCACG
ACACATATTATGTAGTTGCCCACTTCCACTATGTCTTGTCAATAGGGGCAGTATTTGCCATCATAGGAGG
ACTAATCCACTGATTCCCATTATTCTCGGGATACACTATTGATGATACATGGGCAAAAATTCAGTTCGCA
ATTATATTTGTAGGCGTAAATCTAACTTTCTTCCCACAACATTTTTTAGGTCTCTCTGGAATACCTCGAC
GCTACTCTGACTACCCAGATGCCTACACCACATGAAACACTATCTCATCTGTGGGCTCCTTCATCTCCTT
AACAGCAGTTATCCTAATGGTTTTTATTGTATGAGAGGCATTTGCATCAAAACGAGAAGTTATAACCGTA
GAGCTAACAGCCACCAATTTAGAGTGACTGCACGGATGTCCGCCACCCTATCACACATTCGAAGAGCCAA
CCTACATTAACCTAAAATAGATAAGAAAGGAAGGAATCGAACCCTCTCTAATTGGTTTCAAGCCAACCCC
ATAGCCACTATGACTTTCTCGATCTAGAGGTATTAGTAAAACTTACATGACCTTGTCAAGGTCAAATTAT
AGGTGAAAACCCTGTATACCTCTATGCCATACCCATTTCAACTAGGTTTTCAAGATGCTACATCCCCTAT
TATAGAAGAGCTACTATACTTCCACGATCACGCTTTAATAGTAGTATTTTTAATCAGTTCTCTAGTATTA
TATATCATTACTCTGATGCTAACAACTAAATTAACACACACGAGCACCATGGATGCCCAAGAAGTCGAGA
CCATTTGAACCATCTTACCTGCGATCATTCTAATTACAATCGCCCTCCCGTCGCTGCGGATCCTTTACAT
GATAGATGAAATCAATAACCCAGTTCTAACCGTCAAAACAATTGGCCATCAATGGTACTGAAGCTATGAA
TATACTGATTATGAGGATCTCAGCTTCGACTCCTATATAATCCCAACATCAGACCTAAAACCAGGTGAAC
TACGCCTACTGGAAGTGGACAACCGAGTCGTTCTACCAATGGAAATAACTATCCGAATACTAGTTACCTC
TGAAGATGTACTACACTCATGAGCAGTCCCCTCCTTAGGAGTAAAAACAGACGCAGTCCCTGGACGCCTA
AATCAAGTTACACTAATGTCAACACGACCTGGACTTTTCTATGGACAGTGTTCAGAAATTTGCGGCTCAA
ATCATAGCTTTATACCAATTGTCCTTGAGATGGTGCCACTAAAGTATTTTGAGGAGTGATCTGCCTCTAT
ATTATAAGCTCACTAAGAAGCTAATCAGCGTTAACCTTTTAAGTTAAAGAATGAGAACTATAAACTCTCC
TTAGTGACATGCCGCAACTGGACACATCAACGTGATTCATCACAATTCTATCAATACTCATAACCTTATT
CATCCTATTTCAACTAAAACTCTCTAAACACATCTATTATCCAACTCCAGAGCCCAAATTTAGTAAAACG
CATAAACAAAACACCCCCTGAGAAACGAAATGAACGAAAATTTATTTGCCTCTTTTATTACCCCAACAAT
AATAGGACTTCCTATTGTTACCCTTGTTGTCATATTCCCAAGTATATTATTCCCAACCCCCACCCGACTA
ATTAATAACCGCTTAATCTCTTTTCAACATTGGCTAATTCGACTCACGTCTAAGCAAATAATAACTATTC
ATAATTACAAAGGACAGACCTGGTCCTTAATGCTAATATCTCTAATTATATTTATTGGGGCTACTAACCT
TCTAGGACTCCTTCCGCACTCATTTACCCCTACCACACAACTATCAATAAACTTAGGCATAGCAGTTCCT
CTATGAGCTGGAACTGTAGTTACTGGCTTCCGCAATAAAACGAAAGCATCACTAGCACATTTCCTCCCCC
AAGGAACACCTACACCACTAATCCCCATACTAGTAATTATCGAAACTATCAGCCTGTTCATTCAACCCGT
AGCCCTGGCCGTTCGACTAACAGCTAATATCACAGCAGGCCATTTATTAATGCACCTAATTGGAGGAGCT
