Viewing data for Otis tarda

Scientific name	Otis tarda
Common name	Great bustard
Maximum lifespan	28.30 years (Otis tarda@AnAge)

Total mtDNA (size: 16849 bases)	GC	AT	G	C	A	T
Base content (bases)	7633	9216	5320	2313	4070	5146
Base content per 1 kb (bases)	453	547	316	137	242	305
Base content (%)	45.3%	54.7%

Total protein-coding genes (size: 11377 bases)	GC	AT	G	C	A	T
Base content (bases)	5272	6105	3869	1403	2742	3363
Base content per 1 kb (bases)	463	537	340	123	241	296
Base content (%)	46.3%	53.7%

D-loop (size: 1265 bases)	GC	AT	G	C	A	T
Base content (bases)	511	754	342	169	355	399
Base content per 1 kb (bases)	404	596	270	134	281	315
Base content (%)	40.4%	59.6%

Total tRNA-coding genes (size: 1546 bases)	GC	AT	G	C	A	T
Base content (bases)	644	902	384	260	389	513
Base content per 1 kb (bases)	417	583	248	168	252	332
Base content (%)	41.7%	58.3%

Total rRNA-coding genes (size: 2565 bases)	GC	AT	G	C	A	T
Base content (bases)	1159	1406	677	482	554	852
Base content per 1 kb (bases)	452	548	264	188	216	332
Base content (%)	45.2%	54.8%

12S rRNA gene (size: 969 bases)	GC	AT	G	C	A	T
Base content (bases)	461	508	268	193	198	310
Base content per 1 kb (bases)	476	524	277	199	204	320
Base content (%)	47.6%	52.4%

16S rRNA gene (size: 1596 bases)	GC	AT	G	C	A	T
Base content (bases)	698	898	409	289	356	542
Base content per 1 kb (bases)	437	563	256	181	223	340
Base content (%)	43.7%	56.3%

ATP6 (size: 684 bases)	GC	AT	G	C	A	T
Base content (bases)	321	363	250	71	169	194
Base content per 1 kb (bases)	469	531	365	104	247	284
Base content (%)	46.9%	53.1%

ATP8 (size: 168 bases)	GC	AT	G	C	A	T
Base content (bases)	74	94	67	7	38	56
Base content per 1 kb (bases)	440	560	399	42	226	333
Base content (%)	44.0%	56.0%

COX1 (size: 1551 bases)	GC	AT	G	C	A	T
Base content (bases)	736	815	475	261	400	415
Base content per 1 kb (bases)	475	525	306	168	258	268
Base content (%)	47.5%	52.5%

COX2 (size: 684 bases)	GC	AT	G	C	A	T
Base content (bases)	309	375	209	100	167	208
Base content per 1 kb (bases)	452	548	306	146	244	304
Base content (%)	45.2%	54.8%

COX3 (size: 784 bases)	GC	AT	G	C	A	T
Base content (bases)	369	415	248	121	205	210
Base content per 1 kb (bases)	471	529	316	154	261	268
Base content (%)	47.1%	52.9%

CYTB (size: 1143 bases)	GC	AT	G	C	A	T
Base content (bases)	541	602	401	140	281	321
Base content per 1 kb (bases)	473	527	351	122	246	281
Base content (%)	47.3%	52.7%

ND1 (size: 978 bases)	GC	AT	G	C	A	T
Base content (bases)	451	527	318	133	267	260
Base content per 1 kb (bases)	461	539	325	136	273	266
Base content (%)	46.1%	53.9%

ND2 (size: 1039 bases)	GC	AT	G	C	A	T
Base content (bases)	462	577	363	99	243	334
Base content per 1 kb (bases)	445	555	349	95	234	321
Base content (%)	44.5%	55.5%

ND3 (size: 352 bases)	GC	AT	G	C	A	T
Base content (bases)	166	186	124	42	90	96
Base content per 1 kb (bases)	472	528	352	119	256	273
Base content (%)	47.2%	52.8%

ND4 (size: 1378 bases)	GC	AT	G	C	A	T
Base content (bases)	632	746	494	138	323	423
Base content per 1 kb (bases)	459	541	358	100	234	307
Base content (%)	45.9%	54.1%

ND4L (size: 297 bases)	GC	AT	G	C	A	T
Base content (bases)	138	159	98	40	78	81
Base content per 1 kb (bases)	465	535	330	135	263	273
Base content (%)	46.5%	53.5%

ND5 (size: 1815 bases)	GC	AT	G	C	A	T
Base content (bases)	826	989	622	204	425	564
Base content per 1 kb (bases)	455	545	343	112	234	311
Base content (%)	45.5%	54.5%

ND6 (size: 522 bases)	GC	AT	G	C	A	T
Base content (bases)	252	270	203	49	60	210
Base content per 1 kb (bases)	483	517	389	94	115	402
Base content (%)	48.3%	51.7%

ATP6 (size: 684 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 7 (3.08%) Alanine (Ala, A) n = 16 (7.05%) Serine (Ser, S) n = 15 (6.61%) Threonine (Thr, T) n = 24 (10.57%) Cysteine (Cys, C) n = 1 (0.44%) Valine (Val, V) n = 7 (3.08%) Leucine (Leu, L) n = 60 (26.43%) Isoleucine (Ile, I) n = 18 (7.93%) Methionine (Met, M) n = 9 (3.96%) Proline (Pro, P) n = 17 (7.49%) Phenylalanine (Phe, F) n = 10 (4.41%) Tyrosine (Tyr, Y) n = 3 (1.32%) Tryptophan (Trp, W) n = 4 (1.76%) Aspartic acid (Asp, D) n = 1 (0.44%) Glutamic acid (Glu, E) n = 5 (2.2%) Asparagine (Asn, N) n = 10 (4.41%) Glutamine (Gln, Q) n = 8 (3.52%) Histidine (His, H) n = 4 (1.76%) Lysine (Lys, K) n = 3 (1.32%) Arginine (Arg, R) n = 5 (2.2%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
4	14	6	7	21	23	5	4	7	1	1	3	3	0	3	7
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
3	0	1	3	8	5	0	2	1	4	0	1	5	10	1	5
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
7	10	2	2	3	6	0	0	4	1	2	1	0	1	9	0
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
4	4	1	1	0	3	0	0	3	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
36				90				68				34
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
21				68				35				104
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
14				92				91				31

ATP8 (size: 168 bases)
Amino acid sequence: MPQLNPNPWFSIMLMTWLTFSLIIQPKLLHFTSPNPPSNMTPPTTKTASWSWPWT*
Amino acid frequencies: Glycine (Gly, G) n = 0 (0%) Alanine (Ala, A) n = 1 (1.82%) Serine (Ser, S) n = 6 (10.91%) Threonine (Thr, T) n = 8 (14.55%) Cysteine (Cys, C) n = 0 (0%) Valine (Val, V) n = 0 (0%) Leucine (Leu, L) n = 6 (10.91%) Isoleucine (Ile, I) n = 3 (5.45%) Methionine (Met, M) n = 4 (7.27%) Proline (Pro, P) n = 10 (18.18%) Phenylalanine (Phe, F) n = 3 (5.45%) Tyrosine (Tyr, Y) n = 0 (0%) Tryptophan (Trp, W) n = 5 (9.09%) Aspartic acid (Asp, D) n = 0 (0%) Glutamic acid (Glu, E) n = 0 (0%) Asparagine (Asn, N) n = 4 (7.27%) Glutamine (Gln, Q) n = 2 (3.64%) Histidine (His, H) n = 1 (1.82%) Lysine (Lys, K) n = 2 (3.64%) Arginine (Arg, R) n = 0 (0%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
1	2	3	1	1	3	0	1	2	0	0	0	0	0	0	3
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	0	0	1	0	0	0	0	0	0	1	4	5	0	1
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
5	2	0	1	4	1	0	0	0	0	0	0	0	1	3	0
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
1	0	0	0	0	2	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
1				18				21				16
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
5				25				10				16
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
1				24				25				6

