Aniseed - Transcript Card

Sequences

Amino acid sequence

Length: 1,223

>KH.C12.156.v2.A.nonSL7-1
LRLPHAIRMVVTTTHTGLVKEANNCKCKQFRKTETFYSGQNFCSAELKSKVSKSVTKTIY
ETVQVTSTNKNCNRHRISKTNTRMPFSMRIRRRELSAAVAVILMIIFPREFSYSVGVAAQ
SVPSPTQRLSSTPALFEDLPEESLANTKDPCKARLFLGDIALDEEDVENIFGETADDFIQ
NVGKAPATPTRSPIGDVMSSPPSPSSNPNRRRRKGRGRKKRRRNRKSRKNVQRQQATLDF
DVASPSNMTSEVFASYNSSQGNRTNTPVRTTGDTLRTGIPNLRELSLVLDREVSRRRSDV
MDIDDVARAGRRRGGRRNRKRKRKGRRRNRHRRLRYKSRRQRAEEVFKRTRRAATARQER
KWPHGVIPYTISANFTGSQRAMFKQAMRHWEGQTCLTFIERTNEDNYIRFTYRPCGCCSY
VGRKGTGPQAISIGKNCDKFGIVVHELGHVIGFWHEHTRPDRDDHIEIIYKNIQAGQEYN
FEQMDSSEINSLGEKYDYYSIMHYARNTFSKGMFLDTIRPMVDQETGMRPSIGQRTQLSE
GDVIQANKLYSCPTCGSTMQSTTGNISSPNWPASYPAYSNCEWRISVTPGEKIVMDFTSL
NIFRSRGCWYDYIEIRDGHWERSPLIGRYCGNNLPPQITSTDSRIWMKFRSTSNFNGSGF
RLRYEAVCGGDIRRNSGQIQSPNYPDDYRPSKECIWTVVVDEGYQVGLSFQAFKVERHDT
CSYDYLEVRDGPNATSELIGRFCGSDRPDDIKATTNTLWIKFVSDASVNKAGFAASFFKE
RDECALESNGGCQQKCINTLGSFKCACYPGYELSRDGMTCEAACGGYVTTPDGEITSPNW
PREYPTNKQCIWQIVAPPQHRITIEFDKFELEGNEVCKYDYVEVRSGLTDESTFHGKFCG
TELPPVISSTINQMRIKFNSDDTVAKRGFRIRFTSDRDECAVRNGGCMHVCVNTVGSYMC
SCRNGYVLHSNGHGCKEAGCEHDVTSYVGEITSPNWPNKYPSRKECTWHISTIAGHRVKL
VFNEFELESHPDCAYDHLELYDGSNSTAPILGRYCGSKKPSPVVASGIHMFVKFFSDASV
QKRGFSASHTTVCGGSLNASARTKDLFSHPQYGDTIYVNGRECDWVITASNGYGVELMFR
AFEVEDETDCSYDFVEVFDGPTDSAVRFGRFCGYESPDTIFSSGDSLLVRFHSDDTVNKK
GFQASYSSTVLQDTVSLVQVNAA

