Viewing data for Microhyla ornata


Scientific name Microhyla ornata
Common name Ornate narrow-mouthed frog
Maximum lifespan 5.00 years (Microhyla ornata@AnAge)

Total mtDNA (size: 16730 bases) GC AT G C A T
Base content (bases) 6678 10052 4240 2438 5203 4849
Base content per 1 kb (bases) 399 601 253 146 311 290
Base content (%) 39.9% 60.1%
Total protein-coding genes (size: 11271 bases) GC AT G C A T
Base content (bases) 4430 6841 2931 1499 3693 3148
Base content per 1 kb (bases) 393 607 260 133 328 279
Base content (%) 39.3% 60.7%
D-loop (size: 1334 bases) GC AT G C A T
Base content (bases) 512 822 329 183 445 377
Base content per 1 kb (bases) 384 616 247 137 334 283
Base content (%) 38.4% 61.6%
Total tRNA-coding genes (size: 1531 bases) GC AT G C A T
Base content (bases) 663 868 378 285 409 459
Base content per 1 kb (bases) 433 567 247 186 267 300
Base content (%) 43.3% 56.7%
Total rRNA-coding genes (size: 2529 bases) GC AT G C A T
Base content (bases) 1050 1479 586 464 633 846
Base content per 1 kb (bases) 415 585 232 183 250 335
Base content (%) 41.5% 58.5%
12S rRNA gene (size: 952 bases) GC AT G C A T
Base content (bases) 433 519 248 185 235 284
Base content per 1 kb (bases) 455 545 261 194 247 298
Base content (%) 45.5% 54.5%
16S rRNA gene (size: 1577 bases) GC AT G C A T
Base content (bases) 617 960 338 279 398 562
Base content per 1 kb (bases) 391 609 214 177 252 356
Base content (%) 39.1% 60.9%

ATP6 (size: 682 bases) GC AT G C A T
Base content (bases) 258 424 179 79 249 175
Base content per 1 kb (bases) 378 622 262 116 365 257
Base content (%) 37.8% 62.2%
ATP8 (size: 165 bases) GC AT G C A T
Base content (bases) 54 111 41 13 57 54
Base content per 1 kb (bases) 327 673 248 79 345 327
Base content (%) 32.7% 67.3%
COX1 (size: 1551 bases) GC AT G C A T
Base content (bases) 650 901 387 263 503 398
Base content per 1 kb (bases) 419 581 250 170 324 257
Base content (%) 41.9% 58.1%
COX2 (size: 688 bases) GC AT G C A T
Base content (bases) 261 427 161 100 223 204
Base content per 1 kb (bases) 379 621 234 145 324 297
Base content (%) 37.9% 62.1%
COX3 (size: 784 bases) GC AT G C A T
Base content (bases) 341 443 209 132 251 192
Base content per 1 kb (bases) 435 565 267 168 320 245
Base content (%) 43.5% 56.5%
CYTB (size: 1146 bases) GC AT G C A T
Base content (bases) 487 659 320 167 363 296
Base content per 1 kb (bases) 425 575 279 146 317 258
Base content (%) 42.5% 57.5%
ND1 (size: 958 bases) GC AT G C A T
Base content (bases) 354 604 229 125 334 270
Base content per 1 kb (bases) 370 630 239 130 349 282
Base content (%) 37.0% 63.0%
ND2 (size: 1033 bases) GC AT G C A T
Base content (bases) 384 649 277 107 341 308
Base content per 1 kb (bases) 372 628 268 104 330 298
Base content (%) 37.2% 62.8%
ND3 (size: 340 bases) GC AT G C A T
Base content (bases) 130 210 82 48 124 86
Base content per 1 kb (bases) 382 618 241 141 365 253
Base content (%) 38.2% 61.8%
ND4 (size: 1363 bases) GC AT G C A T
Base content (bases) 525 838 359 166 466 372
Base content per 1 kb (bases) 385 615 263 122 342 273
Base content (%) 38.5% 61.5%
ND4L (size: 285 bases) GC AT G C A T
Base content (bases) 106 179 73 33 101 78
Base content per 1 kb (bases) 372 628 256 116 354 274
Base content (%) 37.2% 62.8%
ND5 (size: 1792 bases) GC AT G C A T
Base content (bases) 670 1122 450 220 590 532
Base content per 1 kb (bases) 374 626 251 123 329 297
Base content (%) 37.4% 62.6%
ND6 (size: 504 bases) GC AT G C A T
Base content (bases) 214 290 166 48 100 190
Base content per 1 kb (bases) 425 575 329 95 198 377
Base content (%) 42.5% 57.5%

ATP6 (size: 682 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 10 (4.42%)
Alanine (Ala, A)
n = 17 (7.52%)
Serine (Ser, S)
n = 18 (7.96%)
Threonine (Thr, T)
n = 20 (8.85%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 14 (6.19%)
Leucine (Leu, L)
n = 51 (22.57%)
Isoleucine (Ile, I)
n = 19 (8.41%)
Methionine (Met, M)
n = 11 (4.87%)
Proline (Pro, P)
n = 16 (7.08%)
Phenylalanine (Phe, F)
n = 12 (5.31%)
Tyrosine (Tyr, Y)
n = 3 (1.33%)
Tryptophan (Trp, W)
n = 5 (2.21%)
Aspartic acid (Asp, D)
n = 0 (0%)
Glutamic acid (Glu, E)
n = 4 (1.77%)
Asparagine (Asn, N)
n = 8 (3.54%)
Glutamine (Gln, Q)
n = 8 (3.54%)
Histidine (His, H)
n = 3 (1.33%)
Lysine (Lys, K)
n = 3 (1.33%)
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
15 4 7 21 10 6 1 13 8 0 8 2 4 0 11 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
4 0 0 4 5 8 0 4 1 5 0 6 3 7 0 7
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 6 2 5 2 6 1 1 3 2 1 1 0 6 2 2
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
1 3 1 0 0 3 0 2 2 1 0 0 0 0 0 4
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
45 70 65 47
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
24 67 29 107
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
10 42 81 94
ATP8 (size: 165 bases)
