Agaricus bisporus var bisporus H97

General Properties

Protein ID	AgabiH97\|076830
Gene name
Location	scaffold_4:2724684..2729827
Strand	-
Gene length (bp)	5143
Transcript length (bp)	4869
Coding sequence length (bp)	4869
Protein length (aa)	1623

PFAM Domains

PFAM Domain ID	Short name	Long name	E-value	Start	End
PF05970	PIF1	PIF1-like helicase	5.4E-112	1160	1506
PF14214	Helitron_like_N	Helitron helicase-like domain at N-terminus	1.4E-57	527	708
PF13604	AAA_30	AAA domain	3.5E-10	1161	1347

Swissprot hits

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|Q1HG60\|PIF1_RAT	ATP-dependent DNA helicase PIF1 OS=Rattus norvegicus GN=Pif1 PE=2 SV=1	1161	1601	2.0E-23
sp\|Q9H611\|PIF1_HUMAN	ATP-dependent DNA helicase PIF1 OS=Homo sapiens GN=PIF1 PE=1 SV=2	1161	1601	7.0E-23
sp\|Q0R4F1\|PIF1_XENLA	ATP-dependent DNA helicase PIF1 OS=Xenopus laevis GN=pif1 PE=2 SV=1	1133	1601	8.0E-23
sp\|Q7ZV90\|PIF1_DANRE	ATP-dependent DNA helicase PIF1 OS=Danio rerio GN=pif1 PE=2 SV=1	1159	1601	9.0E-23
sp\|Q80SX8\|PIF1_MOUSE	ATP-dependent DNA helicase PIF1 OS=Mus musculus GN=Pif1 PE=1 SV=2	1161	1601	2.0E-22

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Swissprot ID	Swissprot Description	Start	End	E-value
sp\|Q1HG60\|PIF1_RAT	ATP-dependent DNA helicase PIF1 OS=Rattus norvegicus GN=Pif1 PE=2 SV=1	1161	1601	2.0E-23
sp\|Q9H611\|PIF1_HUMAN	ATP-dependent DNA helicase PIF1 OS=Homo sapiens GN=PIF1 PE=1 SV=2	1161	1601	7.0E-23
sp\|Q0R4F1\|PIF1_XENLA	ATP-dependent DNA helicase PIF1 OS=Xenopus laevis GN=pif1 PE=2 SV=1	1133	1601	8.0E-23
sp\|Q7ZV90\|PIF1_DANRE	ATP-dependent DNA helicase PIF1 OS=Danio rerio GN=pif1 PE=2 SV=1	1159	1601	9.0E-23
sp\|Q80SX8\|PIF1_MOUSE	ATP-dependent DNA helicase PIF1 OS=Mus musculus GN=Pif1 PE=1 SV=2	1161	1601	2.0E-22
sp\|Q5AXT5\|PIF1_EMENI	ATP-dependent DNA helicase PIF1 OS=Emericella nidulans (strain FGSC A4 / ATCC 38163 / CBS 112.46 / NRRL 194 / M139) GN=pif1 PE=3 SV=2	1119	1594	9.0E-22
sp\|Q6MHJ5\|PIF1_BDEBA	ATP-dependent DNA helicase pif1 OS=Bdellovibrio bacteriovorus (strain ATCC 15356 / DSM 50701 / NCIB 9529 / HD100) GN=pif1 PE=3 SV=1	1178	1601	1.0E-18
sp\|A5WFR0\|PIF1_PSYWF	ATP-dependent DNA helicase pif1 OS=Psychrobacter sp. (strain PRwf-1) GN=pif1 PE=3 SV=1	1178	1500	3.0E-16
sp\|Q196V4\|VF030_IIV3	Uncharacterized protein 106R OS=Invertebrate iridescent virus 3 GN=IIV3-106R PE=3 SV=1	1178	1594	8.0E-15
sp\|P07271\|PIF1_YEAST	ATP-dependent DNA helicase PIF1 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=PIF1 PE=1 SV=2	1160	1500	9.0E-14
sp\|A6ZM04\|PIF1_YEAS7	ATP-dependent DNA helicase PIF1 OS=Saccharomyces cerevisiae (strain YJM789) GN=PIF1 PE=3 SV=1	1160	1500	9.0E-14
sp\|Q57YG0\|PIF7_TRYB2	ATP-dependent DNA helicase PIF7 OS=Trypanosoma brucei brucei (strain 927/4 GUTat10.1) GN=PIF7 PE=3 SV=1	1161	1619	1.0E-13
sp\|Q38CE9\|PIF6_TRYB2	ATP-dependent DNA helicase PIF6 OS=Trypanosoma brucei brucei (strain 927/4 GUTat10.1) GN=PIF6 PE=3 SV=1	1170	1594	3.0E-13
sp\|P38766\|RRM3_YEAST	ATP-dependent DNA helicase RRM3 OS=Saccharomyces cerevisiae (strain ATCC 204508 / S288c) GN=RRM3 PE=1 SV=1	1160	1316	1.0E-12
sp\|Q381V6\|PIF4_TRYB2	ATP-dependent DNA helicase PIF4 OS=Trypanosoma brucei brucei (strain 927/4 GUTat10.1) GN=PIF4 PE=3 SV=1	1161	1311	1.0E-12
sp\|Q0P9V4\|PIF1_CAMJE	ATP-dependent DNA helicase pif1 OS=Campylobacter jejuni subsp. jejuni serotype O:2 (strain ATCC 700819 / NCTC 11168) GN=pif1 PE=3 SV=1	1185	1599	6.0E-12
sp\|Q59RQ0\|PIF1_CANAL	ATP-dependent DNA helicase PIF1 OS=Candida albicans (strain SC5314 / ATCC MYA-2876) GN=PIF1 PE=3 SV=1	1150	1320	1.0E-11
sp\|Q9QSK3\|VF030_IIV6	Uncharacterized protein 030L OS=Invertebrate iridescent virus 6 GN=IIV6-030L PE=3 SV=1	1178	1504	2.0E-11
sp\|Q580X6\|PIF5_TRYB2	ATP-dependent DNA helicase PIF5 OS=Trypanosoma brucei brucei (strain 927/4 GUTat10.1) GN=PIF5 PE=1 SV=1	1158	1316	5.0E-11
sp\|Q9UUA2\|PIF1_SCHPO	ATP-dependent DNA helicase pfh1 OS=Schizosaccharomyces pombe (strain 972 / ATCC 24843) GN=pfh1 PE=1 SV=1	1167	1320	2.0E-10
sp\|Q384Y1\|PIF1_TRYB2	ATP-dependent DNA helicase PIF1 OS=Trypanosoma brucei brucei (strain 927/4 GUTat10.1) GN=PIF1 PE=1 SV=1	1161	1309	4.0E-10
sp\|Q383A1\|PIF3_TRYB2	ATP-dependent DNA helicase PIF3 OS=Trypanosoma brucei brucei (strain 927/4 GUTat10.1) GN=PIF3 PE=3 SV=1	1180	1309	1.0E-07