Nucleotide sequence

Length: 4,393

>KH2012:KH.C12.156.v2.A.nonSL7-1
AAGTGAGTAGAAGAAGCGATAGTCCCAAGTGCGATATATGTTAACTGCGCTTGCCACACG
CCATCAGAATGGTAGTGACAACGACCCATACAGGGCTGGTAAAAGAGGCAAATAATTGCA
AGTGCAAACAATTTCGAAAGACTGAAACATTCTACAGCGGACAAAATTTCTGCAGTGCAG
AACTTAAGAGCAAAGTTTCAAAGTCAGTTACAAAAACTATATACGAAACGGTGCAGGTCA
CCAGTACAAATAAAAACTGTAACCGTCATCGGATTTCTAAAACGAACACTAGAATGCCGT
TTTCAATGAGGATACGGAGAAGGGAACTTTCGGCCGCCGTTGCCGTAATTCTGATGATCA
TTTTTCCGCGGGAGTTTTCTTACAGCGTCGGGGTAGCAGCCCAGAGTGTACCATCGCCAA
CGCAAAGGCTTTCATCGACGCCGGCGCTTTTTGAAGACTTACCAGAAGAGAGCCTAGCCA
ATACAAAGGACCCATGCAAAGCTAGACTTTTTCTTGGCGACATTGCTTTAGATGAAGAAG
ACGTAGAAAATATCTTCGGTGAAACTGCCGACGATTTCATTCAAAACGTCGGGAAAGCAC
CGGCAACCCCAACCCGGTCCCCAATCGGTGACGTCATGTCTTCACCCCCAAGTCCCAGCT
CCAACCCCAACCGCCGGAGAAGAAAAGGGCGCGGAAGAAAAAAGAGACGGCGGAACAGAA
AGTCAAGAAAGAACGTTCAACGTCAACAAGCAACTTTAGATTTTGACGTGGCGTCACCTT
CAAACATGACGTCAGAGGTTTTTGCTTCGTACAATTCAAGCCAAGGCAACCGTACCAATA
CGCCTGTTCGAACCACCGGCGATACATTAAGAACAGGAATCCCAAATCTACGAGAACTAT
CTTTGGTTCTTGACCGAGAGGTATCCAGACGACGTAGTGACGTCATGGATATTGATGACG
TAGCAAGGGCGGGTCGCAGAAGGGGCGGGCGTAGAAATAGAAAACGTAAACGAAAAGGGC
GAAGGAGGAATAGACACAGGCGACTTCGGTACAAGAGCAGACGACAAAGAGCAGAGGAAG
TATTTAAACGGACTCGTAGAGCTGCAACTGCTCGACAAGAGAGAAAATGGCCCCATGGTG
TAATTCCGTATACCATCAGTGCTAATTTCACAGGTTCCCAAAGGGCGATGTTCAAACAAG
CCATGAGACATTGGGAAGGCCAAACCTGCCTTACATTTATTGAGCGAACGAACGAAGACA
ACTACATTCGATTCACTTACCGTCCTTGCGGTTGCTGTTCGTACGTTGGCCGCAAAGGGA
CTGGACCACAAGCCATTTCGATCGGAAAGAATTGCGATAAGTTTGGTATCGTCGTTCATG
AACTCGGTCATGTGATTGGTTTCTGGCACGAACATACGAGACCTGATCGCGACGACCACA
TAGAAATCATATACAAGAATATTCAAGCCGGTCAGGAATACAATTTCGAACAAATGGACT
CGAGTGAGATCAACTCCCTTGGCGAGAAATACGATTACTACAGTATTATGCACTACGCAA
GGAACACCTTCAGTAAAGGAATGTTTCTGGATACGATCCGACCAATGGTAGACCAGGAAA
CTGGGATGAGGCCTTCTATTGGTCAACGCACGCAACTGAGCGAGGGTGATGTTATACAAG
CGAATAAACTCTACAGTTGTCCAACATGTGGTAGCACAATGCAATCAACAACTGGAAACA
TATCGTCACCAAACTGGCCAGCATCTTACCCAGCTTACTCCAACTGTGAGTGGAGAATAA
GTGTAACACCTGGGGAAAAAATCGTCATGGATTTCACAAGTTTGAACATATTTCGAAGTC
GAGGTTGCTGGTATGATTACATTGAAATACGAGACGGTCATTGGGAGAGATCGCCTTTGA
TAGGCAGATACTGCGGCAATAACCTACCCCCTCAGATTACATCCACTGACAGCAGGATTT
GGATGAAATTTCGAAGCACCAGTAACTTTAACGGGAGCGGCTTTCGGTTGCGGTACGAAG
CTGTATGCGGAGGTGACATTCGAAGAAACTCTGGTCAAATACAAAGTCCTAACTATCCTG
ACGACTATCGACCAAGTAAAGAATGTATTTGGACAGTTGTTGTGGACGAGGGATACCAAG