Amino acid sequence: MPQLIPDPWFFIFLSSWIIIFILAPQKILNHTILNEPSSKATKTAYSNWTWPWS*
Amino acid frequencies:
Glycine (Gly, G)
n = 0 (0%)
Alanine (Ala, A)
n = 3 (5.56%)
Serine (Ser, S)
n = 6 (11.11%)
Threonine (Thr, T)
n = 4 (7.41%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 0 (0%)
Leucine (Leu, L)
n = 5 (9.26%)
Isoleucine (Ile, I)
n = 8 (14.81%)
Methionine (Met, M)
n = 1 (1.85%)
Proline (Pro, P)
n = 6 (11.11%)
Phenylalanine (Phe, F)
n = 4 (7.41%)
Tyrosine (Tyr, Y)
n = 1 (1.85%)
Tryptophan (Trp, W)
n = 5 (9.26%)
Aspartic acid (Asp, D)
n = 1 (1.85%)
Glutamic acid (Glu, E)
n = 1 (1.85%)
Asparagine (Asn, N)
n = 3 (5.56%)
Glutamine (Gln, Q)
n = 2 (3.7%)
Histidine (His, H)
n = 1 (1.85%)
Lysine (Lys, K)
n = 3 (5.56%)
Arginine (Arg, R)
n = 0 (0%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
7 1 0 2 0 1 0 2 2 0 0 0 0 0 3 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
1 0 0 0 3 0 0 0 0 0 0 2 1 2 1 1
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
1 2 0 2 1 2 0 1 0 1 0 0 0 2 1 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
1 1 0 0 1 3 0 0 0 0 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
5 12 20 18
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
6 18 13 18
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
2 11 21 21
COX1 (size: 1551 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 44 (8.53%)
Alanine (Ala, A)
n = 41 (7.95%)
Serine (Ser, S)
n = 33 (6.4%)
Threonine (Thr, T)
n = 39 (7.56%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 40 (7.75%)
Leucine (Leu, L)
n = 62 (12.02%)
Isoleucine (Ile, I)
n = 41 (7.95%)
Methionine (Met, M)
n = 26 (5.04%)
Proline (Pro, P)
n = 27 (5.23%)
Phenylalanine (Phe, F)
n = 42 (8.14%)
Tyrosine (Tyr, Y)
n = 18 (3.49%)
Tryptophan (Trp, W)
n = 17 (3.29%)
Aspartic acid (Asp, D)
n = 14 (2.71%)
Glutamic acid (Glu, E)
n = 11 (2.13%)
Asparagine (Asn, N)
n = 17 (3.29%)
Glutamine (Gln, Q)
n = 6 (1.16%)
Histidine (His, H)
n = 20 (3.88%)
Lysine (Lys, K)
n = 9 (1.74%)
Arginine (Arg, R)
n = 9 (1.74%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
27 14 17 22 11 14 3 8 5 1 19 6 15 0 24 18
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
9 0 0 8 17 15 1 10 10 14 10 7 8 9 3 17
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
8 14 0 9 3 16 0 1 4 8 10 1 4 10 7 6
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
14 8 3 5 9 9 0 2 1 5 1 0 1 0 0 16
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
150 112 138 117
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
76 135 95 211
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
37 140 165 175
COX2 (size: 688 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 8 (3.51%)
Alanine (Ala, A)
n = 16 (7.02%)
Serine (Ser, S)
n = 19 (8.33%)
Threonine (Thr, T)
n = 16 (7.02%)
Cysteine (Cys, C)
n = 2 (0.88%)
Valine (Val, V)
n = 14 (6.14%)
Leucine (Leu, L)
n = 27 (11.84%)
Isoleucine (Ile, I)
n = 21 (9.21%)
Methionine (Met, M)
n = 12 (5.26%)
Proline (Pro, P)
n = 15 (6.58%)
Phenylalanine (Phe, F)
n = 9 (3.95%)
Tyrosine (Tyr, Y)
n = 8 (3.51%)
Tryptophan (Trp, W)
n = 5 (2.19%)
Aspartic acid (Asp, D)
n = 13 (5.7%)
Glutamic acid (Glu, E)
n = 10 (4.39%)
Asparagine (Asn, N)
n = 8 (3.51%)
Glutamine (Gln, Q)
n = 9 (3.95%)
Histidine (His, H)
n = 7 (3.07%)
Lysine (Lys, K)
n = 4 (1.75%)
Arginine (Arg, R)
n = 6 (2.63%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
15 6 9 8 3 4 0 10 8 1 7 4 3 0 7 2
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 0 2 6 5 5 0 3 2 1 2 3 1 9 2 7
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
4 5 0 7 1 6 0 2 3 3 5 0 2 6 2 4
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
3 10 0 8 5 3 1 3 0 1 2 0 0 0 0 5
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
61 52 66 50
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
26 61 59 83
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
13 48 79 89
COX3 (size: 784 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 22 (8.46%)
Alanine (Ala, A)
n = 23 (8.85%)
Serine (Ser, S)
n = 13 (5.0%)
Threonine (Thr, T)
n = 20 (7.69%)
Cysteine (Cys, C)
n = 2 (0.77%)
Valine (Val, V)
n = 18 (6.92%)
Leucine (Leu, L)
n = 30 (11.54%)
Isoleucine (Ile, I)
n = 15 (5.77%)
Methionine (Met, M)
n = 9 (3.46%)
Proline (Pro, P)
n = 13 (5.0%)
Phenylalanine (Phe, F)
n = 26 (10.0%)
Tyrosine (Tyr, Y)
n = 10 (3.85%)
Tryptophan (Trp, W)
n = 12 (4.62%)
Aspartic acid (Asp, D)
n = 6 (2.31%)
Glutamic acid (Glu, E)
n = 8 (3.08%)
Asparagine (Asn, N)
n = 4 (1.54%)
Glutamine (Gln, Q)
n = 9 (3.46%)
Histidine (His, H)
n = 14 (5.38%)
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
11 4 6 13 6 5 0 4 8 1 8 4 6 0 16 10
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 0 2 3 12 8 0 7 8 4 3 6 2 5 0 4
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 11 0 3 2 5 0 1 2 5 5 0 2 2 2 4
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