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GO

GO Term	Description	Terminal node
GO:0003678	DNA helicase activity	Yes
GO:0006281	DNA repair	Yes
GO:0000723	telomere maintenance	Yes
GO:0071840	cellular component organization or biogenesis	No
GO:0008152	metabolic process	No
GO:0006139	nucleobase-containing compound metabolic process	No
GO:0004386	helicase activity	No
GO:0140640	catalytic activity, acting on a nucleic acid	No
GO:0008150	biological_process	No
GO:0006996	organelle organization	No
GO:0071704	organic substance metabolic process	No
GO:0090304	nucleic acid metabolic process	No
GO:0006974	cellular response to DNA damage stimulus	No
GO:1901360	organic cyclic compound metabolic process	No
GO:0140657	ATP-dependent activity	No
GO:0032200	telomere organization	No
GO:0051276	chromosome organization	No
GO:0008094	ATP-dependent activity, acting on DNA	No
GO:0006259	DNA metabolic process	No
GO:0003674	molecular_function	No
GO:0044260	cellular macromolecule metabolic process	No
GO:0016043	cellular component organization	No
GO:0051716	cellular response to stimulus	No
GO:0044237	cellular metabolic process	No
GO:0003824	catalytic activity	No
GO:0009987	cellular process	No
GO:0006725	cellular aromatic compound metabolic process	No
GO:0044238	primary metabolic process	No
GO:0046483	heterocycle metabolic process	No
GO:0140097	catalytic activity, acting on DNA	No
GO:0033554	cellular response to stress	No
GO:0006950	response to stress	No
GO:0006807	nitrogen compound metabolic process	No
GO:0050896	response to stimulus	No
GO:0043170	macromolecule metabolic process	No
GO:0034641	cellular nitrogen compound metabolic process	No

SignalP

[Help with interpreting these statistics]

SignalP signal predicted	Location (based on Ymax)	D score (significance: > 0.45)
No	1 - 12	0.45

Transmembrane Domains

(None)

Transcription Factor Class

(None)

Expression data

Analysis 1: Developmental stages of Agaricus bisporus (strain A15). Published in Pelkmans et al, Applied Microbiology and Biotechnology, 2016

Expression values

Label	Description	Expression (RPKM)	Confidence interval (high)
Casing	Casing mycelium	0.00	0.00
Initials	Initials knots	0.00	0.02
Pileal_Stipeal_center	Stage I stipe center	0.00	0.02
Pileal_Stipeal_shell	Stage I stipe shell	0.00	0.00
DIF_stipe_center	Stage II stipe center	0.00	0.02
DIF_stipe_shell	Stage II stipe shell	0.00	0.00
DIF_stipe_skin	Stage II stipe skin	0.00	0.02
DIF_cap_skin	Stage II cap skin	0.01	0.03
DIF_cap_tissue	Stage II cap tissue	0.01	0.03
DIF_gill_tissue	Stage II gill tissue	0.01	0.04
YFB_stipe_center	Young fruiting body stipe center	0.00	0.02
YFB_stipe_shell	Young fruiting body stipe shell	0.00	0.00
YFB_stipe_skin	Young fruiting body stipe skin	0.00	0.02
YFB_cap_skin	Young fruiting body cap skin	0.01	0.04
YFB_cap_tissue	Young fruiting body cap tissue	0.00	0.02
YFB_gill_tissue	Young fruiting body gill tissue	0.00	0.02
YFB_veil	Young fruiting body veil	0.01	0.02

