Viewing data for Ciconia boyciana

Scientific name	Ciconia boyciana
Common name	Oriental white stork
Maximum lifespan	48.10 years (Ciconia boyciana@AnAge)

Total mtDNA (size: 17622 bases)	GC	AT	G	C	A	T
Base content (bases)	8156	9466	5638	2518	4030	5436
Base content per 1 kb (bases)	463	537	320	143	229	308
Base content (%)	46.3%	53.7%

Total protein-coding genes (size: 11375 bases)	GC	AT	G	C	A	T
Base content (bases)	5438	5937	4012	1426	2587	3350
Base content per 1 kb (bases)	478	522	353	125	227	295
Base content (%)	47.8%	52.2%

D-loop (size: 2053 bases)	GC	AT	G	C	A	T
Base content (bases)	810	1243	471	339	538	705
Base content per 1 kb (bases)	395	605	229	165	262	343
Base content (%)	39.5%	60.5%

Total tRNA-coding genes (size: 1550 bases)	GC	AT	G	C	A	T
Base content (bases)	662	888	397	265	380	508
Base content per 1 kb (bases)	427	573	256	171	245	328
Base content (%)	42.7%	57.3%

Total rRNA-coding genes (size: 2580 bases)	GC	AT	G	C	A	T
Base content (bases)	1216	1364	725	491	512	852
Base content per 1 kb (bases)	471	529	281	190	198	330
Base content (%)	47.1%	52.9%

12S rRNA gene (size: 968 bases)	GC	AT	G	C	A	T
Base content (bases)	468	500	276	192	190	310
Base content per 1 kb (bases)	483	517	285	198	196	320
Base content (%)	48.3%	51.7%

16S rRNA gene (size: 1612 bases)	GC	AT	G	C	A	T
Base content (bases)	748	864	449	299	322	542
Base content per 1 kb (bases)	464	536	279	185	200	336
Base content (%)	46.4%	53.6%

ATP6 (size: 684 bases)	GC	AT	G	C	A	T
Base content (bases)	311	373	241	70	165	208
Base content per 1 kb (bases)	455	545	352	102	241	304
Base content (%)	45.5%	54.5%

ATP8 (size: 168 bases)	GC	AT	G	C	A	T
Base content (bases)	70	98	60	10	40	58
Base content per 1 kb (bases)	417	583	357	60	238	345
Base content (%)	41.7%	58.3%

COX1 (size: 1551 bases)	GC	AT	G	C	A	T
Base content (bases)	740	811	498	242	377	434
Base content per 1 kb (bases)	477	523	321	156	243	280
Base content (%)	47.7%	52.3%

COX2 (size: 684 bases)	GC	AT	G	C	A	T
Base content (bases)	318	366	215	103	159	207
Base content per 1 kb (bases)	465	535	314	151	232	303
Base content (%)	46.5%	53.5%

COX3 (size: 784 bases)	GC	AT	G	C	A	T
Base content (bases)	379	405	259	120	189	216
Base content per 1 kb (bases)	483	517	330	153	241	276
Base content (%)	48.3%	51.7%

CYTB (size: 1143 bases)	GC	AT	G	C	A	T
Base content (bases)	585	558	433	152	264	294
Base content per 1 kb (bases)	512	488	379	133	231	257
Base content (%)	51.2%	48.8%

ND1 (size: 978 bases)	GC	AT	G	C	A	T
Base content (bases)	453	525	326	127	255	270
Base content per 1 kb (bases)	463	537	333	130	261	276
Base content (%)	46.3%	53.7%

ND2 (size: 1041 bases)	GC	AT	G	C	A	T
Base content (bases)	472	569	372	100	238	331
Base content per 1 kb (bases)	453	547	357	96	229	318
Base content (%)	45.3%	54.7%

ND3 (size: 351 bases)	GC	AT	G	C	A	T
Base content (bases)	170	181	131	39	81	100
Base content per 1 kb (bases)	484	516	373	111	231	285
Base content (%)	48.4%	51.6%

ND4 (size: 1378 bases)	GC	AT	G	C	A	T
Base content (bases)	653	725	515	138	305	420
Base content per 1 kb (bases)	474	526	374	100	221	305
Base content (%)	47.4%	52.6%

ND4L (size: 297 bases)	GC	AT	G	C	A	T
Base content (bases)	145	152	107	38	71	81
Base content per 1 kb (bases)	488	512	360	128	239	273
Base content (%)	48.8%	51.2%

ND5 (size: 1812 bases)	GC	AT	G	C	A	T
Base content (bases)	879	933	660	219	381	552
Base content per 1 kb (bases)	485	515	364	121	210	305
Base content (%)	48.5%	51.5%

ND6 (size: 522 bases)	GC	AT	G	C	A	T
Base content (bases)	268	254	198	70	66	188
Base content per 1 kb (bases)	513	487	379	134	126	360
Base content (%)	51.3%	48.7%

ATP6 (size: 684 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 9 (3.96%) Alanine (Ala, A) n = 15 (6.61%) Serine (Ser, S) n = 13 (5.73%) Threonine (Thr, T) n = 23 (10.13%) Cysteine (Cys, C) n = 2 (0.88%) Valine (Val, V) n = 7 (3.08%) Leucine (Leu, L) n = 59 (25.99%) Isoleucine (Ile, I) n = 23 (10.13%) Methionine (Met, M) n = 10 (4.41%) Proline (Pro, P) n = 17 (7.49%) Phenylalanine (Phe, F) n = 7 (3.08%) 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 = 4 (1.76%) 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
7	16	9	4	14	35	1	4	7	1	0	4	2	1	2	5
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	2	3	8	4	0	1	4	3	1	2	4	10	1	4
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
8	9	2	1	3	5	0	0	4	1	2	1	1	2	8	0
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
4	4	0	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				88				73				31
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
24				64				34				106
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
10				89				101				28

ATP8 (size: 168 bases)
Amino acid sequence: MPQLNPNPWFYIMLATWLTLLLAIQPKLLSFTTTNQPSNKLPTTIKTTPWAWPWT*
Amino acid frequencies: Glycine (Gly, G) n = 0 (0%) Alanine (Ala, A) n = 3 (5.45%) Serine (Ser, S) n = 2 (3.64%) Threonine (Thr, T) n = 10 (18.18%) Cysteine (Cys, C) n = 0 (0%) Valine (Val, V) n = 0 (0%) Leucine (Leu, L) n = 9 (16.36%) Isoleucine (Ile, I) n = 3 (5.45%) Methionine (Met, M) n = 2 (3.64%) Proline (Pro, P) n = 8 (14.55%) Phenylalanine (Phe, F) n = 2 (3.64%) Tyrosine (Tyr, Y) n = 1 (1.82%) 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 = 3 (5.45%) Histidine (His, H) n = 0 (0%) Lysine (Lys, K) n = 3 (5.45%) 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	1	1	2	2	4	0	1	3	0	0	0	0	0	2	0
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	0	1	2	0	0	0	0	0	0	1	3	4	0	2
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
6	2	0	1	0	1	0	0	0	0	1	0	0	1	3	0
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
0	0	0	0	0	2	1	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
3				19				22				12
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
5				23				12				16
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
2				18				24				12

