Xiphophorus maculatus (southern platyfish): 102234845
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Entry
102234845 CDS
T02923
Name
(RefSeq) A disintegrin and metalloproteinase with thrombospondin motifs 2-like isoform X1
KO
K08618
a disintegrin and metalloproteinase with thrombospondin motifs 2 [EC:
3.4.24.14
]
Organism
xma
Xiphophorus maculatus (southern platyfish)
Brite
KEGG Orthology (KO) [BR:
xma00001
]
09180 Brite Hierarchies
09181 Protein families: metabolism
01002 Peptidases and inhibitors [BR:
xma01002
]
102234845
Enzymes [BR:
xma01000
]
3. Hydrolases
3.4 Acting on peptide bonds (peptidases)
3.4.24 Metalloendopeptidases
3.4.24.14 procollagen N-endopeptidase
102234845
Peptidases and inhibitors [BR:
xma01002
]
Metallo peptidases
Family M12: astacin/adamalysin family
102234845
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
TSP1_ADAMTS
TSP_1
Pep_M12B_propep
Reprolysin
ADAMTS_spacer1
ADAMTS_CR_2
Reprolysin_5
Reprolysin_2
Reprolysin_3
ADAMTS_CR_3
TSP1_spondin
Reprolysin_4
Peptidase_M10
Motif
Other DBs
NCBI-GeneID:
102234845
NCBI-ProteinID:
XP_023184280
LinkDB
All DBs
Position
23:18179063..18311673
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AA seq
2105 aa
AA seq
DB search
MALSPGLTVLIILPAFLLHTSGLYIASSVDSLQHILGDYGLVRPISVDAEGRFLSHAVSG
GRVAAGQSRRRRKREVGEGNDEWEGHRGAEENREYHASQERLYYNVTVFGREFHLRLRHN
ARLVAPGAKMEWHDDSDSIRYSEPLHNECLYVGDITDTPGGTVALSNCDGLAGMIRTEKE
EFFIEPVERGDGVIEKEEDGGGGRTHIIYRSSAVKKVPISSPAADYHSRGVDLGGLMDLE
SLYRGVQQSINNTRASRVRRQSLDRAYNIEVLLGVDDSVVQFHGKEHVQKYLLTLMNIVN
EIYHDDSLGAKINVVLVRIIMLGYGKSMSLIELGNPSQSLENVCRWAFLQQKQDTGDAEY
HDHAIFLTRQEFGPTGMQGYAPVTGMCHPVRSCTLNHEDGFSSAFVVAHETGHVLGMEHD
GQGNRCGDEVPMGSIMAPLVQAAFHRFQWSRCSMQELGRYLQSYDCLRDDPFDHNWPSLP
QLPGLHYSMNEQCRFDFGVGYTMCTALQKVGQTGSQYRTFDPCKQLWCSHPDNPFFCKTK
KGPPIDGTMCGNGKHCFKGHCIWLTPDIMKQDGNWGSWSEYGQCSQTCGGGVQFRTRNCD
NPKPANGGRPCRGVTYQFQMCNTNECEDIYSDPREEQCHASEYINKHLWLPYEHPDPNKR
CHLYCQSKETRDVVLMEKLVLDGTLCSYKDPHSVCVRGECEKVGCDGVVGSSKQEDKCGV
CGGDNSSCKTFKDTIMRTAKKQGFLKVLEIPRGARHLLIQELKATSHIFAVKNVASGLFF
LNGENDYPESRSVIEKGVEWEYENDNDKETVQTTGPLRHGILIMMKLHGDEDVNLSYKYM
MNMDGDSNIQDNMLVEDSAYEWAPKRWSYCSKACGGGKQYLRYGCRRKVDSKMVHKSFCN
KSNMKPRGDIRDCNQKPCPPPIWVTGEWQNCSKPCGKTGMQVRSVTCVQPSEDNTTRLIH
NKHCSDDRPESRRSCNRYPCPTQWRVGPWSQCSVTCGNGTQQRQALCHTRDNTIGLCLDS
KPDTIRVCRLEPCRKGSSDLNKNGNILIQWLSRPNPNYPRISSRLPCKGDRSVFCRMETL
QRYCSFPDFWRLCCKTCSTINSTKPEPNSTATSTFNITVTPTPSKNILCSIFTTAQPTKT
AIPTTSTSPTTHAPTLRTIALDSTESSSRSTKTIPTHQLLPTSIPFIPTVFSGSVSPSTN
TRLDFSTTPDVFSIKSSLRPSTTISTHPVDTVSSPSFSTNYPASTIQALYSIPSSSSTTK