COX1 (size: 1551 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 47 (9.11%) Alanine (Ala, A) n = 46 (8.91%) Serine (Ser, S) n = 26 (5.04%) Threonine (Thr, T) n = 41 (7.95%) Cysteine (Cys, C) n = 1 (0.19%) Valine (Val, V) n = 36 (6.98%) Leucine (Leu, L) n = 64 (12.4%) Isoleucine (Ile, I) n = 40 (7.75%) Methionine (Met, M) n = 24 (4.65%) Proline (Pro, P) n = 30 (5.81%) Phenylalanine (Phe, F) n = 40 (7.75%) Tyrosine (Tyr, Y) n = 18 (3.49%) Tryptophan (Trp, W) n = 17 (3.29%) Aspartic acid (Asp, D) n = 15 (2.91%) Glutamic acid (Glu, E) n = 10 (1.94%) Asparagine (Asn, N) n = 16 (3.1%) Glutamine (Gln, Q) n = 8 (1.55%) Histidine (His, H) n = 20 (3.88%) Lysine (Lys, K) n = 9 (1.74%) Arginine (Arg, R) n = 8 (1.55%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
12	28	21	7	16	25	8	8	8	0	3	14	17	2	11	29
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
3	0	1	13	24	7	2	7	16	17	7	4	10	15	1	8
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
12	20	1	4	8	10	1	0	3	7	11	3	0	4	12	4
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
16	9	1	4	11	9	0	1	2	5	0	0	1	0	0	14
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
154				122				134				107
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
77				140				96				204
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
30				213				185				89

COX2 (size: 684 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 8 (3.52%) Alanine (Ala, A) n = 13 (5.73%) Serine (Ser, S) n = 20 (8.81%) Threonine (Thr, T) n = 16 (7.05%) Cysteine (Cys, C) n = 3 (1.32%) Valine (Val, V) n = 17 (7.49%) Leucine (Leu, L) n = 31 (13.66%) Isoleucine (Ile, I) n = 19 (8.37%) Methionine (Met, M) n = 8 (3.52%) Proline (Pro, P) n = 12 (5.29%) Phenylalanine (Phe, F) n = 8 (3.52%) Tyrosine (Tyr, Y) n = 8 (3.52%) Tryptophan (Trp, W) n = 5 (2.2%) Aspartic acid (Asp, D) n = 13 (5.73%) Glutamic acid (Glu, E) n = 15 (6.61%) Asparagine (Asn, N) n = 4 (1.76%) Glutamine (Gln, Q) n = 8 (3.52%) Histidine (His, H) n = 10 (4.41%) Lysine (Lys, K) n = 4 (1.76%) Arginine (Arg, R) n = 5 (2.2%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
4	15	7	7	6	9	4	5	8	0	5	6	4	2	1	7
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	1	2	3	4	6	0	0	1	6	1	1	4	7	0	3
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
7	6	0	4	5	8	0	0	3	2	6	0	0	2	2	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
8	14	1	2	11	4	0	0	3	1	1	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
66				61				54				47
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
24				58				63				83
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
10				90				91				37

COX3 (size: 784 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 19 (7.31%) Alanine (Ala, A) n = 22 (8.46%) Serine (Ser, S) n = 21 (8.08%) Threonine (Thr, T) n = 19 (7.31%) Cysteine (Cys, C) n = 1 (0.38%) Valine (Val, V) n = 13 (5.0%) Leucine (Leu, L) n = 34 (13.08%) Isoleucine (Ile, I) n = 15 (5.77%) Methionine (Met, M) n = 9 (3.46%) Proline (Pro, P) n = 12 (4.62%) Phenylalanine (Phe, F) n = 24 (9.23%) Tyrosine (Tyr, Y) n = 9 (3.46%) Tryptophan (Trp, W) n = 12 (4.62%) Aspartic acid (Asp, D) n = 4 (1.54%) Glutamic acid (Glu, E) n = 8 (3.08%) Asparagine (Asn, N) n = 5 (1.92%) Glutamine (Gln, Q) n = 7 (2.69%) Histidine (His, H) n = 18 (6.92%) Lysine (Lys, K) n = 4 (1.54%) 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
3	12	8	3	10	14	2	5	7	0	3	4	5	1	9	15
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	1	5	9	8	0	3	4	8	4	1	6	5	0	4
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
6	9	0	3	8	4	0	0	6	6	3	3	0	0	5	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
16	8	0	1	3	3	1	0	1	4	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
66				71				58				66
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
43				68				55				95
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
12				109				97				43

CYTB (size: 1143 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 25 (6.58%) Alanine (Ala, A) n = 24 (6.32%) Serine (Ser, S) n = 23 (6.05%) Threonine (Thr, T) n = 29 (7.63%) Cysteine (Cys, C) n = 4 (1.05%) Valine (Val, V) n = 18 (4.74%) Leucine (Leu, L) n = 64 (16.84%) Isoleucine (Ile, I) n = 32 (8.42%) Methionine (Met, M) n = 11 (2.89%) Proline (Pro, P) n = 26 (6.84%) Phenylalanine (Phe, F) n = 29 (7.63%) Tyrosine (Tyr, Y) n = 12 (3.16%) Tryptophan (Trp, W) n = 11 (2.89%) Aspartic acid (Asp, D) n = 6 (1.58%) Glutamic acid (Glu, E) n = 7 (1.84%) Asparagine (Asn, N) n = 21 (5.53%) Glutamine (Gln, Q) n = 8 (2.11%) Histidine (His, H) n = 12 (3.16%) Lysine (Lys, K) n = 10 (2.63%) 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
7	25	10	5	20	31	4	4	8	0	1	6	11	0	6	23
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	2	2	3	15	6	0	1	12	9	3	3	15	8	0	1
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
16	12	0	4	9	7	1	0	2	3	9	0	0	4	17	3
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
9	6	1	1	5	10	0	1	2	5	0	0	0	1	0	11
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
80				114				105				82
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
50				100				77				154
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
10				187				139				45

ND1 (size: 978 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 12 (3.69%) Alanine (Ala, A) n = 32 (9.85%) Serine (Ser, S) n = 27 (8.31%) Threonine (Thr, T) n = 24 (7.38%) Cysteine (Cys, C) n = 2 (0.62%) Valine (Val, V) n = 11 (3.38%) Leucine (Leu, L) n = 65 (20.0%) Isoleucine (Ile, I) n = 26 (8.0%) Methionine (Met, M) n = 12 (3.69%) Proline (Pro, P) n = 24 (7.38%) Phenylalanine (Phe, F) n = 17 (5.23%) Tyrosine (Tyr, Y) n = 14 (4.31%) Tryptophan (Trp, W) n = 9 (2.77%) Aspartic acid (Asp, D) n = 4 (1.23%) Glutamic acid (Glu, E) n = 11 (3.38%) Asparagine (Asn, N) n = 12 (3.69%) Glutamine (Gln, Q) n = 5 (1.54%) Histidine (His, H) n = 3 (0.92%) Lysine (Lys, K) n = 7 (2.15%) Arginine (Arg, R) n = 8 (2.46%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
11	15	8	6	21	26	6	6	4	1	1	2	6	2	3	14
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
4	1	1	10	12	9	1	3	4	3	2	7	3	11	3	8
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
9	6	1	3	9	9	0	0	6	8	6	0	0	1	11	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
1	7	4	2	2	7	0	1	2	5	0	0	1	0	0	9
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
70				99				88				69
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
38				101				56				131
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
25				118				116				67

