Job

SEC7_yeast

Submission Status: Success!

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Custom Data Base

The data base was build with 300 sequences.

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2. Iteration

3. Iteration

4. Iteration

5. Iteration

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Input

CCGATCGTCCTCCACACTTAAATTCGTTGAGATAAATCGTGTAGTAATACACTCAGTCATTCAGTATCCGTGCTTGTTTCTTTCTTTTCCTATTTGTTCGCAAGTGACTACGTGCGCCCTTAATTGCTTACATATTTTAGGTTAAGATTACATCCTTTCTTATTTCGGCAAAAATGAAGTTAGTATAAAATGCCCATGAATGAGGACCAAAATGGCTAAACTTGATAAGTCTTTCTACATAGTTTACATATTTGTTATTGCTATATGATGTACCTTGTTTATGAATTAAACGAATCTAAAAAGGATCACCGCCACTAAATCAGGATTAATATGAGTAAAAGTATATCAACCTTCTCATTTTTTCTGTGTTCTACAACTAAGCATATTTTAATCTGCTGGACCATTCAACAAAGCCTTAATCAGTAGAAAGGTATAATTCACCAACTCTGCTTAGAAATTGTTTTATAGCATGTCTCAACTCCGTTGGAACGCTCTTATCTAATATTTGAATCACCAGAGCATACATAGCAGGACAGTATAGTCTAAAGTCTTCATCATCAAATTCGTAGTAACCTTGTAATATTTCAACTATCACTGAACGCCAGGCATTGATACTACGTTCCATGGTTCTATCATCCAAAGAAACATAACCCTCTACGACCTGGATGCAAATGGTGATCAGACGAGTTATTAAATCAGCCTTCTTCTCATCATCGTTCAGATACAACTGAAACATAATGTCAAGGAGAACTGCAGCAGCACTCGTTTCTTGTTTCAACAGGTTTGGTATTTTATCAACTACACGAGCCTCTACTAGTCTTGTTCTTAACCCATAATCTTCATTAAAGTCACGAGAAAATTCGTACGATTTCTCCAACAATCTTGTAATTCTAATGGCTTCCTTGTAAGGGATACAGTGGGCAAAATCTTCGTTCTCGAATAATTCGTTGAGCAGCTCTATCATCAAAAGCTGTAAAACACATTTGACAACAATAGAATTCTTGATGTTTATTCTCCTACGTATATCTTCGTTACTTTCGTTTCGTTTCATGTGCTTAGTTTTCTTGGGGATACTTAGACTAGCGGGCTTTGGATTCAATTCGTCCTTTACCGTCGGAACGGAATTGCCATTATTAAGCTTAGTTTGCCCATTGAGTGTTTCAACCATGTCACCACCAACGTCTTCGCTGGATTCTTCTTGATGCGCTCTTTCGACCGTCTCACTGATATTAGAATCGTTCTCCCTTCTGTCGTTGCTATCATCATCTGAGTGTTGGCTGGTATCATTAGTTGTTTGGTGATGAGATACAGATGATTTTCTTCCTTGCTGTAACGGATCATAATCGAACAATTCATTAGCAGTGGTTAAATCAAACAATTTATCGAATACGTCACCTATTTGATTCCAATGGTACTCATTGAATTTAGATACGTTTTGCAATATCAATTGTTGCAGGCAGGATCTCCCAATTCTAGCAATAGTGTCATTTTCTTGACAAATACAGGATACCAGCAGACCCAAAAATCCATCGAGCATTCTGTTCAACGATTCAAAGTAATGCGTAAAAAGGGCAATCAAGTTCCTTAAGGCTTGAATTAACGTGGTCGAAAGCCAAACACTTAAATCATCATGACTATTGAATTGGTTGACTTCCCAATGTTTGGATAATACACCGAAAATAGGAAATAGTAACTTCTTACAAATCTTTTCCCAGAAATCATCATTGAATTTACCACCATATGCCACTAGGGCATCGAACATATAGTTTAATGCACGTGATCTAACTTCTAAGTCTTCAGCTGTCATGATCGTATCATTGAAGCAGAATAACATAGGGAACCACACATCCTGGAATATGTCTTTCCCACGAAGTAAAGCATCGTTATGTTTTCTTTCTTCTTCAGTCTTATTTTCATTGTAAAAACAGATGTCTGCGACGTTCTGAGTCATCTTTCTTAGAGACTCCAAAGCATGTAGAGATAGCTTTTGGAATCTCTTATTTTTGGTGATTTCTCTGAAGACACCAACTAACTCAGAAAAGGCATCTTCTTGAGAGAATACGTTTTCGAAGTGATTTGTCACAATATCATTGCTAACCAGCAATTGCGTCTTTAATACAATGGATTCAGTGCTTGAGCGAGCCGTATATTGTAAGGATTCAAGAATAGGCTTCCAGCCAGATTTGATACTTTCCGATTTTGTCAATATGAAGTTCCTAAAACACTCAATAATCATTTCTTGAACTTCAGTGTTGCCACTATTTTGAACCGTGTATTCAAAAGGTTTTAAAAAATCATGTTGAAATTCAAAACCTGATAATTCCTCAATATCTAAAAATCTCATAGACAATTGACGCAGGGAATCGATAGCGAAAAATACTACTGCTAAGTTAGAGTTTGTAGCAATCTTGTTGAAAGCTTTTCCCATAACAGCCCAAAGCGGCGTCCATTCTAGTTTGATACGATCCATATTGTAGTAACATACATCGACCATTTTTTGCAAGGAAAACATTCTTGGTGTGGAAGCATTTTCAGATGATTCAATTTCTTCTAAAGATACAGCGGTTAAAGCTTTGATAAAATCAACGATAGCATTACCTGATAACTCGGAACTTTTGGTAAATATATTGTCCATCAAAACGACTAATTCACTGGAGGAAATGAATTTAGAGATTTCGGGTGATAAGGTTTGATTATGGTGTTTTTCTTGAGCCAATTCTGTGGGAGTTGCCTTCTTGCCCCAAACATCAAAGAAAGATGTATTATTGGATCTTGATGATTCGTAAGAAACTCTAGGGTTTGCAACACGAGCTTGTGCAACATCTGGAACCGTATCTCTGTCGATACCTTTGGATATCAATTGTAGTCTTTCCATTTGAGACACGACCAGCAAAATGTCCTTCCACGATCCCTCCAAGTAATTTCCTTCTGATAACGCGACTTCAAGAAGAATTACCATTGCATTGACATTTTTAACTTTGATTTCTTCAAGGTTTTGAAGGTTACAAAATTGGACTAACGCACCTACAAAGGAGGTTCTAGCATCATTGATTCTAAAAGTAGAAGCAATTTTAATTGATATTTTCAAGCCTTCTAAACACTTATTGGTTGTGTCAATGTCATCATAATCCTTAAATGGGGGGGTTAGAGCTGCTAAAAAGGACATCCATAGTGTCTCGAAAATTGATTTAACATGCTCAACGTGGGAAGCAGCATAATAGACGTCTGGGCCTCCTTTATTTTTGTTTAAATTCTTAAAGACTAATTCCGTTTTAGATGAAATTTCTTTTGAGACTTGATTATATGCCTCTCTTGTCAAATCACGAGAATTAAAGAAGTTGAAAGCAGATTGCTGTTGTTGGACAAGATTGGTATCACCTGAAAGCATTGCCTGATGCTGTTCAGAAATTAACTTGATTTCATTGTTAGCAATTTCGTTGAACAAACCTTCCAAGAAGTCTCTTGGTAAATCTCTTCCGTTGTCAATACCTTCGTTGTTTTCTAAAAACTCTTGTAAAGACATTTTATTTTTGATTTGTGACGAATGTAAATCAGTATTCAACATGATCAAAGAATACGAAAGCACATATGCAGTATCCGCCTTTGAAAAGACTCCGGGGTTTTGGTCCACAAATCTTTCCGCAAATTTCAGCATGAATCTGTCAATTTTTTGACCTTCTCCAGGCAATCTGAAACTTTGTAAAAATGACCTTAATGCGTCAACAATGGACATACCAGTGAAGTCAAACTCATCAACAAATGCGTGCATTATAGCGATGTTCTTGTCGTCTCCTTCGCCTAGATAATCCCCAACAGCGGCCATGTCGAGGCCTTCTGTTTCTAATAACCACTTGGCAATGGAAATTGGAGAATCATCTTTCAAAAATCCTTTTTTAATAAGTACTGGAATAGCTTTCTTGGGTTTATTGTTGAAAATAGCAATACATTCCGATAAAGCAGTTTTCCTTAGTTTCAAATTTTCAAATTGTGTGGGGTCGTCTGCGTCAATGTTTTGACTGCTCAATGATCTGCTTTCTTCGTCTTCATATGTTGGTTTGAAGTCATCATTACTTGTCATAATAGAAGACCTTACGTCGTTACTCAAAGATGATCTAGATTCTTGACGAGCTGAAGATGTTGTGTTTAGTAATACCTTATTAGCAGTGTGTGTGTTTGGATTTAAAGCTTTGTGAGCCCATGAGCTTAAGGAACGCAAAACTGACACAATGCAATTTAGTGACACCATTTTGAGAGCAAAATCAAGTGGAAAAAGTAAATTGACTTGACCAACATCAGGACTAGAAGACAAGTTGGAAGAAGTCAAAAGGGGCAATTGTGAGAAATTGTAGGTGGACAGGGATTTTGATATTTGTTCATCGTAGTATGATCTTTGAGTCTGAGTAATTTCCACCCTAGTTAAAGCCAATCTTGTCAAATAATCAACAGTTATTTCCATTACATTTGGCATTCCAGGGTTACAATCATAATTCAAGTAAAATTCAACTAAAGTTCTTGGGTCGTTACAAATTCGTTGAATAACACTTAAAAAATATCTCTTTTGTTGGGAGGTGGAAGTGGTTAATTCTGAAATGGGGAAGTAGATTTCTGTTAAAAAAACTGGAATTTCCTTCACGAAATCTGCTCTCAAATTAGCAATCAATAGCCACATAATTTCTAAAGTAACCTCGAAAACTGGAGCTAGAGGCGAGGCAGCATTCCTTGATAAAACAAGACGTAAATATTGTCTAATTGAATCGATAAAGCACACACGCTCCTTTCCTGGTAGAAAAATGTTGTGGGAAAGGAATACGTCAATATGATCTTTGATAATAGAGTAAATGATGTGAAGAGATAAAAGCTTTGACCTGACGGCATGTGACCTCATGTCGAGTTCTGTTTCCAAAGGTTTAGCACATATTTTCGCCATGACTCTAAACACTAAGAACGCATCTTTAACAGCTAGATCTTGGTTAGTTATGGCGATAGAATCAGGCTGTTGAGCGTCCATTAGTCTTTCCTCATCGTCATTCAACTTATCCATATTTTCCAGAGTTAAAGGAGCCGGCGTTTCTGCATTTTCAGAAGCCTCGGAAAGTTCTATGGCGGATTGTTGTTGATGATTTTTTGTCGATAAGGATACTGCTGAAGAGGTACTTTGTTTGAGATCGATTTTATCATACACCGAACTAATAATTTGTGTCAAGGTCGCCTGTGCAATACCTTGATTGGATGGGTTCAACGAAAAGACGAAAACGTTGTAGATTGTTCTGATAGCCTTTAGCAAGGAAGCACCGTGGCATAAAGAACTTGAATCCTCTTCTAAAATGCAACTAGATAAAGCTCTAACGATTTGTAGTTCCACACGGTCATCAGTGCCTTCACCTTGAAAACAGTCTGAAATAGTATCAATTGCAGCGTCTATAATTTTTTGTTTTGGAGGCGGCGTTATTCCATCGGCAGCATCTTGTCGTTGATCATTAGAGGCTAAAGAATCGGGTGGATTCACTAACAGGGTCTCGTCTAGCGATCTAAAAGAAAACAATTTTGACAGGCAATCTAAAGCCAAACTTTGAACTTTGGAGGATTTGGTACGACAGCTTGCCCTTAGTGCTTCGAATACTAGTATTGAATCCACGTAATGTGGGTTATTCGTGGTTTGCGGATCAAATTCCTTAAATTTTTGTAATGTCCTTTCGATAGCCTTCTGAGCATTCGAATTCTTTTTAATGTCCTTATCATTTAAAATTGTCTCCAACGTAGTTTTCACTAAAATTATGGTTGAGTTTGTGTTCGAACCATTTGAAGATAGTGATATGTTCCTCGTATGGGTAGACCTTGGGGCAGTAGAATCGTTGGTGGGAACACTATCTTGATGAGCGATAGCTGGTTCGCCAGCATTTTCCTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTGACCCGCTTTCATCACCAGAGGAGCTGTTTGATGTATTTCCATCGCTTTCATCAGATTCTTCATCTTCTCCAGAGCTACTCTCAGTACTTTCCCCTGAGACTGATTCAGAATCTTCCCCGTCTTCGGAACTGGTTTCGGAACTACTGCTATCCACGTCCTCATCATCCTCGTCCCCATTGTCTTCATCTTCATCTTCATCTTCATCTTCATCTTCATCTCCATCTTCACCTTCATCGTCATGGCGTTTGTCATTTGTATCTTCCGTTTCTTCGGGCGTTTTCATTCCGTTGGTAGCGTCGTTACTTGTTTCTTTTGTTTCTGCCGTACTGCCAGCGTTTTCTGGCCCTTTGCATTTTTGATCTTCACCATTTGTCTCTTTAGCTTCTTCTTTAATAGCATTCTGTGGTTTCACAGACGGATTGACTGAAGAAGCAGTCTCTACATTTGAAGATATTTCGCCATCCCCTTTTTCAGCATTTACTACTGAATTCTGTTCAGACATCAGATATAGTAGCACTTAGACTTGTTTCTTATCTTCTTTAATGGAATTCGGGGAAAAAATGAGAAAGAAACAGTTTAAGATATTACTTTTTATTGGTTCTGGAGAAACTTAAAAGAAATCGAGTATAGCTTAGTTGCAGAAAATATTTTATATTTCTCCGGAAAATGACTTCAATTTCTATTAGTCTGCGTTTATTGAACAATTGGAGAGAAGCCAATGATGCTTTTTAAAGAAATGATGTAAATCCCA