ETPTHPPAQTSIFFLPTISPNAITTPSTSHANAEITEPLLQKTSTTSTAGTASPKVLAST
PTPVTSPIESTTKRVTMPKYNPDRKIQPQTKKRVVPSQERGKKEIPQRNTAKKYVPPRNN
LQKKTSTTAKTGTPKKTIASHSNVKKATPTNMIPTNTSKSTLPNRPPKRTIPPNTKVIKT
SPPSTSPKKNILPNPTMKKATPTNASKETSPSTPTAKKKSLQDKPPKKTIPSNTKVMKTN
PPSTSPKTNILRNPTMKKIAPTNTTSKVTSPSTHTPKKKTLQNKHPKKSILPNTKVTKTN
PPSTSVKKTISNPTIKKTTPTNTTSTASKGPSPSTNTAKNTLQNRHPKKSIAPNTKVIKT
SPPSTSSNKTGPPKKSILPKTKVIKTNPPNINPKKNILAKPTAKKTPSNITPSNPSAKRT
TPLNNTPNNIYPSNSTVKMSIPANTTPRMAVPKNSLKKTNPPYSGTRNASTPNTTPKKTT
IVNNPSKRKTPNITSKKTAPTKNIPEKKTKSSPKKEVSLKANPKKTTEPKKSFTKQPQTK
TNLKHNPKKAPESAKSKVNVKQNKVKEIKTNRKQNASYFTTSSTPYQVLSSMVPSSSFVQ
ITVVSLSPSDSKVSPSFINRDASVTDRTPVMHYSNTERESFTPDPSDDFITPLNDINTEA
DTRTIPSSEITVTSSGEATSWTYPSSDDNKESYSSSGVVTETVVLEDGLSMVIPITNGED
TTERAFPPWLDLSDYIPVGVPVSTMTSDLPASPVPTAVPHTKEEQVTVSPEIISTLKPLQ
NAAENNESNSIAAFDNRVIVAESDISQNNLIPRHLRERTRNKRIQELLEEKRNFLLRMKR
GNTEQ
NT seq
6318 nt
NT seq
+upstream
nt +downstream
nt
atggctctctcgccaggattgactgtcctaattattctgccggccttcctgctgcacacc
agcggcctttacatcgccagtagcgttgactccctgcagcatattctgggggactatgga
ctggtaaggccgatcagtgtggatgcagagggccgctttctgtcacatgccgtctcgggt
ggtcgcgtggcagcggggcagtcccgtaggcgccggaagagggaggtaggagaaggcaac
gatgagtgggaaggacatagaggagccgaggagaacagagagtaccatgccagtcaggag
aggctttactacaatgtcaccgtcttcggccgggagttccacctgcgcctgcgccacaac
gccaggctggtggcccccggagccaagatggagtggcacgacgacagtgacagcattcgg
tactctgagcccctgcataatgagtgcctgtatgtgggggacatcacagacacaccagga
ggcaccgtggctctcagcaactgtgacggactggctggcatgatcaggacagagaaagag
gagttttttattgaaccagtggaaaggggcgatggagtaatagaaaaagaggaggatgga
ggaggagggaggacacacatcatctatcgctcgtcagctgttaagaaagtgcccatcagc
agcccagcggcggactaccactccagaggtgtagacctgggtggtctcatggacctggag
tctctgtaccgtggcgtgcagcagagcatcaacaacacacgggcttcacgggtgcgccga
cagagtctggacagagcctacaacatcgaggtgctgctgggcgtcgatgactccgtggtc
cagtttcacgggaaggagcatgtgcaaaagtacctgctcacactcatgaacatcgtgaac
gaaatctaccatgacgattctttgggagcaaaaatcaatgtggtgctggtgcggataatc
atgctgggctatggcaagtccatgagcctgattgaacttgggaatccatctcagagtctg
gagaacgtgtgtcgctgggcctttctgcagcagaagcaagacacgggggacgctgagtat
catgatcatgccattttcctgacacgccaagaatttgggcccactggcatgcaaggttat
gctccagtgacggggatgtgccatccggtgaggagctgcaccttgaaccacgaggatggt
ttctcttctgcctttgtggtggcccatgaaaccgggcacgtgcttgggatggagcacgat
ggccagggaaaccgctgtggggacgaggtccccatgggcagcatcatggctcctctggtg
caagctgccttccaccgctttcagtggtccagatgtagcatgcaggagctgggacgctac
cttcagtcctatgactgtcttcgggacgacccgtttgaccacaactggccatcgctgcct
caacttcctggtttgcactactccatgaatgaacagtgtcgttttgacttcggtgtgggc
