Xiphophorus couchianus (Monterrey platyfish): 114144509
Help
Entry
114144509 CDS
T05908
Name
(RefSeq) hamartin-like
KO
K07206
tuberous sclerosis 1
Organism
xco
Xiphophorus couchianus (Monterrey platyfish)
Pathway
xco04140
Autophagy - animal
xco04150
mTOR signaling pathway
xco04218
Cellular senescence
xco04910
Insulin signaling pathway
xco05168
Herpes simplex virus 1 infection
Brite
KEGG Orthology (KO) [BR:
xco00001
]
09130 Environmental Information Processing
09132 Signal transduction
04150 mTOR signaling pathway
114144509
09140 Cellular Processes
09141 Transport and catabolism
04140 Autophagy - animal
114144509
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Hamartin
PKcGMP_CC
Motif
Other DBs
NCBI-GeneID:
114144509
NCBI-ProteinID:
XP_027873216
LinkDB
All DBs
Position
5:complement(219952..230317)
Genome browser
AA seq
982 aa
AA seq
DB search
MSREPLSVSDLLLCLESSELQELERVRTAINQQLSSDRGGAVLSSLVEHYLDSSSSQVLL
LLSSIREPHHKVLLEKLNEALTRPGNRAAAIALLGHLIRKQPPWIHHISQAPVLPTLLRC
LKTDGDVAVLVSGVLVLVALLPMIPQAGKQHIYDFFDVFGRLASRSYRNPGQVSAAYLVH
LHAAVYSLFHRLYGMFPCNFVSYLRLHYGMKENLDTFQEVVKPMLEHVRIHPELVTGTQD
SELDPSRWRCCEVHDIIMECCRLSLDPLEDACCPSPQPHLDLSPAPQVWQPISSSGSSVG
QLTLSSSHIQADDVTWSPSSQCGLATPPPEPASPGLAPSLSRCTSISGVKCPSPDSVPVT
TPSEGSHKPAGGLQVRSGVSVKEQQEDGRCLSSQVKQQPIRAQEETSLSHVINGNLSSPD
VRAPSSSSQFLLLTSTSSRSDSPGGPTRSPSDPAPYAPGPAPPYEPLFELALPHAATLFI
RRKTQEALQSAAGRQQQVEEEQSAMSPLKVLEQMIVHGSDAHERLSRRSSAGSRSDRSHL
GGPAPQGEELQRSQLLLVHSQLQYERFKRQQHAIRNRRLLRRVINATALEEQTVAMKAQL
GVQDQEIRSLRSSLSEEQRRLNQLHQDGRTQTDRLLDQNQQLLLQQQRHQQDNQQLQSDL
EDCHGQLRELEAELQGANRKAKHAEHQLTQLGLKLCSSEQQQQQVFLLDQQLVLLRETNR
ALSQQLDEAAAHSWTEEAMLRRSTGNDFQRLKDCDVLQKQKLEAASHRIAELESQLARKD
KLILELKKLLEETKSLSRAELSASESRCVALRRVSQTLQTEMLHLYSQVHLDTHTGSDTC
THSPPLDAGSRNSPSAQDGYKPRPSSSSAVGIINGAVEALSSSSPLSSSPIDSPLAVGSF
LEQQARRLFGPNNQSLEEEEKEEKEEVPAGSPPLGQEVEEATLLTGSPQMEPPAPAADLE
LSVRQRRDELSIMDYNESLPEF
NT seq
2949 nt
NT seq
+upstream
nt +downstream
nt
atgtccagagagccgctgagtgtttcggacctgctgctctgtctggagagctcggagctg
caggagctggagcgggtcagaaccgccatcaaccagcagctgagttcagacagagggggc
gctgtgctgtcctccctggtggagcattacctggactcctcctcctcccaggtgctgctg
ctgctctcctccatcagggagcctcaccacaaggtgctgctggagaagctgaacgaggcg
ctgacccgacccggaaacagagcggcagccatcgccctgctgggtcacctgatccggaag
cagccgccctggatccaccacatcagccaggcgccggtgctgccgacgctgctgcgctgc
ctcaagacggacggagatgtggcggttctggtcagcggggttctggtcctggtcgcgctg
ttacccatgatccctcaggccgggaagcagcacatctacgacttcttcgacgtcttcggt
cgcctggcgtcccggagctacaggaaccccggtcaggtgagcgcggcgtacctggtccac
ctccacgccgccgtttactcgctgttccaccgtctgtacgggatgttcccctgcaacttc