COX1 (size: 1551 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 47 (9.11%) Alanine (Ala, A) n = 43 (8.33%) Serine (Ser, S) n = 26 (5.04%) Threonine (Thr, T) n = 44 (8.53%) Cysteine (Cys, C) n = 1 (0.19%) Valine (Val, V) n = 36 (6.98%) Leucine (Leu, L) n = 62 (12.02%) Isoleucine (Ile, I) n = 39 (7.56%) Methionine (Met, M) n = 25 (4.84%) Proline (Pro, P) n = 32 (6.2%) 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 = 15 (2.91%) Glutamic acid (Glu, E) n = 10 (1.94%) Asparagine (Asn, N) n = 14 (2.71%) Glutamine (Gln, Q) n = 9 (1.74%) Histidine (His, H) n = 19 (3.68%) 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
9	30	24	9	8	39	1	5	7	2	5	14	16	1	6	36
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	1	8	24	10	1	3	19	21	4	7	7	16	2	8
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
19	16	1	1	13	9	0	0	3	5	13	0	0	1	13	3
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
16	10	0	2	13	9	0	0	2	6	0	0	1	0	0	17
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
151				125				135				106
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
77				142				94				204
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
14				231				205				67

COX2 (size: 684 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 9 (3.96%) Alanine (Ala, A) n = 15 (6.61%) Serine (Ser, S) n = 19 (8.37%) Threonine (Thr, T) n = 15 (6.61%) Cysteine (Cys, C) n = 3 (1.32%) Valine (Val, V) n = 15 (6.61%) Leucine (Leu, L) n = 31 (13.66%) Isoleucine (Ile, I) n = 20 (8.81%) Methionine (Met, M) n = 9 (3.96%) Proline (Pro, P) n = 13 (5.73%) 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 = 14 (6.17%) Asparagine (Asn, N) n = 4 (1.76%) Glutamine (Gln, Q) n = 8 (3.52%) Histidine (His, H) n = 9 (3.96%) 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
5	15	8	5	5	15	5	1	6	2	4	6	3	2	3	5
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	3	2	8	5	0	0	3	5	1	0	4	9	0	5
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
4	6	0	1	8	7	0	0	3	0	8	0	0	3	1	3
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
6	13	1	3	10	4	0	0	2	3	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
66				65				55				42
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
25				59				61				83
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
12				91				91				34

COX3 (size: 784 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 20 (7.69%) Alanine (Ala, A) n = 20 (7.69%) Serine (Ser, S) n = 19 (7.31%) Threonine (Thr, T) n = 21 (8.08%) Cysteine (Cys, C) n = 1 (0.38%) Valine (Val, V) n = 14 (5.38%) Leucine (Leu, L) n = 32 (12.31%) Isoleucine (Ile, I) n = 17 (6.54%) 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 = 6 (2.31%) Glutamine (Gln, Q) n = 8 (3.08%) Histidine (His, H) n = 17 (6.54%) Lysine (Lys, K) n = 3 (1.15%) 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
1	16	6	2	8	16	2	4	8	0	1	7	6	0	4	20
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
3	0	1	5	9	5	1	2	7	9	2	0	7	5	0	1
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
8	12	0	3	6	6	0	0	4	3	6	2	0	0	6	3
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
14	7	1	2	2	2	1	0	0	5	0	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
66				70				60				65
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
42				68				55				96
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
12				121				101				27

CYTB (size: 1143 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 25 (6.58%) Alanine (Ala, A) n = 29 (7.63%) Serine (Ser, S) n = 24 (6.32%) Threonine (Thr, T) n = 28 (7.37%) Cysteine (Cys, C) n = 5 (1.32%) Valine (Val, V) n = 15 (3.95%) Leucine (Leu, L) n = 70 (18.42%) Isoleucine (Ile, I) n = 28 (7.37%) Methionine (Met, M) n = 7 (1.84%) Proline (Pro, P) n = 25 (6.58%) Phenylalanine (Phe, F) n = 27 (7.11%) Tyrosine (Tyr, Y) n = 14 (3.68%) Tryptophan (Trp, W) n = 11 (2.89%) Aspartic acid (Asp, D) n = 7 (1.84%) Glutamic acid (Glu, E) n = 7 (1.84%) Asparagine (Asn, N) n = 20 (5.26%) 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
6	22	5	8	21	36	3	2	5	3	1	8	6	0	6	21
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
2	0	5	4	17	8	0	2	14	6	3	2	14	9	0	0
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
18	10	0	1	13	9	0	0	1	2	12	2	0	0	20	0
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
12	3	4	2	5	8	2	0	4	4	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
83				121				94				83
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
50				105				79				147
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
19				207				121				34

ND1 (size: 978 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 13 (4.0%) Alanine (Ala, A) n = 30 (9.23%) Serine (Ser, S) n = 27 (8.31%) Threonine (Thr, T) n = 22 (6.77%) Cysteine (Cys, C) n = 2 (0.62%) Valine (Val, V) n = 13 (4.0%) Leucine (Leu, L) n = 63 (19.38%) Isoleucine (Ile, I) n = 23 (7.08%) Methionine (Met, M) n = 15 (4.62%) Proline (Pro, P) n = 26 (8.0%) Phenylalanine (Phe, F) n = 18 (5.54%) Tyrosine (Tyr, Y) n = 15 (4.62%) Tryptophan (Trp, W) n = 8 (2.46%) 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
8	15	11	7	18	31	0	6	4	1	2	1	8	2	4	14
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
4	0	2	7	11	10	2	3	6	3	1	5	6	15	0	3
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
9	10	0	2	14	6	0	0	5	5	10	1	1	2	10	1
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
2	6	5	0	4	7	0	2	1	4	1	0	1	0	0	7
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
71				98				85				72
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
37				100				57				132
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
19				128				128				51

ND2 (size: 1041 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 12 (3.47%) Alanine (Ala, A) n = 29 (8.38%) Serine (Ser, S) n = 30 (8.67%) Threonine (Thr, T) n = 50 (14.45%) Cysteine (Cys, C) n = 0 (0%) Valine (Val, V) n = 7 (2.02%) Leucine (Leu, L) n = 66 (19.08%) Isoleucine (Ile, I) n = 28 (8.09%) Methionine (Met, M) n = 19 (5.49%) Proline (Pro, P) n = 21 (6.07%) Phenylalanine (Phe, F) n = 15 (4.34%) Tyrosine (Tyr, Y) n = 7 (2.02%) Tryptophan (Trp, W) n = 10 (2.89%) Aspartic acid (Asp, D) n = 3 (0.87%) Glutamic acid (Glu, E) n = 5 (1.45%) Asparagine (Asn, N) n = 10 (2.89%) Glutamine (Gln, Q) n = 9 (2.6%) Histidine (His, H) n = 9 (2.6%) Lysine (Lys, K) n = 13 (3.76%) Arginine (Arg, R) n = 3 (0.87%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
12	16	17	6	17	36	4	3	8	1	0	4	1	2	2	13
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
2	0	0	2	18	9	0	0	6	5	1	2	8	10	1	5
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
23	22	0	1	13	12	0	1	3	0	7	4	0	3	7	5
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
4	5	0	1	2	13	0	1	0	2	0	0	0	1	0	6
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
56				105				124				62
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
29				126				57				135
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
15				141				150				41

ND3 (size: 1041 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 12 (3.47%) Alanine (Ala, A) n = 29 (8.38%) Serine (Ser, S) n = 30 (8.67%) Threonine (Thr, T) n = 50 (14.45%) Cysteine (Cys, C) n = 0 (0%) Valine (Val, V) n = 7 (2.02%) Leucine (Leu, L) n = 66 (19.08%) Isoleucine (Ile, I) n = 28 (8.09%) Methionine (Met, M) n = 19 (5.49%) Proline (Pro, P) n = 21 (6.07%) Phenylalanine (Phe, F) n = 15 (4.34%) Tyrosine (Tyr, Y) n = 7 (2.02%) Tryptophan (Trp, W) n = 10 (2.89%) Aspartic acid (Asp, D) n = 3 (0.87%) Glutamic acid (Glu, E) n = 5 (1.45%) Asparagine (Asn, N) n = 10 (2.89%) Glutamine (Gln, Q) n = 9 (2.6%) Histidine (His, H) n = 9 (2.6%) Lysine (Lys, K) n = 13 (3.76%) Arginine (Arg, R) n = 3 (0.87%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
12	16	17	6	17	36	4	3	8	1	0	4	1	2	2	13
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
2	0	0	2	18	9	0	0	6	5	1	2	8	10	1	5
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
23	22	0	1	13	12	0	1	3	0	7	4	0	3	7	5
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
4	5	0	1	2	13	0	1	0	2	0	0	0	1	0	6
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
56				105				124				62
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
29				126				57				135
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
15				141				150				41