Selection Arguments

Sequences in the aligment must have a pairwise distance to any other sequence of 10.0%.

Sequences can only have pairwise distance to the input sequence of 60.0%.

Sequences are searched in the RefSeq Representative Genome Database.

Results

Coding Regions.

High Scoring Segment plot

Distribution of HSS in the input sequence

Filter regions

Result Table

	HSS id	Strand	Frame	Length	Start	End	Score	P	Show Result
1	child_1_hss_0, child_2_hss_0, child_3_hss_0, child_4_hss_0, child_5_hss_0, child_6_hss_0, child_7_hss_0, child_8_hss_0, child_9_hss_0, child_10_hss_0, child_11_hss_0	-	2	194	418	5817	367.977	0.000e+00	Plot Plot Plot Plot Plot Plot Plot Plot Plot Plot Plot
2	child_1_hss_1, child_2_hss_1	+	3	28	746	829	42.085	2.220e-16	Plot Plot
3	child_1_hss_2, child_2_hss_2	+	3	36	923	1036	34.788	1.010e-10	Plot Plot
4	child_1_hss_3	+	3	29	419	505	26.012	1.438e-09	Plot
5	child_1_hss_4, child_2_hss_5	+	3	25	572	646	20.105	4.875e-07	Plot Plot
6	child_1_hss_5, child_2_hss_6	+	3	18	512	565	18.740	1.874e-06	Plot Plot
7	child_1_hss_6, child_2_hss_7	+	3	19	836	892	17.765	4.902e-06	Plot Plot
8	child_1_hss_7	+	3	26	650	727	10.968	0.004	Plot
9	child_2_hss_3, child_3_hss_3	+	3	24	1412	1492	27.528	4.403e-08	Plot Plot
10	child_2_hss_4, child_3_hss_4	+	3	19	1343	1399	22.666	2.581e-06	Plot Plot
11	child_3_hss_1, child_4_hss_2	+	3	36	1766	1873	33.793	1.586e-08	Plot Plot
12	child_3_hss_2, child_4_hss_3	+	3	38	1646	1759	32.120	5.016e-08	Plot Plot
13	child_3_hss_5	+	3	20	1496	1555	21.672	6.667e-05	Plot
14	child_3_hss_6	+	3	12	1595	1630	13.341	0.020	Plot
15	child_3_hss_7	+	3	11	1559	1591	12.817	0.029	Plot
16	child_4_hss_1, child_5_hss_2	+	3	50	2078	2227	40.659	1.795e-09	Plot Plot
17	child_4_hss_4, child_5_hss_3	+	3	40	2354	2473	38.790	5.927e-09	Plot Plot
18	child_4_hss_5	+	3	34	1946	2047	18.786	8.729e-04	Plot
19	child_4_hss_6	+	3	16	2303	2350	18.288	0.001	Plot
20	child_5_hss_1, child_6_hss_1	+	3	69	2483	2689	66.497	1.110e-16	Plot Plot
21	child_5_hss_4, child_6_hss_6	+	3	19	2816	2872	19.003	0.002	Plot Plot
22	child_5_hss_5, child_6_hss_7	+	3	21	2711	2782	16.193	0.007	Plot Plot
23	child_5_hss_6, child_6_hss_8	+	3	24	2924	2995	14.950	0.016	Plot Plot
24	child_6_hss_2, child_7_hss_4	+	3	25	3128	3202	37.097	4.933e-09	Plot Plot
25	child_6_hss_3, child_7_hss_1, child_8_hss_3	+	3	92	3395	3670	68.794	1.110e-16	Plot Plot Plot
26	child_6_hss_4, child_7_hss_5	+	3	37	3014	3124	27.144	4.169e-06	Plot Plot
27	child_6_hss_5, child_7_hss_6	+	3	25	3221	3295	20.931	2.798e-04	Plot Plot
28	child_7_hss_2, child_8_hss_2	+	3	43	3674	3802	47.633	1.165e-13	Plot Plot
29	child_7_hss_3, child_8_hss_1	+	3	67	3806	4006	50.870	1.055e-14	Plot Plot
30	child_8_hss_4, child_9_hss_3	+	3	24	4193	4267	23.360	1.365e-05	Plot Plot
31	child_8_hss_5, child_9_hss_4	+	3	12	4400	4435	16.878	0.001	Plot Plot
32	child_9_hss_1, child_10_hss_1	+	3	71	4601	4813	54.229	0.000e+00	Plot Plot
33	child_9_hss_2, child_10_hss_2	+	3	40	4847	4966	35.796	7.933e-11	Plot Plot
34	child_10_hss_3, child_11_hss_2	+	3	41	5261	5383	28.965	5.107e-15	Plot Plot
35	child_10_hss_4, child_11_hss_1	+	3	24	5387	5458	29.013	4.774e-15	Plot Plot
36	child_11_hss_3	+	3	30	5474	5563	21.305	1.741e-10	Plot
37	child_11_hss_4	+	3	25	5717	5791	14.253	2.612e-06	Plot
38	child_11_hss_5	+	3	19	5576	5632	9.858	0.001	Plot
39	child_12_hss_0, child_13_hss_1	+	3	24	6053	6181	12.328	2.553e-08	Plot Plot
40	child_12_hss_1, child_13_hss_0	-	2	53	6049	6207	26.215	2.354e-08	Plot Plot