10 6 2 2 4 2 0 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
77 65 53 66
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
44 66 53 98
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
11 78 86 86
CYTB (size: 1146 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 27 (7.09%)
Alanine (Ala, A)
n = 30 (7.87%)
Serine (Ser, S)
n = 25 (6.56%)
Threonine (Thr, T)
n = 23 (6.04%)
Cysteine (Cys, C)
n = 3 (0.79%)
Valine (Val, V)
n = 23 (6.04%)
Leucine (Leu, L)
n = 52 (13.65%)
Isoleucine (Ile, I)
n = 33 (8.66%)
Methionine (Met, M)
n = 12 (3.15%)
Proline (Pro, P)
n = 24 (6.3%)
Phenylalanine (Phe, F)
n = 34 (8.92%)
Tyrosine (Tyr, Y)
n = 15 (3.94%)
Tryptophan (Trp, W)
n = 11 (2.89%)
Aspartic acid (Asp, D)
n = 10 (2.62%)
Glutamic acid (Glu, E)
n = 4 (1.05%)
Asparagine (Asn, N)
n = 18 (4.72%)
Glutamine (Gln, Q)
n = 7 (1.84%)
Histidine (His, H)
n = 11 (2.89%)
Lysine (Lys, K)
n = 10 (2.62%)
Arginine (Arg, R)
n = 9 (2.36%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
17 16 8 15 8 14 2 12 7 0 6 12 4 1 22 12
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
4 1 2 5 13 11 1 5 11 5 6 6 7 11 0 5
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
9 9 0 7 3 11 0 1 3 11 4 2 1 3 15 3
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
8 3 1 3 7 9 1 1 2 6 0 0 0 1 0 9
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
94 90 100 98
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
54 98 76 154
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
19 132 120 111
ND1 (size: 958 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 15 (4.72%)
Alanine (Ala, A)
n = 27 (8.49%)
Serine (Ser, S)
n = 25 (7.86%)
Threonine (Thr, T)
n = 22 (6.92%)
Cysteine (Cys, C)
n = 0 (0%)
Valine (Val, V)
n = 23 (7.23%)
Leucine (Leu, L)
n = 54 (16.98%)
Isoleucine (Ile, I)
n = 26 (8.18%)
Methionine (Met, M)
n = 14 (4.4%)
Proline (Pro, P)
n = 21 (6.6%)
Phenylalanine (Phe, F)
n = 23 (7.23%)
Tyrosine (Tyr, Y)
n = 13 (4.09%)
Tryptophan (Trp, W)
n = 8 (2.52%)
Aspartic acid (Asp, D)
n = 4 (1.26%)
Glutamic acid (Glu, E)
n = 9 (2.83%)
Asparagine (Asn, N)
n = 10 (3.14%)
Glutamine (Gln, Q)
n = 7 (2.2%)
Histidine (His, H)
n = 2 (0.63%)
Lysine (Lys, K)
n = 8 (2.52%)
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
24 2 11 11 3 16 0 21 6 1 8 8 5 2 18 5
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 0 0 6 11 10 0 3 5 6 1 3 6 12 0 7
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
6 9 0 7 3 13 1 0 1 8 5 0 3 2 8 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 7 2 2 2 7 1 2 0 5 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
78 68 81 92
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
32 94 53 140
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
15 67 136 101
ND2 (size: 1033 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 17 (4.96%)
Alanine (Ala, A)
n = 24 (7.0%)
Serine (Ser, S)
n = 41 (11.95%)
Threonine (Thr, T)
n = 38 (11.08%)
Cysteine (Cys, C)
n = 1 (0.29%)
Valine (Val, V)
n = 6 (1.75%)
Leucine (Leu, L)
n = 66 (19.24%)
Isoleucine (Ile, I)
n = 40 (11.66%)
Methionine (Met, M)
n = 16 (4.66%)
Proline (Pro, P)
n = 18 (5.25%)
Phenylalanine (Phe, F)
n = 16 (4.66%)
Tyrosine (Tyr, Y)
n = 7 (2.04%)
Tryptophan (Trp, W)
n = 10 (2.92%)
Aspartic acid (Asp, D)
n = 2 (0.58%)
Glutamic acid (Glu, E)
n = 6 (1.75%)
Asparagine (Asn, N)
n = 10 (2.92%)
Glutamine (Gln, Q)
n = 8 (2.33%)
Histidine (His, H)
n = 4 (1.17%)
Lysine (Lys, K)
n = 11 (3.21%)
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
25 15 13 17 10 14 5 18 7 1 4 0 2 0 16 0
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 1 0 4 10 10 0 3 7 5 2 4 5 9 0 12
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
13 13 0 6 5 26 2 0 2 6 1 0 2 5 5 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
4 5 1 0 2 9 2 0 0 2 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
55 79 117 93
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
33 119 48 144
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
19 79 143 103
ND3 (size: 1033 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 17 (4.96%)
Alanine (Ala, A)
n = 24 (7.0%)
Serine (Ser, S)
n = 41 (11.95%)
Threonine (Thr, T)
n = 38 (11.08%)
Cysteine (Cys, C)
n = 1 (0.29%)
Valine (Val, V)
n = 6 (1.75%)
Leucine (Leu, L)
n = 66 (19.24%)
Isoleucine (Ile, I)
n = 40 (11.66%)
Methionine (Met, M)
n = 16 (4.66%)
Proline (Pro, P)
n = 18 (5.25%)
Phenylalanine (Phe, F)
n = 16 (4.66%)
Tyrosine (Tyr, Y)
n = 7 (2.04%)
Tryptophan (Trp, W)
n = 10 (2.92%)
Aspartic acid (Asp, D)
n = 2 (0.58%)
Glutamic acid (Glu, E)
n = 6 (1.75%)
Asparagine (Asn, N)
n = 10 (2.92%)
Glutamine (Gln, Q)
n = 8 (2.33%)
Histidine (His, H)
n = 4 (1.17%)
Lysine (Lys, K)
n = 11 (3.21%)
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
25 15 13 17 10 14 5 18 7 1 4 0 2 0 16 0
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 1 0 4 10 10 0 3 7 5 2 4 5 9 0 12