Differential expression

Label1	Label2	Q-value	Significant difference
Casing	DIF_gill_tissue	1.0	no
Casing	YFB_stipe_center	1.0	no
Casing	YFB_stipe_shell	1.0	no
Casing	YFB_stipe_skin	1.0	no
Casing	YFB_cap_skin	1.0	no
Casing	YFB_cap_tissue	1.0	no
Casing	YFB_gill_tissue	1.0	no
Casing	YFB_veil	1.0	no
Casing	Initials	1.0	no
Casing	Pileal_Stipeal_center	1.0	no
Casing	Pileal_Stipeal_shell	1.0	no
Casing	DIF_stipe_center	1.0	no
Casing	DIF_stipe_shell	1.0	no
Casing	DIF_stipe_skin	1.0	no
Casing	DIF_cap_skin	1.0	no
Casing	DIF_cap_tissue	1.0	no
DIF_gill_tissue	YFB_stipe_center	1.0	no
DIF_gill_tissue	YFB_stipe_shell	1.0	no
DIF_gill_tissue	YFB_stipe_skin	1.0	no
DIF_gill_tissue	YFB_cap_skin	1.0	no
DIF_gill_tissue	YFB_cap_tissue	1.0	no
DIF_gill_tissue	YFB_gill_tissue	1.0	no
DIF_gill_tissue	YFB_veil	1.0	no
YFB_stipe_center	YFB_stipe_shell	1.0	no
YFB_stipe_center	YFB_stipe_skin	1.0	no
YFB_stipe_center	YFB_cap_skin	1.0	no
YFB_stipe_center	YFB_cap_tissue	1.0	no
YFB_stipe_center	YFB_gill_tissue	1.0	no
YFB_stipe_center	YFB_veil	1.0	no
YFB_stipe_shell	YFB_stipe_skin	1.0	no
YFB_stipe_shell	YFB_cap_skin	1.0	no
YFB_stipe_shell	YFB_cap_tissue	1.0	no
YFB_stipe_shell	YFB_gill_tissue	1.0	no
YFB_stipe_shell	YFB_veil	1.0	no
YFB_stipe_skin	YFB_cap_skin	1.0	no
YFB_stipe_skin	YFB_cap_tissue	1.0	no
YFB_stipe_skin	YFB_gill_tissue	1.0	no
YFB_stipe_skin	YFB_veil	1.0	no
YFB_cap_skin	YFB_cap_tissue	1.0	no
YFB_cap_skin	YFB_gill_tissue	1.0	no
YFB_cap_skin	YFB_veil	1.0	no
YFB_cap_tissue	YFB_gill_tissue	1.0	no
YFB_cap_tissue	YFB_veil	1.0	no
YFB_gill_tissue	YFB_veil	1.0	no
Initials	DIF_gill_tissue	1.0	no
Initials	YFB_stipe_center	1.0	no
Initials	YFB_stipe_shell	1.0	no
Initials	YFB_stipe_skin	1.0	no
Initials	YFB_cap_skin	1.0	no
Initials	YFB_cap_tissue	1.0	no
Initials	YFB_gill_tissue	1.0	no
Initials	YFB_veil	1.0	no
Initials	Pileal_Stipeal_center	1.0	no
Initials	Pileal_Stipeal_shell	1.0	no
Initials	DIF_stipe_center	1.0	no
Initials	DIF_stipe_shell	1.0	no
Initials	DIF_stipe_skin	1.0	no
Initials	DIF_cap_skin	1.0	no
Initials	DIF_cap_tissue	1.0	no
Pileal_Stipeal_center	DIF_gill_tissue	1.0	no
Pileal_Stipeal_center	YFB_stipe_center	1.0	no
Pileal_Stipeal_center	YFB_stipe_shell	1.0	no
Pileal_Stipeal_center	YFB_stipe_skin	1.0	no
Pileal_Stipeal_center	YFB_cap_skin	1.0	no
Pileal_Stipeal_center	YFB_cap_tissue	1.0	no
Pileal_Stipeal_center	YFB_gill_tissue	1.0	no
Pileal_Stipeal_center	YFB_veil	1.0	no
Pileal_Stipeal_center	Pileal_Stipeal_shell	1.0	no
Pileal_Stipeal_center	DIF_stipe_center	1.0	no
Pileal_Stipeal_center	DIF_stipe_shell	1.0	no
Pileal_Stipeal_center	DIF_stipe_skin	1.0	no
Pileal_Stipeal_center	DIF_cap_skin	1.0	no
Pileal_Stipeal_center	DIF_cap_tissue	1.0	no
Pileal_Stipeal_shell	DIF_gill_tissue	1.0	no
Pileal_Stipeal_shell	YFB_stipe_center	1.0	no
Pileal_Stipeal_shell	YFB_stipe_shell	1.0	no
Pileal_Stipeal_shell	YFB_stipe_skin	1.0	no
Pileal_Stipeal_shell	YFB_cap_skin	1.0	no
Pileal_Stipeal_shell	YFB_cap_tissue	1.0	no
Pileal_Stipeal_shell	YFB_gill_tissue	1.0	no
Pileal_Stipeal_shell	YFB_veil	1.0	no
Pileal_Stipeal_shell	DIF_stipe_center	1.0	no
Pileal_Stipeal_shell	DIF_stipe_shell	1.0	no
Pileal_Stipeal_shell	DIF_stipe_skin	1.0	no
Pileal_Stipeal_shell	DIF_cap_skin	1.0	no
Pileal_Stipeal_shell	DIF_cap_tissue	1.0	no
DIF_stipe_center	DIF_gill_tissue	1.0	no
DIF_stipe_center	YFB_stipe_center	1.0	no
DIF_stipe_center	YFB_stipe_shell	1.0	no
DIF_stipe_center	YFB_stipe_skin	1.0	no
DIF_stipe_center	YFB_cap_skin	1.0	no
DIF_stipe_center	YFB_cap_tissue	1.0	no
DIF_stipe_center	YFB_gill_tissue	1.0	no
DIF_stipe_center	YFB_veil	1.0	no
DIF_stipe_center	DIF_stipe_shell	1.0	no
DIF_stipe_center	DIF_stipe_skin	1.0	no
DIF_stipe_center	DIF_cap_skin	1.0	no
DIF_stipe_center	DIF_cap_tissue	1.0	no
DIF_stipe_shell	DIF_gill_tissue	1.0	no
DIF_stipe_shell	YFB_stipe_center	1.0	no
DIF_stipe_shell	YFB_stipe_shell	1.0	no
DIF_stipe_shell	YFB_stipe_skin	1.0	no
DIF_stipe_shell	YFB_cap_skin	1.0	no
DIF_stipe_shell	YFB_cap_tissue	1.0	no
DIF_stipe_shell	YFB_gill_tissue	1.0	no
DIF_stipe_shell	YFB_veil	1.0	no
DIF_stipe_shell	DIF_stipe_skin	1.0	no
DIF_stipe_shell	DIF_cap_skin	1.0	no
DIF_stipe_shell	DIF_cap_tissue	1.0	no
DIF_stipe_skin	DIF_gill_tissue	1.0	no
DIF_stipe_skin	YFB_stipe_center	1.0	no
DIF_stipe_skin	YFB_stipe_shell	1.0	no
DIF_stipe_skin	YFB_stipe_skin	1.0	no
DIF_stipe_skin	YFB_cap_skin	1.0	no
DIF_stipe_skin	YFB_cap_tissue	1.0	no
DIF_stipe_skin	YFB_gill_tissue	1.0	no
DIF_stipe_skin	YFB_veil	1.0	no
DIF_stipe_skin	DIF_cap_skin	1.0	no
DIF_stipe_skin	DIF_cap_tissue	1.0	no
DIF_cap_skin	DIF_gill_tissue	1.0	no
DIF_cap_skin	YFB_stipe_center	1.0	no
DIF_cap_skin	YFB_stipe_shell	1.0	no
DIF_cap_skin	YFB_stipe_skin	1.0	no
DIF_cap_skin	YFB_cap_skin	1.0	no
DIF_cap_skin	YFB_cap_tissue	1.0	no
DIF_cap_skin	YFB_gill_tissue	1.0	no
DIF_cap_skin	YFB_veil	1.0	no
DIF_cap_skin	DIF_cap_tissue	1.0	no
DIF_cap_tissue	DIF_gill_tissue	1.0	no
DIF_cap_tissue	YFB_stipe_center	1.0	no
DIF_cap_tissue	YFB_stipe_shell	1.0	no
DIF_cap_tissue	YFB_stipe_skin	1.0	no
DIF_cap_tissue	YFB_cap_skin	1.0	no
DIF_cap_tissue	YFB_cap_tissue	1.0	no
DIF_cap_tissue	YFB_gill_tissue	1.0	no
DIF_cap_tissue	YFB_veil	1.0	no