ND2 (size: 1039 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 12 (3.48%) Alanine (Ala, A) n = 28 (8.12%) Serine (Ser, S) n = 28 (8.12%) Threonine (Thr, T) n = 49 (14.2%) Cysteine (Cys, C) n = 1 (0.29%) Valine (Val, V) n = 7 (2.03%) Leucine (Leu, L) n = 65 (18.84%) Isoleucine (Ile, I) n = 30 (8.7%) Methionine (Met, M) n = 20 (5.8%) Proline (Pro, P) n = 20 (5.8%) Phenylalanine (Phe, F) n = 14 (4.06%) Tyrosine (Tyr, Y) n = 7 (2.03%) Tryptophan (Trp, W) n = 10 (2.9%) Aspartic acid (Asp, D) n = 1 (0.29%) Glutamic acid (Glu, E) n = 5 (1.45%) Asparagine (Asn, N) n = 14 (4.06%) Glutamine (Gln, Q) n = 10 (2.9%) Histidine (His, H) n = 10 (2.9%) Lysine (Lys, K) n = 12 (3.48%) 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
10	20	16	7	19	30	2	7	8	2	2	1	3	1	5	9
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
4	0	1	4	12	12	0	1	5	5	1	1	9	10	0	4
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
23	21	1	4	10	9	1	0	4	1	6	3	0	1	13	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
8	5	0	1	0	11	1	0	1	2	0	0	0	0	0	7
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
53				101				129				63
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
30				121				59				136
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
16				141				146				43

ND3 (size: 1039 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 12 (3.48%) Alanine (Ala, A) n = 28 (8.12%) Serine (Ser, S) n = 28 (8.12%) Threonine (Thr, T) n = 49 (14.2%) Cysteine (Cys, C) n = 1 (0.29%) Valine (Val, V) n = 7 (2.03%) Leucine (Leu, L) n = 65 (18.84%) Isoleucine (Ile, I) n = 30 (8.7%) Methionine (Met, M) n = 20 (5.8%) Proline (Pro, P) n = 20 (5.8%) Phenylalanine (Phe, F) n = 14 (4.06%) Tyrosine (Tyr, Y) n = 7 (2.03%) Tryptophan (Trp, W) n = 10 (2.9%) Aspartic acid (Asp, D) n = 1 (0.29%) Glutamic acid (Glu, E) n = 5 (1.45%) Asparagine (Asn, N) n = 14 (4.06%) Glutamine (Gln, Q) n = 10 (2.9%) Histidine (His, H) n = 10 (2.9%) Lysine (Lys, K) n = 12 (3.48%) 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
10	20	16	7	19	30	2	7	8	2	2	1	3	1	5	9
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
4	0	1	4	12	12	0	1	5	5	1	1	9	10	0	4
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
23	21	1	4	10	9	1	0	4	1	6	3	0	1	13	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
8	5	0	1	0	11	1	0	1	2	0	0	0	0	0	7
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
53				101				129				63
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
30				121				59				136
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
16				141				146				43

ND4 (size: 1378 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 19 (4.15%) Alanine (Ala, A) n = 37 (8.08%) Serine (Ser, S) n = 37 (8.08%) Threonine (Thr, T) n = 48 (10.48%) Cysteine (Cys, C) n = 3 (0.66%) Valine (Val, V) n = 8 (1.75%) Leucine (Leu, L) n = 104 (22.71%) Isoleucine (Ile, I) n = 37 (8.08%) Methionine (Met, M) n = 25 (5.46%) Proline (Pro, P) n = 27 (5.9%) Phenylalanine (Phe, F) n = 13 (2.84%) Tyrosine (Tyr, Y) n = 11 (2.4%) Tryptophan (Trp, W) n = 12 (2.62%) Aspartic acid (Asp, D) n = 2 (0.44%) Glutamic acid (Glu, E) n = 9 (1.97%) Asparagine (Asn, N) n = 13 (2.84%) Glutamine (Gln, Q) n = 16 (3.49%) Histidine (His, H) n = 18 (3.93%) Lysine (Lys, K) n = 10 (2.18%) 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
13	24	24	11	35	43	1	14	16	0	0	3	5	0	2	11
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	3	2	20	15	0	2	7	8	2	3	10	14	0	11
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
19	16	2	2	13	12	0	0	10	2	9	1	0	3	10	3
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
15	8	1	0	2	9	1	1	3	6	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
75				161				143				80
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
54				139				79				187
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
9				194				201				55

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 = 14 (14.29%) Threonine (Thr, T) n = 6 (6.12%) Cysteine (Cys, C) n = 3 (3.06%) Valine (Val, V) n = 3 (3.06%) Leucine (Leu, L) n = 21 (21.43%) Isoleucine (Ile, I) n = 3 (3.06%) Methionine (Met, M) n = 7 (7.14%) Proline (Pro, P) n = 3 (3.06%) Phenylalanine (Phe, F) n = 5 (5.1%) Tyrosine (Tyr, Y) n = 2 (2.04%) Tryptophan (Trp, W) n = 1 (1.02%) Aspartic acid (Asp, D) n = 1 (1.02%) Glutamic acid (Glu, E) n = 3 (3.06%) Asparagine (Asn, N) n = 3 (3.06%) Glutamine (Gln, Q) n = 3 (3.06%) Histidine (His, H) n = 5 (5.1%) Lysine (Lys, K) n = 0 (0%) Arginine (Arg, R) n = 2 (2.04%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
1	2	6	0	5	9	3	4	3	0	0	2	1	0	1	4
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	1	2	2	5	2	0	1	2	1	0	2	0	1	0	0
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
3	2	1	3	2	5	0	0	4	0	2	0	0	0	3	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
3	2	1	0	1	0	0	0	0	2	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
20				30				23				26
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
14				28				18				39
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
6				40				40				13

ND5 (size: 1815 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 32 (5.3%) Alanine (Ala, A) n = 50 (8.28%) Serine (Ser, S) n = 46 (7.62%) Threonine (Thr, T) n = 76 (12.58%) Cysteine (Cys, C) n = 7 (1.16%) Valine (Val, V) n = 13 (2.15%) Leucine (Leu, L) n = 104 (17.22%) Isoleucine (Ile, I) n = 55 (9.11%) Methionine (Met, M) n = 27 (4.47%) Proline (Pro, P) n = 27 (4.47%) Phenylalanine (Phe, F) n = 33 (5.46%) Tyrosine (Tyr, Y) n = 14 (2.32%) Tryptophan (Trp, W) n = 11 (1.82%) Aspartic acid (Asp, D) n = 7 (1.16%) Glutamic acid (Glu, E) n = 13 (2.15%) Asparagine (Asn, N) n = 26 (4.3%) Glutamine (Gln, Q) n = 21 (3.48%) Histidine (His, H) n = 10 (1.66%) Lysine (Lys, K) n = 23 (3.81%) Arginine (Arg, R) n = 9 (1.49%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
18	37	26	15	32	43	4	9	18	3	1	5	6	1	6	27
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	1	6	13	25	12	0	4	10	15	3	2	10	15	0	4
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
41	31	0	4	20	11	1	2	8	2	12	2	1	4	22	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
8	11	2	4	3	22	1	0	6	3	0	1	0	0	0	9
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
115				161				218				111
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
70				189				114				232
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
19				272				232				82