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
13 13 0 6 5 26 2 0 2 6 1 0 2 5 5 0
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
4 5 1 0 2 9 2 0 0 2 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
55 79 117 93
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
33 119 48 144
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
19 79 143 103
ND4 (size: 1363 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 17 (3.75%)
Alanine (Ala, A)
n = 43 (9.49%)
Serine (Ser, S)
n = 41 (9.05%)
Threonine (Thr, T)
n = 34 (7.51%)
Cysteine (Cys, C)
n = 6 (1.32%)
Valine (Val, V)
n = 13 (2.87%)
Leucine (Leu, L)
n = 84 (18.54%)
Isoleucine (Ile, I)
n = 39 (8.61%)
Methionine (Met, M)
n = 22 (4.86%)
Proline (Pro, P)
n = 27 (5.96%)
Phenylalanine (Phe, F)
n = 32 (7.06%)
Tyrosine (Tyr, Y)
n = 14 (3.09%)
Tryptophan (Trp, W)
n = 12 (2.65%)
Aspartic acid (Asp, D)
n = 5 (1.1%)
Glutamic acid (Glu, E)
n = 11 (2.43%)
Asparagine (Asn, N)
n = 16 (3.53%)
Glutamine (Gln, Q)
n = 9 (1.99%)
Histidine (His, H)
n = 9 (1.99%)
Lysine (Lys, K)
n = 8 (1.77%)
Arginine (Arg, R)
n = 12 (2.65%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
27 12 17 21 10 21 3 29 8 1 3 2 8 0 23 9
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
5 2 4 10 18 14 1 2 1 8 6 7 10 9 1 8
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
11 13 2 12 7 13 0 7 2 7 7 0 0 11 5 3
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
6 9 2 2 3 8 0 5 4 3 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
89 112 128 125
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
56 136 72 190
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
21 111 172 150
ND4L (size: 285 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 4 (4.26%)
Alanine (Ala, A)
n = 11 (11.7%)
Serine (Ser, S)
n = 6 (6.38%)
Threonine (Thr, T)
n = 10 (10.64%)
Cysteine (Cys, C)
n = 3 (3.19%)
Valine (Val, V)
n = 0 (0%)
Leucine (Leu, L)
n = 21 (22.34%)
Isoleucine (Ile, I)
n = 8 (8.51%)
Methionine (Met, M)
n = 7 (7.45%)
Proline (Pro, P)
n = 3 (3.19%)
Phenylalanine (Phe, F)
n = 5 (5.32%)
Tyrosine (Tyr, Y)
n = 0 (0%)
Tryptophan (Trp, W)
n = 1 (1.06%)
Aspartic acid (Asp, D)
n = 1 (1.06%)
Glutamic acid (Glu, E)
n = 2 (2.13%)
Asparagine (Asn, N)
n = 5 (5.32%)
Glutamine (Gln, Q)
n = 0 (0%)
Histidine (His, H)
n = 3 (3.19%)
Lysine (Lys, K)
n = 1 (1.06%)
Arginine (Arg, R)
n = 3 (3.19%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
6 2 6 8 0 4 2 6 0 0 0 0 0 0 4 1
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
1 1 2 4 5 2 0 1 2 1 0 0 0 3 0 1
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
5 4 0 3 1 2 0 0 0 0 0 0 1 5 0 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
2 2 0 1 0 1 0 2 0 1 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
18 23 31 23
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
11 30 13 41
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
4 20 34 37
ND5 (size: 1792 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 28 (4.7%)
Alanine (Ala, A)
n = 52 (8.72%)
Serine (Ser, S)
n = 58 (9.73%)
Threonine (Thr, T)
n = 55 (9.23%)
Cysteine (Cys, C)
n = 7 (1.17%)
Valine (Val, V)
n = 19 (3.19%)
Leucine (Leu, L)
n = 85 (14.26%)
Isoleucine (Ile, I)
n = 76 (12.75%)
Methionine (Met, M)
n = 23 (3.86%)
Proline (Pro, P)
n = 25 (4.19%)
Phenylalanine (Phe, F)
n = 42 (7.05%)
Tyrosine (Tyr, Y)
n = 12 (2.01%)
Tryptophan (Trp, W)
n = 11 (1.85%)
Aspartic acid (Asp, D)
n = 12 (2.01%)
Glutamic acid (Glu, E)
n = 10 (1.68%)
Asparagine (Asn, N)
n = 24 (4.03%)
Glutamine (Gln, Q)
n = 15 (2.52%)
Histidine (His, H)
n = 16 (2.68%)
Lysine (Lys, K)
n = 18 (3.02%)
Arginine (Arg, R)
n = 9 (1.51%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
56 20 22 24 10 23 5 20 15 0 4 7 8 0 32 10
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
1 4 3 10 16 25 1 5 5 10 8 5 5 14 1 21
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
13 19 2 12 7 25 2 2 10 5 7 2 3 12 12 5
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
11 6 4 3 9 16 2 3 0 5 1 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
121 127 208 141
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
67 178 107 245
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
32 145 217 203
ND6 (size: 504 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 24 (14.37%)
Alanine (Ala, A)
n = 18 (10.78%)
Serine (Ser, S)
n = 11 (6.59%)
Threonine (Thr, T)
n = 3 (1.8%)
Cysteine (Cys, C)
n = 1 (0.6%)
Valine (Val, V)
n = 29 (17.37%)
Leucine (Leu, L)
n = 27 (16.17%)
Isoleucine (Ile, I)
n = 3 (1.8%)
Methionine (Met, M)
n = 4 (2.4%)
Proline (Pro, P)
n = 4 (2.4%)
Phenylalanine (Phe, F)
n = 9 (5.39%)
Tyrosine (Tyr, Y)
n = 7 (4.19%)
Tryptophan (Trp, W)
n = 9 (5.39%)
Aspartic acid (Asp, D)
n = 1 (0.6%)
Glutamic acid (Glu, E)
n = 9 (5.39%)
Asparagine (Asn, N)
n = 2 (1.2%)
Glutamine (Gln, Q)
n = 0 (0%)
Histidine (His, H)
n = 1 (0.6%)
Lysine (Lys, K)
n = 3 (1.8%)