ND4 (size: 1378 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 18 (3.93%) Alanine (Ala, A) n = 31 (6.77%) Serine (Ser, S) n = 32 (6.99%) Threonine (Thr, T) n = 56 (12.23%) Cysteine (Cys, C) n = 3 (0.66%) Valine (Val, V) n = 6 (1.31%) Leucine (Leu, L) n = 104 (22.71%) Isoleucine (Ile, I) n = 43 (9.39%) Methionine (Met, M) n = 22 (4.8%) Proline (Pro, P) n = 28 (6.11%) Phenylalanine (Phe, F) n = 13 (2.84%) Tyrosine (Tyr, Y) n = 12 (2.62%) Tryptophan (Trp, W) n = 12 (2.62%) Aspartic acid (Asp, D) n = 2 (0.44%) Glutamic acid (Glu, E) n = 10 (2.18%) Asparagine (Asn, N) n = 16 (3.49%) Glutamine (Gln, Q) n = 14 (3.06%) Histidine (His, H) n = 18 (3.93%) Lysine (Lys, K) n = 8 (1.75%) Arginine (Arg, R) n = 11 (2.4%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
6	37	20	10	33	50	5	6	13	1	0	2	4	0	3	10
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
2	0	3	5	16	10	0	2	8	5	3	3	14	11	0	7
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
22	25	2	4	10	10	0	1	7	2	10	2	0	1	15	2
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
16	8	2	0	2	6	2	0	2	9	0	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
67				169				153				70
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
52				139				80				188
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
19				207				187				46

ND4L (size: 297 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 5 (5.1%) Alanine (Ala, A) n = 10 (10.2%) Serine (Ser, S) n = 11 (11.22%) Threonine (Thr, T) n = 7 (7.14%) Cysteine (Cys, C) n = 4 (4.08%) Valine (Val, V) n = 2 (2.04%) Leucine (Leu, L) n = 22 (22.45%) Isoleucine (Ile, I) n = 4 (4.08%) Methionine (Met, M) n = 6 (6.12%) Proline (Pro, P) n = 2 (2.04%) 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 = 2 (2.04%) Histidine (His, H) n = 6 (6.12%) 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
0	4	5	2	3	14	1	2	2	0	0	0	2	0	1	4
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
1	0	4	0	6	4	0	0	4	1	0	0	1	1	0	0
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
6	1	0	3	3	3	0	0	2	1	1	1	0	0	3	1
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
5	3	0	0	1	0	0	0	0	2	0	0	0	1	0	0
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
21				32				22				24
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
3				47				41				8

ND5 (size: 1812 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 33 (5.47%) Alanine (Ala, A) n = 55 (9.12%) Serine (Ser, S) n = 46 (7.63%) Threonine (Thr, T) n = 77 (12.77%) Cysteine (Cys, C) n = 6 (1.0%) Valine (Val, V) n = 14 (2.32%) Leucine (Leu, L) n = 108 (17.91%) Isoleucine (Ile, I) n = 49 (8.13%) Methionine (Met, M) n = 25 (4.15%) Proline (Pro, P) n = 30 (4.98%) Phenylalanine (Phe, F) n = 29 (4.81%) Tyrosine (Tyr, Y) n = 14 (2.32%) Tryptophan (Trp, W) n = 12 (1.99%) Aspartic acid (Asp, D) n = 7 (1.16%) Glutamic acid (Glu, E) n = 13 (2.16%) Asparagine (Asn, N) n = 24 (3.98%) Glutamine (Gln, Q) n = 21 (3.48%) Histidine (His, H) n = 10 (1.66%) Lysine (Lys, K) n = 21 (3.48%) 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
8	41	22	9	37	56	4	2	18	3	4	5	5	0	3	26
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
3	1	5	5	34	15	1	4	12	15	2	0	14	16	0	8
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
36	30	3	5	17	11	1	1	11	0	14	1	0	6	18	3
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
7	10	3	2	5	19	2	0	6	3	0	0	1	0	0	11
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
122				176				209				97
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
73				196				110				225
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
24				288				233				59

ND6 (size: 522 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 28 (16.18%) Alanine (Ala, A) n = 17 (9.83%) 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 = 30 (17.34%) Leucine (Leu, L) n = 25 (14.45%) Isoleucine (Ile, I) n = 2 (1.16%) Methionine (Met, M) n = 9 (5.2%) Proline (Pro, P) n = 4 (2.31%) Phenylalanine (Phe, F) n = 13 (7.51%) Tyrosine (Tyr, Y) n = 7 (4.05%) Tryptophan (Trp, W) n = 4 (2.31%) Aspartic acid (Asp, D) n = 3 (1.73%) Glutamic acid (Glu, E) n = 4 (2.31%) Asparagine (Asn, N) n = 1 (0.58%) Glutamine (Gln, Q) n = 1 (0.58%) Histidine (His, H) n = 0 (0%) Lysine (Lys, K) n = 1 (0.58%) 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
2	0	2	3	0	3	10	2	1	0	14	0	8	8	11	2
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
7	1	2	8	0	5	4	4	1	4	19	2	2	0	0	0
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
0	0	3	5	1	0	3	3	1	6	1	4	7	0	1	0
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
0	1	3	3	0	0	1	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
82				26				20				46
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
44				33				18				79
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
72				11				28				63

Total protein-coding genes (size: 11393 bases)
Amino acid sequence:
Amino acid frequencies: Glycine (Gly, G) n = 224 (5.9%) Alanine (Ala, A) n = 305 (8.03%) Serine (Ser, S) n = 270 (7.11%) Threonine (Thr, T) n = 368 (9.69%) Cysteine (Cys, C) n = 31 (0.82%) Valine (Val, V) n = 160 (4.21%) Leucine (Leu, L) n = 677 (17.83%) Isoleucine (Ile, I) n = 291 (7.67%) Methionine (Met, M) n = 160 (4.21%) Proline (Pro, P) n = 225 (5.93%) Phenylalanine (Phe, F) n = 211 (5.56%) Tyrosine (Tyr, Y) n = 112 (2.95%) Tryptophan (Trp, W) n = 106 (2.79%) Aspartic acid (Asp, D) n = 63 (1.66%) Glutamic acid (Glu, E) n = 95 (2.5%) Asparagine (Asn, N) n = 127 (3.35%) Glutamine (Gln, Q) n = 100 (2.63%) Histidine (His, H) n = 107 (2.82%) Lysine (Lys, K) n = 83 (2.19%) Arginine (Arg, R) n = 71 (1.87%)
Codon statistics:
AUU	AUC	AUA	CUU	CUC	CUA	CUG	UUA	CAA	CAG	GUU	GUC	GUA	GUG	UUU	UUC
67	224	131	71	173	350	36	38	86	14	31	51	62	16	49	162
AUG	UGU	UGC	GCU	GCC	GCA	GCG	GGU	GGC	GGA	GGG	CCU	CCC	CCA	CCG	ACU
29	2	29	50	157	89	9	21	87	79	37	24	89	108	4	44
ACC	ACA	ACG	UCU	UCC	UCA	UCG	AGU	AGC	UAU	UAC	UGG	UUG	AAU	AAC	CAU
165	148	11	28	106	81	4	6	45	25	87	19	9	19	108	21
CAC	GAA	GAG	GAU	GAC	AAA	AAG	CGU	CGC	CGA	CGG	AGA	AGG	UAA	UAG	UGA
86	76	19	16	47	74	9	4	21	43	3	0	3	7	1	87
Codons with 1st base G				Codons with 1st base C				Codons with 1st base A				Codons with 1st base U
847				1133				1083				734
Codons with 2nd base G				Codons with 2nd base C				Codons with 2nd base A				Codons with 2nd base U
486				1117				695				1499
Codons with 3rd base G				Codons with 3rd base C				Codons with 3rd base A				Codons with 3rd base U
223				1637				1459				478