ACCCTAGCCCTAATAAATATTAGTACACTAACAGCCCTCATCACCTTTGTAGTCCTAATTTTACTTACAA
TTCTCGAATTTGCCGTAGCTATAATTCAAGCCTATGTTTTTACCCTACTAGTAAGCCTATACCTACATGA
CAATACTTAATGACCCACCAGACCCACGCATACCACATAGTGAATCCTAGCCCTTGACCCCTTACAGGAG
CCCTCTCAGCCCTTCTAATGACATCCGGCCTAATTATGTGATTCCACTACAATTCAAGCCTCCTACTGTC
GCTAGGCTTAATTACAAATATGCTAACAATATATCAATGATGGCGAGACATTATTCGAGAGAGCACATTC
CAAGGACACCACACCCCCTCCGTCCAAAAAGGTTTACGATACGGAATAGTTCTATTTATCGTATCCGAGG
TCCTATTTTTCAGTGGATTCTTTTGAGCTTTCTACCATTCAAGCCTCGCCCCTACCCCAGAACTAGGAGG
ATGCTGACCCCCGACCGGAATCCACCCCCTAAACCCGCTAGAAGTCCCACTCCTCAATACCTCCGTTCTA
CTAGCCTCTGGAGTCTCAATTACCTGAGCCCACCACAGCTTAATAGAAGGGAATCGCACTCACATACTAC
AAGCCCTATTTATTACAATTGCCCTAGGATTATATTTCACACTACTACAGGCTTCAGAGTACTACGAAGC
ACCTTTTACAATCTCTGATAGTGTTTACGGCTCCACTTTTTTCGTAGCCACTGGCTTCCATGGCTTACAT
GTCATTATTGGCTCCACTTTCCTTGCTGTCTGCTTTTTACGACAATTAAAATTTCACTTCACATCTAGCC
ACCACTTCGGATTTGAAGCCGCTGCTTGATATTGACATTTCGTAGATGTAGTATGACTATTCCTTTACGT
CTCCATTTATTGATGAGGCTCCTGTCCTTTTAGTATTAATTAGTACAACTGACTTCCAATCAGTTAGATT
CGGAGAGACCCGAAAAAGGATAATCAATCTACTACTGGCTCTACTTACAAACACTACCCTAGCATCACTC
CTCGTACTAATTGCATTTTGATTGCCCCAATTAAATGTTTACGCAGAAAAAACAAGCCCTTATGAGTGTG
GCTTCGACCCCATAGGATCTGCCCGCCTACCTTTTTCCATAAAATTTTTTCTGATTGCTATTACATTCCT
TCTATTTGACCTAGAAATTGCCCTCCTCTTACCACTTCCCTGGGCAACCCAAACAAATCATTTATACACT
ATACTAATCATAGCCCTCCTTCTCATTTCACTATTAGCAATTAGTCTCGCCTACGAGTGAACTCAAAAAG
GACTAGAATGAACTGAATATGATAATTAGTTTAAATAAAATTAATGATTTCGACTCATTAGATTATGATT
AAGTTCATAATTATCAAATGTCCATAGTATACATAAATATTATACTAGCATTTACTATATCCCTTATTGG
CCTCCTAATATACCGGTCTCACCTAATATCTTCTCTACTATGTCTAGAAGGCATAATACTTTCCCTTTTT
GTAATAGCATCTCTAATAATTCTAAGTACCCACTTTACCCTGGCTAGCATGATACCTATCATCCTCCTAG
TATTCGCGGCATGTGAGGCCGCACTGGGTTTAGCCCTACTAGTAATAATCTCAAATACGTATGGCACAGA
TTACGTACAAAACCTGAACCTCCTACAATGCTAAAAATTATCTTTCCCTCCATCATACTAATCCCCCTGA
CCTGACTATCAAAAAATAGCATAATCTGAATTAATCCAACAATATATAGCCTACTAATTAGCCTTATTAG
TCTATCCCTACTTAGTCAATACAGTGACAACAGCACTAATTTCTCACTCCTATTTTTCTCAGATGCTCTG
TCAGCACCCCTACTGGTCCTAACAACATGGCTACTACCCCTAATACTAATTGCCAGCCAGTCTCACCTTT
CCAAAGAACCCCTTACACGAAAAAAGCTATATATTACTATACTAATCCTACTACAAGTTCTCCTAATCAT