ND6 (size: 522 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 31 (17.92%) Alanine (Ala, A) n = 10 (5.78%) Serine (Ser, S) n = 13 (7.51%) Threonine (Thr, T) n = 3 (1.73%) Cysteine (Cys, C) n = 3 (1.73%) Valine (Val, V) n = 33 (19.08%) Leucine (Leu, L) n = 25 (14.45%) Isoleucine (Ile, I) n = 4 (2.31%) Methionine (Met, M) n = 7 (4.05%) Proline (Pro, P) n = 5 (2.89%) Phenylalanine (Phe, F) n = 14 (8.09%) Tyrosine (Tyr, Y) n = 8 (4.62%) Tryptophan (Trp, W) n = 5 (2.89%) Aspartic acid (Asp, D) n = 4 (2.31%) Glutamic acid (Glu, E) n = 2 (1.16%) Asparagine (Asn, N) n = 1 (0.58%) Glutamine (Gln, Q) n = 0 (0%) Histidine (His, H) n = 0 (0%) Lysine (Lys, K) n = 0 (0%) Arginine (Arg, R) n = 5 (2.89%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
4	0	2	1	0	1	1	7	0	0	11	1	3	18	14	0
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
5	2	1	3	0	3	4	6	0	8	17	2	2	0	1	2
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
0	0	1	5	1	0	4	3	0	6	2	5	15	1	0	0
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
0	0	2	3	1	0	0	1	0	2	2	0	0	0	1	0
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
80				13				18				63
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
47				28				16				83
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
76				8				26				64

Total protein-coding genes (size: 11394 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 221 (5.82%) Alanine (Ala, A) n = 296 (7.8%) Serine (Ser, S) n = 284 (7.48%) Threonine (Thr, T) n = 354 (9.33%) Cysteine (Cys, C) n = 30 (0.79%) Valine (Val, V) n = 167 (4.4%) Leucine (Leu, L) n = 670 (17.65%) Isoleucine (Ile, I) n = 292 (7.69%) Methionine (Met, M) n = 167 (4.4%) Proline (Pro, P) n = 220 (5.8%) Phenylalanine (Phe, F) n = 219 (5.77%) Tyrosine (Tyr, Y) n = 108 (2.85%) Tryptophan (Trp, W) n = 107 (2.82%) Aspartic acid (Asp, D) n = 61 (1.61%) Glutamic acid (Glu, E) n = 94 (2.48%) Asparagine (Asn, N) n = 131 (3.45%) Glutamine (Gln, Q) n = 100 (2.63%) Histidine (His, H) n = 111 (2.92%) Lysine (Lys, K) n = 85 (2.24%) Arginine (Arg, R) n = 70 (1.84%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
91	201	141	71	199	267	41	76	93	7	28	47	65	27	61	158
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
26	8	22	62	140	87	7	31	62	86	42	30	78	106	6	53
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
155	137	9	39	97	83	9	6	50	39	69	18	16	22	109	22
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
89	79	15	19	42	81	4	5	23	39	3	1	2	6	1	89
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
839				1079				1088				791
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
487				1098				697				1515
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
233				1541				1436				587