>NC_002196.1 Ciconia boyciana mitochondrion, complete genome
TCCTAAGAACATACCCCCTACTCGGTACCCCCCCTACCCCCCCACAGGTAACTGCAGTGGGAAATATACT
AGCTAGCTGCTCTACAAACGGCTATGTAGATGTGCATTAACTTGCTTGTCCGCTTAACATTACACTGATC
TTAGGGCATACATTGTACTTGTTCTAAGACATTAATTGTATTGATATAAGGACAAGTATTGAGATGATGC
GTGGATAAATACTGTAATGTTCTAGTAGAAATGTAATGTTATGCTTTAAGTGGTGGTTCTCTGCAATGCT
TTATGGATAGGCTCTGTAATGGTAGGTGGATAGTACAGTTAGGGGATGGCTAAGGGTATAGTCTGTAGTA
GTAGGGTATTGGATCTTTCAAGGTCGGGTCTCCCAAAGGAGTAGGGATGTAATGGCTGTAGGGTTAGGTA
CTAAGTAACTAGGGCTAAACCCATTGTATGGTTTGGGTCTGTACAGGAGATAGTACTGAGGGTACGGATA
CGCTTGGGGGTTAGGTCTGAATGGTAGCTGGCCATGGTATCTCAGTTCCTGCTCGGCGGGCCGGTAGCTG
AAGGACCAGGTTATCTATTAATCGGAGTTCTCACGTGAAATCAGCAACCCGGTGTCTGGAAGATCCGGTG
TGACTAGCGTCAGGATCATTCTTTCCCCCTACACCCTAGCACAACTTGCGCTTTTGCGCCTCTGGTTCCT
CGGTCAGGGCCATGGTCTCGCATAACTCCCGATAGCTTGCCCTTCACAGAGTCATTTGGTTAATGGCTGT
CACCATCTCACCCGTGATCGCGGCATCTCAATGGTTTTTGGCGCCTCTGGTATTTTTTCTTTTTGGGGCT
TCTTCACAGGTGACCCTTCCAGTGCGGAGCAGGTGAATCCAGTTCAAGACATGGGCATCACATGGTTTGC
GGTCTGGCGTTGGTCCTCAGGAATACCTGAATGAGACGGTTGGCGTATATGGGGAATCATCTTAACACTG
ATGCACTTTGGTTTTCATTCAGTTATGGCGTGTCCACAGACTCTTTAAGGTATTTACTATTCAGTGAATG
CTTGTTGGACATAGTATTCTATCTTTATCTATCTTTACACTTCCTCTAACTTTCTAAACAGAACTAGTAA
CTTTCACCTAAACTGTTTTATTCATTTCGTTTCACATTTTTCATTCCGTATCTTCGTTCGATCGTTCCAT
TCGTTTAAGCACTAAAATTTCATTAATAAATCAAACGTTTGTTTGTATCTTTTATCGATGGTTCCTTTCA
CCTATTCGGGCGCTAAAGTTCCATTAATAAATCAAACGTTTGTTTGTATCTTTTATCGATGGTTCCTTTC
ACCTATTCGGGCGCTAAAGTTCCATTAATAAATCAAACGTTTGTTTGGTATCTTTTATCGATGGTTCCTT
TCACCTATTCGGGCGCTAAAGTTCCATTAATAAATCAAACGTTTGTTTGTATCTTTTATCGATGGTTCCT
TTCACCTATTCGGGCGCTAAAGTTCCATTAATAAATCAAACGTTTGTTTGTATCTTAACCGTTCCATCCA
TCCAAACCCCCCAAAAATCCACCCTATTATTTCCAACAACCCCACTAAAATTCCATTAAACACACCAATT
CAGTCACCAACAAACAACAAACAACAAACAAACAAACAACAAACAAACAACAAACAAACAAACAACAAAC
AAACAAACAACAAACAAACAACAAACAAACAAACAACAAACAAACAAACAACAAACAAACAAACAACAAA
CAAACAAACAACAAACAAACAAACAACAAACAAACAAACAACAAACAAACAAACAACAAACAAACAAACA
ACAAACAAACAAACAACAAACAAACAAACAACAAACAAACAAACAACAAACAAACAACAAACAAACAAAC
AAACAACAAACAAACAAACAACAAACAAACAACAAACAAACAAACAAACAACAAACAAAACAACAAACAA
ACAAACAAACAACAAACAAACAAACAACAAACAAACAAACAACAAACAAACAAACAACAAACAAACAACA
AACAAACAAACACAGCCTCAACCGTCCTTGTAGCTTACAACTAAAGCATGGCACTGAAGATGCCAAGACG
GCTGCCATATGCACCCAAGGACAAAAGACTTAGTCCTAACCTTACCGTTAACTTTTGCTAAATATATACA
TGCAAGTATCCGCACCCCAGTGTAAATGCCCCAGATTTCTTACCTAGATGAAGGGAGCGGGTATCAGGCA
CACCCACTGTTGTAGCCCAAGACACCTTGCTTAGCCACACCCCCACGGGCACTCAGCAGTAATTAACATT
AAGCAATAAGTGTAAACTTGACTTAGTTATAGCAACATCCAGGGTTGGTAAATCTTGTGCCAGCCACCGC
GGTCACACAAGAAACCCAAGTTAACTGCAATCGGCGTAAAGAGTGGTACCACATTGTCACAACAACTAGG
ATTAAAGTACAACTGAGCTGTCATAAGCCAAAGATGCACCTAAAACCACCCTCAAGACGATCCTAGCAAC
TACGACTGATTAAGCCCACGAAAGCTAAGGCACAAACTGGGATTAGATACCCCACTATGCTTAGCCCTAA
ATCTTGGTACTTACCCTACTAAAGTACCCGCCCGAGAACTACGAGCACAAACGCTTAAAACTCTAAGGAC
TTGGCGGTGCCCCAAACCCACCTAGAGGAGCCTGTTCTGTAATCGATAACCCACGATACACCCAACCGCC
CCTTGCCAAAGCAGCCTACATACCGCCGTCGCCAGCTCACCTTCCTTGAGAGCCCAACAGTGAGCACAAC
AGCTACCCCCGCTAGCAAGACAGGTCAAGGTATAGCCTATGGGTCGGAAGAAATGGGCTACATTTTCTAA
GATAGAAAACTTACGAAAAGGGGCATGAAACAGCCCCTAGAAGGCGGATTTAGCAGTAAAGGGGGATAAT
AAAGCCCTCTTTAAACTGGCCCTGGGGCACGTACATACCGCCCGTCACCCTCCTCATAAGCTACCAAACC
ACCATACCTAATACCCCCACCAGCCGAAGATGAGGTAAGTCGTAACAAGGTAAGTGTACCGGAAGGTGCA
CTTAGCACACACAAGACGTAGCTATAACATAAAGCACTCAGCTTACACCTGAGAGATATCTGCTATCAAC
AGATCGTCTTGAAGCCTACTCTAGCTCGACCTAACCATACCCACCACACATAGTACATCAAAAATTAACT
TTACCTCCAAACTAAAACATTCTTCTTACTTAGTATAGGTGATAGAAAAGGACCCCCCCCCCCGGCGCGA
TAGAGACCCTGTACCGTAAGGGAAAGATGAAATAACAATGAAAACCCAAGCACCAAACAGCAAAGATCAA
CCCTTGTACCTCTCGCATCATGATTTAGCAAGAACAACCAAGCAAAACGAATTTAAGCTTGCCACCCCGA
AACCTGAGCGAGCTACTCACAAGCAGCTACCCCTGAGCGAACCCGTCTCTGTTGCAAAAGAGTGGGATGA
