Entry |
|
Symbol |
Itpr1, D6Pas2, Gm10429, IP3R_1, IP3R1, InsP3R, Ip3r, Itpr-1, P400, Pcp-1, Pcp1, insP3R1, opt, wblo
|
Name |
(RefSeq) inositol 1,4,5-trisphosphate receptor 1
|
KO |
K04958 | inositol 1,4,5-triphosphate receptor type 1 |
|
Organism |
mmu Mus musculus (house mouse)
|
Pathway |
mmu04070 | Phosphatidylinositol signaling system |
mmu04270 | Vascular smooth muscle contraction |
mmu04621 | NOD-like receptor signaling pathway |
mmu04625 | C-type lectin receptor signaling pathway |
mmu04723 | Retrograde endocannabinoid signaling |
mmu04750 | Inflammatory mediator regulation of TRP channels |
mmu04925 | Aldosterone synthesis and secretion |
mmu04927 | Cortisol synthesis and secretion |
mmu04928 | Parathyroid hormone synthesis, secretion and action |
mmu04935 | Growth hormone synthesis, secretion and action |
mmu05022 | Pathways of neurodegeneration - multiple diseases |
mmu05163 | Human cytomegalovirus infection |
mmu05167 | Kaposi sarcoma-associated herpesvirus infection |
mmu05170 | Human immunodeficiency virus 1 infection |
|
Brite |
KEGG Orthology (KO) [BR:mmu00001]
09130 Environmental Information Processing
09132 Signal transduction
04371 Apelin signaling pathway
16438 (Itpr1)
04020 Calcium signaling pathway
16438 (Itpr1)
04070 Phosphatidylinositol signaling system
16438 (Itpr1)
04022 cGMP-PKG signaling pathway
16438 (Itpr1)
09140 Cellular Processes
09141 Transport and catabolism
04140 Autophagy - animal
16438 (Itpr1)
09143 Cell growth and death
04114 Oocyte meiosis
16438 (Itpr1)
04210 Apoptosis
16438 (Itpr1)
04218 Cellular senescence
16438 (Itpr1)
09144 Cellular community - eukaryotes
04540 Gap junction
16438 (Itpr1)
09150 Organismal Systems
09151 Immune system
04611 Platelet activation
16438 (Itpr1)
04621 NOD-like receptor signaling pathway
16438 (Itpr1)
04625 C-type lectin receptor signaling pathway
16438 (Itpr1)
09152 Endocrine system
04922 Glucagon signaling pathway
16438 (Itpr1)
04929 GnRH secretion
16438 (Itpr1)
04912 GnRH signaling pathway
16438 (Itpr1)
04915 Estrogen signaling pathway
16438 (Itpr1)
04921 Oxytocin signaling pathway
16438 (Itpr1)
04935 Growth hormone synthesis, secretion and action
16438 (Itpr1)
04918 Thyroid hormone synthesis
16438 (Itpr1)
04928 Parathyroid hormone synthesis, secretion and action
16438 (Itpr1)
04924 Renin secretion
16438 (Itpr1)
04925 Aldosterone synthesis and secretion
16438 (Itpr1)