Sequences

Type of sequence	Sequence
Locus	Download genbank file of locus The gene with 5 kb flanks (if sufficient flanking sequence is available). For use in cloning design programs. NOTE: features (genes or exons) that are only partially contained within the sequence are completely excluded.
Protein	>AgabiH97\|076830 MWAMAMAARCLDTKIREYSPIFQGSRTANTLFDATLRCRTVVDWRRVFEGIILMPFSFVIQTPPDFEEERSRVRQ AHREAYASPPGSPRRRRVMGVSSSQNVPSQRSRVSQQQCEQTLDNDVFRDENTPPTPQEPYPSPSTTQATRRFDR NVATSGSNVSEDSTRISRRQLAQRARRDRERRQRARRTTEINEPDNNGPLPTPPATQGGQASRTRNGQSMEPLSR RCRRRRTDDDLFLAARSPYVDTERRHSLGPMNVACAHCGALHWIGEKLARSSDHSPKFGMCCHEGQISLPQRQDP PRHIQELFLSQEPHAREFRENIWKYNRAFSFTSLGVNEVHSVNNGRGPPVFCITGELCHWSGSLVPHNGQLPKYA QLYIYEPREALAARMQQNQDLDEQIMETLQTFLLQHHQYAPVYRHAWEILRLHPNIENHTVTLHLIPGSDRRRYN LPTCDEPAVIIPTTPFNSRRDIVLRSRDGPLHRIYDIHPAYCPLQYPLLHLFGEDGWHEGLTVVNSNKRLSQCKA ISYYLEVRPNQFSTLLRGGRLFCRYIVDMYASVDQNRLLYLQNHQPQLRASLYSGLEDAVGEGDDNLDLNNVGSR TVLPSSYIGGPRNMSQCYQDSMAIARYFRKVDIFLTMTTNPEWEEIKGALYEGQTAYDRPDIVARVFQLKKNAVL EYISKHGVFGHTAAYVYTIEFQKRGLPHMHSLIFLKEPHKLSSPEAIDSCIWARWPDPETEPLLFETIKKCMVHG PCGALNPRAPCMENGKCTKGYPKPFQAFTVMDPHGYPHYYRPDDGRAFEVRGHMLDNRWIVPYSPFLCGTFNCHI NTECAFSLGTFKYAFKYIQKGSDLATVAITDKNNEILRWKNGHFISPPLAAWRLKQFEIHELVPNVVRLQVHLPG QHMVTFNPNENLETVMQRAATEQTTLTAFFAANADQGPLGVEARTYTYQEFPQKFVFKNRIKKWALRQSGFALGR MYFVPPTAGERFYLRTLLTVVKGPQSFEDLRTYNGICYESFHGACLARGLLEDDGEWRQCLTDAALIKTGQQLRR LFATLLLFCAPSEPHTLWTQFREHICDDLRPRITQLLQRTPTEDEIYDFGLYETEKILNESGRLLSDWPSMPRPT NDWASIEDNSNALITEQLAYNRHTELASLERNLQCLNQEQEDAYNHIIQSVELSQGRIFFVNGPGGTGKTFLYNT ICNKVRSEGWIVLCVASSGIAALLIRGGRTAHSMFKIPINNLNEDSFCHIPKESHRAGLLQATRLIIWDEIGAQH RYAPEALDRTCRDIRNNDRPFGGITVVFGGDFQQTLPVIPRGSRDQIIDATIQRSLLWEHAEILKLHRNMRLEAD DRESQSFSEWLLDVGHGRGNNDGKINLPAEMRLDDINDLIDAIYPAINTTPPPPPDYFLQRMILAPRNADVSDVN HTILAQMSGEEHVYFSADQLIHEEGADGALEPIPVEFLRSVNAQSLPPGELPIKIGCPLILLRNLSPSHGLCNGT RMVVTRMSSRVLEVRIIGGDHGGELAFIPRIALIPSNSTEFTFKFRRLQFPVRLAFALSINKSQGQSVRFVGLDL RYPAFSHGQLYVALSRATSPRRIRYILPEDAVENYTTNVVYPEVLFD*
Coding	>AgabiH97\|076830 ATGTGGGCAATGGCGATGGCTGCAAGATGCCTCGACACAAAAATTCGAGAATATTCCCCGATCTTTCAGGGTAGC CGAACAGCAAATACGTTATTCGACGCGACGCTGCGGTGCCGTACTGTGGTAGATTGGAGACGTGTCTTTGAAGGA ATTATTCTCATGCCATTTTCCTTTGTCATTCAGACCCCACCCGATTTCGAAGAGGAACGATCTCGCGTCAGGCAG GCTCACCGTGAAGCCTATGCTTCACCACCTGGAAGCCCTCGCCGGCGAAGAGTGATGGGAGTTTCATCAAGTCAA AATGTACCGTCTCAACGTTCAAGGGTCAGTCAACAGCAATGCGAGCAAACATTGGACAATGATGTATTTCGCGAT GAAAATACCCCACCCACTCCCCAGGAACCCTACCCGAGTCCATCAACCACCCAGGCAACACGGCGTTTTGACCGT AATGTTGCTACATCTGGCAGTAATGTGAGCGAGGATAGTACTAGGATATCAAGGCGCCAATTGGCACAGCGGGCA CGCAGAGACAGAGAGCGAAGGCAGAGGGCTAGAAGGACCACAGAAATAAACGAACCTGATAATAATGGCCCACTA CCAACTCCACCAGCAACACAGGGAGGTCAAGCATCTCGCACACGCAATGGCCAGTCAATGGAGCCACTGTCTCGC CGCTGCCGCCGCCGCCGCACAGATGACGACCTGTTCCTTGCCGCCCGAAGTCCATATGTCGATACAGAACGGCGC CATTCGCTTGGCCCAATGAACGTTGCGTGTGCGCATTGTGGTGCCCTACACTGGATTGGGGAGAAACTTGCCCGG TCCTCTGACCACTCACCAAAGTTTGGCATGTGCTGCCATGAGGGTCAAATCTCACTCCCGCAGCGCCAGGACCCT CCAAGGCACATCCAAGAGCTTTTTCTTTCTCAAGAGCCACACGCGAGAGAGTTTCGAGAGAATATCTGGAAATAC AACCGTGCTTTTTCATTCACGTCGTTGGGTGTAAATGAAGTCCACTCAGTAAACAATGGACGAGGTCCACCCGTG TTCTGTATAACAGGAGAGCTCTGTCATTGGTCAGGGTCGCTGGTTCCACATAACGGACAACTACCTAAATACGCC CAGCTATACATTTACGAGCCACGTGAAGCTCTGGCGGCACGCATGCAGCAGAACCAAGACCTGGATGAACAAATC ATGGAGACGCTCCAGACCTTCCTCCTCCAACACCATCAGTATGCTCCAGTCTATCGCCATGCTTGGGAAATCCTC CGCTTGCACCCAAACATCGAGAACCACACTGTCACCCTTCATCTCATTCCTGGCTCGGACAGGCGCAGATATAAC CTCCCAACCTGTGATGAACCCGCAGTCATAATTCCCACCACCCCATTCAATTCCCGCCGAGACATTGTTCTCAGG TCAAGAGACGGTCCTCTCCACCGCATCTACGACATCCACCCAGCCTACTGTCCTCTCCAGTACCCGCTGTTGCAT