gtctcctacctgaggctgcactacggcatgaaggagaacctggacaccttccaggaggtg
gtcaagccaatgttggaacatgttcggatccacccagaactcgtgaccggaacccaggac
tccgaactggacccgtccaggtggaggtgttgtgaggtccatgacatcatcatggagtgc
tgccgactctctctggacccgctggaggacgcctgctgtccctccccccagcctcacctg
gacctcagccccgccccccaggtctggcagccaatcagcagctcaggaagttcagtgggt
cagctgacgctaagctcctcccacatccaggctgatgatgtcacatggagcccctcctct
caatgtggcttggccacgccccctcctgagcctgcatctccaggcctcgccccctcgctg
agcaggtgtacctccatttcaggtgtgaaatgtccctcacctgactctgtacctgtgacc
acgcccagtgaaggtagccataaacctgccggcggcctccaggtgagatcgggtgtctct
gtcaaggagcagcaggaagatggccgctgtctgtcctcacaggtgaagcagcagccaatc
agagcgcaggaggagacgagcctgagtcatgtcatcaacggtaacctgagcagcccagac
gtcagagcgccatcttcctcctcccagttcctcctccttacttccacctccagccgcagt
gactcaccaggtggacccactcgttctcccagtgaccccgccccctatgctcctggcccc
gcccctccctatgagccgctgtttgagctggctctgcctcacgcggccacactcttcatc
aggaggaagacgcaggaggcgctgcagagcgctgcagggcggcagcaacaggtggaggag
gagcagagcgccatgtctcctctgaaggttctggagcagatgatcgttcatgggagcgac
gctcatgagcgcctcagcaggaggtcgtcagcggggagcaggtcggaccggagtcacctg
ggaggccccgccccccagggggaggagcttcagaggagccagctgctgctggtccacagc
cagcttcagtacgagcgcttcaagcggcaacagcacgccatcaggaaccgccgcctgctg
cgtcgggtcatcaacgccacggcgctggaggagcagacagtcgccatgaaggcgcagctg
ggcgttcaggaccaggagatccgcagcctgaggtcgagtctgagcgaagagcagcggcgc
ctcaaccagctgcatcaggacggacggacccaaacggaccgcctgctggaccagaaccag
cagctgctgctgcagcaacagcgccaccagcaggacaaccagcagctgcagagcgacctg
gaagactgtcatggccaactgagggagctggaggcggagctccagggagccaataggaag
gccaaacacgctgagcaccagctgacccagctgggcctgaagctgtgcagcagtgagcag
cagcagcagcaggtcttcctgctggaccagcagctcgtcctgctgagggaaaccaacaga
gctctgagccagcagctggacgaggctgccgcccacagctggaccgaggaggccatgctg
cggcgcagcacagggaacgacttccagaggctgaaggactgcgacgtcctgcagaaacag
aagctggaggcagccagccacaggatagcagagctggagagccagctggccaggaaggac
aagctgatcctggagctgaagaagctgctggaggaaaccaagagcctcagcagggcggag
ctgtcggcctcagagagtcgatgtgtggccctgaggagagtcagccagacgctgcagact
gagatgctccacctgtacagccaggttcacctggacactcacacaggaagtgacacgtgc
acacacagccctcctcttgatgccggcagcagaaacagcccctccgctcaggatggctac
aagccccgcccctcttcttcttctgctgtgggaatcataaacggtgctgtggaggccctc
tcctcctcctcacccctctcctcctcgcccatcgactccccgctggccgtcggatctttc
ctggagcagcaggcgcggcggctgtttgggccaaacaaccagagcctggaggaggaggag
aaagaggagaaggaggaggtcccagcagggagccctcctctgggtcaggaggtggaggag
gccaccctcctcactgggagtcctcagatggagcctcctgctccagctgcagacctggag
ctcagcgtccgccagcggagagacgagctcagcatcatggactacaacgagtcgctgccc
gagttctga
Xiphophorus couchianus (Monterrey platyfish): 114144594
Help
Entry
114144594 CDS
T05908
Symbol
tsc2
Name
(RefSeq) tuberin isoform X1
KO
K07207
tuberous sclerosis 2
Organism