04927 Cortisol synthesis and secretion
16438 (Itpr1)
09153 Circulatory system
04270 Vascular smooth muscle contraction
16438 (Itpr1)
09154 Digestive system
04970 Salivary secretion
16438 (Itpr1)
04971 Gastric acid secretion
16438 (Itpr1)
04972 Pancreatic secretion
16438 (Itpr1)
09156 Nervous system
04724 Glutamatergic synapse
16438 (Itpr1)
04725 Cholinergic synapse
16438 (Itpr1)
04728 Dopaminergic synapse
16438 (Itpr1)
04726 Serotonergic synapse
16438 (Itpr1)
04720 Long-term potentiation
16438 (Itpr1)
04730 Long-term depression
16438 (Itpr1)
04723 Retrograde endocannabinoid signaling
16438 (Itpr1)
09157 Sensory system
04750 Inflammatory mediator regulation of TRP channels
16438 (Itpr1)
09158 Development and regeneration
04380 Osteoclast differentiation
16438 (Itpr1)
09159 Environmental adaptation
04713 Circadian entrainment
16438 (Itpr1)
09160 Human Diseases
09161 Cancer: overview
05205 Proteoglycans in cancer
16438 (Itpr1)
09172 Infectious disease: viral
05170 Human immunodeficiency virus 1 infection
16438 (Itpr1)
05163 Human cytomegalovirus infection
16438 (Itpr1)
05167 Kaposi sarcoma-associated herpesvirus infection
16438 (Itpr1)
09164 Neurodegenerative disease
05010 Alzheimer disease
16438 (Itpr1)
05012 Parkinson disease
16438 (Itpr1)
05016 Huntington disease
16438 (Itpr1)
05017 Spinocerebellar ataxia
16438 (Itpr1)
05020 Prion disease
16438 (Itpr1)
05022 Pathways of neurodegeneration - multiple diseases
16438 (Itpr1)
09166 Cardiovascular disease
05417 Lipid and atherosclerosis
16438 (Itpr1)
09167 Endocrine and metabolic disease
04934 Cushing syndrome
16438 (Itpr1)
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:mmu01009]
16438 (Itpr1)
09183 Protein families: signaling and cellular processes
04040 Ion channels [BR:mmu04040]
16438 (Itpr1)
Protein phosphatases and associated proteins [BR:mmu01009]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-1
PP1-interacting proteins (PIPs)
16438 (Itpr1)
Ion channels [BR:mmu04040]
Ligand-gated channels
IP3 receptor
16438 (Itpr1)
|
SSDB |
|
Motif |
|
Other DBs |
|
Structure |
|
Position |
6:108190044..108528077
|
AA seq |
2749 aa
MSDKMSSFLHIGDICSLYAEGSTNGFISTLGLVDDRCVVQPEAGDLNNPPKKFRDCLFKL
CPMNRYSAQKQFWKAAKPGANSTTDAVLLNKLHHAADLEKKQNETENRKLLGTVIQYGNV
IQLLHLKSNKYLTVNKRLPALLEKNAMRVTLDEAGNEGSWFYIQPFYKLRSIGDSVVIGD
KVVLNPVNAGQPLHASSHQLVDNPGCNEVNSVNCNTSWKIVLFMKWSDNKDDILKGGDVV
RLFHAEQEKFLTCDEHRKKQHVFLRTTGRQSATSATSSKALWEVEVVQHDPCRGGAGYWN