CTTTTCGGGGAAGATGGATGGCATGAAGGATTGACAGTAGTGAATTCAAACAAGCGACTTTCGCAATGCAAGGCC ATCTCTTATTACTTAGAGGTCCGACCAAATCAGTTTTCTACTTTGTTGCGTGGAGGACGTCTTTTCTGCCGATAC ATTGTGGACATGTATGCCTCAGTAGACCAGAATCGACTTCTCTATCTACAAAATCATCAGCCACAGCTACGAGCA TCACTTTATAGTGGCCTCGAAGATGCCGTTGGTGAGGGTGATGATAATCTTGATCTCAACAATGTTGGAAGCCGC ACCGTCCTTCCATCCTCATATATTGGAGGCCCACGAAACATGTCACAATGCTATCAGGACTCAATGGCCATAGCT CGATATTTCCGGAAAGTTGATATTTTCCTTACAATGACAACCAACCCGGAATGGGAGGAGATTAAAGGGGCTCTT TATGAGGGTCAGACTGCATACGACCGACCGGATATAGTGGCGCGGGTATTCCAGCTCAAGAAGAATGCTGTCCTA GAGTATATTTCAAAGCATGGTGTATTTGGGCATACTGCAGCATACGTCTATACTATTGAATTTCAAAAACGTGGT CTTCCTCATATGCACTCCCTTATCTTTTTGAAGGAGCCACACAAGCTTTCATCACCCGAAGCCATTGATTCGTGT ATATGGGCACGATGGCCAGATCCAGAGACGGAGCCTCTTCTCTTCGAGACAATCAAGAAATGCATGGTTCACGGT CCGTGTGGAGCCCTCAACCCCAGGGCGCCCTGTATGGAAAATGGGAAGTGTACAAAGGGCTACCCTAAACCATTC CAGGCATTCACTGTCATGGACCCGCATGGATATCCCCACTACTACCGACCTGATGACGGTCGAGCATTTGAGGTT AGAGGGCATATGCTTGACAATAGGTGGATTGTCCCATATTCCCCCTTCCTCTGCGGTACATTCAACTGTCATATC AACACCGAGTGTGCCTTCTCGCTGGGAACATTCAAATATGCATTTAAGTACATTCAGAAGGGTTCCGACCTTGCA ACGGTTGCCATAACGGACAAGAACAACGAAATTCTTCGCTGGAAGAACGGACACTTCATTTCACCCCCACTTGCA GCGTGGCGACTCAAGCAATTTGAAATCCATGAATTGGTTCCAAACGTCGTTCGACTTCAGGTTCATCTCCCTGGC CAACACATGGTGACATTCAACCCCAATGAAAACCTTGAAACCGTCATGCAGCGCGCTGCTACTGAGCAGACTACG CTCACTGCTTTTTTTGCTGCCAATGCTGATCAAGGTCCCCTTGGTGTTGAAGCTCGCACATATACATACCAGGAA TTCCCTCAGAAATTTGTCTTCAAAAATAGGATCAAGAAGTGGGCCCTTCGACAGTCGGGATTCGCACTGGGCCGC ATGTACTTTGTTCCACCAACTGCTGGTGAGAGGTTCTACCTTCGAACCCTTCTTACTGTAGTCAAAGGGCCGCAA TCATTTGAAGACCTTCGAACCTACAACGGAATTTGTTATGAATCTTTTCATGGAGCTTGCCTTGCCCGTGGCCTC CTTGAAGATGACGGAGAATGGCGCCAATGTTTAACAGATGCAGCTCTAATCAAAACAGGTCAACAACTCCGACGT CTTTTTGCAACCCTCCTCCTATTTTGCGCACCATCTGAACCTCACACTCTCTGGACTCAATTCCGTGAGCACATT TGTGATGATCTCCGACCTCGCATCACCCAACTTCTTCAAAGAACACCTACAGAGGACGAGATTTATGATTTCGGC CTTTACGAAACAGAGAAGATCTTGAACGAATCAGGCAGGCTTCTCAGTGACTGGCCTTCCATGCCGCGGCCTACT AATGACTGGGCTTCAATCGAAGACAATTCCAATGCACTTATTACTGAACAGCTTGCTTACAACCGCCATACTGAA CTTGCGTCTCTAGAAAGAAATCTTCAGTGCTTAAACCAGGAGCAAGAAGACGCATATAACCACATCATCCAATCC GTTGAACTCTCTCAAGGTCGTATATTCTTTGTGAATGGGCCGGGGGGAACAGGAAAGACATTTCTTTACAATACT ATCTGTAATAAGGTCCGTAGTGAGGGCTGGATAGTACTATGTGTTGCTTCATCGGGAATAGCAGCCTTATTGATC CGTGGCGGTCGAACAGCCCATTCTATGTTCAAAATACCTATCAACAACCTCAATGAAGACTCCTTCTGTCACATT CCTAAAGAAAGTCATCGAGCAGGTCTGCTTCAGGCTACGCGTTTGATCATCTGGGATGAAATAGGTGCCCAACAC CGTTATGCACCTGAAGCGCTAGACAGAACATGCAGAGACATTCGAAACAATGACCGCCCATTTGGTGGGATAACA GTAGTCTTTGGCGGTGATTTCCAGCAAACCCTACCAGTTATACCTCGAGGCTCACGCGACCAGATAATTGACGCA ACTATCCAGCGATCTTTATTATGGGAACATGCAGAAATTCTCAAGTTGCACCGAAATATGCGGCTCGAAGCTGAT GATAGGGAATCCCAATCTTTCTCAGAGTGGCTACTCGATGTGGGGCATGGAAGGGGAAACAATGATGGCAAGATT AATCTGCCAGCGGAAATGAGATTGGATGATATCAATGATCTCATTGATGCCATTTATCCAGCTATCAACACGACA CCACCACCTCCACCAGACTACTTCCTTCAACGAATGATTCTCGCACCACGTAATGCTGATGTGTCTGATGTGAAC CACACAATCCTCGCCCAAATGTCTGGTGAAGAACATGTCTATTTTAGCGCTGACCAACTTATACATGAAGAAGGG GCTGACGGTGCTCTCGAGCCTATACCGGTGGAATTCCTGCGGTCTGTCAATGCGCAGAGCCTTCCACCTGGTGAA TTACCAATCAAAATTGGGTGTCCTCTTATTCTCCTTCGTAATCTCTCACCTTCACATGGTCTTTGTAATGGAACG CGGATGGTTGTGACTCGGATGTCCAGTAGAGTCCTCGAGGTTCGAATTATTGGAGGAGATCATGGTGGTGAACTT GCTTTCATTCCCCGTATTGCACTTATCCCATCCAATAGCACTGAGTTCACCTTCAAATTTCGCAGACTTCAATTC CCGGTTCGACTTGCATTTGCACTGAGCATCAACAAATCACAAGGGCAGTCGGTTAGATTTGTTGGGTTGGATTTA CGGTATCCTGCATTTTCTCATGGACAACTCTATGTAGCTCTGTCTCGAGCAACATCACCCCGAAGAATCAGATAT ATTCTTCCTGAAGACGCTGTAGAAAATTATACTACAAATGTTGTATATCCAGAAGTACTTTTTGATTAG