Predicted protein sequence Download sequences as fasta

	HSS id	Sequence
1	child_1_hss_0-child_2_hss_0-child_3_hss_0-child_4_hss_0-child_5_hss_0-child_6_hss_0-child_7_hss_0-child_8_hss_0-child_9_hss_0-child_10_hss_0-child_11_hss_0	NISLSSNGSNTNSTIILVKTTLETILNDKDIKKNSNAQKAIERTLQKFKEFDPQTTNNPHYVDSILVFEALRASCRTKSSKVQSLALDCLSKLFSFRSLDETLLVNPPDSLASNDQRQDAADGITPPPKQKIIDAAIDTISDCFQGEGTDDRVELQIVRALSSCILEEDSSSLCHGASLLKAIRTIYNVFVFSLNPSNQGIAQATLTQIISSVYDKIDLKQSTSSAVSLSTKNHQQQSAIELSEASENAETPAPLTLENMDKLNDDEERLMDAQQPDSIAITNQDLAVKDAFLVFRVMAKICAKPLETELDMRSHAVRSKLLSLHIIYSIIKDHIDVFLSHNIFLPGKERVCFIDSIRQYLRLVLSRNAASPLAPVFEVTLEIMWLLIANLRADFVKEIPVFLTEIYFPISELTTSTSQQKRYFLSVIQRICNDPRTLVEFYLNYDCNPGMPNVMEITVDYLTRLALTRVEITQTQRSYYDEQISKSLSTYNFSQLPLLTSSNLSSSPDVGQVNLLFPLDFALKMVSLNCIVSVLRSLSSWAHKALNPNTHTANKVLLNTTSSARQESRSSLSNDVRSSIMTSNDDFKPTYEDEESRSLSSQNIDADDPTQFENLKLRKTALSECIAIFNNKPKKAIPVLIKKGFLKDDSPISIAKWLLETEGLDMAAVGDYLGEGDDKNIAIMHAFVDEFDFTGMSIVDALRSFLQSFRLPGEGQKIDRFMLKFAERFVDQNPGVFSKADTAYVLSYSLIMLNTDLHSSQIKNKMSLQEFLENNEGIDNGRDLPRDFLEGLFNEIANNEIKLISEQHQAMLSGDTNLVQQQQSAFNFFNSRDLTREAYNQVSKEISSKTELVFKNLNKNKGGPDVYYAASHVEHVKSIFETLWMSFLAALTPPFKDYDDIDTTNKCLEGLKISIKIASTFRINDARTSFVGALVQFCNLQNLEEIKVKNVNAMVILLEVALSEGNYLEGSWKDILLVVSQMERLQLISKGIDRDTVPDVAQARVANPRVSYESSRSNNTSFFDVWGKKATPTELAQEKHHNQTLSPEISKFISSSELVVLMDNIFTKSSELSGNAIVDFIKALTAVSLEEIESSENASTPRMFSLQKMVDVCYYNMDRIKLEWTPLWAVMGKAFNKIATNSNLAVVFFAIDSLRQLSMRFLDIEELSGFEFQHDFLKPFEYTVQNSGNTEVQEMIIECFRNFILTKSESIKSGWKPILESLQYTARSSTESIVLKTQLLVSNDIVTNHFENVFSQEDAFSELVGVFREITKNKRFQKLSLHALESLRKMTQNVADICFYNENKTEEERKHNDALLRGKDIFQDVWFPMLFCFNDTIMTAEDLEVRSRALNYMFDALVAYGGKFNDDFWEKICKKLLFPIFGVLSKHWEVNQFNSHDDLSVWLSTTLIQALRNLIALFTHYFESLNRMLDGFLGLLVSCICQENDTIARIGRSCLQQLILQNVSKFNEYHWNQIGDVFDKLFDLTTANELFDYDPLQQGRKSSVSHHQTTNDTSQHSDDDSNDRRENDSNISETVERAHQEESSEDVGGDMVETLNGQTKLNNGNSVPTVKDELNPKPASLSIPKKTKHMKRNESNEDIRRRINIKNSIVVKCVLQLLMIELLNELFENEDFAHCIPYKEAIRITRLLEKSYEFSRDFNEDYGLRTRLVEARVVDKIPNLLKQETSAAAVLLDIMFQLYLNDDEKKADLITRLITICIQVVEGYVSLDDRTMERSINAWRSVIVEILQGYYEFDDEDFRLYCPAMYALVIQILDKSVPTELRHAIKQFLSRVGELYLSTD
2	child_1_hss_1-child_2_hss_1	RTAAALVSCFNRFGILSTTRASTSLVLN
3	child_1_hss_2-child_2_hss_2	KSSFSNNSLSSSIIKSCKTHLTTIEFLMFILLRISSLL
4	child_1_hss_3	SVERYNSPTLLRNCFIACLNSVGTLLSNI