SLFRFKHLATGHYLAAEVDPDFEEECLEFQPSVDPDQDASRSRLRNAQEKMVYSLVSVPE
GNDISSIFELDPTTLRGGDSLVPRNSYVRLRHLCTNTWVHSTNIPIDKEEEKPVMLKIGT
SPLKEDKEAFAIVPVSPAEVRDLDFANDASKVLGSIAGKLEKGTITQNERRSVTKLLEDL
VYFVTGGTNSGQDVLEVVFSKPNRERQKLMREQNILKQIFKLLQAPFTDCGDGPMLRLEE
LGDQRHAPFRHICRLCYRVLRHSQQDYRKNQEYIAKQFGFMQKQIGYDVLAEDTITALLH
NNRKLLEKHITAAEIDTFVSLVRKNREPRFLDYLSDLCVSMNKSIPVTQELICKAVLNPT
NADILIETKLVLSRFEFEGVSTGENALEAGEDEEEVWLFWRDSNKEIRSKSVRELAQDAK
EGQKEDRDILSYYRYQLNLFARMCLDRQYLAINEISGQLDVDLILRCMSDENLPYDLRAS
FCRLMLHMHVDRDPQEQVTPVKYARLWSEIPSEIAIDDYDSSGTSKDEIKERFAQTMEFV
EEYLRDVVCQRFPFSDKEKNKLTFEVVNLARNLIYFGFYNFSDLLRLTKILLAILDCVHV
TTIFPISKMTKGEENKGSNVMRSIHGVGELMTQVVLRGGGFLPMTPMAAAPEGNVKQAEP
EKEDIMVMDTKLKIIEILQFILNVRLDYRISCLLCIFKREFDESNSQSSETSSGNSSQEG
PSNVPGALDFEHIEEQAEGIFGGSEENTPLDLDDHGGRTFLRVLLHLTMHDYPPLVSGAL
QLLFRHFSQRQEVLQAFKQVQLLVTSQDVDNYKQIKQDLDQLRSIVEKSELWVYKGQGPD
EPMDGASGENEHKKTEEGTSKPLKHESTSSYNYRVVKEILIRLSKLCVQESASVRKSRKQ
QQRLLRNMGAHAVVLELLQIPYEKAEDTKMQEIMRLAHEFLQNFCAGNQQNQALLHKHIN
LFLNPGILEAVTMQHIFMNNFQLCSEINERVVQHFVHCIETHGRNVQYIKFLQTIVKAEG
KFIKKCQDMVMAELVNSGEDVLVFYNDRASFQTLIQMMRSERDRMDENSPLMYHIHLVEL
LAVCTEGKNVYTEIKCNSLLPLDDIVRVVTHEDCIPEVKIAYINFLNHCYVDTEVEMKEI
YTSNHMWKLFENFLVDICRACNNTSDRKHADSILEKYVTEIVMSIVTTFFSSPFSDQSTT
LQTRQPVFVQLLQGVFRVYHCNWLMPSQKASVESCIRVLSDVAKSRAIAIPVDLDSQVNN
LFLKSHNIVQKTALNWRLSARNAARRDSVLAASRDYRNIIERLQDIVSALEDRLRPLVQA
ELSVLVDVLHRPELLFPENTDARRKCESGGFICKLIKHTKQLLEENEEKLCIKVLQTLRE
MMTKDRGYGEKQISIDESENAELPQAPEAENSTEQELEPSPPLRQLEDHKRGEALRQILV
NRYYGNIRPSGRRESLTSFGNGPLSPGGPSKPGGGGGGPGSSSTSRGEMSLAEVQCHLDK
EGASNLVIDLIMNASSDRVFHESILLAIALLEGGNTTIQHSFFCRLTEDKKSEKFFKVFY
DRMKVAQQEIKATVTVNTSDLGNKKKDDEVDRDAPSRKKAKEPTTQITEEVRDQLLEASA
ATRKAFTTFRREADPDDHYQSGEGTQATTDKAKDDLEMSAVITIMQPILRFLQLLCENHN
RDLQNFLRCQNNKTNYNLVCETLQFLDCICGSTTGGLGLLGLYINEKNVALINQTLESLT
EYCQGPCHENQNCIATHESNGIDIITALILNDINPLGKKRMDLVLELKNNASKLLLAIME
SRHDSENAERILYNMRPKELVEVIKKAYMQGEVEFEDGENGEDGAASPRNVGHNIYILAH
QLARHNKELQTMLKPGGQVDGDEALEFYAKHTAQIEIVRLDRTMEQIVFPVPSICEFLTK
ESKLRIYYTTERDEQGSKINDFFLRSEDLFNEMNWQKKLRAQPVLYWCARNMSFWSSISF
NLAVLMNLLVAFFYPFKGVRGGTLEPHWSGLLWTAMLISLAIVIALPKPHGIRALIASTI
LRLIFSVGLQPTLFLLGAFNVCNKIIFLMSFVGNCGTFTRGYRAMVLDVEFLYHLLYLLI
CAMGLFVHEFFYSLLLFDLVYREETLLNVIKSVTRNGRSIILTAVLALILVYLFSIVGYL
FFKDDFILEVDRLPNETAVPETGESLANDFLYSDVCRVETGENCTSPAPKEELLPAEETE
QDKEHTCETLLMCIVTVLSHGLRSGGGVGDVLRKPSKEEPLFAARVIYDLLFFFMVIIIV
LNLIFGVIIDTFADLRSEKQKKEEILKTTCFICGLERDKFDNKTVTFEEHIKEEHNMWHY