AACATTCACTGCATCAGAACTAATCATGTTTTACATCCTATTCGAGGCAACCCTAGTCCCCACCCTAATT
ATCATCACCCGATGGGGTAATCAAACAGAACGACTTAATGCAGGCTCCTATTTCTTATTTTATACCCTAG
CAGGATCTCTTCCCCTCCTAGTTGCACTTGTCTATATCCAAAACACGGTAGGCTCCTTAAATTTTCTAAT
TATGCAGTACTGAAACCAACCCCTAATAGACTCCTGATCTAATGCACTGCTATGACTAGCATGCATAATA
GCATTTATAGTGAAAATACCCCTATACGGCTTGCATCTATGACTGCCTAAGGCTCATGTAGAAGCCCCAA
TTGCAGGATCCATAGTCCTGGCCGCAGTCCTGCTCAAACTAGGAGGCTACGGCATACTACGCCTCACAGC
TATACTAAATCCCCTCACAGAGTATATAGCATATCCATTCCTAATACTATCCCTCTGAGGCATAATTATG
ACCAGCTCCATCTGCTTACGCCAAACTGACCTAAAGTCACTTATTGCCTACTCCTCAGTTAGTCACATGG
CCCTGGTTATTGTAGCTATCCTAATCCAAACTCCCTGAAGCTACATAGGGGCTACCACCCTCATAGTCGC
CCACGGACTCACATCCTCTATACTTTTCTGTCTAGCAAATACAAATTATGAACGTACCCACAGTCGAACA
ATAATTCTGGCGCGAGGCCTGCAAACACTACTACCTTTAATAGCAATATGATGATTACTGGCAAGCCTCA
CTAACCTGGCCCTGCCCCCTACAATTAATCTACTTGGAGAACTGTTCGTAATTATAGCCTCATTCTCCTG
ATCTAACATCACAATTATCCTAATGGGAGCCAACATGATAATCACAGCCCTATACTCATTATATATGCTC
ATCATAACACAACGAGGTAATCATACCTACCATATCAACAATATTAAACCCACCTACACACGAGAAAACT
CACTCATAGCTTTACATATGCTCCCCCTACTAATGCTATCACTCAACCCTAAAATCATCATAGGCTTCAC
GTACTGTAAGTATAGTTTAAGAAGAACACTAGATTGTGAATCTAGCAGTAAGAGATCAAAACTCTTTACC
TACCGAAAAAGTATGCAAGAACTGCTAACTCATGCCACCATGCCTAACAGCATGGCTTTTTCAAACTTTT
AAAGGATAGAAGTAATCCGTTGGCCTTAGGAGCCAAAAAATTGGTGCAACTCCAAATAAAAGTAATAAAC
ATATTCACTACCTTCGCACTACTTACACTATTATTACTCACACTGCCAATTATAATATCAACTTCTGACA
TCTATAAGAGCAAACAATACCCTCTCTACGTAAAAAATACCATCGCATGTGCCTTCACTGTAAGTCTAAT
TCCAACTATAATATTTATTCACCTAAACCAAGAAGTCATTATCTCAAACTGACATTGAATCACAATCCAC
ACACTAAAACTTTCACTTAGTTTTAAAATAGATTACTTCTCAATAATATTTGTACCAATTGCACTATTTG
TAACTTGATCTATCGTAGAATTCTCAATATGATATATGCACTCAGACCCCAATATCAATAAATTCTTTAA
GTATCTTCTTCTATTCCTCATCACAATATTAATTCTAGTAACTGCCAATAACTTATTTCAATTATTTATT
GGCTGAGAGGGAGTAGGGATCATGTCTTTCTTACTAATTGGGTGATGATATGGCCGAACAGACGCAAATA
CAGCAGCCCTGCAAGCAATCCTGTATAACCGCATTGGAGACATTGGATTTGTAGCATCCATAGCATGATT
TCTTTCCAACCTAAATACATGAGAAATACAACAAATCTTTATTCTCACACAAGACTGCCCCACCGCACCC
CTAATGGGACTCCTCCTAGCCGCAGCAGGAAAATCTGCCCAATTTGGCTTACACCCTTGACTACCCTCCG
CGATAGAAGGCCCCACTCCCGTCTCCGCCCTACTACACTCAAGTACAATAGTCGTAGCAGGGGTATTCCT
ACTCATCCGATTTTACCCACTGATAGAAAACAACAAGACCGCCCAGACACTCACGCTATGTTTAGGCGCA