CTTGTTAGTAGAGGTGAAAAGCCAACCGAGCCAGGTGATAGCTGGTTGCCCGTGAAATGAATCTCAGTTC
CTCCTTAACTCCTCTCCATGGATCACCTAACAACCCCCAATGTAGTGAGTCAAGAGTAATTTAAAGGAGG
TACAGCTCCTTTAAAAAAGAACACAATCTCCTCTAGCGGATAAAACAACCCACTACTTACATGCCTCCAA
ACTGTGGGCCTTTAAGCAGCCATCAACAAAGAGTGCGTCAAAGCTCTACACTTAAAAATCCAAAGACAAC
ATGACTCCCTTACCACTAACGGGCTAACCTATGCCAATAGGAGAATTAATGCTAAAATAAGTAACCAGGG
ACTACCCCTCTCAGGCGCAAGCTTACATTATCACATTATTAACAGGCTATTCAAATACCATAACTCCAAC
AAGACTAAGTATTAAACCCACCCTGTTAACCCAACCCAGGAGCGCCCATTAGAAAGATTAAAATCTGTAA
AAGGAACTAGGCAAACCCAGGGCCCGACTGTTTACCAAAAACATAGCCTTCAGCCGACCAAGTATTGAAG
GTGATGCCTGCCCAGTGACCCCCTGTTCAACGGCCGCGGTATCCTAACCGTGCGAAGGTAGCGCAATCAA
TTGTCTCATAAATCGAGACTTGTATGAACGGCTAAACGAGGTCCTAACTGTCTCTTACAGATAATCAGTG
AAATTGATCTCCCCGTGCAAAAGCAGGGATAAACACATAAGACGAGAAGACCCTGTGGAACTTTAAAATC
AACGGCCATCACACGACAGACCAAAACCTACTAGGCTCACTACCTTAAAGCACTGACTCGTATTTTTCGG
TTGGGGCGACCTTGGAGAAAAACAAACCCTCCAAAAACAGGACCACACCTCCTGACCAAGAGCAACTCAT
CAACGTACAAACAGTAACCAGACCCAATACAATTGACCAATGGACCAAGCTACCCCAGGGATAACAGCGC
AATCTCCCTCAAGAGCCCATATCGACAGGGGGGTTTACGACCTCGATGTTGGATCAGGACACCCCAGTGG
TGCAGCCGCTACTAAGGGTTCGTTTGTTCAACGATTAACAGTCCTACGTGATCTGAGTTCAGACCGGAGC
AATCCAGGTCGGTTTCTATCTATGACAGACCTCTCCTAGTACGAAAGGACCGGAGAAGTAAGGCCAATAC
CACAAGCACGCCTCCCCTCTAAGTAATGAACCCAACTAAACTACTAAGAGGACACCCATACCCCTACGCC
CTAGAAAAGGGCTGGCTAGCGTGGCAGAGCTCGGTAAATGCAAAAGGCTTAAACCCTTTACCCAGAGGTT
CAAATCCTCTCCCTAGCCCTCACACCTACCTACCCATGACCTATCCTCCTATTATAACCCACCTCATCAT
GTCCCTCTCTTACGCGATCCCAATTCTAATCGCCGTTGCCTTCCTAACACTAGTAGAGCGAAAAGTCCTA
AGCTACATACAAGCTCGAAAAGGTCCAAACATTGTAGGCCCTTTCGGACTATTACAGCCAGTGGCAGACG
GAGTAAAACTATTCATTAAAGAGCCCATTCGACCATCCACCGCCTCCCCATTCCTCTTTATCATAACTCC
CATACTAGCCCTCCTACTAGCAATTACAATCTGAGCTCCCCTACCCCTTCCATTCTCTCTCGCAGACCTA
AACCTAGGCCTTCTCTTTCTCCTAGCCATATCCAGCCTAGCGGTATACTCCATTCTTTGATCCGGGTGAG
CTTCAAACTCAAAATATGCTCTAATTGGTGCATTACGGGCAGTAGCACAAACCATCTCCTACGAAGTAAC
ACTAGCCATCATCCTCCTATCCATGATCGTGCTCAGCGGAAACTACACCTTAAACACTCTCACCACTACC
CAAGAACCACTATACCTAATCTTCTCCTCCTGACCCCTTGCAATAATATGATACATCTCAACACTCGCCG
AAACAAACCGTGCCCCATTTGACCTTACAGAGGGTGAGTCCGAGCTAGTATCCGGCTTCAATGTAGAATA
TGCTGCTGGCCCATTCGCTCTATTCTTCCTAGCCGAATACGCAAATATCATATTGATAAACACACTAACC
ACCATCCTATTCCTAAACCCAAGCTCACTCAACCCCTCCCCAGAACTATTCCCAATGCTCTTAGCCACAA
AAGTTTTACTCCTCTCATCAGGCTTCCTATGAATCCGTGCCTCCTACCCACGATTTCGCTATGACCAACT
TATACATCTCCTCTGAAAAAACTTCCTTCCACTAACATTAGCACTATGCCTCTGGCACACAAGCATACCA
ATCTGCTACGCAGGCCTACCTCCTTATCTAAGGAAATGTGCCTGAACGTAAAGGATCACTATGATAAAGT
GAACATAGAGGTATACCAGCCCTCTCATTTCCTAAGAAACCTTAGAAAAGTAGGAGTCGAACCTACACAG
AAGAAATCAAAACTCTTCATACTTCCTTTATATTATTTCCTAGTAGGGTCAGCTAACGAAGCTATCGGGC
CCATACCCCGAAAATGATGGTTTAACCCCTTCCCCTACTAATGAACCCACATGCAACACTAATTTTCTCA
CTAAGCCTTCTCCTAGGAACAACCATCACAATCTCAAGCAACCATTGAATAATAGCCTGAATAGGACTAG
AAATTAATACCCTCGCTATCCTCCCCCTCATCTCAAAATCCCATCACCCTCGAGCCATCGAAGCCGCAAT
CAAATACTTTCTAGTCCAAGCAACTGCCTCTACACTAGTCCTCTTCTCAAGTACAATTAATGCATGATTC
ACAGGACAATGGGACATCACCCAGCTAAGCCACCCAACATCCTCCCTCCTCCTGACAACAGCAATTGCAA
TAAAACTAGGCCTAGTGCCATTCCATTTCTGATTCCCAGAAGTACTTCAAGGCTCATCCCTAACCACTGC
TCTATTACTATCAACAATAATAAAATTCCCCCCAATCACCATTCTTTTCCTAACATCCCCATCCCTTAAC
CCAACACTACTAACCACCATAGCCATTGCCTCAGCCGCCCTAGGGGGCTGAATAGGACTAAACCAAACCC
AAACCCGAAAAATCCTAGCCTTCTCCTCCATCTCCCACCTAGGCTGGATAGCCACCATCATTGTCTACGA
CCCCAAACTCACCCTACTAACCTTCTACCTCTACACCCTAATGACTGCCACCATTTTTATTACCCTCAAC
ACAACCAAAGTCCTAAAACTATCAACAATAATAACCTCATGAACAAAAGCCCCCGTGCTAAATACCACCC
TAATACTCGCCTTACTCTCCCTAGCAGGCCTTCCCCCACTGACAGGCTTCCTGCCTAAATGGCTCATCAT
CCAAGAACTAACTAAACAAGAAATAACTGCAACAGCCACAACCATTGCCATACTCTCACTACTAGGACTA
TTCTTCTACCTACGTCTTGCATACTACTCAACAATCACACTCCCGCCAAACTCCACAAACCACATAAAAC