LCFIVLVKVKDSTEYTGPESYVAEMIRERNLDWFPRMRAMSLVSSDSEGEQNELRNLQEK
LESTMKLVTNLSGQLSELKDQMTEQRKQKQRIGLLGHPPHMNVNPQQPA |
NT seq |
8250 nt +upstreamnt +downstreamnt
atgtctgacaaaatgtcgagtttcctacatattggagacatttgttctctgtatgcggag
ggatctacgaatggatttatcagcaccttaggcttggttgatgaccgttgtgttgtacag
ccagaagccggggaccttaacaatccacccaagaaattcagagactgcctctttaagcta
tgtcctatgaatcgatactccgcacagaaacagttctggaaagctgctaagcccggggcc
aacagcactacagatgcagtgctgctcaacaaattgcatcatgctgcagacttggaaaag
aagcagaatgagacagaaaacaggaaattgttggggaccgtcatccaatatggcaacgtg
atccagctcctgcatttgaaaagcaataaatacctgactgtgaataagaggctcccagcc
ttgctagagaagaacgccatgagggtgacgttggacgaggctggaaatgaagggtcctgg
ttttacattcaaccattctacaagcttcgctccatcggagacagtgtggtcataggcgac
aaggtagttttgaatcctgtcaatgctggccagcctctacatgccagcagtcatcagctg
gtggataacccaggctgcaatgaggtcaactccgtcaactgtaatacaagctggaagata
gtgcttttcatgaaatggagtgataacaaagacgatattctcaaaggaggtgatgtggtg
aggctcttccatgccgagcaagagaagtttctcacctgcgatgagcaccggaagaagcag
catgtgttcctgaggaccaccggcaggcagtcagccacatcggccaccagttccaaagcc
ctgtgggaagtggaggtagtccagcacgacccatgtcggggtggagctgggtactggaat
agcctcttccggttcaagcacctggctacagggcattacttggctgcagaggtagaccct
gactttgaggaagaatgcctggagtttcagccctcagtggaccctgatcaggatgcatct
cggagtaggttgagaaacgcgcaagaaaaaatggtatactctctggtctccgtgcctgaa
ggcaacgacatctcctccatctttgagctagaccccacgactctgcgtggaggtgacagc
cttgtcccaaggaactcctatgtccgtctcagacacctgtgcaccaacacctgggtacac
agcacaaacatccccatcgacaaggaagaggagaagcctgtgatgctgaaaattggtacc
tctcccctgaaggaggacaaggaagcatttgccatagttcctgtttcccctgctgaggtt
cgggacctggactttgccaatgatgccagcaaggtgctgggctccatcgctgggaagttg
gaaaagggcacaatcacccagaatgagagaaggtctgtcacgaagcttttggaagacttg
gtttactttgtcacgggtggaactaactctggccaagacgtgcttgaagttgtcttctct
aagcccaatcgagagcggcagaagctgatgagggaacagaatattctcaagcagatcttc
aagctgttgcaggcccccttcacggactgcggggatggcccgatgcttcggctggaggag
ctgggggatcagcgccatgctcctttcagacatatttgccgactctgctacagggtcctg
cgacactcacagcaagactacaggaagaaccaggagtacatagccaagcagtttggcttc
atgcagaagcagattggctatgacgtgctggccgaagacaccatcactgccctgctccac
aacaaccggaaactcctggagaagcacatcaccgcggcagagattgacacgtttgtcagc
ctggtgcgaaagaacagggagcccaggttcttggattacctctctgacctctgcgtatcc
atgaacaagtcaatccctgtgacacaggagctcatctgtaaagctgtgctcaatcccacc
aatgctgacatcctgattgagaccaagctggttctttctcgttttgagtttgaaggcgtt
tccactggagagaatgctctggaagccggggaggatgaggaagaggtgtggctgttctgg
agggacagcaacaaagagatccgtagtaagagtgtccgggaattggcgcaagatgctaaa