5	child_1_hss_4-child_2_hss_5	PCNISTITERQALILRSMVLSSKET
6	child_1_hss_5-child_2_hss_6	TRAYIAGQYSLKSSSSNS
7	child_1_hss_6-child_2_hss_7	SSLKSRENSYDFSNNLVIL
8	child_1_hss_7	PSTTWMQMVIRRVIKSAFFSSSFRYN
9	child_2_hss_3-child_3_hss_3	YSLNLDTFCNINCCRQDLPILAIVSFS
10	child_2_hss_4-child_3_hss_4	SNNSLAVVKSNNLSNTSPI
11	child_3_hss_1-child_4_hss_2	FNARDLTSKSSAVMIVSLKQNNIGNHTSWNMSFPRS
12	child_3_hss_2-child_4_hss_3	LTSQCLDNTPKIGNSNFLQIFSQKSSLNLPPYATRASN
13	child_3_hss_5	QIQDTSRPKNPSSILFNDSK
14	child_3_hss_6	INVVESQTLKSS
15	child_3_hss_7	CVKRAIKFLKA
16	child_4_hss_1-child_5_hss_2	VTISLLTSNCVFNTMDSVLERAVYCKDSRIGFQPDLILSDFVNMKFLKHS
17	child_4_hss_4-child_5_hss_3	RRESIAKNTTAKLEFVAILLKAFPITAQSGVHSSLIRSIL
18	child_4_hss_5	VIFLRDSKACRDSFWNLLFLVISLKTPTNSEKAS
19	child_4_hss_6	NSKPDNSSISKNLIDN
20	child_5_hss_1-child_6_hss_1	TSTIFCKENILGVEAFSDDSISSKDTAVKALIKSTIALPDNSELLVNILSIKTTNSLEEMNLEISGDKV
21	child_5_hss_4-child_6_hss_6	ATSGTVSLSIPLDINCSLS
22	child_5_hss_5-child_6_hss_7	ANSVGVAFLPQTSKKDVLLDLDDS
23	child_5_hss_6-child_6_hss_8	PSDNATSRRITIALTFLTLISSRF
24	child_6_hss_2-child_7_hss_4	SLNGGVRAAKKDIHSVSKIDLTCST
25	child_6_hss_3-child_7_hss_1-child_8_hss_3	CCSEINLISLLAISLNKPSKKSLGKSLPLSIPSLFSKNSCKDILFLICDECKSVFNMIKEYESTYAVSAFEKTPGFWSTNLSANFSMNLSIF
26	child_6_hss_4-child_7_hss_5	TNAPTKEVLASLILKVEAILIDIFKPSKHLLVVSMSS
27	child_6_hss_5-child_7_hss_6	TSGPPLFLFKFLKTNSVLDEISFET
28	child_7_hss_2-child_8_hss_2	PSPGNLKLCKNDLNASTMDIPVKSNSSTNACIIAMFLSSPSPR
29	child_7_hss_3-child_8_hss_1	SPTAAMSRPSVSNNHLAMEIGESSFKNPFLISTGIAFLGLLLKIAIHSDKAVFLSFKFSNCVGSSAS
30	child_8_hss_4-child_9_hss_3	AHELKERKTDTMQFSDTILRAKSSG
31	child_8_hss_5-child_9_hss_4	VISTLVKANLVK
32	child_9_hss_1-child_10_hss_1	ISVKKTGISFTKSALKLAINSHIISKVTSKTGARGEAAFLDKTRRKYCLIESIKHTRSFPGRKMLWERNTS
33	child_9_hss_2-child_10_hss_2	RDKSFDLTACDLMSSSVSKGLAHIFAMTLNTKNASLTARS
34	child_10_hss_3-child_11_hss_2	IVLIAFSKEAPWHKELESSSKMQLDKALTICSSTRSSVPSP
35	child_10_hss_4-child_11_hss_1	KQSEIVSIAASIIFCFGGGVIPSA
36	child_11_hss_3	SLEAKESGGFTNRVSSSDLKENNFDRQSKA
37	child_11_hss_4	FFLMSLSFKIVSNVVFTKIMVEFVF
38	child_11_hss_5	LEDLVRQLALSASNTSIES
39	child_12_hss_0-child_13_hss_1	SSPSSELVSELLLSTSSSSSSPLSSSSSSSSSSSSSPSSPSSS
40	child_12_hss_1-child_13_hss_0	TEDTNDKRHDDEGEDGDEDEDEDEDEDEDNGDEDDEDVDSSSSETSSEDGEDS