>NC_014046.1 Otis tarda mitochondrion, complete genome
CCAAAAAATCTCCCTCTTCCCCCCCCCCTTCCCCCAACTACCCCCCCAAACCTTCCCCATTTTTTCCATA
TCGACTATACATTAACTAACCTATGTATAACTGTGCATTAATCTATTTTCCCCATAGACATATTATGCAT
CCTAGGAAAGATACTTAATGTATGTACTGAGCCCATACCATGTAAACGGACATTTACACCCTCTAGCCCA
TACGGAACCCCCAGAGGACTATTTCAATGAATGGTCCAGGAACCGACCCCAAAAACCTCTCGGACTAAAA
CCATGGTACTGCTTCCTCTGTATATTCCTTGAATCCAGGATACGACTATACTCCAGAGACATATTATCAA
TGGTAGCCGGACATACTCCCTCAATTCCTGCTCGTCGGGCCGGTTTCTGAAGTATCAGGTTATTTATTGA
TCGAGCACCTCACGAGAAATCAGCAACCCGGTGTTTGGAATATCCTACGTTACTAGCTTCAGGCCCATTC
TTTCCCCCTAAACCCCTAGCACAACTTGCTCTTTTGCGCCTCTGGTTCCTATTTCAGGGCCATAACTCGC
CTGATTCCCTTGAACTTGATCTTCACCGATACATATGGTTGGCTATTGATCAACATGTTATTCTTAATCG
AGTCACCCAACCCTTTTTCGCTTTTGGTTCTCTTTTTTTTCTCTGGCTCCTTCAATAAGCCCTCCCAGTG
CACCGCGGCGCATACAATCTGTTGACGTGGACATCGCTGGCCCTCGGCCTATTTTTGGTCCTCAAGAATC
CCTCAATGAGACGGTTTCAAGTATAGGGGGAATCATTTTGACACTGATGCACTTTGCTTCGCATTTAACT
TTGGAGTATCCACCCTTCTAGAAATGGTGTTATTTAGTGAATGCTCGTTGGACATAACTTTCTATTTTTA
TGCTTCCTCTAACTTTCTAAGTAACGCCAAAAAGACACTAGGCGTTTTCTACCAAATTCTAATCGCAAGA
CAATCACAAATCAATCACGAATTTTATCTGTATATTTATATGTGTTATATACACGTTACTAGCGCTGAAG
TTCCATTAATAAAATTAAACCATCATTTCCTATTTAACATGTTGATGTTTATCCTAGCCTACTAAAGAAA
CTCCCCTACCAAATAAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAA
CAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACAAACA
AACAAGTCCTTGTAGCTTACAACAAAGCATGGCACTGAAGATGCCAAGACAGTCGCACATGTACTCAAGG
ACAAAAGACTTAGTCCTAACCTTACCGTTAATTCTTGCCAAACATATACATGCAAGTATCCGCATTCCAG
TGTAAATGCCCAAGACCCCTACACACTAGGCCAAAGGAGCGGGCATCAGGCACACGAGTAGTAGCCCAAG
ACGCCTTGCTTAGCCACACCCCCACGGGTATTCAGCAGTAATTAACATTAAGCTATAAGTGAAAACTTGA
CTTAGTTATGGCAACCTCTAAGGGCCGGTAAATCTTGTGCCAGCCACCGCGGTCACACAAGAGGCCCAAA
TTAACTGCGCACACGGCGTAAAGCGTGGTATTATGCTATCACATCAACTAAGACCAAAATGTAACTGAGC
TGTCATAAGCTTAAGATACACCTAAGACCTCCCTCAAAATGATCTTAGCGCTCTTTGATCAATTGCACAC
CACGAAAGCTAAGAAACAAACTGGGATTAGATACCCCACTATGCTTAGCCCTAAATCTTGATACTTACCC
CACCAAAGTATCCGCCCGAGAACTACGAGCACAAACGCTTAAAACTCTAAGGACTTGGCGGTACCCTAAA
CCCACCTAGAGGAGCCTGTTCTATAATCGATAACCCACGATACACCCAACCACTCCTTGCCAAGACAGCC
TACATACCGCCGTCGCCAGCTCACCCCACTGAGGGCACAGCAGTGAGCATAATAGCCACCTCGCTAGCAA
GACAGGTCAAGGTATAGCCCATGGAGTGGAAGAAATGGGCTACATTTTCTAGAATAGAAAATCCCACGAA
AGGGGGTATGAAACTACCCCTGGAAGGCGGATTTAGAAGTAAAGCGGGATAATTAAGCCCTCTTTAAACC
GGCCCTGGGGTACGTACATACCGCCCGTCACCCTCCTCACAAGCTACCAGCACCCATAATTAATGCACAC
TCCAGCTGAAGATGAGGTAAGTCGTAACAAGGTAAGTGTACCGGAAGGTGTACTTAGCATATCAAGACGT
AGCTATAATTCAAAAGCACTCAGCTTACACCTGAAAGATATCTGCTACATACCAGATCGTCTTGAAGCCT
ACATCTAGCTCAACCACACCACGACTAAAGAGATTAAAAACATACTTCACCATTAAACTAAAACATTCTC
TCAACTTAGTATAGGTGATAGAAAAGATATTTCCTGACGCGATAGAAAACTGTACCGTAAGGGAATAATG
AAATAATAATGAAAAGTCAAGCTACAAGCAGCAAAGATAAACCCTTGTACCTTTTGCATCATGGTTTAGC
AAGAATAATCAAGCAAAACGAATTTAAGCTTGCCACCCCGAAACCCAAGCGAGCTACTTTCGAGCAGCTG
CCCTAGAGCGAACCCGTCTCTGTTGCAAAAGAGTGGGATGACTCGCTAGTAGAGGTAAAAAGCCAATCGA
GCTGGGTGATAGCTGGTTGCCTGTGAAATGAATCTTAGTTCTCTCCTAATTCCTCTTCCCCAAGGGCCAC
TAACAACCAACCCGTCTGTAACGAGTTAAGAGTAATTTGAAGGGGGTACAGCCCCTTCAAAAAAGAATAC
AATCTCCCCTAGAGGATAACTCTCTCACCCCAACTAAACCTGTGGGCCTTCAAGCAGCCACCAACAAAGA
GTGCGTCAAAGCTCTCCTTCTATAAAAATCCAAAAACACTATGACTCCCTTACCACTAACAGGCTATTCT
ATTAATAATAGAAGCATAAATGCTAAAATGAGTAACTAGGGAACCCCCTCTTCAAGCGCAAGCTTACATC
CCCACATTATTAACAGACTGACTAATATCGTAACCTCAACGAGATTAAATATTAACAACCTCTGTTACCC
CAACTCAGGAGCGCCCAATTAGAAAGATTAAAACCTGTAAAAGGAACTAGGCAAACTCAAGGCCCGACTG
TTTACCAAAAACATAGCCTTCAGCCCTCCAAGTATTGAAGGTGATGCCTGCCCAGTGACACTATGTTCAA
CGGCCGCGGTATCCTAACCGTGCAAAGGTAGCGCAATCAATTGTCCCATAAATCGAGACTTGTATGAACG
GCTAAACGAGGTCTTAACTGTCTCTTACAGGTAATCTGTGAAACTGATCTTCTTGTGCAAAAGCAGGAAT
GAACACATAAGACGAGAAGACCCTGTGGAACTTAAAAATCAGTAGCCACCCCACACAAACCCAAACCTAC
AAGGCCCACTACTTACAAAACTACTGGCTTACATTTTTCGGTTGGGGCGACCTTGGAGAAAAGCAAATCC
TCCAAAAATAAGACTATACCTCTTAACCAAGAGCGACACCTCTAAGTGCTAATAGTACCCAGACCCAATA
TTCTTGATTAATGGACCAAGCTACCCCAGGGATAACAGCGCAATCTCCTTCAAGAGCCCCTATCGACAAG
GAGGTTTACGACCTCGATGTTGGATCAGGACATCCTAATGGTGCAGCCGCTATTAAGGGTTCGTTTGTTC
AACGATTAATAGTCCTACGTGATCTGAGTTCAGACCGGAGCAATCCAGGTCGGTTTCTATCTATGACGAA
CTTTCCCCAGTACGAAAGGACCGGAAAAGTAGGGCCTATACCACAAGCACGCCCTCCCCAAAGTGATGAA
TCCAACTAAATTACTAAAAGGCCACCCACCCCACCATCCTAGAAAAGGATCGCTAGCGTGGCAGAGCTCG
GTAAATGCAGAAGGCTTAAGCCCTTTATCCAGAGGTTCAAATCCTCTCCCTAGCTTAAACACCTGCCCAT
GACTTGACCCACTACCCTAACGCATCTCATTATATCCCTATCTTATGCTATCCCAATTTTAATTGCCGTA
GCATTCCTAACACTAGTTGAACGAAAAATGCTAAGCTACATACAAGCACGAAAAGGCCCTAACATCGTAG