Arginine (Arg, R)
n = 2 (1.2%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
3 0 1 0 1 1 1 13 0 0 10 1 14 4 9 0
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
3 1 0 15 1 2 0 5 3 5 11 2 1 1 0 0
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
0 2 1 2 0 3 0 5 1 7 0 3 11 2 0 1
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
0 5 4 1 0 0 3 0 0 1 1 1 0 0 0 6
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
81 10 22 55
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
43 30 23 72
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
42 8 55 63
Total protein-coding genes (size: 11291 bases)
Amino acid sequence:
Amino acid frequencies:
Glycine (Gly, G)
n = 221 (5.88%)
Alanine (Ala, A)
n = 314 (8.35%)
Serine (Ser, S)
n = 304 (8.09%)
Threonine (Thr, T)
n = 292 (7.77%)
Cysteine (Cys, C)
n = 26 (0.69%)
Valine (Val, V)
n = 203 (5.4%)
Leucine (Leu, L)
n = 587 (15.61%)
Isoleucine (Ile, I)
n = 339 (9.02%)
Methionine (Met, M)
n = 162 (4.31%)
Proline (Pro, P)
n = 207 (5.51%)
Phenylalanine (Phe, F)
n = 263 (6.99%)
Tyrosine (Tyr, Y)
n = 112 (2.98%)
Tryptophan (Trp, W)
n = 111 (2.95%)
Aspartic acid (Asp, D)
n = 72 (1.91%)
Glutamic acid (Glu, E)
n = 91 (2.42%)
Asparagine (Asn, N)
n = 125 (3.32%)
Glutamine (Gln, Q)
n = 82 (2.18%)
Histidine (His, H)
n = 91 (2.42%)
Lysine (Lys, K)
n = 81 (2.15%)
Arginine (Arg, R)
n = 73 (1.94%)
Codon statistics:
AUU AUC AUA CUU CUC CUA CUG UUA CAA CAG GUU GUC GUA GUG UUU UUC
243 96 119 167 77 129 23 161 76 6 80 47 69 7 193 70
AUG UGU UGC GCU GCC GCA GCG GGU GGC GGA GGG CCU CCC CCA CCG ACU
43 11 15 79 117 114 4 48 56 68 49 52 52 94 9 94
ACC ACA ACG UCU UCC UCA UCG AGU AGC UAU UAC UGG UUG AAU AAC CAU
82 109 7 76 37 131 6 22 32 64 48 9 30 66 59 29
CAC GAA GAG GAU GAC AAA AAG CGU CGC CGA CGG AGA AGG UAA UAG UGA
62 71 20 29 43 71 10 21 10 35 7 1 1 3 0 102
Codons with 1st base G Codons with 1st base C Codons with 1st base A Codons with 1st base U
901 849 1055 956
Codons with 2nd base G Codons with 2nd base C Codons with 2nd base A Codons with 2nd base U
487 1063 657 1554
Codons with 3rd base G Codons with 3rd base C Codons with 3rd base A Codons with 3rd base U
231 903 1353 1274

>NC_009422.1 Microhyla ornata mitochondrion, complete genome
GCTTTTAAAGGAAAACAGCTCTTCCCCTGGTCTTAGGCTCCAGTATCTCTTGGTGCAAATCCAAGTAAAA
GCTATTTCTGGTAGCTTAACTAAAGCATTGGTCTTGTAAACCAAAGACTGTGGGATAACACCTACCCAGG
GCTTCAAGACAAAAGGAATTCAACCTTCACCCCTGGCCCCCAAAGCCAGTATTCTAACTAAACTATGTCC
TGTGCTCGTATAGCTTAATCTCAAAGCGTAGCGCTGAAAACGCTAAAATGTACCCTAAAAAGTTCTGCAA
GCATAAAGGTTTGGTCCTGACCTTATTATCACCTCATTCTCGACTTACACATGCAAGTTTCAGCACACCC
GTGAGAACGCCCTTCTACCCTTTTTAGGACAAGGAGCTGGTATCAGGCACAGAACTCTAGCCCATGACAC
CTAGTTTTGCCACACCCTCAAGGGTCTTCAGCAGTGATTAACATTGTTTATAAGCGCCAGCTTGAACCAG
TTAGAGAACCCAGAGCCGGCCAATACGGTGCCAGCCGCCGCGGCTACACCGCTAGGCTCAAGTTGATATT
ATTTCGGCGTTAAGCGTGTTTAAAGTGCCCGTAACAGATTAGAATTAAACTTTAACCAAGCCGTGATACG
CTTGTTTCTAAGAAAACCACAATCGAAAGTTATTCTAACCAAACCACTTGAACCCACGACAGCTAGGGAA
CAAACTGGGATTAGGTACCCCACTATGCCTAGCCGTAAAACATTTACTTACACCCCTTACCGCCCGGGAA
TTACGAGCCCAAGCTTAAAACCCAAAGGACTTGACGGTGTCCCACCCACCTAGAGGAGCCTGTTCTGTAA
TCGATTCCCCCCGATCTACCTCACCACTTCTAGCTTTTTTCAGCCTGTATACCTCCGTCGTAAGCTTACC
ATATGAACGTTTCTCAGTGAGCTAAAAGATTTCTTCATAAATACGTCAGGTCAAGGTGCAGCCCACGAAG
TGGCAAGCAATGGGCTACAATTTCTATAATAGAACATAACGAAAGACTACATGCAACTCAGTCATGAAGG
CGGATTTAGCAGTAAAAAGAAAGTAGAGAGTTCTTTTTAATTAGGCGCTGGGACGCGTACACACCGCCCG
TCACCCTCACCCTCTTCAAAACGCTTTAAATATGTTTATAACACTTTTATGCACCCCAGAAGAGGTAAGT
CGTAACATGGTAAGTGTACTGGAAAGTGCAACTTGGATAAACAAAATGTAGCTTAACTAAAGCATCTCGC
TTACACCGAGAACATGTCCGTGAAACTCAGATCATTTTGAGCTGAAAACCTAGCTTACCCAATTCCTATG
AATACACCACCTTAACATAAACTAAATAAAACATTTTGTACATTTAGTAAAGGCGATTAAAAAATGTCTC
AAAGCTATAGAAACTAGTACCGCAAGGGAAAAGTGAAATATTAGTGAAAAACCTCAAGCACAAAAAAGTA
GAGCTATAACCTCGTACCTTTTGCATCATGGTCTAACTAGTTCAACCAAGCAAAATGAATTTTAAGTTTG
ACTTCCCGAAACTAAGTGAGCTACTTAAAAACAGCCCTCCGGGCCAACCCGTCTCTGTTGCAAAAGAGTG
GGAAGATTTTTAAGTAGAGGTGATAGACCTACCGAACCTAGAGATAGCTGGTTATTCAGGAAAAGGATTT
AAGTCCTACCTTAAGTTTACAGTATAAAATAATACATAATTAACTTTAAGAGCTATTCAAATAAGGTACA
GCCTATTTGAAACAGGATACAACCTCCACAAACGGGTAACATTTTCTTTTATCAATTAAGTGGGCCTAAA
AGCAGCCATCTTACAAAAAGCGTTAAAGCTTCATTGTTTTTATCAAAAATACCATTAATTAACTGTAACC
CTTCACCTGTACTGAATGATCTCATAGTTATATGAGAGCCTATATGTTAGAACTAGTAACAAGAAGAAGC
CCCTCTCCAAAATGTAAGCGTAAGCCAAAATGAACTATTCATTGGCATTTAAAGTTATAAACCTATTGTA
GCAACTTAACAAGAAAAACCTACAACTGATAAACGTCAACCTTACACAAGCACATTTCTGGAAAGATAAA
AAGAATAGGAAGGAACTCGGCAAACAACTAACCCCGCCTGTTTACCAAAAACATCGCCTCCTGATCACCC
ATAGGAGGTCCAGCCTGCCCAGTGACTAAGTTAAACGGCCGCGGTACCCTAACCGTGCAAAGGTAGCGCA
ATCACTTGTTCTTTAAATGAGGACTAGTATGAACGGCATCACGAGGGTTATGCTGTCTCCCTACTCTACT
CAGTGAAACTGATCTCCCCGTGAAGAAGCGGGGATAAAAATATAAGACGAGAAGACCCCATGGAGCTTTA
AACTCAGTACCAACTGCCCAAATAAGAACCTATTATACTTGCAGCTATGGTTACTAGTTTTCGGTTGGGG
TGACCACGGAGTAAAATTAAACCTCCACGATGAAAGGAACTAATAACCTAACCTATGAGCTACAGCTCTA
AGTATCAACAAATTGACTAATTGACCCAATTACTTGATCAACGAACCAAGTTACCCTGGGGATAACAGCG