Transcript	>AgabiH97\|076830 ATGTGGGCAATGGCGATGGCTGCAAGATGCCTCGACACAAAAATTCGAGAATATTCCCCGATCTTTCAGGGTAGC CGAACAGCAAATACGTTATTCGACGCGACGCTGCGGTGCCGTACTGTGGTAGATTGGAGACGTGTCTTTGAAGGA ATTATTCTCATGCCATTTTCCTTTGTCATTCAGACCCCACCCGATTTCGAAGAGGAACGATCTCGCGTCAGGCAG GCTCACCGTGAAGCCTATGCTTCACCACCTGGAAGCCCTCGCCGGCGAAGAGTGATGGGAGTTTCATCAAGTCAA AATGTACCGTCTCAACGTTCAAGGGTCAGTCAACAGCAATGCGAGCAAACATTGGACAATGATGTATTTCGCGAT GAAAATACCCCACCCACTCCCCAGGAACCCTACCCGAGTCCATCAACCACCCAGGCAACACGGCGTTTTGACCGT AATGTTGCTACATCTGGCAGTAATGTGAGCGAGGATAGTACTAGGATATCAAGGCGCCAATTGGCACAGCGGGCA CGCAGAGACAGAGAGCGAAGGCAGAGGGCTAGAAGGACCACAGAAATAAACGAACCTGATAATAATGGCCCACTA CCAACTCCACCAGCAACACAGGGAGGTCAAGCATCTCGCACACGCAATGGCCAGTCAATGGAGCCACTGTCTCGC CGCTGCCGCCGCCGCCGCACAGATGACGACCTGTTCCTTGCCGCCCGAAGTCCATATGTCGATACAGAACGGCGC CATTCGCTTGGCCCAATGAACGTTGCGTGTGCGCATTGTGGTGCCCTACACTGGATTGGGGAGAAACTTGCCCGG TCCTCTGACCACTCACCAAAGTTTGGCATGTGCTGCCATGAGGGTCAAATCTCACTCCCGCAGCGCCAGGACCCT CCAAGGCACATCCAAGAGCTTTTTCTTTCTCAAGAGCCACACGCGAGAGAGTTTCGAGAGAATATCTGGAAATAC AACCGTGCTTTTTCATTCACGTCGTTGGGTGTAAATGAAGTCCACTCAGTAAACAATGGACGAGGTCCACCCGTG TTCTGTATAACAGGAGAGCTCTGTCATTGGTCAGGGTCGCTGGTTCCACATAACGGACAACTACCTAAATACGCC CAGCTATACATTTACGAGCCACGTGAAGCTCTGGCGGCACGCATGCAGCAGAACCAAGACCTGGATGAACAAATC ATGGAGACGCTCCAGACCTTCCTCCTCCAACACCATCAGTATGCTCCAGTCTATCGCCATGCTTGGGAAATCCTC CGCTTGCACCCAAACATCGAGAACCACACTGTCACCCTTCATCTCATTCCTGGCTCGGACAGGCGCAGATATAAC CTCCCAACCTGTGATGAACCCGCAGTCATAATTCCCACCACCCCATTCAATTCCCGCCGAGACATTGTTCTCAGG TCAAGAGACGGTCCTCTCCACCGCATCTACGACATCCACCCAGCCTACTGTCCTCTCCAGTACCCGCTGTTGCAT CTTTTCGGGGAAGATGGATGGCATGAAGGATTGACAGTAGTGAATTCAAACAAGCGACTTTCGCAATGCAAGGCC ATCTCTTATTACTTAGAGGTCCGACCAAATCAGTTTTCTACTTTGTTGCGTGGAGGACGTCTTTTCTGCCGATAC ATTGTGGACATGTATGCCTCAGTAGACCAGAATCGACTTCTCTATCTACAAAATCATCAGCCACAGCTACGAGCA TCACTTTATAGTGGCCTCGAAGATGCCGTTGGTGAGGGTGATGATAATCTTGATCTCAACAATGTTGGAAGCCGC ACCGTCCTTCCATCCTCATATATTGGAGGCCCACGAAACATGTCACAATGCTATCAGGACTCAATGGCCATAGCT CGATATTTCCGGAAAGTTGATATTTTCCTTACAATGACAACCAACCCGGAATGGGAGGAGATTAAAGGGGCTCTT TATGAGGGTCAGACTGCATACGACCGACCGGATATAGTGGCGCGGGTATTCCAGCTCAAGAAGAATGCTGTCCTA GAGTATATTTCAAAGCATGGTGTATTTGGGCATACTGCAGCATACGTCTATACTATTGAATTTCAAAAACGTGGT CTTCCTCATATGCACTCCCTTATCTTTTTGAAGGAGCCACACAAGCTTTCATCACCCGAAGCCATTGATTCGTGT ATATGGGCACGATGGCCAGATCCAGAGACGGAGCCTCTTCTCTTCGAGACAATCAAGAAATGCATGGTTCACGGT CCGTGTGGAGCCCTCAACCCCAGGGCGCCCTGTATGGAAAATGGGAAGTGTACAAAGGGCTACCCTAAACCATTC CAGGCATTCACTGTCATGGACCCGCATGGATATCCCCACTACTACCGACCTGATGACGGTCGAGCATTTGAGGTT AGAGGGCATATGCTTGACAATAGGTGGATTGTCCCATATTCCCCCTTCCTCTGCGGTACATTCAACTGTCATATC AACACCGAGTGTGCCTTCTCGCTGGGAACATTCAAATATGCATTTAAGTACATTCAGAAGGGTTCCGACCTTGCA ACGGTTGCCATAACGGACAAGAACAACGAAATTCTTCGCTGGAAGAACGGACACTTCATTTCACCCCCACTTGCA GCGTGGCGACTCAAGCAATTTGAAATCCATGAATTGGTTCCAAACGTCGTTCGACTTCAGGTTCATCTCCCTGGC CAACACATGGTGACATTCAACCCCAATGAAAACCTTGAAACCGTCATGCAGCGCGCTGCTACTGAGCAGACTACG CTCACTGCTTTTTTTGCTGCCAATGCTGATCAAGGTCCCCTTGGTGTTGAAGCTCGCACATATACATACCAGGAA TTCCCTCAGAAATTTGTCTTCAAAAATAGGATCAAGAAGTGGGCCCTTCGACAGTCGGGATTCGCACTGGGCCGC ATGTACTTTGTTCCACCAACTGCTGGTGAGAGGTTCTACCTTCGAACCCTTCTTACTGTAGTCAAAGGGCCGCAA TCATTTGAAGACCTTCGAACCTACAACGGAATTTGTTATGAATCTTTTCATGGAGCTTGCCTTGCCCGTGGCCTC CTTGAAGATGACGGAGAATGGCGCCAATGTTTAACAGATGCAGCTCTAATCAAAACAGGTCAACAACTCCGACGT CTTTTTGCAACCCTCCTCCTATTTTGCGCACCATCTGAACCTCACACTCTCTGGACTCAATTCCGTGAGCACATT TGTGATGATCTCCGACCTCGCATCACCCAACTTCTTCAAAGAACACCTACAGAGGACGAGATTTATGATTTCGGC CTTTACGAAACAGAGAAGATCTTGAACGAATCAGGCAGGCTTCTCAGTGACTGGCCTTCCATGCCGCGGCCTACT AATGACTGGGCTTCAATCGAAGACAATTCCAATGCACTTATTACTGAACAGCTTGCTTACAACCGCCATACTGAA