GCCCGTTCGGTCTCCTACAGCCTGTAGCAGATGGGGTAAAACTATTTATTAAAGAACCTATTCGCCCGAC
TACCTCCTCCCCGCTCCTCTTTATTATAACCCCAATCCTAGCCCTTCTCCTCGCAATCACAATCTGAATC
CCCCTCCCTCTTCCATTCGCCCTAGCTGACTTAAACCTGGGCCTCCTCTTCCTCCTGGCCATATCCAGCT
TAGCAGTCTACTCAATCCTATGATCAGGATGAGCATCAAACTCAAAATATGCTTTAATCGGTGCGCTTCG
AGCTGTCGCCCAAACTATCTCTTATGAGGTGACCCTAGCTATTATCCTCCTATCCATCATTGTACTGAGC
GGGAACTACACCCTAAACACTCTCGCCGCCACCCAAGAGCCACTATACCTCATCTTCTCCTCCTGACCTC
TTGCAATAATATGATATACTTCCACACTTGCTGAAACAAACCGTGCTCCATTCGACCTGACTGAAGGAGA
ATCAGAGCTAGTATCAGGCTTCAATGTGGAATATGCTGCTGGACCATTTGCCTTATTCTTCCTGGCCGAA
TATGCAAACATTATGCTAATAAACACCTTAACCGCTATCCTATTCCTTAACCCAAGCTCACTCAACCTGT
CACCAGAGCTATTCCCAATTATCCTAGCCACAAAAACCCTACTCCTCTCCTCAAGCTTCCTATGAATTCG
CGCCTCTTACCCCCGATTCCGATATGATCAACTCATGCACCTCCTCTGAAAAAACTTCCTCCCACTAACA
CTAGCCCTCTGTCTATGACATACTAGCATACCAATCTGCTACGCAGGTCTACCTCCTTATCTAAGGAAAT
GTGCCTGAACGTAAAGGGTCACTATGATAAAGTGAATATAGAGGTATACCAGCCCTCTCATTTCCTGAGA
GCCTTAGAAAAGCAGGAATCGAACCTACACGAAAGAGATCAAAACTCTTCATACTTCCTTTATATTATTT
CCTAAGTAGGGTCAGCTAAAAAAGCTATCGGGCCCATACCCCGAAAATGATGGTTTGACCCCCTCCCCTA
CTAATAAACCCCCACGCAAAACTAATCTTTTCCATTAGCCTCCTCCTAGGAACAACCATCACAATCTCGA
GCAACCACTGAATAATAGCCTGAACCGGCCTGGAACTTAACACCCTCGCTATCATCCCCCTCATCGCAAA
ATCTCACCACCCACGAGCCGTCGAAGCCGCAGTTAAATACTTTCTAGTACAAGCAGCTGCCTCTACCCTA
ATCCTCTTCTCAAGCATAACAAACGCATGAGCCACAGGACAATGGGATATCACCCAACTAACTCACCAAA
CATCATGCTTACTACTAACAACAGCAATTGCAATGAAACTAGGACTAACCCCCTTCCACTTCTGATTCCC
AGAAGTGCTTCAAGGCTCATCCTTAATAACCGCCCTACTTCTATCAACAATAATGAAATTTCCCCCACTC
ACCATCCTCTTTATAACCTCACACGCTCTTAACCCAACCCTACTAACCATCATAGCCCTAATCTCAGCAG
CCATAGGAGGCTGAATGGGCCTAAATCAAACACAAACCCGAAAAATCTTAGCCTTTTCCTCCATCTCACA
TCTAGGTTGAATAACAATCATCATCATTTACAGCCCCAAACTCACATTACTAACCTTCTACCTATACATC
CTAATAACCTCCTCTGTATTCCTTACCCTCAACACAACCAAGACCCTAAACCTGTCAACACTAATAACCG
CATGAACAAAAACCCCCGTACTAAACACAACCCTAATGCTAACCTTACTCTCCTTAGCAGGGCTACCCCC
ACTAACGGGCTTCCTACCCAAATGGCTCATTATTCAGGAACTCACTAAACAAGAAATAGCAACAACAGCT
ACAATCATTGCCATACTTTCCTTACTCGGACTATTCTTCTACCTCCGCCTCGCATACTATTCCACAATTA
CACTCCCACCAAACTCCACAAACCATATAAAACAGTGGCACGTTAACAACCCAACTAACACTCCAACCGC
CATCCTCATTTCTCTATCAACCCTTCTACTCCCCCTCTCCCCTATAATTCCAGCCATTATCTAGAAACTT
AGGATAGACCAAACCAAAGGCCTTCAAAGCCTTAAACAAGAGTTAAACCCTCTTAGTTTCTGCTAAGGCC
CGAAGGACATTAACCTTCATCCTCTGAATGCAACCCAAATGCTTTAATTAAGCTAGAGCCTTATCTAGAC
AGGTGGGCTTTGATCCCACAAAACTCTAATTAACAGCTAGATGCCCCAACCAACAGGCTTCCGTCTACTA
GACTCTGGCACGCGCTCAACGTACATCAATGAGCTTGCAACTCAATATGAATTTCACTACAGAGCCGATA
AGAAGAGGAATCAAACCTCTGTAAAAAGGACTACAGCCTAACGCTTCAACACTCAGCCATCTTACCTGTG
ACCTTCATCAACCGATGACTATTCTCAACTAACCATAAAGACATTGGCACCCTATATCTAATCTTTGGTG
CATGAGCTGGCATGGTTGGAACAGCCCTAAGCCTACTCATTCGCGCTGAACTTGGCCAACCCGGCACTCT
CTTAGGAGATGATCAAATCTATAATGTGATCGTCACCGCCCACGCCTTCGTAATAATCTTCTTCATGGTA
ATGCCTATTATAATCGGAGGGTTTGGAAACTGATTAGTTCCACTCATAATCGGCGCCCCCGACATAGCAT
TCCCCCGCATAAACAACATAAGCTTCTGACTTCTCCCCCCATCCTTCCTACTCCTTCTAGCCTCCTCTAC
AGTAGAAGCAGGAGCCGGCACAGGATGAACAGTATATCCTCCACTAGCCGGCAACCTAGCCCACGCTGGG
GCTTCAGTAGACCTGGCCATCTTTTCACTCCATCTAGCGGGGGTATCCTCCATTCTAGGTGCAATCAATT
TTATCACTACTGCCATCAATATAAAACCACCAGCCCTGTCACAATACCAAACACCCCTATTCGTATGATC
CGTCCTCATCACAGCTGTCTTACTCTTACTTTCTCTGCCAGTCCTCGCTGCTGGCATCACTATACTACTG
ACAGACCGAAACCTAAACACTACATTCTTCGACCCAGCAGGAGGAGGAGATCCAGTCCTATATCAACACC
TCTTCTGATTTTTCGGTCACCCTGAAGTCTACATCCTTATCCTACCAGGCTTCGGAATTATTTCACACGT
AGTTACATACTATGCGGGTAAAAAAGAACCATTTGGTTACATAGGCATAGTATGGGCCATACTCTCTATT
GGATTCCTAGGCTTCATCGTATGAGCCCACCACATATTCACCGTCGGAATAGACGTAGACACCCGAGCCT
ACTTTACATCCGCTACCATAATCATTGCTATCCCAACAGGAATTAAAGTCTTCAGCTGACTGGCCACGCT
ACACGGGGGTACTATTAAATGAGATCCCCCAATACTGTGGGCTCTGGGCTTCATCTTCCTCTTTACAATC
GGGGGACTAACAGGAATTGTCCTGGCAAACTCGTCACTAGACATCGCCCTACACGACACATACTACGTAG
TCGCCCACTTCCACTATGTCCTCTCAATAGGGGCCGTATTTGCTATCTTAGCTGGACTCACCCACTGATT
CCCCCTACTTACAGGATACACCCTTCACAACACATGGGCCAAAGCCCACTTTGGGGTAATATTTACAGGC
GTAAACCTCACATTCTTCCCTCAACATTTCCTCGGCTTAGCTGGTATACCACGACGTTACTCAGACTACC
CAGACGCCTACACCCTATGAAATACTATCTCTTCCATCGGCTCCTTAATCTCAATAACAGCCGTAATTAT
ACTAATATTCATCATCTGAGAAGCCTTCGCATCAAAACGAAAAGTCTTACACCCAGAACTAACCACCACC
AACGTCGAATGAATCCACGGCTGCCCGCCCCCCTATCATACATTCGAAGAGCCCGCCTTCGTCCAAGTAC
AAGAAAGGAAGGAATCGAACCCTCAAATGCTGGTTTCAAGCCAGCCGCATCAACCACTCATGCTTCTTTC
TTATGAGATGTTAGTAAAACCAATTACATAGCCTTGTCAAGACTAAATCACAAGTGAAAACCTCGTACAT
CTCACGTGGCCAACCACTCACAATTCGGATTCCAAGACGCATCATCTCCCATCATAGAAGAACTCGTTGA