CAATCCATTTCAAGAGCTCATATCGACAAATGGGTTTACGACCTCGATGTTGGATCAGGGTATCCCAGTG
GCGCAGCCGCTACTAACGGTTCGTTTGTTCAACGATTAAAACCCTACGTGATCTGAGTTCAGACCGGAGT
AATCCAGGTCGGTTTCTATCTATAAAGAGTTTCTTCTAGTACGAAAGGACCGAAGTAACATGGCCAATGA
CTCATTAAGCCATAGCTGTAAATTAGTGAAAACAACTTAATTAACATCAGCCTACGAATTTCCCTAAGAA
AAAGATTGTTAGCGTGGCAGAGCCTGGTAATGCAAAAGATCTAAGCCCTTTCCCCCAGGGGTTCAAATCC
CCTCGCTAACTCGTGACTAAACTATTATTATTTATTCTCCCTCTTTTGTATATTGCACCTGTTTTACTTG
CCGTTGCCTTTTTCACTCTAATTGAGCGAAAAGTCTTAGGCTACATGCAACACCGTAAAGGCCCAAACAT
TGTAGGGCCCTACGGCCTTCTTCAACCAATTGCTGACGGAGTTAAACTATTTATTAAGGAACCCATTCGT
CCCTCCACATCATCACAAGTCCTTTTTCTACTAGCCCCAACACTTGCATTAGCCTTAGCAATACTTTTAT
GAACACCATTTCCCATACCAGTCTCATTTTCAGATATAAACTTAGGCATTTTATTTATTTTAGCCATTTC
AAGCCTTATAGTTTATACTATTTTAGGCTCGGGTTGAGCCTCAAACTCTAAATACGCATTAATTGGAGCC
TTACGAGCCGTAGCCCAAACAATTTCTTATGAAGTTACACTAGCACTAATTATTCTTTCAGCAGTCTTCC
TAGTAGGAGGTTTCACCCTATCTAACTTTTCCGTCACTCAATATTATACATGACTCCTATTACCAACTTG
ACCCTTGGCTCTTATATGATATGTCTCTACCTTAGCTGAAACCAACCGGGCACCATTTGATTTAACAGAG
GGAGAATCTGAATTAGTTTCAGGTTTTAACGTAGAATATGCAGGAGGACCTTTTGCTTTATTCTTTCTAG
CAGAATACGCCAATATTTTGATAATAAACACTCTAACAGTTATATTATTTATTAACTCATCAATTTTTGT
ACCAATGTCCTCTATTGTCTTAATAACTAAAGCTGCCACCCTATCAATACTATTTTTATGAGTTCGAGCA
TCATACCCACGATTTCGATATGACCAGCTAATGCACCTAGTCTGAAAAAATTTTCTCCCAATTACCCTTG
CTTTCACAATTTGACAAATCTCAATTCCAATCTCTTTTATTATTACCCCCCCAGTGATATGGAAGTGTGC
CCGAAAGAAAAGGACCTCCTTGATAGGGAGGCTTATATGGGTTCAAACCCCATCATTTCCTTAGAAAAAC
AGGAATCGAACCTGTACCTGAGAGATCAAAACCCTCCGTACTTCCTTTATACAATTTTCTAGTAAAGTCA
GCTAATTAAGCTTTTGGGCCCATACCCCAAAAATGTTGGTTAAACCCCTTCCTTTACTAATGTCACCTTT
TGCCTCATTTATTTTTTTATCAAGCTTGGCAACCGGAACCACAATCACTTTAGCTAGCTATCACTGACTT
TTAGCATGAATTGGCCTTGAAATTAACACACTAGCCATTATCCCTCTTATAACCAAAACCCCCCACCCAC
GGGCCATTGAAGCTGCAACCAAGTATTTTCTAACACAAGCAGCAGCTTCAGCCCTCATTCTCTTTTCAAC
AATAATTAACTCATGAATCTTTGGTGAGTGAGACATTATGCTTACATCACCTTCAATAACTATCCCCGTT
TCAATTGCATTATCGATAAAACTCGGCCTTGCCCCCCTCCACTTTTGAATACCAGAAGTACTTCAAGGCA
TCCCCCTTTCTACTGGCTTAATTTTATCCACTTGACAAAAAATCGCACCAATAATTCTTCTTATACAAAT
TTCAAAAACCTGTGACCTTAATCTAATAGTTTTACTAGGACTGATCTCTATTCTCTTAGGGGGCTGAGGG
GGTATCAACCAGACACAACTCCGAAAAATTATAGCATTTTCATCAATTGGTCACCTGGGCTGAATAATTA
TTATCTTAAAGTTTAACCCTGAACTAACCCTATTTAATTTTATTTTGTATATTATTATGACATCAGCCAT
ATTTTCAACCCTCATCTCACTAAATTCAACTAAAATCTCACAACTGTCTTCCTCCTGAACTAAAACACCA
GCTTTAACTTCATCCTCCATACTCATTCTTCTATCACTAGGAGGACTTCCACCCCTGACAGGCTTTGCCC
CAAAACTCCTTATCACAATAGAACTAGTTAAACAAAACTCATCTATTTTAGCAGGAACTATTCTTGTAGC
ATCACTATTAGCCCTATATTTTTATATTCGACTAACATATGTTTTAACCCTAACCTTATCTCCAAATTCA
TCGACTTCAACTACAACTTGATACTTTTTACCAAATCTTTCTATCACCACAATTACCTCAACCCTCGCCT
TATTTTTACTTCCACTGTCATCAACTATCATCGCCCTTTTATAGAAACTTAGGATAATTTAGACCAAGGG
CCTTCAAAGCCCCAAGTAGAAGTTAAAATCTTCTAGTTTCTGTAAGACTTGCAGGACACTAACCTACATC
TTCTGAATGCAACTCAGACACTTTAATTAAGATAAAGCCTTTCCTAGAAAGACGGGCCTCGATCCCGTAA
TATTTTAGTTAACAGCTAAACGCTCAATCCAGCGAGCTTCATTCTACTTCTCCCGGTTTCGAAAAAAACG
GGAGAAGCCCCGGCAGGAATTTATTCTGCTTCTTGTGGCTTGCAACCACACGTGCTTACACCCCAGGGCC
TGATAAGGGGAGGTCTCTCACCTCCGCCGGCGGGTCTACAATCCGCCGCCTACTCGGCCACCTTACCTGT
GATAATTACACGCTGACTATTTTCAACCAATCACAAAGACATCGGCACTCTTTACCTTATCTTTGGGGCC
TGAGCCGGAATAGTAGGAACTGCCCTTAGCCTCCTAATCCGTGCAGAACTCAGCCAACCCGGCACTCTAC
TAGGTGATGATCAAATCTACAACGTCATTGTTACCGCCCACGCATTTGTAATAATTTTCTTTATAGTTAT
ACCAATTATGATCGGCGGCTTTGGTAATTGACTTGTTCCACTAATAATTGGAGCCCCGGACATGGCATTC
CCTCGAATAAATAACATAAGCTTCTGACTTCTCCCCCCCTCCTTTCTCCTCCTGCTAGCTTCTTCAGCAG
TTGAAGCGGGCGCCGGAACTGGTTGAACAGTTTACCCCCCTTTAGCCGGTAATCTTGCTCACGCCGGCCC
ATCCGTAGACCTTACAATTTTTTCTCTACATTTGGCTGGGGTCTCTTCAATTCTTGGAGCAATCAACTTT
ATTACTACTATTATTAACATAAAACCCCCATCAGTAACTCAATATCAAACACCTTTGTTCGTTTGGTCTG
TTTTAATCACTGCAGTTCTTCTACTTCTTTCCCTCCCAGTTCTTGCCGCAGGTATTACTATGCTTCTAAC
TGATCGAAACTTGAATACCACCTTCTTTGACCCCGCAGGAGGAGGAGACCCGGTCCTCTATCAACATCTT
TTCTGATTCTTTGGACACCCCGAAGTATATATTCTCATTCTTCCTGGGTTCGGAATCATTTCACACGTAG
TAGCATACTACTCAAGTAAAAAAGAGCCTTTCGGCTATATAGGAATGGTCTGAGCAATAATGTCAATTGG
CCTTCTCGGCTTCATTGTATGAGCCCACCACATATTTACAACAGACCTCAACGTAGACACACGAGCTTAT
TTTACCTCAGCCACTATAATTATTGCTATCCCAACTGGTGTAAAAGTTTTTAGCTGATTGGCCACAATAC
ACGGGGGAATTATTAAATGAGAGGCCCCAATGCTCTGAGCCTTAGGGTTTATCTTCCTATTTACTGTAGG
TGGTCTAACCGGCATTGTTCTTGCTAACTCATCTATCGATATCGTCCTGCACGACACCTACTATGTTGTA
GCACATTTCCACTATGTTCTTTCAATGGGGGCAGTATTTGCCATCATAGCAGGATTCGTTCACTGATTCC
CGCTGTTTACTGGGTACACACTTCATCACTCTTGAACAAAAATTCACTTCGGTGTAATATTTGTTGGGGT
TAATCTAACATTCTTTCCACAGCATTTCCTAGGTCTTGCCGGAATGCCTCGACGTTACTCTGATTACCCT
GACGCCTACACCCTTTGAAATACAGTCTCATCAATCGGGTCATTAATTTCTTTAGTTGCTGTTGTTTTAA
TAATGTTTATTATTTGAGAAGCTTTTTCAGCAAAACGGTTATTCTCTAATGCAGAACTAACTACAACTAA
TGTAGAATGACTTTTAGGGTTTCCCCCACATTATCACACATTTGAAGAGTCAACTTTTTCAATTAAAATT
AATCGAGAAAGGAGGGAATCGAACCCCCTTACCCTGGTTTCAAGCCAGACACATATCCTCTCTGTCACTT
TCTTTGAGGTGTTAATTAAATAATAATAATGCCTTGTCAAGGCATAATTACAGGTTAAACTCCTGTACAT
CTCTTTATGGCACACCCAACACAACTAGGATTTCAGGACGCAGCTTCTCCTATTATGGAAGAACTTCTCC