CTTGCGTCTCTAGAAAGAAATCTTCAGTGCTTAAACCAGGAGCAAGAAGACGCATATAACCACATCATCCAATCC GTTGAACTCTCTCAAGGTCGTATATTCTTTGTGAATGGGCCGGGGGGAACAGGAAAGACATTTCTTTACAATACT ATCTGTAATAAGGTCCGTAGTGAGGGCTGGATAGTACTATGTGTTGCTTCATCGGGAATAGCAGCCTTATTGATC CGTGGCGGTCGAACAGCCCATTCTATGTTCAAAATACCTATCAACAACCTCAATGAAGACTCCTTCTGTCACATT CCTAAAGAAAGTCATCGAGCAGGTCTGCTTCAGGCTACGCGTTTGATCATCTGGGATGAAATAGGTGCCCAACAC CGTTATGCACCTGAAGCGCTAGACAGAACATGCAGAGACATTCGAAACAATGACCGCCCATTTGGTGGGATAACA GTAGTCTTTGGCGGTGATTTCCAGCAAACCCTACCAGTTATACCTCGAGGCTCACGCGACCAGATAATTGACGCA ACTATCCAGCGATCTTTATTATGGGAACATGCAGAAATTCTCAAGTTGCACCGAAATATGCGGCTCGAAGCTGAT GATAGGGAATCCCAATCTTTCTCAGAGTGGCTACTCGATGTGGGGCATGGAAGGGGAAACAATGATGGCAAGATT AATCTGCCAGCGGAAATGAGATTGGATGATATCAATGATCTCATTGATGCCATTTATCCAGCTATCAACACGACA CCACCACCTCCACCAGACTACTTCCTTCAACGAATGATTCTCGCACCACGTAATGCTGATGTGTCTGATGTGAAC CACACAATCCTCGCCCAAATGTCTGGTGAAGAACATGTCTATTTTAGCGCTGACCAACTTATACATGAAGAAGGG GCTGACGGTGCTCTCGAGCCTATACCGGTGGAATTCCTGCGGTCTGTCAATGCGCAGAGCCTTCCACCTGGTGAA TTACCAATCAAAATTGGGTGTCCTCTTATTCTCCTTCGTAATCTCTCACCTTCACATGGTCTTTGTAATGGAACG CGGATGGTTGTGACTCGGATGTCCAGTAGAGTCCTCGAGGTTCGAATTATTGGAGGAGATCATGGTGGTGAACTT GCTTTCATTCCCCGTATTGCACTTATCCCATCCAATAGCACTGAGTTCACCTTCAAATTTCGCAGACTTCAATTC CCGGTTCGACTTGCATTTGCACTGAGCATCAACAAATCACAAGGGCAGTCGGTTAGATTTGTTGGGTTGGATTTA CGGTATCCTGCATTTTCTCATGGACAACTCTATGTAGCTCTGTCTCGAGCAACATCACCCCGAAGAATCAGATAT ATTCTTCCTGAAGACGCTGTAGAAAATTATACTACAAATGTTGTATATCCAGAAGTACTTTTTGATTAG
Gene	>AgabiH97\|076830 ATGTGGGCAATGGCGATGGCTGCAAGATGCCTCGACACAAAAATTCGAGAATATTCCCCGATCTTTCAGGGTAGC CGAACAGCAAATACGTTATTCGACGCGACGCTGCGGTGCCGTACTGTGGTAGATTGGAGACGTGTCTTTGAAGGA ATTATTCTCATGTGAGTGTTGCACGAAGCTACCTACCCATGCTCATGCTGACCGGCATAAAATACTACAGGCCAT TTTCCTTTGTCATTCAGACCCCACCCGATTTCGAAGAGGAACGATCTCGCGTCAGGCAGGCTCACCGTGAAGCCT ATGCTTCACCACCTGGAAGCCCTCGCCGGCGAAGAGTGATGGGAGTTTCATCAAGTCAAAATGTACCGTCTCAAC GTTCAAGGGTCAGTCAACAGCAATGCGAGTGAGTTACAATGGCCGGTATTTCTGTGTTCATGGGATCAATGACAT TTCTCAAGGCAAACATTGGACAATGATGTATTTCGCGATGAAAATACCCCACCCACTCCCCAGGAACCCTACCCG AGTCCATCAACCACCCAGGCAACACGGCGTTTTGACCGTAATGTTGCTACATCTGGTACGATTTGGTTCCTCCAT TTACGTTCCATATAACTAATCCAGTAATCCACCAGGCAGTAATGTGAGCGAGGATAGTACTAGGATATCAAGGCG CCAATTGGCACAGCGGGCACGCAGAGACAGAGAGCGAAGGCAGAGGGCTAGAAGGACCACAGAAATAAACGTGAG CGACTATATACTATGAGCTCGAAGCTGATATTGATTATGAGTTGCTAAGGAACCTGATAATAATGGCCCACTACC AACTCCACCAGCAACACAGGGAGGTCAAGCATCTCGCACACGTAGGTGTGACTTTCATTGTTGGACGAGACCAAG CTAAAACAAATTTCCAGGCAATGGCCAGTCAATGGAGCCACTGTCTCGCCGCTGCCGCCGCCGCCGCACAGATGA CGACCTGTTCCTTGCCGCCCGAAGTCCATATGTCGATACAGAACGGCGCCATTCGCTTGGCCCAATGAACGTTGC GTGTGCGCATTGTGGTGCCCTACACTGGATTGGGGAGAAACTTGCCCGGTCCTCTGACCACTCACCAAAGTTTGG CATGTGCTGCCATGAGGGTCAAATCTCACTCCCGCAGCGCCAGGACCCTCCAAGGCACATCCAAGAGCTTTTTCT TTCTCAAGAGCCACACGCGAGAGAGTTTCGAGAGAATATCTGGAAATACAACCGTGCTTTTTCATTCACGTCGTT GGGTGTAAATGAAGTCCACTCAGTAAACAATGGACGAGGTCCACCCGTGTTCTGTATAACAGGAGAGCTCTGTCA TTGGTCAGGGTCGCTGGTTCCACATAACGGACAACTACCTAAATACGCCCAGCTATACATTTACGAGCCACGTGA AGCTCTGGCGGCACGCATGCAGCAGAACCAAGACCTGGATGAACAAATCATGGAGACGCTCCAGACCTTCCTCCT CCAACACCATCAGTATGCTCCAGTCTATCGCCATGCTTGGGAAATCCTCCGCTTGCACCCAAACATCGAGAACCA CACTGTCACCCTTCATCTCATTCCTGGCTCGGACAGGCGCAGATATAACCTCCCAACCTGTGATGAACCCGCAGT CATAATTCCCACCACCCCATTCAATTCCCGCCGAGACATTGTTCTCAGGTCAAGAGACGGTCCTCTCCACCGCAT CTACGACATCCACCCAGCCTACTGTCCTCTCCAGTACCCGCTGTTGCATCTTTTCGGGGAAGATGGATGGCATGA AGGATTGACAGTAGTGAATTCAAACAAGCGACTTTCGCAATGCAAGGCCATCTCTTATTACTTAGAGGTCCGACC AAATCAGTTTTCTACTTTGTTGCGTGGAGGACGTCTTTTCTGCCGATACATTGTGGACATGTATGCCTCAGTAGA CCAGAATCGACTTCTCTATCTACAAAATCATCAGCCACAGCTACGAGCATCACTTTATAGTGGCCTCGAAGATGC