TCGGCCTCTCATTCCAAGCATTCAAGGTCGAGCGTCACGACACTTGCTCTTACGACTACC
TAGAAGTCCGAGATGGCCCGAACGCAACCTCGGAACTAATCGGAAGATTCTGCGGATCTG
ATAGACCAGATGACATCAAGGCCACCACAAATACGTTATGGATTAAATTTGTATCTGATG
CATCTGTCAACAAAGCTGGTTTCGCCGCTTCGTTTTTCAAAGAAAGAGACGAATGTGCAT
TGGAATCAAACGGAGGATGCCAACAGAAGTGTATCAACACCCTGGGAAGTTTCAAGTGCG
CCTGTTATCCTGGGTATGAGCTCAGTCGCGACGGAATGACATGCGAAGCTGCATGTGGTG
GTTACGTCACTACTCCTGACGGTGAGATTACGTCACCAAACTGGCCTCGTGAATACCCGA
CCAACAAGCAGTGTATCTGGCAGATAGTAGCCCCGCCACAACATAGGATAACCATCGAGT
TTGATAAATTTGAACTGGAAGGAAATGAAGTTTGCAAATACGATTACGTTGAGGTGCGCA
GCGGACTCACTGACGAATCGACATTCCATGGAAAATTCTGCGGAACTGAGTTACCCCCTG
TTATCTCTTCTACTATTAACCAAATGAGAATCAAATTCAATTCGGACGACACTGTTGCCA
AACGAGGCTTTCGAATTCGATTCACTTCTGACAGAGATGAATGCGCAGTAAGAAACGGGG
GTTGTATGCATGTGTGTGTCAACACGGTTGGCAGCTACATGTGCAGTTGCAGAAACGGTT
ACGTTCTCCACAGCAATGGACATGGCTGTAAAGAAGCCGGGTGTGAGCACGACGTAACGT
CCTATGTTGGCGAGATAACCAGCCCAAATTGGCCAAACAAATACCCAAGCAGGAAAGAAT
GTACATGGCATATATCGACAATAGCTGGACACAGAGTAAAACTGGTTTTTAACGAGTTTG
AATTGGAAAGTCACCCAGACTGTGCATACGACCACCTTGAGCTTTACGATGGTTCAAACT
CCACCGCCCCAATATTAGGTAGATACTGTGGCAGCAAGAAACCTAGTCCCGTTGTTGCAA
GTGGTATTCACATGTTCGTTAAATTCTTCTCCGATGCATCCGTTCAAAAGCGTGGATTTT
CTGCCTCGCATACAACAGTTTGTGGAGGAAGTCTAAATGCCAGCGCCCGCACAAAGGATC
TATTTTCCCACCCACAGTACGGCGACACCATCTACGTTAATGGGAGGGAATGTGACTGGG
TTATAACCGCTAGTAATGGTTATGGTGTTGAACTAATGTTCAGAGCTTTTGAGGTAGAGG
ACGAGACTGACTGCAGTTACGACTTTGTAGAAGTATTTGACGGGCCAACAGATAGCGCAG
TGCGTTTTGGTCGCTTCTGCGGATACGAGTCTCCCGATACAATTTTCTCATCTGGTGACT
CTCTGCTCGTTCGATTCCACTCAGACGACACAGTAAATAAGAAGGGATTCCAAGCTAGTT
ACAGTAGCACTGTGCTACAAGACACCGTTAGTTTGGTGCAGGTCAATGCAGCATAAACGT
GCCTCATCAAATTGGGAAAGATACTTGCTAGCGGCTTTCTAGATAAATCTACAAGGACAG
TCACTGCCGCTTTGGTGGCCACGTATATGGTTCTAAGGTTGCTGTTCGTTTTGTCGCTAA
GAAGTCCAAGCTGCTTAAGGCGGCTATCCTCATATTTTATATCCACTGCGACATTGCCAC
TTCGTAACTGCTTTGTATAGTTAACTCTCGCAAATCCAATGGTTGCGCTTCTGTTATGCT
TACCAGCAATATAAACTGAGCCCAACCGTATGCACCTTTTCACAAGCACAAATTTCACAG
ACATATTTTTATTCACTTTTTGAAGGTTTCACTGTTTCTTCACTTTGTATGGACACAGCA
TCTTCCTATGGGTCTCACCTGTGTTAGCTAAATACCGTCTTCCAATACCAAACAAAATGA
TATTTTTTTGAGCTAGTTGAGGCCCAGAGAATGATTTTTTTGTTTTTGTATCCCGCGAAA
TCCAATACCCAACCGCTTAACTTGTTCATTGCACTTTTTTTGCTTATTTGTTTCTACTCA
CCAGCAACTCAATAACTATTGAAGATATTATATTTGTTTCTTGCTATTGATTCACATTTT
CGTTCAAATCATGATTCACTACTATTTTCTCGCGTTTGAAAGCGACAAATAAAATTGTCC
AGCTTTGCAAAAA