tacaccatgtgcaccgcgctacaaaaggtgggccagacaggatcgcagtaccgtacgttt
gacccctgcaagcagctgtggtgcagtcacccagacaatccgttcttctgcaaaaccaag
aagggcccacccattgatggcaccatgtgtgggaatggaaagcactgttttaaaggtcat
tgcatctggttgactcctgacatcatgaagcaagatggaaactggggatcatggagcgag
tatggccagtgctcacaaacctgtgggggaggagtgcagtttcgcaccagaaactgtgac
aatcccaaaccagccaatggtggccggccctgcagaggggtaacttaccagttccagatg
tgcaacaccaatgaatgtgaagacatttacagtgatcccagggaggagcagtgtcacgcc
tcagagtacatcaacaagcacctctggctgccttatgaacacccagaccctaacaaacgc
tgccacctgtactgccagtcaaaggagaccagagacgtggtcctcatggagaaactggtg
ctggatggcacactctgctcttacaaggacccgcacagtgtgtgtgtgcgtggagagtgt
gagaaggtgggctgtgatggcgtggtgggctcctcgaagcaggaggacaagtgtggcgtg
tgcggaggcgacaactccagctgtaaaacctttaaagacacaatcatgcggactgctaaa
aagcagggcttccttaaggttcttgaaatccccagaggagcgaggcatttactcattcag
gagctgaaagccacctcacacatttttgctgttaaaaatgtggcatcaggactgtttttt
cttaatggtgaaaacgactaccctgagtcacgctctgtgatagagaagggcgtagaatgg
gaatatgagaatgacaacgacaaggaaaccgtccagaccacagggcccctcagacatgga
attctaataatgatgaaattgcatggcgatgaggatgtcaatttgtcgtataaatacatg
atgaatatggatggtgattcgaacattcaggacaacatgctggtagaggacagtgcctat
gaatgggctccgaagagatggtcttattgttccaaagcttgtggtggagggaagcagtat
ctgcgatatggatgcagaaggaaagttgacagtaagatggttcacaaaagcttctgtaat
aagtccaacatgaagcccagaggagacataagagactgcaaccagaagccttgccctcca
cccatctgggtgacaggagagtggcagaactgcagtaaaccctgtggaaagacagggatg
caagtacgctccgtcacctgtgttcagccttcagaggacaacacaacacgcctcattcac
aataaacactgcagcgatgaccgtcctgagtcccgcaggtcctgtaaccgatatccctgc
cccacgcagtggagagtcggcccctggtcacaatgttcagtgacttgtggaaacgggacg
cagcagaggcaggcactgtgccacaccagggacaacaccataggactctgtctagacagc
aagcctgacaccataagagtttgtcgcctggaaccatgtcgcaagggctcatcagacctc
aacaagaatggcaacattctgatccagtggctttcccgccccaaccccaactacccaagg
atctcatcacgcctaccatgtaaaggagatcgctctgtgttctgtcgtatggagactctg
caacgctactgctctttcccagacttctggcgattatgctgcaaaacctgcagcactatc
aacagcaccaaacctgaacccaactccactgctacatccaccttcaacatcactgtcaca
cctactccatccaagaacattctctgctccatcttcaccaccgctcaacccactaaaact
gccatccccactacctcgacttcaccaaccactcacgccccaaccctaagaaccatagcc
cttgattccactgaatcttcatcaagatcaacaaaaactatccccactcatcagttactt
ccaaccagcattcctttcatccccactgtcttttcaggatctgtttcaccttctactaac
actcgtttagacttctctacaaccccagatgttttttccatcaaatcttcactgagaccc
tcaacaacaatttccactcatccagtggatacagtgagttctccctccttcagcaccaat
tatccagcttctacaattcaagccctttattccatcccatcttcatcatctaccaccaaa
gagactcccactcatccaccagctcaaacaagcatttttttcctcccaaccatctctcct
aatgcaatcacaacaccttctactagtcatgcaaatgctgagatcacagagccacttttg
cagaaaacttcaactacttcaacagctgggacagcaagtcccaaagtccttgcatcaaca