Alignment Info

Child	Size of alignment	Sequence list
child_1	24	Saccharomyces paradoxus, Saccharomyces eubayanus, Vanderwaltozyma polyspora, Tetrapisispora phaffii, Naumovozyma castellii, Kazachstania africana, Naumovozyma dairenensis, Tetrapisispora blattae, [Candida] glabrata, Torulaspora delbrueckii, Zygosaccharomyces rouxii, Kazachstania barnettii, Zygotorulaspora mrakii, Torulaspora globosa, Kazachstania naganishii, Eremothecium cymbalariae, Lachancea lanzarotensis, Kluyveromyces lactis, Lachancea thermotolerans, Wickerhamomyces anomalus, Candida albicans, Hyphopichia burtonii, Kluyveromyces marxianus, Ascoidea rubescens
child_2	24	Naumovozyma castellii, Tetrapisispora phaffii, Kazachstania africana, Naumovozyma dairenensis, Tetrapisispora blattae, [Candida] glabrata, Torulaspora delbrueckii, Zygosaccharomyces rouxii, Kazachstania barnettii, Zygotorulaspora mrakii, Torulaspora globosa, Kazachstania naganishii, Kluyveromyces lactis, Hyphopichia burtonii, Lachancea lanzarotensis, Wickerhamomyces ciferrii, Eremothecium cymbalariae, Wickerhamomyces anomalus, Ascoidea rubescens, Lachancea thermotolerans, Paracoccidioides lutzii, Aspergillus japonicus, Penicillium digitatum, Cyberlindnera jadinii
child_3	24	Saccharomyces eubayanus, Vanderwaltozyma polyspora, Naumovozyma dairenensis, Naumovozyma castellii, [Candida] glabrata, Torulaspora globosa, Kazachstania barnettii, Tetrapisispora phaffii, Kazachstania africana, Zygotorulaspora mrakii, Torulaspora delbrueckii, Tetrapisispora blattae, Zygosaccharomyces rouxii, Kluyveromyces lactis, Lachancea lanzarotensis, Lachancea thermotolerans, Eremothecium cymbalariae, Wickerhamomyces anomalus, Kazachstania naganishii, Wickerhamomyces ciferrii, Kluyveromyces marxianus, Eremothecium gossypii, Debaryomyces hansenii, Kuraishia capsulata
child_4	24	[Candida] glabrata, Naumovozyma dairenensis, Zygotorulaspora mrakii, Torulaspora globosa, Tetrapisispora phaffii, Lachancea thermotolerans, Eremothecium cymbalariae, Eremothecium gossypii, Kluyveromyces marxianus, Wickerhamomyces ciferrii, Wickerhamomyces anomalus, Candida tropicalis, Debaryomyces hansenii, Hyphopichia burtonii, Suhomyces tanzawaensis, Debaryomyces fabryi, Kuraishia capsulata, Candida albicans, Meyerozyma guilliermondii, Komagataella phaffii, Cyberlindnera jadinii, Scheffersomyces stipitis, Ascoidea rubescens, Spathaspora passalidarum
child_5	24	Saccharomyces eubayanus, [Candida] glabrata, Naumovozyma dairenensis, Tetrapisispora phaffii, Kazachstania barnettii, Vanderwaltozyma polyspora, Torulaspora globosa, Naumovozyma castellii, Tetrapisispora blattae, Torulaspora delbrueckii, Kazachstania africana, Zygotorulaspora mrakii, Artibeus jamaicensis, Kazachstania naganishii, Zygosaccharomyces rouxii, Kluyveromyces marxianus, Lachancea thermotolerans, Eremothecium cymbalariae, Lachancea lanzarotensis, Eremothecium gossypii, Wickerhamomyces anomalus, Wickerhamomyces ciferrii, Hyphopichia burtonii, Debaryomyces fabryi
child_6	24	Tetrapisispora phaffii, Vanderwaltozyma polyspora, Kazachstania barnettii, [Candida] glabrata, Tetrapisispora blattae, Naumovozyma dairenensis, Torulaspora globosa, Naumovozyma castellii, Kazachstania naganishii, Torulaspora delbrueckii, Zygosaccharomyces rouxii, Eremothecium cymbalariae, Zygotorulaspora mrakii, Kluyveromyces lactis, Lachancea thermotolerans, Kluyveromyces marxianus, Eremothecium gossypii, Lachancea lanzarotensis, Wickerhamomyces ciferrii, Wickerhamomyces anomalus, Artibeus jamaicensis, Suhomyces tanzawaensis, Ascoidea rubescens, Debaryomyces fabryi