gagggacagaaggaagacagggacatcctcagctactacagatatcagctgaacctcttt
gcaaggatgtgtctggaccgccagtacctggccatcaatgaaatctccgggcagctggat
gttgatctcattctccgctgcatgtctgacgagaacctcccctacgacctcagggcatcc
ttttgccgcctcatgcttcacatgcatgtggaccgagatccccaagagcaggtgacacct
gtgaaatatgcccgactgtggtcagaaattccctctgagatcgccattgatgactatgac
agcagtggaacatccaaagatgaaattaaggagaggtttgcacagacgatggagtttgtg
gaggagtacctaagagatgtggtttgtcaaagattccccttctctgataaggagaaaaat
aagctcacgtttgaggttgtgaacttagccaggaatctcatatactttggtttctacaac
ttttctgaccttctccgattaaccaagatcctcttggcaatcttagactgtgtccatgtg
accactatcttccccattagcaagatgacaaaaggagaagagaataaaggcagtaacgtg
atgaggtctatccatggcgttggggagctgatgacccaggtggtgctgcggggaggaggc
ttcttgcccatgactcccatggctgcggcccctgaaggaaatgtgaagcaggcagagcca
gagaaagaggacatcatggtcatggacaccaagttgaagatcattgaaatactccagttt
attttgaatgtgagattggattataggatctcctgcctcctgtgtatatttaagcgagag
tttgatgaaagcaattcccagtcatcagaaacatcctccggaaacagcagccaggaaggg
ccaagtaatgtgccaggtgctcttgactttgaacacattgaagaacaagcggaaggcatc
tttggaggaagtgaggagaacacacctttggacctggatgaccatggtggcagaaccttc
ctcagggtcctgctccacttgacaatgcatgactacccacccctggtgtctggggccctg
cagctcctctttcggcacttcagccagaggcaggaggtccttcaggccttcaaacaggtt
caactgctggttactagccaagatgtggacaactacaaacagatcaagcaagacttggac
caactaaggtccattgtggagaagtctgagctctgggtgtacaaaggccaaggtcccgat
gagcctatggacggagcctccggtgaaaatgagcataagaaaaccgaggaggggacgagc
aagccactgaagcacgagagcaccagcagctacaactaccgagtggtgaaagagattttg
attcgacttagcaagctctgcgtgcaggagagcgcgtcggtgaggaagagccggaagcag
cagcaacgactgctgaggaacatgggcgcacacgctgtggtgctggagctgctgcagatc
ccctacgagaaggccgaagacacaaagatgcaagagatcatgcggctggctcatgaattt
ttgcagaatttctgtgcaggcaaccagcagaatcaagctttgctgcataaacacataaac
ctgtttctcaacccagggatcctggaggcagtgacgatgcagcacatcttcatgaacaac
ttccagctgtgcagtgagatcaacgagagagtggtccagcactttgttcactgcatagag
acccacggtcgaaacgtccagtatatcaagtttctccagacgattgtcaaggcagaaggg
aaattcattaaaaagtgccaagacatggtcatggctgagcttgtcaactctggagaggac
gtcctcgtgttctacaatgacagagcctctttccagactctgatccagatgatgcggtcc
gagcgtgaccggatggatgagaacagccctctcatgtaccacatccatctggtggagctc
ttggccgtgtgcacagagggcaagaatgtgtacacggagatcaagtgcaactccttgctc
ccgctcgatgacatcgttcgtgtggtcactcatgaagactgcatccccgaggttaagatc
gcttacattaacttcctgaatcactgctatgtggatacggaggtggagatgaaggagatt
tacacaagcaaccacatgtggaagttgtttgagaatttcctcgtggacatctgcagggcc
tgtaacaacacaagcgacaggaagcacgcagactccattctggagaagtacgtcactgaa
atcgtgatgagcatcgtcaccaccttcttcagctctcccttctcagaccagagcaccact