ATTCCACGACCACGCTCTAATAGTTGCACTAGCAATCTGCAGCCTGGTCCTTTACCTCCTAACCCTTATG
CTGGTAGAAAAATTATCCTCAAACACCGTTGACGCACAAGAAGTAGAACTCATCTGAACAATCTTACCAG
CCATCGTCCTCATCTTACTTGCTCTCCCATCTCTACAAATCCTGTATATAATAGACGAAATTGATGAGCC
AGACTTAACCCTAAAAGCCATCGGACATCAATGATACTGAACCTACGAATACACAGACTTCAAAGACCTA
ACATTTGACTCATACATAATCCCCACAACAGAACTGCCACAAGGACACTTCCGCCTATTAGAAGTTGACC
ATCGCGTTGTCATTCCCATAGAATCCCACATCCGCATTATCGTCACTGCAGACGACGTCCTTCACTCCTG
AGCCGTCCCCACTCTTGGAGTAAAAACTGATGCAATCCCAGGACGACTAAATCAAACCTCACTCATCACC
ACCCGGCCAGGAATCTTCTACGGCCAATGCTCAGAAATCTGTGGGGCTAATCACAGCTATATACCAATTG
TAGTGGAATCCACACCTCTTTCTCACTTCGAAAGCTGATCCTCACTTCTATCATCTTAATCATTAAGAAG
CTATGTAACAGCACTAGCCTTTTAAGCTAGAAAAAGAGGATCCCAACTTCCTCCTTAATGACATGCCACA
ACTCAATCCAAACCCATGATTCTCTATCATACTAATAACATGACTAACCTTCTCATTAATTATCCAACCC
AAACTTCTACACTTCACATCCCCCAACCCCCCTTCCAACATAACCCCCCCAACCACTAAAACCGCCTCCT
GATCCTGACCATGAACCTAAGCTTCTTTGATCAATTCGCAAGCCCATGCCTCCTAGGAATCCCACTAATC
CTGCTCTCAATGCTCTTCCCTACCCTTCTGCTCCCCTCACCAAACAATCGATGAATCACTAACCGCCTCT
CCACGCTCCAATCATGGTTCCTCCACCTAATCACAAAACAACTGATAGCCCCGCTAAACAAAGAAGCTCA
CAAATGAGCACTAATTCTAACATCACTAATAACACTACTACTCTTAATTAACCTGCTCGGACTCCTCCCC
TACACATTTACCCCCACTACTCAGCTATCTATAAACATGGCCCTAGCCTTCCCACTCTGATTCGCCACCC
TTCTTACAGGCCTACGAAACCAACCATCAATCTCACTAGGACACCTTCTTCCAGAGGGAACTCCAACACC
ACTAATCCCAGCCCTAATCATAATTGAAACCACCAGCCTACTCATCCGCCCATTAGCCCTGGGTGTCCGC
CTCACAGCAAACCTCACAGCAGGTCACCTCTTAATCCAACTTATCTCCACGGCCACAACCGTCCTACTCC
CCATCATACCCACAGTATCTCTCCTCACTGCATCCATCCTCTTCCTACTTACCATTCTAGAAGTAGCCGT
AGCTATAATCCAAGCTTATGTTTTTGTCCTCCTACTAAGCCTATACTTACAAGAAAACATCTAATGGCCC
ACCAAGCACACTCCTATCACATAGTAGATCCAAGCCCCTGACCAATCTTTGGGGCTGCCGCTGCCCTACT
CACTACCTCTGGACTCATCATATGGTTCCACCACAACTCCTCCCATCTCCTAAGCCTAGGTCTTCTCTCC
ATACTCCTAGTTATACTGCAATGGTGACGCGACATCGTACGAGAAGGCACATTCCAAGGTCACCACACCC
CCATAGTCCAAAAAGGCCTCCGATATGGAATAATCCTATTCATTACATCCGAAGCATTCTTCTTTCTTGG
CTTTTTCTGGGCATTTTTTCACTCTAGCCTAGCTCCTACCCCAGAATTAGGAAGCCAATGACCCCCAACA
GGGATTAAACCCCTAAACCCCCTAGAAGTCCCCCTACTAAACACTGCCATCCTCCTAGCATCAGGTGTTA
CTGTGACATGAGCCCACCACAGCATTACAGAAAGCAACCGAAAACAAGCCACACACGCACTAACCCTCAC
AATCTTATTAGGATTTTACTTTACCGCCCTTCAAGCAATAGAATACTATGAAGCTCCATTCTCAATCGCT
GACGGAGTATATGGCTCAACCTTCTTCGTTGCCACAGGATTCCATGGACTGCACGTAATCATCGGGTCCT
CCTTCTTATCAGTCTGCCTCCTACGACTAATCAAGTTCCACTTTACATCTAACCACCACTTCGGGTTCGA
AGCAGCAGCCTGATACTGACACTTTGTAGACGTCATCTGATTATTCCTCTATATAACTATCTATTGATGA
GGATCCTGCTCTTCTAGTATACTAATTACAATTGACTTCCAATCTCTAAAATCTGGTACTACCCCAGAGA
AGAGCAATTAACATAATCACATTCATATTCACTCTCTCCCTCGCCCTAAGTACCCTTCTAACTACCTTAA
ACTTCTGAATTGCCCAAACCACCCCAGACTCAGAAAAACTCTCCCCATACGAATGCGGATTCGACCCTCT
CGGGTCCGCCCGACTCCCATTCTCGATTCGATTCTTCCTCAGTAGCCATCCTATTCCTCCTATTCGACCT
AGAAATCGCACTCCTACTCCCACTGCCATGAGCCATCCAACTCCAATCCCCTACCGCTACCTTAATCTGA
ACCTCCATAATCCTCCTCCTACTCACACTAGGACTAATCTATGAATGAATACAAGGGGGTCTAGAGTGAG
CAGAATAACCCTAGAAAGTTAGTCTAGCTAAGACAGTTGATTTCGGCTCAACAGACCATAGCTCACCCTA
TGACTTTCTTCATGTCTCTCCTACATCTGAGCTTCTACTCAGCCTTCACCTTAAGCAGCCTGGGATTAGC
CTTCCACCGAACCCATCTAGTCTCCGCCCTCCTATGCTTAGAAAGCATAATACTATCTATATACATCGCT
CTGTCAATCTGACCTGTCGAAAACCAAGCACCATCCTTTACACTAATACCTATTCTCATACTATCATTCT
CAGCTTGTGAGGCAGGCACCGGTCTAGCCATATTAGTAGCCTCTACACGAACGCACGGCTCAGACCACCT
ACAAAACCTCAACCTCCTACAATGCTAAAAATTATTCTCCCAACGGTCATACTTCTCCCCACAGCCCTCT
TATCCCCTCAAAAATTCCTATGGACAAACGTCACTGCACATAGCCTCCTAATCGCAACCCTCAGCCTCCA
ATGACTATCCCCATCATACTACCCCCTTAAAAACCTAACCCAATGAACTGGTATCGACCAAATCTCTGCC
CCCTTACTAGTATTATCATGCTGATTACTCCCACTCATAATCCTAGCAAGCCAAAACCACCTCCAACACG
AACCTCCAACCCGAAAGCAAACTTTCATCACAGCCCTAATCACCATCCAACCCCTCATCATTCTTGCATT
CTCAGCAACAGAACTAATACTATTCTATATCTCATTTGAAGCAACTCTAATCCCCACTCTAATCCTAATT
ACACGATGAGGAAACCAACCAGAACGCCTAAGCGCTGGAATTTATTTCTTATTCTACACTCTCATCAGCT
CTCTCCCCCTCTTAGTCACGATCCTTCACCTTCACGCACAAATTGGCTCCCTCCACCTAACAACACTAAA
ACTAACCCACCACGCACTCGCCCACACCTGAACCGGCCTTTTATCAAGCCTCGCCCTACTAATAGCATTT
ATAGTAAAAGCCCCATTATACGGTCTTCATCTATGACTACCAAAAGCCCACGTAGAGGCCCCAATTGCCG
GATCCATACTACTTGCCGCCCTCCTCCTAAAACTAGGAGGATACGGCATTATACGAATAACCATACTGAT
AGGCCCAACCCCAAACTCCCTACACTACCCATTCCTCACATTAGCCCTATGAGGGGCATTAATAACTAGC
TCAATCTGCTTACGCCAAACTGACCTAAAATCCCTCATTGCCTACTCCTCCGTAAGCCACATAGGCTTAG
TAATTGCCGCAAGCATAATCCAAACCCAATGATCATTCTCAGGGGCAATAATCCTTATAATCTCCCACGG
CCTCACTTCCTCAATATTATTCTGCCTAGCCAACACAAATTACGAACGTACACACAGCCGCATCCTACTA
CTAACACGAGGCCTCCAACCACTCCTTCCCCTCATAGCCACCTGATGACTACTAGCCAACCTCACAAACA