AATGGCATATTGATAAACCAACACCCGCCCTAACCGCCATTCTCATATCCCTGTCAACCCTACTACTACC
CCTCTCCCCCATAATCTTAACCGCCATCTAAGAAACTTAGGATAACCCACCACTAAACCGAAGGCCTTCA
AAGCCTTAAATAAGAGTTAAACTCTCTTAGTTTCTGCTAAGACCCGTAGGACATTAACCTACATCTCCTA
AATGCAACTCAAACGCTTTCATTAAGCTAGGGCCTTACCTAGACAGGTGGGCCTTGATCCCACAAAATTC
TAGTTAACAGCTAAATGCCCAAACCAACAGGCTTCTGTCTACCAGACCCTGGTACGCTCTTAACGTACAT
CAATGAGCTTGCAACTCAACATGAATTTCACCACAGGGCCGATAAGAAGAGGAATTGAACCTCTGTAAAA
AGGACTACAGCCTAACGCCTCAACACTCAGCCATCTTACCTGTGACCTTCATTACCCGATGATTATTCTC
AACCAACCACAAAGACATTGGCACCTTATACCTAATCTTCGGCGCATGAGCTGGCATAGTTGGAACCGCC
CTTAGCCTTCTTATTCGCGCAGAACTTGGTCAACCAGGAACCCTCCTAGGAGACGACCAAATCTACAACG
TAATCGTCACTGCCCATGCTTTCGTAATAATCTTCTTCATAGTTATACCAATCATAATTGGAGGGTTCGG
AAACTGATTAGTCCCCCTTATAATCGGAGCCCCAGACATAGCATTCCCACGCATAAACAACATAAGCTTC
TGACTACTCCCTCCGTCCTTCCTACTTCTACTAGCCTCCTCCACAGTAGAAGCGGGAGCAGGCACAGGAT
GAACCGTATACCCACCCCTAGCCGGCAATTTAGCCCACGCTGGAGCCTCAGTAGACCTAGCCATCTTCTC
CCTCCACCTAGCAGGTGTCTCCTCAATCCTAGGAGCAATCAACTTCATCACAACCGCCATCAACATAAAA
CCTCCTGCCCTATCACAGTACCAAACCCCCCTATTCGTATGATCCGTCCTTATCACTGCCGTCCTACTAC
TACTATCTCTTCCAGTCCTCGCTGCCGGCATTACTATACTACTTACAGACCGAAACCTAAACACCACATT
CTTTGACCCTGCTGGAGGAGGAGATCCTGTCCTATACCAACACCTCTTCTGATTCTTCGGCCACCCAGAA
GTCTACATTCTGATCCTCCCAGGATTCGGGATCATCTCCCACGTAGTAACATACTATGCAGGCAAAAAAG
AACCATTCGGCTACATAGGAATAGTATGAGCCATACTATCCATCGGATTCCTAGGCTTTATCGTATGAGC
CCACCACATATTTACAGTAGGCATAGACGTAGACACCCGAGCATACTTCACATCCGCCACAATAATCATC
GCCATTCCAACTGGCATCAAAGTCTTCAGCTGACTAGCTACGCTACATGGAGGGACTATCAAATGAGACC
CTCCCATACTCTGAGCCCTAGGCTTCATCTTCCTCTTCACCATCGGAGGCCTAACAGGAATTGTTCTAGC
AAACTCCTCACTAGACATCGCCCTACACGATACATACTATGTAGTCGCCCATTTCCACTATGTTCTATCA
ATAGGGGCTGTCTTTGCTATCCTAGCAGGCTTCACTCACTGATTCCCACTATTCACAGGATATACCCTAC
ACCCCACATGAACCAAAACTCACTTTGGAGTCATATTCACAGGTGTAAACCTAACCTTCTTCCCACAACA
CTTCCTAGGCCTAGCCGGCATGCCCCGACGATATTCCGACTACCCAGACGCCTACACCCTATGAAACACC
ATATCCTCCATCGGCTCATTAATCTCAATAACAGCCGTAATTATACTAATATTCATCATCTGAGAAGCCT
TCACATCAAAACGAAAAGTCCTACAGCCAGAACTAACCCCCACCAACGTTGAATGAATCCACGGCTGCCC
GCCTCCATACCACACTTTCGAAGAACCAGCCTTTGTCCAAGTACAAGAAAGGAAGGAATCGAACCCTCAT
ATACTGGTTTCAAGCCAGTCGCATCAAACCACTCATGCTCCTTTCTTATGAGATGTTAGTAAACCAATTA
CGTAGCCTTGTCAAGACTAAATCACAAGTGAAAACCCTGTACATCTCACGTGGCCAATCACTCACAACTC
GGATTTCAAGACGCTTCCTCCCCCATCATAGAAGAACTTGTTGAATTCCACGACCATGCCCTGATAGTCG
CACTAGCAATCTGCAGCCTGGTCCTTTACCTCTTAGCCCTCATACTAATAGAAAAACTATCCTCAAATAC
TGTTGACGCACAAGAAGTGGAACTAATCTGAACAATCCTACCAGCCATCGTCCTTATCCTGCTTGCCCTG
CCATCCCTACAAATCCTGTACATGATAGACGAAATTGATGAACCAGACCTAACTCTAAAAGCCATCGGCC
ATCAATGATACTGAACCTACGAATACACAGACTTTAAAGATCTAACATTTGACTCATACATAATTCCCAC
AACAGACCTCCCACAGGGACATTTCCGACTACTAGAAGTCGACCACCGCGTTGTTATCCCAATAGAATCC
CCAATTCGCATCATCGTCACTGCTGGCGACGTCCTCCACTCCTGAGCAATCCCCACCCTAGGAGTAAAAA
CCGATGCAATCCCAGGACGACTAAACCAAACATCATTCATTGCCACTCGACCAGGAATCTTCTACGGCCA
GTGCTCAGAAATCTGCGGGGCCAATCACAGCTACATACCAATTGTAGTAGAATCCACTCCCCTTACCCAC
TTCGAGAGCTGATCTTCACTACTATCATCCTAATCATTAAGAAGCTATGCAAACAGCACTAGCCTTTTAA
GCTAGAGATAGAGGACTACCCACTCCTCCTTAGTGATATGCCACAACTCAACCCAAACCCATGATTTTAC
ATCATACTAGCCACCTGACTAACCCTTTTACTAGCTATTCAACCCAAACTCCTATCATTTACCACTACCA
ATCAACCCTCTAACAAACTTCCTACAACTATTAAGACCACACCCTGAGCCTGACCATGAACCTAAGCTTC
TTCGATCAATTCGCCAGCCCATGCCTACTAGGAATTCCACTAATCCTACTCTCAATACTATTCCCTGCCC
TACTACTCCCCACACCGGGCAATCGATGAATCACTAACCGCCTCTCTACCCTCCAACTATGGCTTCTGCA
CCTCATCACAAAACAACTAATAATTCCACTAAACAAAAACGGCCACAAATGAGCTCTAATCCTAACATCA
CTAATAATACTACTACTCACAATCAATCTATGCGGTCTCCTACCATATACATTTACCCCAACCACTCAAT
TATCAATAAACATAGCATTAGCCTTCCCACTCTGACTTGCTACGGTCATTACGGGCCTACGAAACCAACC
CTCAATCTCCCTAGGACACTTACTACCTGAAGGCACCCCAACACCACTAATTCCCGCCCTAATCATAATC
GAAACTATCAGCCTACTTATTCGCCCATTGGCCCTAGGAGTCCGCCTTACCGCAAACCTCACAGCAGGGC