ATCACCACCCTATTTACAGCAATCTGCGCCCTAACTCAAAATGATATCAAAAAAATCGTAGCCTTCTCCA
CCTCAAGCCAACTAGGTCTTATGATAGTAACGATTGGCATTAACCAGCCTCACCTTGCATTTCTACATAT
CTGCACCCACGCTTTCTTCAAAGCCATACTATTTATATGCTCAGGCTCTATCATCCACAGCCTAAACGAC
GAACAAGACATCCGAAAAATAGGAGGTCTTTACAAGACGATACCCTTTACCACCACAGCTCTTATTATCG
GAAGCCTAGCCTTGACTGGAATCCCCTTTCTCACAGGATTCTACTCCAAGGACATAATTATTGAAACTGC
CAATACGTCATACACCAACGCCTGAGCCCTCTTTATTACTTTAGTCGCTACATCCCTTACAGCCATTTAC
AGCACACGCATCATCTTCTATGCCCTCCTAAACCAACCTCGCTTCCCCCCACTAATCTTAATTAACGAGA
ACAACCCCCTCCTTATCAACTCCATTAAACGCCTTCTTATCGGAAGCATCTTCGCCGGATTTTTTATCTC
CTACAACATCCCCCCTATAACAGTCCCTCAAATAACAATGCCATCACACCTAAAACTTGCCGCCCTCTTA
GTCACAATTCTAGGCTTTATCCTGGCAATAGAAATCAACACCATAACAAAAAATCTAAAATTTACTCAGC
CCTCAAAATCATTCAAATTCTCCAACCTTCTAGGCTTCTTCCCTATTATTATACACCGCCTAGTACCCTA
TCTAAATCTACTAATAAGCCAAAAATCAGCGTCTGTGTTGCTAGATTTAGTCTGACTGGAGGCCGCTCTA
CCAAAAACCCTCGCCCTTATACAAGTAAAAGCCTCCACATTAGTCTCAGATCAAAAGGGACTCATTAAGC
TCTATTTCCTCTCATTTCTCATCACACTAACCCTAATTATAATTTTATTTAATTACCCCGTGTAATTTCT
ATAATAACCACTACACCAATAAGTAACGACCATCCAGTAATGATAACCAACCAAGTACCGTAACTGTATA
AAGCAGCAATTCCTATAGCCTCTTCACTAAAAAATCCAGAATCCCCTGTATCATAAATTACTCAATCTCC
TATCCCATTAAACTTAAAAATAAAATCGACCTCTTCCCCTTTCAATACATAAACAACTATTAATATTTCC
ACCACCAGACCAAAAGTAAAAGCCCCTAGCACCGTCTTATTAGACACCCAGACCTCCGGATACTGCTCCG
TGGCTATCGCTGTAGTATAACCAAAGACTACCATTATCCCCCCTAAATAAATCAAAAACACTATTAAACC
CAAGAAAGATCCCCCATAACTTAATACAATTATACAACCAACCCCACCACTCACAATTAACCCTAACCCA
CCATAAATCGGAGAGGGCTTAGAAGAAAAACTAATAAACCCAATTACAAATATAATGCTCAAAATAAATA
CAATGTACGTCATCATATATTCCTACATGGACTCTAACCACGACTAATGACATGAAAAATCATCGTTGTA
ATTCAACTATAAGAACCCTAATGACCAATATCCGAAAGTCCCACCCACTACTAAAAATTGTCAATAACGC
ATTTATTGATCTTCCAGCCCCTTCTAACATCTCATCATGATGAAACTTCGGCTCCCTCCTAGGAATCTGC
TTGATTATGCAAATCATGACAGGACTATTTCTAGCAATACATTATACATCAGACACAACAACAGCCTTCT
CTTCAGTCGCACACATCTGCCGAGACGTAAATTACGGCTGAATTATTCGTTATCTACACGCCAATGGCGC
CTCTATATTCTTCATCTGCTTGTATATCCACGTAGGTCGTGGGCTTTACTACGGCTCCTACGCCTTCCTA
GAAACTTGAAATATTGGAATTATCCTATTATTTACAGTCATAGCAACAGCTTTTATGGGCTATGTACTTC
CATGAGGACAAATATCATTTTGAGGGGCAACAGTAATTACAAATCTACTCTCGGCAATTCCATATGTTGG