child_7	24	Vanderwaltozyma polyspora, Kazachstania barnettii, Tetrapisispora phaffii, Zygotorulaspora mrakii, Kazachstania naganishii, Tetrapisispora blattae, Kazachstania africana, [Candida] glabrata, Naumovozyma castellii, Naumovozyma dairenensis, Zygosaccharomyces rouxii, Torulaspora globosa, Eremothecium cymbalariae, Kluyveromyces marxianus, Kluyveromyces lactis, Lachancea lanzarotensis, Lachancea thermotolerans, Eremothecium gossypii, Wickerhamomyces ciferrii, Wickerhamomyces anomalus, Candida tropicalis, Suhomyces tanzawaensis, Lodderomyces elongisporus, Scheffersomyces spartinae
child_8	24	Naumovozyma castellii, Vanderwaltozyma polyspora, Torulaspora delbrueckii, Kazachstania barnettii, Kazachstania naganishii, Zygotorulaspora mrakii, Tetrapisispora phaffii, Tetrapisispora blattae, Lachancea lanzarotensis, Zygosaccharomyces rouxii, Torulaspora globosa, Kluyveromyces marxianus, Kluyveromyces lactis, Scheffersomyces spartinae, Candida tropicalis, Lachancea thermotolerans, Lodderomyces elongisporus, Wickerhamomyces anomalus, Eremothecium cymbalariae, Candida albicans, Hyphopichia burtonii, Candida parapsilosis, Scheffersomyces stipitis, Wickerhamomyces ciferrii
child_9	24	Saccharomyces eubayanus, Vanderwaltozyma polyspora, Naumovozyma dairenensis, Naumovozyma castellii, Kazachstania barnettii, Tetrapisispora phaffii, Kazachstania africana, Tetrapisispora blattae, Zygotorulaspora mrakii, [Candida] glabrata, Torulaspora delbrueckii, Eremothecium cymbalariae, Lachancea lanzarotensis, Zygosaccharomyces rouxii, Lachancea thermotolerans, Kazachstania naganishii, Torulaspora globosa, Wickerhamomyces ciferrii, Kluyveromyces marxianus, Kluyveromyces lactis, Wickerhamomyces anomalus, Eremothecium gossypii, Hyphopichia burtonii, Suhomyces tanzawaensis
child_10	24	Kazachstania barnettii, Zygotorulaspora mrakii, Naumovozyma castellii, Naumovozyma dairenensis, Vanderwaltozyma polyspora, Zygosaccharomyces rouxii, Tetrapisispora phaffii, Kluyveromyces lactis, Kazachstania africana, [Candida] glabrata, Lachancea lanzarotensis, Eremothecium cymbalariae, Torulaspora delbrueckii, Kazachstania naganishii, Kluyveromyces marxianus, Lachancea thermotolerans, Torulaspora globosa, Eremothecium gossypii, Wickerhamomyces anomalus, Wickerhamomyces ciferrii, Hyphopichia burtonii, Cyberlindnera jadinii, Scheffersomyces stipitis, Suhomyces tanzawaensis
child_11	24	Saccharomyces eubayanus, Kazachstania barnettii, Kazachstania africana, Kazachstania naganishii, Zygosaccharomyces rouxii, Naumovozyma castellii, Vanderwaltozyma polyspora, Torulaspora delbrueckii, Naumovozyma dairenensis, Tetrapisispora phaffii, Zygotorulaspora mrakii, Tetrapisispora blattae, Torulaspora globosa, [Candida] glabrata, Kluyveromyces lactis, Kluyveromyces marxianus, Eremothecium cymbalariae, Neurospora tetrasperma, Colletotrichum orchidophilum, Bipolaris zeicola, Lachancea thermotolerans, Paraphaeosphaeria sporulosa, Aspergillus steynii, Eremothecium gossypii
child_12	24	Saccharomyces paradoxus, Saccharomyces eubayanus, Penicilliopsis zonata, Vanderwaltozyma polyspora, Capronia epimyces, Sphaerulina musiva, Numida meleagris, Lachnellula hyalina, Aspergillus thermomutatus, Botrytis porri, Neurospora tetrasperma, Colletotrichum orchidophilum, Endocarpon pusillum, Bipolaris zeicola, Paraphaeosphaeria sporulosa, Ooceraea biroi, Sordaria macrospora, Aplysia californica, Aspergillus steynii, Lupinus angustifolius, Cryptococcus amylolentus, Aspergillus ibericus, Pyricularia grisea, Aspergillus piperis
child_13	24	Saccharomyces eubayanus, Penicilliopsis zonata, Vanderwaltozyma polyspora, Capronia epimyces, Sphaerulina musiva, Numida meleagris, Lachnellula hyalina, Lepidothrix coronata, Aspergillus thermomutatus, Botrytis porri, Endocarpon pusillum, Ooceraea biroi, Sordaria macrospora, Aplysia californica, Geosmithia morbida, Lupinus angustifolius, Cryptococcus amylolentus, Pyricularia grisea, Thyridium curvatum, Brettanomyces bruxellensis, Petromyzon marinus, Plectropomus leopardus, Gasterosteus aculeatus, Parus major

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