ATTTTCATGACCACACTTTAATAGCAGTTTTTTTAATTAGTACCCTTGTATTATATATCATTACCTCTCT
TATAACCACTAAACTTTCTAGCACTAATACAATTGATGCCCAAGAAATTGAAATAGTTTGAACTATTATA
CCGGCTATTATCTTGATTGTTATTGCCCTCCCATCTCTTCGAATTCTTTACCTTATGGACGAAATCAGCA
ATCCAGATATACAATTAAAGCCATTGGCCCACCAATGATACTGAAGCTATGAATACTCAGATTTCGCTAA
TTTAAACTTCGACTCTTATATAATCCCAACCAAAGAACTAACTCCGGGTCAATTTCGTCTCTTAGAAGTT
GACAATCGTATAGTAACACCCATCGGTATAGCAACTCGGACAATTATTACAGCTGATGATGTTTTACATT
CATGAGCCGTCCCATCACTAGGGGTAAAAACTGATGCCATTCCTGGCCGGCTAAATCAAGCTTCATTTCT
TGTTTCTCGTCCAGGTGTCTACTACGGCCAATGCTCAGAAATTTGCGGGGCAAATCATAGTTTTATACCT
ATTGTTGTCGAAGCTTTACCAGTCCCAGATTTTTTAAACTGATCCTTAATCTCACAAGATTCTTCATTAA
GAAGCTATAGGACAGCGACAGCCTTTTAAGCTGTAGATAGGTGATTCCAACCACCCTTAATGGATGCCTC
AACTAATTCCGGACCCTTGATTTTTTATCTTTTTATCCTCTTGAATTATTATTTTCATTTTAGCCCCACA
AAAAATTCTTAATCACACTATTCTTAATGAACCCTCATCAAAAGCCACAAAAACAGCCTATAGTAACTGA
ACCTGACCATGATCTTAAACTTATTTAGTCAATTCTCATCACCAACACTTATAGGAATTCCTCTTATTCT
TGTTGCCATGTTAGTCCCATGACTTCTTTTTCCAACCCCATCTAGCCGTTGGTTACCTAATCGCCTTATT
GCTTCTCAATCATGATTTGTTAAAATCTTTTCTAAACAAATTTTTATGCCTTTAAATACCCCAGGACATA
AATGAGCATTTTTACTAACTTCAGTAATAGTATTTCTTCTTGGTATAAATCTTCTTGGCCTTCTTCCATA
TACATTTACTCCTACTACCCAACTCTCCCTTAATTTAGGACTCGCAGTACCTCTCTGACTTGCCACGGTA
GCAGTCGGTTTTCGTAACCAAATAACAGCCTCCCTGGGTCACCTCCTACCCGAAGGTACTCCTACACCCC
TAATCCCAGTTTTAATTATTATTGAAACAATTAGCCTTCTCATCCGCCCCTTAGCCTTAGGAGTTCGACT
AACTGCCAATTTAACGGCAGGACATCTTCTTATTCAACTTATTTCAATGGCTACCATAGCAATAGCATCG
ACCTCTATTCTAGTTTCATCTCTTACATTTATTGCACTCCTCCTCCTCACTATTTTAGAGATTGCTGTTG
CAATAATTCAAGCTTATGTTTTTGTTCTTCTATTAAGCCTCTACCTTCAAGAAAATACTTATGGCCCACC
AAGCACACGCATATCATATAGTCGACCCTAGCCCTTGACCTTTAACAGGCGCCGCAGCCGCATTTCTCTT
AACCTCTGGCCTCGCCATGTGATTCCACTTTAACACAATTGTCTTAATAACCCTTGGCCTACTTCTAATA
CTCCTTACTATGTTTCAATGATGACGAGATGTAGTACGAGAGGGCACATTTCAAGGCCACCACACACCCC
CAGTTCAAAAAGGCCTTCGATACGGAATAATTCTATTTATTACATCCGAAGTTTTCTTTTTTGTTGGTTT
TTTTTGAGCATTCTACAATGCTAGCCTCTCTCCTACACCTGAAATCGGAGAGTGCTGACCTCCAACAGGT
ATCACCCCCCTAGACCCATTCGAAGTACCACTTCTTAATACAGCCGTCCTCTTGGCATCCGGAGTATCAG
TTACATGAGCCCACCACAGTATTATACAGGGCGATCGTAAAGGCGCTATCCAAGCCCTAGCCCTCACAAT
TATTTTAGGTGGGTACTTTACTCTTCTTCAAGCTATAGAATATTATGAAGCCCCATTTACTATTGCCGAC
GGAATCTACGGTTCAACCTTCTTTGTAGCCACTGGGTTCCACGGTCTTCATGTTATTATTGGGTCAGTTT
TCCTTTTTACCTGCCTTCTTCGACAAATTAACTTTCATTTTACATCTCAACATCACTTCGGTTTTGAAGC
CGCAGCATGATATTGACACTTCGTAGACGTTGTTTGACTTTTCTTGTATGTCTCAATTTACTGATGAGGT
TCATATTTTCTTAGTATAATAAGTATTGGTGGCTTCCAACCATCCGGCCCTGGTTAAACCCCGGGAGAAA
ATAATGATTACATACGTTCTTACAGCTTTCACCCTCTCTATTATTTTAGCAGCTGTTAGTTTTTGACTTC
CCATTATGAGCCCCGACACTGAAAAATTATCCCCGTATGAATGTGGATTTGATCCCCTCGGCTCAGCCCG
CTTGCCTTACTCCATGCGATTTTTTCTGGTTGCAATTCTCTTTTTACTTTTTGATTTAGAAATTGCTCTC
TTACTACCATCACCATGAGCAATACAACTATTTTCACCAATAACTACTATTTTTTGAGCTACTATTATTC
TAGTCCTACTTACCCTAGGACTCATTTACGAATGACTTCAAGGAGGACTAGAATGAGCAGAATAGGGGAC
TAGTCTAACTAAAGACAGCTGATTTCGGCTCACCTAATTATGGTTAAAATCCATAGTTCCCTTACATGAC
CTCAATTTTTATTACAACATTCTTTATTGCCCTGCTTGGCCTTGCTTTTCATCGTACTCACTTATTATCA
GCTCTTCTATGCCTGGAAGCAATAATACTTACAATCTTTATTGGCCTAACCATTTGACCAAATAATCTTT
CCCCATCTATAACCCTTGCCCCATTAATTATATTAACCCTTTCTGCCTGCGAAGCTGCCATAGGTTTATC
TTTGATAATCGCCACAGCACGTGCTCACGGAAATGATAATTTAAAAACCCTAAATCTTCTACGATGTTAA
CAATCCTTACTGCATGATCTTCAATTTTAATTACTAGTTTTATTTCACCACCTAAAGTCTTATGATCATT
AATTACCTTACAAGGTTTTATCCTTTCATTTGTATCTATTTCTTGATTTTTCCTTCAAGGTTTTAACTTT
GCAGACAATTACTTCTTAATTGACTCCCTCTCAGGCCCCCTTGCCATTCTTACATGCTGACTATTCCCGC
TCACTATCTTAGCTAGTCAGAGTAAACTCTCTAAAGAACCTCTACCACGCCAACGTATCTACATTGCCAA
TGCAGCTTTTCTTCAACTTACCACCCTCCTAGCTTTCACGACATCAGACTTAATACTGTTCTTTATCTTC
TTTGAGGCCTCCCTTATCCCCACAATAATCATCATTACCCGCTGAGGGGCCCAAGAACGTCGCCTTGAAG
CAGGAATATATCTAGCCTTTTATACCATAGTTAGTGCTGTCCCACTACTAATTTTTTTATTAAGTTTTTA
TGATACAACAGGATCCCTGCACACACCCCTCATTCTCTCTTCAGTACCCCCTATTAACTTAGAGCCCTAT
TCCGGACTATTCTGAGCATCATGTAATTTAGCATTTCTAGTAAAAATACCAATATACTGCCTACACTTAT
GACTTCCTAAAGCCCACGTTGAAGCCCCAATTGCAGGATCTATGGTTCTTGCAGGAACACTCTTAAAACT
AGGGGGGTACGGAATTATGCGTCTTTCTATTACCCTACCTGAAAATGCGTTACCAAATACCAACATCTTT
ATATTTATTTCAATATTTGGGGTACTAGCTACAGCTATTCTCTGCATACGACAAACAGATCTTAAATCTC
TAATTGCTATATCTTCCGTAAGCCACATAAATCTGGTAATTGCCGCAGCCCTTATCCACACCCCTTGAAG
CTACGCAGGGGCTATAGCCATAATGATTGCCCATGGATTAACATCTTCTGCACTATTCTGTTTAGCTAAT
ACGATATATGAACGAACTAATAGTCGTACAATAATTCTTCTTCGTGGAGCCCTATTAATTTTTCCCTTAG
CAGCCTTATGATGACTTTCTATTCTATTATTCAATATGGCCCTCCCCCCCTCAGTAAACTTTGCAAGTGA
ACTACTAATTATATCCGCCTTATACAATTGATCATCCCCTGCTTTTATTTTTGTAGCCTTAAATTTAATT
CTTACTACAGCCTATACCCTATATACTCTATGATCAACTCAACGAGGGCCCACCCCATTACACCTAAAAA
CCCTTTACCCATTTCAAATCCGCGAACATTCATTACTTCTTCTCCATACTGCCCCCGCATTAATATTTAT
TTTAAACCCAGAATTAATCTTTTGCTGTGAATATAGTTTAACCAAAATTTTAGGTTGTGGTCCTAAAGAT
GAAGGCTAATATCCTTCTATTCACCGAGTTTGTCTGGGATTATGAGAACTGCTAATTCCTCAAAACCATG
GTTCAATTCCATGGCTTGCTCGAACCTTAAATTATTACACCATCAAGTTAAAAGTCATGGACCTTATTCT
GGTCACTTCGTCATGCCTTATTATAACCATCACCTCAATTCTTCTTCCATTATTAATCTCTCAATCAACA
CTCTTTTTTCAAATTACGAAGACTGCAGTAAAAACAGCTTTCTTTATTTCTACTATTCCACTCATCTTTT