ACCTACTCATCCAACTAATTTCCACAGCCACTATCGCCCTACTCCCCATCATACCAACAGTATCCATCCT
AACCACCTCAATCCTACTCCTACTCACCATTCTAGAAGTGGCAGTAGCCATAATCCAAGCTTACGTCTTT
GTCCTCCTACTAAGCCTATACTTACAGGAAAACATCTAATGGCCCACCAAGCACACTCCTACCACATAGT
AGACCCAAGCCCCTGACCCATCTTCGGAGCAACTGCCGCCCTACTCACCACCTCAGGACTAATCATATGA
TTCCACCACAACTCCTCACAACTCCTAACCCTAGGCCTACTGTCCATAATCCTAGTCATACTACAATGGT
GGCGAGATATCGTACGAGAAAGCACATTCCAAGGTCACCACACCCCCACAGTCCAAAAAGGCCTACGATA
TGGCATGATCCTCTTCATCACATCAGAAGCCTTCTTCTTCCTAGGCTTCTTTTGAGCCTTCTTCCACTCT
AGCCTAGTCCCAACCCCAGAATTAGGCGGACAATGACCCCCAACAGGAATCAACCCCCTTAACCCCATAG
AAGTTCCCCTACTAAACACAGCTATCCTCCTAGCCTCTGGGGTCACCGTAACATGAGCTCACCACAGCAT
TACAGAGGGCAACCGAAAGCAAGCTATCCATGCTCTCACATTAACAATCCTGCTAGGATTTTACTTTACA
GCACTTCAAGCAATGGAATATTACGAAGCCCCATTCTCAATCGCTGATGGCGTATACGGTTCAACCTTCT
TCGTCGCCACAGGATTCCACGGGCTCCACGTAATCATCGGATCCTCCTTCCTATCTGTCTGCCTCCTACG
ATTAATCAAATTCCATTTCACATCAAACCACCATTTCGGATTCGAAGCGGCAGCCTGATACTGACACTTT
GTAGACGTCATCTGATTATTCCTCTATATAACCATCTACTGATGAGGATCCTGCTCTTCTAGTATACTAA
TTACAATTGACTTCCAATCTCTAAAATCTGGTGTAACCCCAGAGAAGAGCAATGAACACAATCACATTTA
TACTCACCCTCTCCCTCACCCTAAGCATCATCCTAACCACACTAAACTTCTGACTAGCCCAAACAAACCC
AGACTCAGAAAAACTATCCCCCTACGAATGCGGCTTTGACCCCCTCGGCTCCGCCCGCCTCCCATTCTCA
ATCCGATTCTTCCTAGTAGCAATCCTATTCCTTCTTTTCGACCTAGAAATCGCACTCCTACTTCCCATCC
CCTGAGCCATCCAACTTCAATCCCCCATCACCACCCTAACCTGAGCCTCCACTATCATTCTCCTACTAAC
ACTAGGACTAATCTACGAATGGGCACAAGGAGGCCTAGAATGAGCAGAATAAACATAGAAAGTTAGTCTA
ATCAAGACAGTTGATTTCGACTCAACAGACCATAGCCCTGCCCTATGACTTTCTCTATGTCTCTCATCCA
CCTAGGCTTCTATTCAGCCTTCACCCTAAGCTGCTTAGGACTAGCCTTCCACCGAACCCACCTAATCTCC
GCCCTACTATGCTTAGAAAGCATAATACTATCCCTGTACCTCGCCCTATCAATCTGGCCCATCGAAAACC
AAGCAGCATCCTTTACCCTAATACCAGTACTTATACTCACATTCTCAGCCTGCGAAGCAGGCACCGGCCT
AGCAATACTAGTAGCCTCTACCCGAACCCATGGCTCTGACCACCTACACAACCTAAACCTTCTACAATGC
TAAAAATTATCCTCCCAACAATCATACTCATCCCTACAGCACTCCTATCTCCCCAAAAATTCTTATGAAC
AAACACCACTACATACAGCCTTCTAATCGCTACCCTCAGCCTACAGTGACTCCTCCCCACATACTACCCC
CACACAAACCTAACCCAATGAACTGGCATCGACCAAATCTCCTCCCCCCTACTAGTACTCTCCTGCTGAC
TACTCCCCCTCATAATCATCGCAAGCCAAAACCATCTACACCACGAACCCCCAACACGAAAGCGAATCTT
CATCCTAACTCTGATCACAATCCAACCATTTATTCTCCTAGCCTTCTCAACCACGGAACTAACATTATTC
TACATCTCATTCGAAGCAACTCTAATCCCCACTCTAATTCTAATCACACGATGAGGGAACCAACCAGAAC
GACTCAGTGCTGGCATCTACCTCCTATTCTACACCCTCATCAGCTCCCTGCCACTACTAGTCACTATCAT
ACACCTCCACACACAAATTGGCACCCTACACCTAACAATCTTAGAACTAACTCACCCCCTACCAACCAAC
TCCTGAACAAACCTTCTATCAGGCCTAGCCCTACTAACAGCCTTTATAGTAAAAGCCCCCCTATACGGCC
TCCACCTCTGGCTCCCCAAAGCCCACGTAGAGGCCCCAATCGCAGGGTCCATACTACTTGCTGCCCTACT
CCTCAAACTAGGCGGATACGGCATCATACGAATCACCCTTCTAACAAACCCCCTCTCAAATCAACTTCAC
TACCCATTCCTCACACTAGCCCTATGAGGGGCATTAATAACCAGCTCAATCTGCTTACGCCAAACAGACC
TAAAATCACTCATCGCCTACTCCTCCGTAAGCCACATAGGTCTAGTCATCGCCGCAACCATAATCCAAAC
CCACTGAGCCTTCTCAGGAGCTATAATCCTCATAATCTCTCACGGTCTAACCTCCTCAATGCTATTTTGC
CTAGCCAACACAAACTATGAACGCACGCACAGCCGAATCCTCCTCCTAACACGAGGACTCCAACCCCTCC
TTCCACTTATAGCAACCTGATGGCTCCTGGCCAACCTCACAAACATAGCCCTGCCCCCTACAACAAACCT
TATAGCAGAGTTAACCATCATAATCGCACTATTCAACTGATCTACCCTTACAATCATCCTAACCGGAATT
GCAACCCTACTAACCGCTTCATATACCCTATTCATACTACTAATAACCCAACGAGGCACCCTACCAACCC
ACATTACATCTATCCAAAACTCAAACACACGAGAACATCTCCTTATAGCCCTCCACATAATCCCCATACT
ACTCCTGATCCTAAAGCCAGAACTCATCTCCGGAGCCCCTCTATGCAAGTATAGTTTCAACCCAAACATT
AGACCGTGACTCTAAAAATAGAAGTTAAACCCTTCTTACCTGCCGAGGGGAGGTTAAACCAACAAGAACT
GCTAATTCTTGCATCTGAGCCTAAAACCTCAGCCCCCTTACTTTTAAAGGATAACAGTAATCCACTGGTC
TTAGGAGCCATCCATCTTGGTGCAAATCCAAGTAAAAGTAATGGAAACCGCATTACTCCTCAACACCTCT
ATACTCCTCACGCTAGCAGCCATCCTTACCCCCGCTCTACTGCCCCTGCTGTCAAAAACCCTACAAACCT
CCCCAACTACCATCACACGCTCCGTCAAAACAGCCTTCCTAATCAGCCTAGTCCCAGCAACCCTCTTCAC