CGTTGGTGAGGGTGATGATAATCTTGATCTCAACAATGTTGGAAGCCGCACCGTCCTTCCATCCTCATATATTGG AGGCCCACGAAACATGTCACAATGCTATCAGGACTCAATGGCCATAGCTCGATATTTCCGGAAAGTTGATATTTT CCTTACAATGACAACCAACCCGGAATGGGAGGAGATTAAAGGGGCTCTTTATGAGGGTCAGACTGCATACGACCG ACCGGATATAGTGGCGCGGGTATTCCAGCTCAAGAAGAATGCTGTCCTAGAGTATATTTCAAAGCATGGTGTATT TGGGCATACTGCAGCATACGTCTATACTATTGAATTTCAAAAACGTGGTCTTCCTCATATGCACTCCCTTATCTT TTTGAAGGAGCCACACAAGCTTTCATCACCCGAAGCCATTGATTCGTGTATATGGGCACGATGGCCAGATCCAGA GACGGAGCCTCTTCTCTTCGAGACAATCAAGAAATGCATGGTTCACGGTCCGTGTGGAGCCCTCAACCCCAGGGC GCCCTGTATGGAAAATGGGAAGTGTACAAAGGGCTACCCTAAACCATTCCAGGCATTCACTGTCATGGACCCGCA TGGATATCCCCACTACTACCGACCTGATGACGGTCGAGCATTTGAGGTTAGAGGGCATATGCTTGACAATAGGTG GATTGTCCCATATTCCCCCTTCCTCTGCGGTACATTCAACTGTCATATCAACACCGAGTGTGCCTTCTCGCTGGG AACATTCAAATATGCATTTAAGTACATTCAGAAGGGTTCCGACCTTGCAACGGTTGCCATAACGGACAAGAACAA CGAAATTCTTCGCTGGAAGAACGGACACTTCATTTCACCCCCACTTGCAGCGTGGCGACTCAAGCAATTTGAAAT CCATGAATTGGTTCCAAACGTCGTTCGACTTCAGGTTCATCTCCCTGGCCAACACATGGTGACATTCAACCCCAA TGAAAACCTTGAAACCGTCATGCAGCGCGCTGCTACTGAGCAGACTACGCTCACTGCTTTTTTTGCTGCCAATGC TGATCAAGGTCCCCTTGGTGTTGAAGCTCGCACATATACATACCAGGAATTCCCTCAGAAATTTGTCTTCAAAAA TAGGATCAAGAAGTGGGCCCTTCGACAGTCGGGATTCGCACTGGGCCGCATGTACTTTGTTCCACCAACTGCTGG TGAGAGGTTCTACCTTCGAACCCTTCTTACTGTAGTCAAAGGGCCGCAATCATTTGAAGACCTTCGAACCTACAA CGGAATTTGTTATGAATCTTTTCATGGAGCTTGCCTTGCCCGTGGCCTCCTTGAAGATGACGGAGAATGGCGCCA ATGTTTAACAGATGCAGCTCTAATCAAAACAGGTCAACAACTCCGACGTCTTTTTGCAACCCTCCTCCTATTTTG CGCACCATCTGAACCTCACACTCTCTGGACTCAATTCCGTGAGCACATTTGTGATGATCTCCGACCTCGCATCAC CCAACTTCTTCAAAGAACACCTACAGAGGACGAGATTTATGATTTCGGCCTTTACGAAACAGAGAAGATCTTGAA CGAATCAGGCAGGCTTCTCAGTGACTGGCCTTCCATGCCGCGGCCTACTAATGACTGGGCTTCAATCGAAGACAA TTCCAATGCACTTATTACTGAACAGCTTGCTTACAACCGCCATACTGAACTTGCGTCTCTAGAAAGAAATCTTCA GTGCTTAAACCAGGAGCAAGAAGACGCATATAACCACATCATCCAATCCGTTGAACTCTCTCAAGGTCGTATATT CTTTGTGAATGGGCCGGGGGGAACAGGAAAGACATTTCTTTACAATACTATCTGTAATAAGGTCCGTAGTGAGGG CTGGATAGTACTATGTGTTGCTTCATCGGGAATAGCAGCCTTATTGATCCGTGGCGGTCGAACAGCCCATTCTAT GTTCAAAATACCTATCAACAACCTCAATGAAGACTCCTTCTGTCACATTCCTAAAGAAAGTCATCGAGCAGGTCT GCTTCAGGCTACGCGTTTGATCATCTGGGATGAAATAGGTGCCCAACACCGTTATGCACCTGAAGCGCTAGACAG AACATGCAGAGACATTCGAAACAATGACCGCCCATTTGGTGGGATAACAGTAGTCTTTGGCGGTGATTTCCAGCA AACCCTACCAGTTATACCTCGAGGCTCACGCGACCAGATAATTGACGCAACTATCCAGCGATCTTTATTATGGGA ACATGCAGAAATTCTCAAGTTGCACCGAAATATGCGGCTCGAAGCTGATGATAGGGAATCCCAATCTTTCTCAGA GTGGCTACTCGATGTGGGGCATGGAAGGGGAAACAATGATGGCAAGATTAATCTGCCAGCGGAAATGAGATTGGA TGATATCAATGATCTCATTGATGCCATTTATCCAGCTATCAACACGACACCACCACCTCCACCAGACTACTTCCT TCAACGAATGATTCTCGCACCACGTAATGCTGATGTGTCTGATGTGAACCACACAATCCTCGCCCAAATGTCTGG TGAAGAACATGTCTATTTTAGCGCTGACCAACTTATACATGAAGAAGGGGCTGACGGTGCTCTCGAGCCTATACC GGTGGAATTCCTGCGGTCTGTCAATGCGCAGAGCCTTCCACCTGGTGAATTACCAATCAAAATTGGGTGTCCTCT TATTCTCCTTCGTAATCTCTCACCTTCACATGGTCTTTGTAATGGAACGCGGATGGTTGTGACTCGGATGTCCAG TAGAGTCCTCGAGGTTCGAATTATTGGAGGAGATCATGGTGGTGAACTTGCTTTCATTCCCCGTATTGCACTTAT CCCATCCAATAGCACTGAGTTCACCTTCAAATTTCGCAGACTTCAATTCCCGGTTCGACTTGCATTTGCACTGAG CATCAACAAATCACAAGGGCAGTCGGTTAGATTTGTTGGGTTGGATTTACGGTATCCTGCATTTTCTCATGGACA ACTCTATGTAGCTCTGTCTCGAGCAACATCACCCCGAAGAATCAGATATATTCTTCCTGAAGACGCTGTAGAAAA TTATACTACAAATGTTGTATATCCAGAAGTACTTTTTGATTAG

Fungal Genomics

General Properties

PFAM Domains

Swissprot hits

GO

SignalP

Transmembrane Domains

Transcription Factor Class

Expression data

Analysis 1: Developmental stages of Agaricus bisporus (strain A15). Published in Pelkmans et al, Applied Microbiology and Biotechnology, 2016

Sequences