CACAACACTAGTCGAATGAATTTGAGGAGGATTCTCCGTAGACAAAGCCACCCTTACACGATTCTTCGCC
TTCCATTTTATCTTACCTTTTGTCATTGCAGCTCTAGCAGGAGTACATCTACTATTTTTACACGAAACAG
GCTCCAACAATCCAACAGGAATTTCTTCGGATATAGACAAAATCCCCTTCCATCCCTACTATACAATTAA
AGACATTCTAGGAGCACTACTACTTATTCTAACCCTACTTCTACTCGTACTATTCTCACCAGACCTACTA
GGAGACCCCGACAACTATACCCCCGCTAACCCCCTCAACACACCGCCCCATATTAAACCAGAATGATACT
TCCTATTTGCATACGCCATCCTACGATCCATCCCCAATAAATTAGGCGGCGTACTGGCCCTAGTCCTCTC
TATCCTAATTCTAGCACTCATTCCCTTACTACACACATCAAAACAACGAAGCATGATATTCCGCCCCATT
AGCCAGTGCCTGTTCTGAACTCTAGTTGCCGACTTACTAACTTTAACCTGAATTGGAGGACAGCCAGTCG
AACCTCCATTCATTATAATCGGTCAAGTAGCATCTATCCTATACTTCTCCCTAATCCTAATTTTAATGCC
AGTAGCAGGAATCATTGAAAACCACATTTTAAAATGAAGAGTCTTCGTAGTATATTGATTACACTGGTCT
TGTAAGCCATCAAAGGAGAATCGTACCCTCCCTAAGACTCAGGGAAAGAGCCAAAGCCCTACCACCAGCA
CCCAAAGCTGGAATTCTTATTAAACTACCCCCTGATCCCACCACAACCGGCGGCATAGTCCTTGAACAAT
ATTCTAGTACTAAAAGAAAATATCATGTCTAACATACATAAACCCTCAATACTCACATGTCACAGCACGC
GTTGCGTGCTATATGTACATCGTGCATAAAATTGTTTGCCCCATGCATATAAGCATGTACATCTTATTCT
TGTTCGTGCATAGCACATTATGTCAAATCATTTCCAGTCAATACGCATATCATAACCCATAGATCACGAG
CTTAATCACCAGGCCGCGTGAAATCATCAACCCGCTCGGCAGGGATCCCTCTTCTCGCTCCGGGCCCATC
CATCGTGGGGGGTTTCTATACCGGAACTTTACCAGGCATCTGGTTCTTACTTCAGGACCATCTCACCTAA
AATCGCCCACACTTTCCTCTTAAATAAGACATCTCGATGGACTAATGACTAATCAGCCCATGCTCACACA
TAACTGTGGTGTCATGCATTTGGTATTTTTATAATTTGGGGGGGGGAACTTGCAAGGACTCCGCTATGGC
CGTCTGAGGCCCCGTCGCAGTCAAATCAATTGAAGCTGGACTTAATAAATATCATTTACCCGCATCATAC
AACCATAAGGTGCTATTCAGTCCATGGTTACAGGACATAACTACAACACACACCCACGTACACATGCGCA
TGCGCATGCACACACCCACGTACACGTACACGTACGCATACACACCCACGTACACGTACACGTACGCATA
CACACCCACGTACACGTACACGTACGCATACACACCCACGTACACGTACACGTACGCATACACACCCACG
TACACGTACACGTACGCATACACACCCACGTACACACACACGTACACGTGTAGGCACGCATTTAGCAAGT
ATTTAGCTTGCTTAAACAAACCCCCCCTACCCCCCACGAGCCCCACCTTATATACCAGACAGTCTTGCCA
AACCCCAAAAACAAGACATAGCGCATAAGCTATAGAACCCGGACAAACCTTTGCCCACAAACCCAACTTC
TTAAATAATCACATGGCCAAATCGTACCAATGTGTTACTCTAGTATATTAAAAATATACAGACAGCTATC
TCCCTAGATCCGCCAAAATTTTTAAAAACGAATTTAACCACCTTTTTAATGGCACCCCCCCCCCCCATAA
ATGACCC


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.