TAGCTCTACCCCCAACAACAAATCTCATAGCAGAACTAACCATCATAATTGCACTATTCAACTGATCCAC
CCTCACAATCCTCCTAACCGGAGCCGCAACTCTACTAACCGCCTCATACACCCTATTCATACTTCTCATA
ACCCAACGAGGAACACTACCAACCCACATTTCATCCCTCCAAAACTCAAATACTCGAGAACATCTCCTCA
TAACCCTCCACATCATCCCCATAATTCTCCTAATCCTAAAACCTGAACTCATCTCCGGAGCCCCCTTATG
CAAGTATAGTTTAACCCAAACATTAGACTGTGATCCTAAAAATAGAAGTTAAACCCTTCTTACCTGCCGA
GGGGAAGTTCAACCAACAAGGGCTGCTAACTCTTGCATCTGAGCCTAAAACCTCAGTCCCCTTACTTTTA
AAGGATAACAGCAATCCACTGGTCTTAGGAACCACCCATCTTGGTGCAAGTCCAAGTAAAAGTAGTGGAA
GCTACACTACTCCTCAACACCTCCATCCTTCTTACACTTACCATCATCCTTACACCCACATTACTCCCCC
TACTATCAAAAAAATTCCAAAACTCTCCCCTCATCATCACCCGCACTGTCAAAACCGCTTTCCTATTTAG
CCTAGTACCAATAACCATTTTCATATACTCAAACACAGAAAGCATCATCTCCTGCTGAGAATGAAAATTC
ATCATAAACTTCAAAATCCCACTCAGCCTTAAAATTGACCAATACTCAATAACATTCTTCCCTATCGCAT
TATTCGTAACATGATCCATCCTCCAATTTGCAACCTGATACATAGCCTCAGAGCCATACATCACAAAATT
CTTTTCCTACCTCCTACTATTCCTAATCGCCATACTAACCCTTACCATCGCCAACAACATATTCCTCCTA
TTCATTGGCTGAGAAGGGGTAGGAATCATATCATTTCTACTAATCGGCTGGTGGCAAGGACGAGCAGAAG
CCAACACCGCTGCTCTACAAGCCGTACTCTACAACCGAATCGGAGACATTGGCCTTATCCTAAGCATAGC
CTGTCTTGCCTCAACCATAAACACATGAGAAATCCAACAAACCTCCCTTCCCACCCAAACCCCCACACTC
CCACTTCTAGGCCTAATCCTAGCCGCTGCCGGAAAATCGGCTCAATTCGGCCTCCACCCATGATTACCAG
CAGCCATAGAAGGTCCAACCCCCGTCTCCGCCCTACTCCACTCCAGCACCATAGTCGTAGCTGGAGTTTT
CCTCCTTATTCGCACCCACCCCATATTCACCAATAACCAAACTGCCCTCACCTTATGCTTATGCTTAGGA
GCTATATCCACCCTATTCGCTGCCACATGCGCCCTCACACAAAATGATATCAAAAAAATTATTGCCTTCT
CCACTTCCAGCCAACTAGGCCTAATAATAGTCGCTATCGGACTAAACCTCCCCCAGCTAGCCTTCCTCCA
CATTTCCACACATGCTTTCTTCAAGGCCATACTCTTCCTTTGCTCAGGGACAATCATCCATAGTCTCAAC
GGTGAACAGGATATTCGAAAAATAGGTGGATTGCAAAAAATGCTCCCAACAACCACCTCCTGCCTCACCA
TTGGCAACCTTGCCCTGATAGGAACCCCATTTTTAGCAGGATTTTATTCCAAAGACCTCATCATTGAGAG
CTTAAACACATCCTACCTAAACACCTGAGCACTACTCCTAACACTCCTAGCAACATCATTCACCGCCACC
TACAGCATACGCATAACCCTGCTAGTCCAAACAGGATTCACCCGCATCCCTACAACCGCTCCAATCGATG
AAAACAACCCAACAATTACCAATCCAATCACTCGCCTAGCCATAGGAAGTATTCTAGCCGGCCTACTCAT
TACATCTTTCATCGTACCAGCAAAAACCCTCCCAACAACCATACCCACAATCACAAAAACCGCAGCTATC
ATTATTACAGCCCTAGGTATCATCCTAGCCCTAGAACTCTCAACCATAGCACACACCCTAACCCAGCCAA
AACAAAACTCCTATCTAAACTTCTCTACCTCATTAGGCTACTTCAATTACCTTACACACCGCCTCACCTC
CACAAAACTACTAAACAACGGACAAAAAATCGCATCCCACCTAATCGATCTCTCCTGATACAAAAAAATA
GGCCCCGAAGGGCTCGCCAACCTGCAACTCATAGCAACCAAAACCTCAACATCCCTTCACACCGGACTAA
TTAAAACATACCTGGGATCTTTCGCCCTATCCATTCTCATCATCCTACTAACACAAAGAACCCTAAATTA
ATGGCCCCCAACCTCCGAAAATCTCACCCCCTCCTGAAAATAATCAATAGCTCTCTAATCGACCTCCCTA
CCCCCCCAAATATCTCAATCTGATGAAACTTCGGATCCCTCCTAGGAATCTGCCTAATAACACAAATCCT
AACAGGCCTTCTACTAGCCATACATTACACAGCAGACACAACCCTAGCCTTTTCATCCGTCGCCCACACC
TGTCGAAACGTACAAAATGGCTGACTAATCCGAAATCTACACGCAAACGGGGCTTCATTTTTCTTCATCT
GTATCTACCTACACATTGGACGAGGCCTCTACTATGGCTCCTACCTATATAAAGAAACATGAAACACAGG
AGTAATCCTCCTACTCACCCTTATAGCAACCGCCTTCGTAGGCTATGTCCTACCATGAGGACAAATATCC
TTCTGAGGGGCCACAGTCATCACCAACCTATTCTCAGCAATCCCTTACATCGGCCAAACCATTGTAGAAT
GAGCCTGAGGTGGATTCTCAGTAGACAACCCCACACTAACCCGATTCTTTGCCCTGCACTTTCTCCTCCC
CTTTGTAATCGCAGGCCTCACCATAATCCACCTCACCTTCCTCCACGAGTCCGGCTCAAACAACCCCCTA
GGCATTGTATCGAACTGCGACAAAATTCCCTTCCACCCCTACTTCTCCCTAAAAGACATCCTAGGCTTCA
CAATAATATTCCTCCCACTTGTAACCCTTGCCCTATTCTCACCAAACCTACTAGGAGATCCAGAAAACTT
CACCCCAGCAAACCCCCTAGTCACCCCTCCCCATATTAAACCCGAATGATACTTCTTATTCGCCTACGCC
ATCCTACGCTCTATCCCCAACAAACTAGGAGGAGTATTAGCCCTAGCTGCCTCCGTACTAGTCCTGTTCT
TAATCCCCTTCCTCCATAAATCCAAACAACGTACAATAACCTTTCGCCCCCTTTCCCAACTCCTGTTCTG
AACATTAGTTGCTAACCTACTCATTCTAACATGAATCGGCAGCCAACCAGTAGAACACCCATTCATCATC
ATTGGCCAACTAGCCTCTGTCACCTACTTCACCATCCTCCTAATCCTCTTCCCCACTATCGGGGCCCTAG
AAAACAAAATACTCAACCTCTAAATTACTCTAATAGTTTATAAAAACATTGGTCTTGTAAACCAAAGAAT
GAAGACTACACCCCTTCTTAGAGTTTTCCCCAACACATCAGAAAAAAAGGACTTAAACCTTTATCTCCAG
CTCCCAAAGCTGACATTTTTATCTTAAACTATTCTCTGATCTCTATTCCCCCCTCCCTCTCCCTCCCATC
CTCTTTCCCCTAAACCGCTCGAATCGCTCCCCGGGACAATCCACGCACAAGCTCCAGCACAACAAACAAA
GTCAATAACAATCCCCACCCTGCCACTAAAAATATCCCCACCCCATACGAATAAAACATAGCAACTCCAC
TAAAGTCTAACCGCATAGAAAATACACCTCCACTATCCACAGTAATTACTCCCAACTCCCAACACCCAAC
GGGTCCTCCAATAACCACACCCACAACCAACACTAAGACAAAACCCCCACCATACCCCACAACTCGCCAA
TCCCCCCACGCCCCGGGAAAAGGATCCGCAGCTAACGACACAGAATACACAAAAACCACCAACATCCCCC
CTAAATACACTATAAACAACACCAACGACACAAAAGAAGCCCCCAAACTCAACAACCACCCGCACCCCAC
AACAGACCCTAGCACTAAACCAATTACACCGTAATACGGCGAAGGATTAGATGCAACTGCCAACCCCCCC
AAAACAAAACACACCCCCAAAAAAAACATAAAGTACGTCATAATATATTCCCACTTGGTCTCTCTCCAAG
GTCTGCGGCTTGAAAAGCCGCTGTTAAAATAATTCTTAACTACAGGAAC