xco
Xiphophorus couchianus (Monterrey platyfish)
Pathway
xco04115
p53 signaling pathway
xco04140
Autophagy - animal
xco04150
mTOR signaling pathway
xco04218
Cellular senescence
xco04910
Insulin signaling pathway
xco05168
Herpes simplex virus 1 infection
Brite
KEGG Orthology (KO) [BR:
xco00001
]
09130 Environmental Information Processing
09132 Signal transduction
04150 mTOR signaling pathway
114144594 (tsc2)
09140 Cellular Processes
09141 Transport and catabolism
04140 Autophagy - animal
114144594 (tsc2)
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:
xco01009
]
114144594 (tsc2)
Protein phosphatases and associated proteins [BR:
xco01009
]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-1
PP1-interacting proteins (PIPs)
114144594 (tsc2)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Tuberin
DUF3384
Rap_GAP
Motif
Other DBs
NCBI-GeneID:
114144594
NCBI-ProteinID:
XP_027873404
LinkDB
All DBs
Position
5:30075085..30103168
Genome browser
AA seq
1898 aa
AA seq
DB search
MNKQQSKETLKEKVKGIFGLGTQRQQTKQCDSKLPEFIITADIIKELHPDCGLSNRIRMM
NQICDLAKIKKFEENAVEAVWKAVEDMLSPEQPAEARHAVLQLLRAIIQGQGEWLGPLRA
YFFKVIRDYQPCNEDLSERLEVFKALTENGKDITYLEEDIARFVLLWMDIGLTSDFLHVL
VNLVKYNSCYLDQNVSSMVQKICLLCNRTTSSTDIEVALQVLDAVVCYNCLPSESLTVFI
ITLCRTVNVKEFCESCWKLMRKVLGTHLGHSAIYTMCRIMEERVYMEDAPLLRGAVFFVG
MALWGAHRLPALKNTPTLVLPSFYKAMSCANEVVSYEIVLSITRLIKKYGKELQVVTWDI
LLGIIERLLQQIQMIGSAELKAIVYELLTTVEELYEQNGYHGSTEKFFSLVEKCADKRPD
ASVLTLVSYRAQSIQPAKDGWIQSLHCLMEKFFRNETRSGIRIKVLHILSFVLSTNRQLY
EDELIEKVVIPQLSGIAEDRDLAVRKQATQLLVDLAEGCNTHHFTSLLDIIERVASRSLV
CSGSLEASDPIADSPMEDVKTAVLGLLEILQSKLYSLPASHASRVYELLISHLQLHYKSK
YCSAIASAVRLQVFDFFLMMRADSLHRVGVPNKDGVMRFSPYCYCDAGEPEKRVCDKKPS
GSISPPAGGPAAAAAAPPASAASIRSACLPYAPAFSVLLQCLKMETDWKVLKLVLDKLPW
TLQYKVLLLTSSCSLDQLCSTLCAMVTDRQISERLKKMPEGFSRTDVQLAVVPVLTAITS
YHSYLDQSRQRELVQCLETGLIYRCAKQCVVALTMCTVEMPDIMIKLLPALIVKLTHISA
TVAMASPMLEFLSTLVRLPHLYANFVAEQYVSVFAISLPYTNPSKFNQYIVSLAHHVIAM
WFIRCRLPFRKDFVQYITKGLRSNALLPFDDGHEQSPFRARSTSLNERPKSLRAGKVAKP
AASVANSSSSPVKELRDLSAMEAFRSRSISVSEHAVRRMHTSTTTCSLGSADENAATQAD
EGLKTVHLELTETCLDMMARYVFSNFSALPKRSPIAEFLLAGGRSMTWLVGNKLVTITTS
GGVRTQALLGMDMSERLGGGGGEMTRSDPSLHTRMTKEAPAKLESQSSQQQNRTTRTRVR
SRSGGHALRAGPIPSLSPLVSPSEGELASPLSPSSGPTLDGIGPPSSTAAALSAPPPLKD
NPSLAEFVPMLTQGWAEIFIRRPSGNTSWLMCLENPPSPFSSELGNMPLQELSTVLMAME
GVKEPPTQTASAPASTAAPAPTSASEPLTQTHSSAGGKANLFQRSSTVGGSLWSLGMASG
PPGPPAPGRLHRSISWADSAAVPEEGSGVTAKSAPLEWVEGEEFEPIPSEPIFMSDKAPL
PGPLSRSSSTSSQDDEKSTLEEVSEGAIPIDQPSVGPSTPGSQGPDLPFQSHSQSQGHGL
NKSSSSPELQTLPEAFTKAAVESEKSQGDAARPRAPSDGKPQALQQPCSDKDKVEGSTGA