GTACTCAGGCACAGAAAGTATCGTCTCCTGCTGAGAATGAAAATTCATCATAAACTTCAAAATCCCCCTT
AGCCTCAAAATAGACCAATACTCAATACTATTCTTCCCCATCGCACTATTCGTAACATGATCCATCCTTC
AATTCGCGACATGATACATAGCCACAGAACCATACATCACAAAATTCTTCCTCTACCTCCTACTATTCCT
AATCGCAATACTAACCCTAACCGTCGCCAACAACATATTCCTACTATTCATCGGCTGAGAAGGTGTTGGA
ATCATATCCTTCCTACTAATTGGCTGATGGCAAGGCCGAGCTGAAGCTAACACAGCCGCACTCCAAGCCG
TACTCTACAACCGAATCGGAGATATCGGCCTTATCCTAAGCATAGCCTGACTAGCTTCAACCATAAACAC
ATGAGAGATCCAACAAGCCTCCGCCACCCAAACCCCAACACTACCCCTATTAGGTCTCATCCTCGCCGCC
ACAGGAAAATCAGCCCAATTTGGTCTCCACCCCTGACTCCCAGCAGCCATAGAGGGCCCAACCCCAGTTT
CTGCCCTACTCCACTCCAGCACCATAGTAGTAGCCGGAATCTTCCTCCTCATCCGCACTCACCCCATATT
TACTAACAATCAAACTGCCCTCACTCTATGCCTCTGCCTCGGAGCCCTATCCACACTATTTGCCGCCACA
TGCGCCCTCACACAGAATGATATCAAAAAAATCATCGCTTTCTCCACATCCAGCCAACTAGGACTGATGA
TAGTTACCATCGGACTAAACCTCCCACAACTAGCCTTCCTCCACATCTCAACGCATGCCTTCTTCAAAGC
CATACTCTTCCTATGTTCGGGGGCAATCATTCACAGCCTCAATGGAGAACAGGACATTCGAAAAATAGGT
GGCCTACAAAAAACACTCCCAACAACCACCTCCTGCCTAACCATCGGCAACCTTGCCCTAATAGGAACTC
CATTCCTAGCAGGATTCTACTCAAAAGACCTCATCATCGAAAACCTAAATACCTCCTACCTAAACACCTG
AGCACTAACCCTAACACTCCTAGCCACATCATTCACCGCAACCTACAGCATTCGCATAACCCTCCTAGTC
CAAACAGGATACACCCGCACACCCTCAATCACCCCAATGAACGAAAACAACCCAACAATCACTAACCCAA
TCACCCGCCTCGCCCTAGGCAGCATTCTAGCAGGCCTACTTATCACAACCTACATCCCCCCCACAAAAAT
CCCCCCAATAACCATACCCACCCTTACAAAAACTGCAGCCATCATCGTTACAATCCTAGGAATTCTCCTA
GCCCTAGAGCTATCAAATATAGCCCATACCCTCACCCAACCAAAGCAAAGCATCCCCCTAAACTTCTCCT
CCACACTAGGATACTTCAACCCACTAACACATCGCCTTACCTCTACAAAGCTACTAAATAGCGGACAAAG
CATTGCCTCCCACCTCATTGACCTATCCTGATACAAAAAAATAGGCCCCGAAGGCCTCGCCGACCTACAA
CTCCTAGCAGCCAAAACCTCTACCGCCCTCCACACAGGGCTAATCAAAACCTACCTAGGATCCTTCGCCG
TATCTATCCTCCTTATCCTATCAGCACAGAGGCACAAAATTAATGGCCCCCAACATCCGAAAGTCACACC
CACTACTAAAAATAGTCAACAACTCCCTAATTGACCTTCCCACCCCCTCAAACATCTCCGCCTGATGAAA
CTTTGGCTCTCTCCTAGGCATCTGCCTAACAATGCAAATCCTAACCGGCCTACTACTAGCCATACACTAT
ACCGCAGACACAACCCTCGCCTTTTCATCCGTCGCTCACACATGCCGAGACGTACAGTACGGCTGACTCA
TTCGCAACCTACACGCAAACGGAGCCTCATTCTTCTTCATCTGCATCTACCTTCACATTGGACGAGGCTT
CTACTATGGCTCCTACCTATACAAAGAAACCTGAAACACAGGAGTTATCCTCCTCCTCACCCTCATAGCA
ACCGCCTTCGTAGGGTACGTCCTGCCATGAGGACAGATATCATTCTGAGGGGCTACAGTCATCACCAACC
TATTTTCAGCTATCCCCTACATCGGCCAAACCCTCGTAGAATGGGCCTGAGGGGGCTTCTCCGTCGATAA
CCCAACACTAACCCGATTCTTCGCCCTACACTTTCTTCTCCCCTTCGCAATCGCAGGCCTCACCCTAATC
CACCTCACCTTCCTTCACGAGTCCGGCTCAAACAACCCCCTAGGCATCATCTCAAACTGCGACAAAATTC
CATTCCACCCCTACTTCTCCCTCAAAGATATCCTAGGCCTTACACTCCTACTTCTGCCACTAACCACCCT
GGCCCTATTCTCACCCAACCTACTAGGTGACCCAGAGAACTTCACCCCAGCCAACCCCCTAGTCACACCC
CCTCACATCAAGCCAGAGTGGTACTTCCTCTTTGCATACGCCATCCTACGCTCCATCCCCAACAAACTAG
GAGGAGTCCTAGCCTTAGCTGCATCCGTACTAGTCCTATTTCTATGCCCCCTCCTCCACAAATCCAAACA
GCGCACAATAGCCTTCCGCCCTCTATCCCAACTCCTATTCTGAACCTTAGCCGCAAACCTACTTATTCTT
ACATGAGTAGGTAGCCAACCAGTAGAGCACCCCTTCATCATCATTGGCCAACTAGCCTCCCTCACCTACT
TCTCCACCCTCCTAATCCTCTTCCCCATCGCCGGCGCCCTAGAAAACAAACTACTCAACTACTAACACTC
TAATAGTTTATAAAAACATTGGTCTTGTAAGCCAAAGAGTGAAGGCCATACCCTTCTTAGAGTGTACCCT
CACCATCAGAAAAAGAGGGCTCAAACCTCTACCTCCAACTCCCAAAGCTGGTATTCTACATTAAACTATT
CTCTGAACCCCCAACCTAAACTGCTCGAATCGTCCCACGAGATAGCCCTCGTACAACCTCCAGTACAACG
AACAGCGTCAGCAGCAACCCCCATCCCCCTATCAGAAATATTCCTGCCCCCTCCGAATAGAACATTGCCA
CCCCACTAAAATCTAACCGAGCAAAAGACAAACCCCCACTATCAACCGTAACCACCCCCACCTTCCAGCA
CTCAGCAAAACCTCCAACAGCCCCCCCAACCATCAGCACCAAAATAAGCCCCACACCATACATTACAACT
TGCCGGCTCCCCCAAGCTTCGGGAAAAGGATCCGCCGCCAAAGCCACCGAATAAACAAAAACTACCAGCA
TCCCCCCCAGATACACCATAAACAGTACAAGCGATACAAAGGAAGCTCCCAAACTCAGTAGCCAGCCGCA
CCCTACAACAGACGCCACAACCAAACCAACTACCCCATAGTAGGGAGAAGGGTTAGATGCAACCGCCAAT
GCCCCTAGAGCAAAACACCCCCCTAAAAGAAACATAAAATAAGCCATACTAATTCCTACTTGGCCTCTCT
CCAAGATCTGCGGCCTGAAAAGCCGCCGTTGCAACAATTCAACTACAGGAAC