InterProScan

PIRSF	BMP_1/tolloid-like (IPR015446) - T[90-1222] 0.0
Gene3D	MetalloPept_cat_dom_sf (IPR024079) - T[352-550] 3.7E-77
CDD	ZnMP_TLD/BMP1 (IPR034036) - T[353-553] 3.07293E-146
SMART	Peptidase_Metallo (IPR006026) - T[358-500] 1.7E-57
Pfam	Peptidase_M12A (IPR001506) - T[360-553] 1.3E-73
PRINTS	Peptidase_M12A (IPR001506) - T[383-401] 7.4E-34 - T[437-455] 7.4E-34 - T[456-473] 7.4E-34 - T[495-510] 7.4E-34 - T[538-551] 7.4E-34
Gene3D	Sperma_CUB_dom_sf (IPR035914) - T[551-666] 3.8E-38 - T[667-778] 4.1E-39 - T[821-935] 9.8E-42 - T[977-1090] 4.7E-38 - T[1091-1210] 2.3E-31
Pfam	CUB_dom (IPR000859) - T[555-664] 8.9E-34 - T[668-777] 1.3E-39 - T[824-933] 2.6E-38 - T[980-1088] 4.0E-35 - T[1093-1206] 5.6E-28
CDD	CUB_dom (IPR000859) - T[555-666] 2.44939E-40 - T[668-778] 7.6471E-41 - T[824-935] 7.8249E-42 - T[980-1091] 6.15606E-40 - T[1093-1208] 3.74202E-36
SMART	CUB_dom (IPR000859) - T[555-667] 5.0E-45 - T[668-780] 2.6E-48 - T[824-936] 1.8E-48 - T[980-1092] 5.3E-47 - T[1093-1209] 6.0E-39
ProSiteProfiles	CUB_dom (IPR000859) - T[555-667] 30.075 - T[668-780] 32.886 - T[824-936] 32.278 - T[980-1092] 29.919 - T[1093-1209] 28.196
SUPERFAMILY	Sperma_CUB_dom_sf (IPR035914) - T[560-668] 1.31E-35 - T[668-777] 4.97E-36 - T[824-935] 1.22E-36 - T[985-1093] 2.36E-36 - T[1106-1208] 1.96E-29
ProSiteProfiles	EGF-like_dom (IPR000742) - T[780-821] 8.29 - T[936-976] 8.421
SMART	EGF-like_Ca-bd_dom (IPR001881) - T[780-821] 4.6E-10 - T[936-976] 4.6E-9
ProSitePatterns	EGF_Ca-bd_CS (IPR018097) - T[780-805] . - T[936-960] .
SMART	EGF-like_dom (IPR000742) - T[783-821] 1.3E-5 - T[939-976] 1.1E-4
ProSitePatterns	EGF-type_Asp/Asn_hydroxyl_site (IPR000152) - T[796-807] . - T[951-962] .
ProSitePatterns	EGF-like_CS (IPR013032) - T[805-820] . - T[960-975] .