DFNGPGGPAQGGEGSGLSSQSGGVAMKLAFPAAPALPGPISPGGGHRPRGHTISVSAPSS
RRERKTERDSYHSRPGPSNAEKLSGLSPSFVFLQLYHSPFFGNEANKPLLLPKTQVIDRA
VKVLDQMPPYDTHKIGVVFVGAGQVNNEVAILSNEYGSNRYAAFLTGLGKLIHLKDCDPD
QIFLGGLDQYGDDGEFTYCWHDDIMQAIFHIATLMPNRESDKGCCNKKRHIGNDFVMVVY
NDSGEDYKLGTIKGQFNFVEVVIKPLDYECNLVSLQCRKDLEGLVDTTVAKIVSDRNLPL
FVRQMALHANMASLVHQYRANPSDAYASKWLARLRHIKRIRTRAQEDIQSRSTPGISLTQ
GHTQQNKAFQQGASAPTPEMSGQRKRLVSTVDDFTDFV
NT seq
5697 nt
NT seq
+upstream
nt +downstream
nt
atgaataagcagcaaagcaaagaaacgctaaaagaaaaagtgaaggggatctttgggctc
gggacgcaacggcagcaaacgaagcagtgcgactcgaagctgccagagtttataatcaca
gccgacataataaaggagctgcatcctgattgtggcctgagcaaccgcatccggatgatg
aaccaaatctgcgatcttgcaaaaatcaaaaaattcgaagagaatgcagtggaggctgtg
tggaaagccgtggaggacatgctgtccccggagcagccggcagaggctcgacacgcggtc
ctgcagcttctgagggccatcatacaaggacagggtgagtggctcggtcctctgagggcg
tacttttttaaggtgatcagagactaccaaccctgcaacgaggacctttcagaaagactg
gaggtgttcaaggctttaactgaaaatgggaaggacatcacatacttggaggaggacata
gcacggtttgtcctcctgtggatggacataggtctcacctcagactttctccatgttctt
gtgaatttggtcaagtacaacagctgctatctggatcagaacgtctccagcatggtgcag
aaaatctgtcttctgtgcaacaggacaacatcatccactgacatagaggtggcactccag
gtcttggatgccgttgtgtgctacaactgcctgccctctgagtccctcaccgtcttcatt
ataacactctgccgtacggttaacgtgaaggagttctgtgaatcctgctggaagctgatg
aggaaggttctggggacgcatctgggccacagcgctatttacaccatgtgccgcatcatg
gaggagagggtgtacatggaggacgctccactgctgagaggagccgtgttctttgtggga
atggctctgtggggcgcccacagactccctgctctaaaaaacacaccaacactagtgctg
ccttcattctacaaggccatgtcatgtgccaacgaggtggtgtcgtatgagatcgtcctc
tccatcaccaggctgattaagaaatacggcaaagagctccaggtggtcacatgggacatc
ctgctgggcatcatagagcggctgctgcagcagattcagatgataggcagcgcagagttg
aaggccatcgtttatgagcttctgaccacagtggaagagctgtacgagcagaacggctac
cacggctccacggagaagttcttcagtctggtggagaaatgtgcagacaagagacccgac
gcctcagtgctgaccctcgtctcgtacagagcacaatccattcagcctgcgaaggatggc
tggattcagagcctccactgcctgatggagaaattcttcagaaacgagacgcgcagtggc
atcaggatcaaagttcttcacatcctgtcgttcgttctgagtactaatcgccagctctac
gaggacgagctaattgagaaggtggtgatccctcagctcagtgggatcgctgaagaccgg
gacctggcggtcagaaagcaggccacccagctgctggtggacctcgctgagggctgcaac
acgcatcacttcaccagcctcctggacatcatcgagcgggtggccagtcgctctctggtt
tgctctggatccctggaggcttctgaccccatagctgactctcccatggaggatgtcaag
actgcagtgctggggctgctggagatcctgcagagcaaactttacagcctgccagccagc
catgccagtcgtgtttatgagctgcttatcagccacctgcagctccactacaagagcaaa
tactgctcagctatcgcttctgctgttaggctgcaggtgtttgacttcttcctgatgatg
cgtgccgactctctgcaccgcgtcggggtgcccaacaaggacggagtgatgaggttcagc
ccttactgctactgtgacgctggggagccagagaagcgggtttgcgataagaagccctca
ggttccatatcgccccctgctggcggtcctgctgcagctgctgcggctcctcctgcttca