TTGCTAGCCAAGAGTCTGAAGCCATCACAATTACATGACACTGACTATCATTGGGATATTCTCATATTAA
TATCTCACTTCAATTTGACTTATACTCAATTATTTTTACACCAATTGCCCTATTTGTAACTTGAAACATT
TTAGAGTTTTCAATTTGATACATACACTCAGACCCAAAAATTAACACTTTTTTTAAGTACCTACTAATTT
TTTTAACAGCAATAATTATTCTTGTAGTAGCAGGAAACATATTTATTCTATTTATTGGGTGAGAGGGAGT
AGGAATTATATCTTTTATATTAATCGGGTGGTATCACGCCCGAAGCAACGCAGGTACAGCAGCCCTTCAA
GCAGTTTTATACAATCGAATTGGTGACATCGGATTCCTATTCGCAATCTCATGAATACTGATAAACCTCG
GGTCAATTGATTTTCCCCATATCTTCTCCATCAACACTTCAACACCATTTCTTATTGCTATAATTACTGC
AGCAGCTAGCAAATCCGCTCAATTTGGCTTACACCCATGATTAGCATCCGCAATAGAAGGCCCCACACCT
GTTTCTGCCCTTCTTCACTCTAGCACCATAGTAGTTGCAGGTATTTTTCTGCTTGTCCGTATTCACCCGC
TACTAGAAAACAACCAAACTGCACTAACAACATGTCTCTGCCTAGGGGCCATCTCAACCTCATTTGCTGC
CACTTGTGCCCTTACACAAAATGATATTAAAAAAATTATTGCTTATTCAACCTCAAGCCAACTAGGTTTA
ATAATAGTCGCAGTAGGACTCAACTTCCCACATCTAGCATTTTTTCATATCTGCACTCACGCATTCTTTA
AAGCAATACTGTTTTTATGTTCTGGGTCTATTATTCACAGCCTAAATGACGAGCAAGATATTCGAAAAAT
AGGGGGCCTTCAAAACATACTTCCAATTACTACCTCATGTATTTCAATTGGCAGCCTAGCATTATTGGGA
ACCCCATTCATAGCTGGGTTTTTTTCAAAAGACGCAATTATTGAAGCCTCAACTACTTCACTCGTCAATA
CATGGGCCATTATACTCACCATTATTGCCACCTCTTTCACCGCCGTCTACAGCCTTCGTCTTATTTTTTT
TGCTTCTCTTAGCTTCCCTCGGATTAACCCAACTGTTATTGCTAATGAAAATAATTACCTCATTTTAAAT
CCACTAAAACGTCTTGCCATCGGAAGCATTATTGCAGGTTTAATCATTTTCCAACTAATCATCCCCAATA
ATCCTATAATTCACACTATACCAACATCGATAAAATTAACCGCACTAGCAATTACTATCTTAGCATTTAT
TATTGCCATCGACGTCGCAAAATTATCCTGATCTTCCACCCCACCTTCAACACACGCACTATCAAAAATA
TTTGACACAACATTTTATACTAATGTCCTCCATCGACTTCTACCAAGTTATGCCTTAAACACGGGACTCC
GAATTACATCCCACCTTTTAGACTCAATTTGACTAGAAAAAATTGGGCCTAAAGGACTAACTGCCTCCCA
ACTGCCCCCCATTAAAACTCTTCAAAGTGCGCAACTTGGCCTTATTAAAACTTACCTATCAACCTTTGTA
CTTACTTTGACACTATCATTAATCATCTTACAGCTCGCAAGGCTCCACTATAATGGCCCCGCACAACTTC
TAAAGCAACAAACAACGTCAACAACAAAGCCCACCCTCCCACAAACAATACTCAACCTCCACCAGCAAAA
ATGCCTGATACACCTCACCACTCGCCTACTACAGCTTCCTTACCAACATCAACTACACTCTCAGCCTTCT
CCTTCACAGCCTCACTTCCTCATAATAATCACCCAACTGTCAATACCAATAAATACACCCCAATATAGCT
TAATACTCAAACACTCCCCCAAGCTTCAGGATATGGTTCTGCTACTAAAGCAGCACTATAAGCAAAAACT
ACCATCATCCCCCCCAAATAGACGAGAAACAGAACTAATGACAAAAATGTTAACCCCCCATTAATTAATA
TTAAACACCCAGAACCAGCCCCAACTACTAATCCTAAAGCTGCAAAATAGGGAGAAGGATTTGAAGCTAC
AGCTACAAACCCAACCAATAGTCATAATTCAAATACCATCTATTCTCACCAGGACTCTAACCTGGACCAA
CAGCCTGAAAAACTACTGCTGTAATTCAACTACAAGAACAATGGCCCCCGCTATACGAAAAACCCACCCT
CTATTAAAAATTATTAACAGTGCCTTTGTTGATCTACCAGCCCCCTCTAATCTATCCTCATGGTGAAATT
TTGGCTCTCTCCTAGGTGTCTGCTTAATTGCCCAAATCGCCACAGGATTATTTTTAGCCATACATTATAC
TGCAGACACAACCTTAGCATTCTCATCAGTAGCCCACATCTGTCGAGACGTAAATTATGGCTGATTACTT
CGCAACCTTCATGCTAACGGAGCTTCTTTCTTTTTTATCTGCATTTATCTTCACATCGGCCGAGGCCTTT
ATTATGGTTCATACATATTTAAAGAAACTTGAAACATTGGGGTCATTCTTTTATTCCTTGTTATAGCCAC
CGCTTTCGTGGGCTATGTCCTTCCTTGAGGTCAAATGTCATTCTGAGGCGCAACCGTAATTACCAACCTC
CTTTCAGCAGCACCATATGTCGGGGGGGACCTTGTTCAATGGATCTGAGGCGGTTTCTCAGTTGATAACG
CTACTCTCACACGATTTTTCACCTTTCACTTTATTCTACCCTTTATCATCGCAGGAGCCAGCATAATTCA
CCTCTTATTCCTTCATCAAACTGGCTCTTCAAACCCAACAGGCCTAAACCCAAACCCAGACAAAGTCCCA
TTCCACTCCTACTACTCATATAAAGACGTCTTCGGCTTTGCAATTATACTTGCAGCGTTAACATCCTTGT
CTACCTTTGCCCCAAACATTCTTGGGGACCCAGACAACTTTACCCCAGCAAACCCCCTCGTCACTCCCCC
CCACATTAAACCTGAGTGATATTTCCTCTTTGCATATGCAATCCTACGATCTATCCCTAACAAACTAGGG
GGAGTCCTAGCCCTTTTACTGTCTATTCTAGTCCTATTTATTCTCCCTATTGTACACACCTCAAAACTTC
GCAGCCTAATATTTCGTCCAATAACAAAAATCTTTTTCTGAAGCCTAGTCGCCAACACATTTATCCTCAC
ATGAATCGGGGGCCAACCCGTCGAAGATCCTTACATCATGATCGGACAAGTCGCCTCAATTATTTATTTT
TTTATCTTTGTTATGGTTTTTCCAACAATCGGTTTACTAGAAAACAAGTTACTTCGACTGCAATAAGCAG
TTGCTAGTTTCCTCCATTTTGAGCAGTTGCCAGACGCTATGTACATAGTACATAAAATTACTTACCCCAT
GGTACATTAATCATTATATGTATAATCCCCATTACATAAATACCTCATAGGTTAGGACATTAATGTTTTA
TCAACATTAATATTTTAACCCCATGCTTACCATTTCCAACCAAACTTCATTATTTTATAGTCTTTTATTG
AACATTCCCTATTAATTTTCCAAGAAAATCTTATTGTTTTCGCCCAAAAATGTATGGCAACAGGATTACT
TAGACAACACTAGATTGTATCCTTCAGTTACTTCAAGAAATAACTTATCACCACCAATATCTATCCAGTT
GCTTCATCAACACACCATCATAGGCTATGATAATATAATGGTTCCTTCCTCGACTAAACCAACTCTTACA
CCCTATTAATTTTACACTCCTCACTTTCCTCTACTCTTCTTGAATATAGCCCAATAAATTACGCCGTAAC
CCTCCCTTGGTTTAAGAATATATCTATCACTTATTATAAAACTTTAATAATCAACTTCTACTGGTTTGTG
GTTTAAATGCACCTTAAGCTTAACCGGAGCTAACCGTTTTACCCATGAATATTCCTATAATACTACCCCA
CATACTCAACTTGCAGCACTTGCTGTTGCGGCATTCGTACCTTAAAGAGACCTCGTTAATGAAATCTCAG
CCTGGGGGATCTTACCTTCCCCCGGTCATTGAATTGTAGAGTGGTTGCGATTGACCTTTAGGAGGTAACG
GGTAGTACCGAATCTATGGACTTTTAACTAAGAGACGTCCCAAATGCACTTTAAAAGGTAACCCTCCTAT
GCGTGCTAGGTACCCGCAGAGTCCTTAACCTTACCTGGTCTGAATTGTTGTCGCATTTGTGGATTTAGGA
CCTTTCCTCTGGCTACTCTGAGTGGGGGAACCCGCACAAATTGACAGGTAGGACAACACATGCCCGCGTT
AAGTATCCCATCCTCTCTAATGAGGCCCTATAAATGTATGCTGGTCGGACATATTGCCCTCTATTTCCCT
CCCCCTCCTACTATTTTTCCACTTTTTTTTTTCGACACCCCCCCTTCCCCCCCACACCATGAATTTTAGT
AGCTTTACTCAATCACCCCCCCGGAATTGAGCTAAAAAAATAAATCGGCATGTGTTTTCCCTAAAAATTA
AGATTTTTGGGCCTCTATGTACCTATTAAAAATTCTCATTTTCGGGGATGTTTACTACTTATTCTAATCT
TTTTTTCTAATGCCCTAAACTTCCCCCACATTTTGTCTAATTATTATATACAAGTACAACTAATGTAAAA


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.