cccactcctgtgacaagtccaatagaaagcactactaaaagagtcaccatgccaaaatac
aatcctgataggaaaattcagccacaaactaagaaaagggtggttccatcacaggaacgt
ggaaaaaaggaaatcccacaaagaaatactgcaaaaaaatatgttccaccaaggaataat
cttcaaaagaaaacaagtaccactgcaaaaactggaactcccaaaaagactattgcttca
cattctaatgtgaagaaggccactccaacaaacatgatcccaactaatacttcaaagagt
actctacctaatagacctccaaagaggaccattccaccaaatactaaagtgataaagact
agcccaccaagcaccagtcccaaaaaaaacattcttccaaacccaactatgaaaaaggcc
actccaacaaatgcatcaaaagagacttctccatcaacccctactgcaaagaagaaaagt
ctgcaggataagcctccaaaaaaaactattccatcaaacactaaagtgatgaagactaac
ccaccaagcaccagtcccaaaacaaacattcttagaaacccaactatgaaaaagattgct
ccaacaaatacaacatcaaaagtgacttctccttcaactcatactccaaagaagaaaact
ctacagaataagcatccaaagaagagcattctaccaaacactaaagtgacaaagactaac
ccaccaagcaccagtgtcaaaaaaactatttcaaacccaaccataaaaaagaccactcca
acaaatacaacatcaacagcatcaaaagggccttctccttcaactaatactgcaaagaat
actttacagaataggcatccaaagaagagcattgcacctaacactaaagtgataaagact
agcccaccaagcaccagttccaataaaactggtcctccaaagaagagcattctaccaaag
actaaagtgataaagactaatccgccaaacataaatccaaaaaagaatatccttgcaaag
ccaactgcaaagaagactccatcaaatattaccccatcaaacccttcagcaaagaggaca
actccactaaataatacaccaaacaacatttatccatcaaactctacagtgaaaatgtcc
attccagcaaatactacgccaagaatggctgtcccaaagaatagtctgaaaaagactaat
ccaccatacagtggtaccagaaatgcatctacaccaaatacaactccaaaaaagactaca
atagttaataatccttcgaaaaggaaaactccaaacatcacttctaaaaagacagctcca
acaaagaacattccagagaaaaaaacaaaatcttcacctaaaaaagaggttagtttaaag
gccaatcccaaaaaaactactgaaccaaagaaaagtttcacaaaacaacctcaaacaaag
accaaccttaaacacaacccaaaaaaagccccagaaagtgctaagtcaaaggtcaatgtt
aaacagaataaagtgaaggagataaagaccaatcgaaaacagaatgcgtcttactttacc
acatcttccaccccttatcaggtattgtcttccatggttccttccagcagctttgtacaa
attacagtggtgagcttgtctccctctgattcaaaagtcagtccttcattcatcaacagg
gatgcatcggtcacagacagaactccagtcatgcactatagcaacacagagagagagtct
tttacaccagacccttctgatgatttcataacaccccttaatgatattaacactgaggct
gacacacgaactattccatctagtgaaatcacagtgacaagtagtggtgaagctaccagc
tggacttatccaagtagtgatgacaataaagagtcttacagcagctcgggagtggtcaca
gaaactgttgtgctggaggatggcctctccatggtgatcccgattacaaacggagaggac
acaacagagagagcctttccaccctggcttgacctttctgactatatccctgtaggtgtt
cccgtttctacaatgacctcagaccttcctgcctccccagttcccactgcggtccctcac
acaaaggaagaacaagtgacagtaagccctgaaatcatctccactttgaaacctctgcaa
aatgctgcagagaataatgagagcaactcaatcgctgcatttgataacagagtcattgtt
gcagaaagtgacatttctcaaaacaatctgatcccaaggcacctcagagaacgaaccagg
aacaaacgaatacaagaacttctggaggagaaacgaaattttctcctcagaatgaaaagg
ggcaacacagaacaatag
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integrated database retrieval system