gcagcctccatccggtcagcctgtcttccctacgcgcctgccttcagcgtcctgctgcag
tgcctcaagatggaaactgactggaaggtgctgaaacttgttctggacaaactgccttgg
acactgcagtacaaagtgctgctgctcacatcgtcatgcagcttggaccagctctgttcc
acgctctgcgccatggtgacggatcgtcagatctcggagcgtttgaaaaagatgcctgag
ggtttttcccgcacagatgtccagctggctgtggttcccgttctcacagcgataacctct
taccatagctacctggaccaatccagacagagagagttagttcagtgtctggagaccggc
ctcatctatcgctgtgccaagcagtgtgtggtggctcttacgatgtgcacagtggagatg
cctgacatcatgatcaagcttctcccggctctgatagtcaagctcacccacatctctgct
accgttgccatggcgtctcccatgcttgagtttctctccactctggtgcgcttaccccat
ctgtacgccaactttgtagccgagcagtacgtaagcgtgttcgccatctcgctgccctac
actaatccatccaaattcaatcaatacatcgtatccctggcccatcatgtgatcgccatg
tggttcatacgctgcagactccccttccgcaaggactttgttcagtacatcaccaagggc
ttgcgctccaacgccttgcttccgtttgacgacggacacgagcaaagccctttccgcgcg
cgaagcaccagcctcaacgagagacccaaaagcctgcgggctggaaaagtggcaaagccg
gcggcatcagtagccaatagcagcagctctccagttaaagagctgagggacctttcggcc
atggaggctttccgctcccgcagcatcagcgtctccgaacacgcggttcgcaggatgcac
acttctaccacgacctgcagtctgggctctgctgatgaaaatgcagcgactcaggccgat
gagggactcaagaccgtccacctggagctcacggagacgtgtctagacatgatggcacga
tacgtgttctcaaacttctctgctctgccaaagaggtctccgatcgctgagtttctgtta
gccggaggtcgcagcatgacctggttggtgggcaacaagcttgtcaccatcacaacgagt
ggcggtgtcagaacgcaagctttgctgggaatggatatgtcagagcgtctgggaggagga
ggaggagaaatgaccaggtcagatccgtctcttcacacccgaatgactaaagaggctccg
gccaaactggagtcgcagtccagtcagcaacagaacagaacaactcggacgcgagtccgc
tcccggtcaggtggtcacgctctgcgtgctggtcctattccgagtctcagtcctctggtt
tccccctctgagggagagttggcctctcctctgtctccttcctctggccccaccctggat
ggcatcggtcctccctcctccacagctgccgctctgtctgcccctcctccgctcaaggac
aaccccagcctcgccgagtttgttccaatgctcactcagggctgggcagagatcttcata
cggagaccctcaggtaacaccagctggctgatgtgtctggagaacccacccagtcccttc
tcctctgagctgggcaacatgccgctgcaggagctctccaccgtcctgatggcgatggag
ggagtgaaggagcctcccactcagacagccagcgctccagccagcacggccgccccagcg
ccaacgtctgcctccgaaccgctcactcaaacacacagcagcgccggaggaaaggccaac
ctgtttcagcgctccagcaccgttggcggctcgctctggtctctgggtatggccagtggc
cccccaggacctccagctcctggcaggttgcacaggagcatttcctgggcagactctgcg
gcggttccggaggagggttcaggggtcacagcaaagagcgcccctctcgagtgggtagag
ggtgaagagtttgagccgattccctccgagcccatattcatgtctgacaaggcgccgctt
cccggaccgctcagcaggtcctcctccacctccagtcaggatgatgaaaagtccactctg
gaggaggtgagcgaaggagcgattcccatcgatcagcccagcgttggcccctccaccccg
ggcagccagggccctgaccttccttttcagagccactctcagtcccagggtcacggactg
aacaagtcgagctcctccccggagctgcagacgctgccggaggccttcaccaaagcagcg
gtggagtctgagaaaagtcagggcgacgccgctcggcccagagcgccctcagatggcaag
cctcaggcactgcagcagccctgctcagacaaggacaaagtagaggggagcaccggggcg
gactttaatggaccaggaggtccggcccagggtggtgagggctccggcttgtcatctcag
agtgggggagttgccatgaagttggcctttccagcagcgccagctctgcctggacccatc
tctcctggcggaggccaccgaccccgaggtcacaccatctctgtctccgccccgtcctcc
aggagagagaggaagaccgagagggactcgtatcacagccgacccgggcccagcaacgca
gagaagctctccggactgagtcccagctttgtcttccttcagctatatcactctcctttc
tttgggaatgaagccaataaaccgctgctgctgcccaaaactcaggtgattgatcgggct
gtgaaggttctggaccagatgcctccttatgatacccataagattggagttgtgtttgtt
ggagctggccaggttaacaatgaagttgccatcctgtccaacgaatacgggtcgaaccgc
tacgccgcgttcctcaccgggctcggcaaactaatccacctgaaggactgcgaccccgac
cagatcttcctgggcgggctggatcagtacggggatgacggagagttcacctactgttgg
cacgacgacatcatgcaggccatcttccacatagccacgctgatgccgaacagagagagt
gacaagggctgctgcaacaagaagcgacacatcggcaacgactttgtcatggtggtctac
aacgactcgggagaagattacaaactgggcaccataaagggtcaatttaatttcgtcgaa
gtggttattaagccactggactatgaatgtaaccttgtatctctgcagtgtcggaaagac
ctcgagggcctggttgataccaccgttgcaaaaatcgtatctgaccgcaacttgccactc
tttgttcgacagatggctctgcatgcaaatatggcttctttggtgcatcaatacagagcg
aatccctcggatgcttatgcttccaagtggcttgccagattacgacacataaagaggatc
aggaccagagctcaggaagacatccagtcccgttcgactccaggaatctctctgacccaa
ggacacactcagcaaaataaagcatttcaacaaggagcttcagctcctactcccgagatg
tcgggacagagaaaaagacttgtttcgacggtggacgactttactgattttgtttga
Xiphophorus couchianus (Monterrey platyfish): 114149511
Help
Entry
114149511 CDS
T05908
Name
(RefSeq) hamartin-like isoform X1
KO
K07206
tuberous sclerosis 1
Organism
xco
Xiphophorus couchianus (Monterrey platyfish)
Pathway
xco04140
Autophagy - animal
xco04150
mTOR signaling pathway
xco04218
Cellular senescence
xco04910
Insulin signaling pathway
xco05168
Herpes simplex virus 1 infection
Brite
KEGG Orthology (KO) [BR:
xco00001
]
09130 Environmental Information Processing
09132 Signal transduction
04150 mTOR signaling pathway
114149511
09140 Cellular Processes
09141 Transport and catabolism
04140 Autophagy - animal
114149511
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Hamartin
DUF7310
SulA
Motif
Other DBs
NCBI-GeneID:
114149511
NCBI-ProteinID:
XP_027881252
LinkDB
All DBs
Position
8:7659631..7689091
Genome browser
AA seq
1354 aa
AA seq
DB search
MFHQFQKYRNRMMGLQARTGVWQNPQGSFAPAHLDILHGETQRLDSSLEMESARLEDLRA
EKDDMFLEMSQKIASLQDNEKRLQEELARLRHSYNELNSKYHSEVSGLQQDVERYQQEAR
REKDTNVERERENLQLVNNLRAEKEELFQKMARKIIILRHRDRQMFHELDRVHVSHEELK
SRHRTDVMELQQQIETYQQKIKQDQMALLQRQKAEKLIWDINRSALQQIEKLQQQVKEER
KAHLEKSEKDKAQLDTMRAEYAVLQQNATTEIKILQDKESSAQAELEKMNGLYLELKCQY
ENEVNAFKQQEEKYQQEIRCLKNDLQRAKEDLLLPNTLRPEEEGFPKQHITVSQDEEDGS
QDQVDPVDGLSQEDSPEEKMSGETLSGCSNDPESSEETEITGETVLEDLDNLDAMQDGSS
SSTPFSTPRQPLPPPLSLPPLSGTQSSSSYRSPQTSRRQNSNSELNSSCGGKDPLWSPSS
LCGMATPPSSRGMSPNLELSHSVSHLPSRFHCTSGGKGTPASSTPATSSPPPTLSDDFPV
ISLPANTVQSSPPRKDRRPGETSKPGLVRQEHVREMEKSGEGAANRDAGSAANVTMTLTE
LSVFVTKQELDLQLRTEKEREEAAITEELMKLTEDKQELPGLRGYDSPFFHTTETLTGRQ
TQNPTSSTNAHPGGPIREPRYAASTPDRAENASGGGAGDRAAASDRSAVDRSWSFQSGFT
PIDHHLLRSPSAPDDDSSKFEMFSPSPCGKVPVPYESLFALALPRAASLFVGQKTSEAVH
KAAMERLLQREEGLEDGEEEGVVSASPLEVLDRLVQQGSDAHDKVLKRLPLPSKSADWTH
FGGSAPLDELHTLRSQLLLLHNQLLYERYKREQHAVRNRRLLRRIINATALEEQNNAMKD
QLNLQSVDIVSLRDSLQVEQQRYRQLWDDRETVVTRLHSQIRQLQQSRDDYYTKNQELQS
KLQECQKRMDDLEAELQTANNKVGHTGHLLNQMTVKLSNSESSQQQMSFLNKQLLLLGEA
HKLSMQDAQQPGMSNTKETEMLRMSHMKEVDSLRQSLLAQGQKLEAAQQRTAELETLLSK
KEHLIAEQKKFLEDVKCQAKAELQASDCRFQAQRRITQLLQTELLQLYSQVEMEAPAAAG
SSSPPGGRAETRTHPDCSGVAAGGLHAVKQPNSPSPRDSPRGTNGSTLSPGQPKASGSSL
PLGSSMNGAQDLTPPLLMEPSAPCPHAALPAADAPLTVGSYPSAKSFLGMKARELFRNKS
ESQCDDEQPPPRLAGLAHGLKTELCVEPGPAGPAAATVHAKEPPPEPRLRPLGQGSPHRK
AGPGQVGVRGPSGPRCPRQQLKIMDYNETHHEHS
NT seq
4065 nt
NT seq
+upstream
nt +downstream
nt
atgtttcaccaatttcagaaataccgcaacaggatgatgggactccaggcaagaacggga
gtctggcaaaacccccaaggcagcttcgctcctgcacacttggatattttacacggggaa
acccaaagactggactccagtctggaaatggagagcgccagattagaagacctgagagct
gaaaaggacgacatgtttttagaaatgtcccaaaagattgcgtccctgcaagacaacgag
aaacgtctgcaggaagaattggctcggctcagacattcatacaatgaactcaactctaaa
tatcatagtgaagtttctggattacagcaagacgtggagagatatcagcaggaggcgaga
cgtgagaaagacaccaatgtagagagagagagagagaacctgcagcttgtcaacaatctg
agagctgagaaggaagagctcttccaaaaaatggcaagaaagattataattctgcgacac
agggacaggcagatgttccatgaactggatcgggttcatgtttcacatgaggagctaaaa
tctagacatagaacagacgtaatggagttacagcagcagattgagacctaccagcaaaag
ataaagcaggatcaaatggctcttttacaaagacaaaaggcggagaagcttatatgggat
ataaaccgatctgcactgcaacaaatcgaaaaacttcagcagcaggtaaaggaggagaga
aaagctcacctggagaaatcagagaaggacaaggcacaactggacacaatgagagctgaa
tatgccgtcctccaacaaaatgcaacaacagaaattaaaatccttcaagacaaggaaagc
agtgcccaggctgagctggagaagatgaacggtttgtacctggagctaaaatgtcagtat
gaaaatgaagtaaatgcatttaaacagcaagaagagaaatatcagcaggagatcagatgt
ttgaaaaatgatttacaaagagcgaaagaggatctcctgctgcccaacacactgagacct
gaagaagaaggtttcccaaaacaacacatcacagtttcccaagatgaggaggacggctca
caggaccaagtggacccggttgatggcttaagtcaagaggattctccagaggagaaaatg
tcaggagaaactttatcaggttgttccaacgatccagaatcctcagaagagacagagatc
actggagaaaccgtcctggaggatttggacaatctggatgccatgcaggacggaagttcc
tcttcgacgccgttctcgactccgcggcagccgctgcccccgcccctgtccctgccgccc
ctctcagggactcagtcgtcctcgtcttaccgcagcccacagacctccagacggcagaac
tcaaacagtgaactgaactcttcctgtggggggaaggaccccctgtggagcccctcctct
ctgtgcggcatggccacgcccccttcctcccggggcatgtcgcccaacctggagctctcc
cacagtgtctcacaccttcctagccgcttccactgcacgtcaggaggaaaaggaacgccg
gcctccagcactccagccacctcatccccacctcccactctgtcagatgacttccctgta
atctccttgccagccaacacggtccagtccagtccgccgagaaaagatcgtcgaccagga
gaaaccagcaagcctggactggtgagacaggagcatgtcagagagatggagaagagtgga
gagggagctgcaaacagagacgcaggaagtgcagcaaatgtcaccatgacgctgacggag
ctgtcggttttcgtgacgaaacaggagctggaccttcagctgcgaacggagaaggagaga
gaagaagctgccatcacagaggagctgatgaaactcactgaagacaagcaggagctgccg
gggctgagaggctacgactctcctttcttccacaccactgagactctgacgggccgccag
acgcagaacccgacctcctccaccaacgcccacccgggcggccccatcagagagccgcgc
tacgccgcatccactccggacagagccgagaacgcctcaggcggcggcgctggcgacaga
gcagcagcgtcggatcggtccgccgtggatcggtcctggtccttccagtccggcttcacc
cccatcgaccaccacctgctccggagcccctctgcccccgacgacgactcctccaagttt
gagatgttctccccgagcccgtgcggcaaagtgccggttccgtacgagtcgctgttcgcg
ctggccctgcccagggccgcctcgctgttcgtgggccagaagacgtcggaggcggtccac
aaggcggcgatggagaggctgctgcagcgcgaggagggcctggaggacggggaggaggag
ggcgtggtgtcggcgtcgccactggaggtgttggatcgccttgttcagcaggggagtgac
gcacacgacaaagtcctgaagagattacctttgccaagtaagtcagctgactggactcac
tttggaggctcggctcctctggacgagctccacacgctgcgcagccagctgctgctgctg
cacaaccagctgctgtacgagcgctacaagagggagcagcacgccgtccgcaaccgccgg
ctcctccgacgcatcatcaacgccacggcgctggaggagcagaacaacgcaatgaaggac
cagctgaacctgcagagcgtggacatcgtgtctctgagggacagcctgcaggtggagcag
cagcgctaccggcagctgtgggacgaccgcgagaccgtggtgacccgcctgcacagccag
atccggcagctgcagcagagccgcgacgactactacaccaagaaccaggagctgcagagc
aagttacaggagtgtcagaagaggatggacgacctggaggcggagcttcagacggccaac
aacaaagtcggccacaccgggcatctgctcaaccagatgactgtcaagctgagcaacagc
gagagcagccagcagcagatgagcttcctgaacaagcagctgctgctgctgggggaggcg
cataagctgtccatgcaggacgcccagcagccaggcatgagcaacacaaaggagacggag
atgctgcggatgtcccacatgaaggaggtggactccctgaggcagagtctgctggcccag
ggccagaagctggaggcggcacagcagcgaacagccgagctggagacgctcctctccaag
aaggagcacctcatcgccgagcagaagaagttcctggaggacgtgaaatgccaagccaag
gcggagctgcaggcgtcagactgcaggttccaggctcagaggagaatcacccagctgctg
cagactgagctgctgcagctctacagccaggtggagatggaggctccggccgccgccggc
agcagttcaccaccagggggcagagctgagacacgcacgcatccagactgcagtggcgtc
gctgcaggcggtcttcacgctgtcaagcagccgaacagcccgtcgcctcgcgattcccca
cgggggacgaacggcagcactttatcgccggggcaaccgaaggcaagcggctcctccttg
cccctgggcagctccatgaacggagcccaggacctgacgccgcccctgctgatggagccg
tcggcgccgtgcccccacgccgccctgccggccgcggacgccccgctcaccgtgggctcc
taccccagcgccaagagcttcctgggcatgaaggcgcgcgagcttttccgcaacaagagc
gagagccagtgcgacgacgagcagccaccgccgcgcctcgccggcctcgcccacggcctg
aagaccgagctgtgcgtggagcccggtccggccggcccagctgccgccactgtgcacgcc
aaggagccgccgcccgagcccagactgcgacccctcggccagggcagccctcacagaaaa
gccgggcctgggcaggtcggcgttagaggcccctcggggccccgttgccctcggcaacag
ctaaagattatggactacaacgaaacgcatcacgagcacagttaa
DBGET
integrated database retrieval system