ctgcagacccgccagcctgtctttgtgcaactcctgcaaggcgtgttccgagtttaccac
tgcaactggctgatgccgagccaaaaagcctcggtggagagctgcatccgggtgctctct
gacgtagccaagagccgggccatagccattcctgttgacctggacagccaagtcaacaac
ctcttcctgaagtcccacaacattgtgcagaaaacagccctgaactggcggttatcagcc
cgaaacgccgctcgcagagactctgtactggcagcatccagagactaccgaaatatcatt
gagaggttacaggacatcgtgtctgccctagaggaccggctcaggcccctggtgcaggct
gagctgtctgtgctcgtggatgttctacacagaccagaactgctcttccccgagaacacg
gatgccaggaggaaatgtgagagtggaggtttcatctgcaagctaataaaacataccaag
caactgctggaggagaatgaagagaaactatgcattaaagtcttacagaccctcagggaa
atgatgaccaaagacagaggctatggagagaagcaaatttccattgatgaatcggaaaat
gccgagctgccacaggcaccggaagctgagaactccacagagcaggagcttgaaccaagt
ccacccctgaggcaactggaagaccataaaaggggtgaggcactccgacaaattttggtc
aaccgttactatggaaacatcagaccttcaggaagaagagagagccttaccagctttggc
aatggcccactatcaccaggaggacccagcaagcctggtggaggagggggaggtcctgga
tctagttccacaagcaggggtgagatgagcctggctgaggttcagtgtcacctcgacaag
gagggggcctccaacctggtcatcgatctcataatgaatgcatccagtgaccgagtattc
catgaaagcattctgctggccatcgcacttctggaaggaggcaacaccaccatccagcac
tcgtttttctgccggctgacagaagataagaaatcagagaagttcttcaaggttttttac
gatcgaatgaaggtggcccagcaggaaatcaaggcgacagtgacagtgaacaccagcgac
ttgggaaacaaaaagaaagatgatgaagtggacagggatgccccgtctcggaagaaagcc
aaagagcccacaacacagataacagaagaggtccgggatcagctcctggaagcatctgct
gccaccaggaaagcctttaccaccttccggagggaggccgaccctgatgaccattaccag
tctggggagggcacccaggctacaaccgacaaagccaaggatgacctagagatgagcgct
gtcatcaccatcatgcagcctatcctgcgcttcctgcagctgctgtgtgaaaaccacaac
cgagatctgcagaatttccttcgttgccaaaataataagaccaactacaatttggtgtgt
gagacactgcagtttctggactgtatttgtgggagcacaaccggaggccttggtcttctt
ggactgtacataaatgaaaagaatgtagcacttatcaaccaaaccctggagagtctgacg
gagtactgtcaagggccttgccatgagaaccagaactgcatcgccacccacgagtccaat
ggcatcgatatcatcacagccctcatcctcaatgatatcaaccctctgggaaagaagcgg
atggacctggtgttagaactgaagaacaatgcttcgaagctgctactggccatcatggaa
agcagacacgatagtgaaaatgcagagaggatcctgtacaacatgaggcccaaggagctg
gtggaagtgatcaagaaggcctacatgcaaggtgaagtggaatttgaggatggggagaac
ggtgaggatggagctgcctcacccaggaacgtgggccacaacatctacatcctcgctcac
cagttggctcggcataacaaagaacttcaaaccatgctgaaacctggaggccaggtggat
ggggatgaagctctggagttctacgcgaagcacacagcacaaattgagattgtcagactg
gaccggacaatggaacagatcgtcttccctgtgcccagcatctgtgaattcctgactaag
gaatcgaaacttcgaatatattacaccacagagcgggatgagcaaggtagcaagatcaat
gacttcttcctgcgctccgaggacctctttaacgagatgaactggcagaagaaacttcga
gcccagcctgtcttgtactggtgtgcccgaaacatgtctttctggagcagcatctccttc
aacctggccgtcctgatgaacctgctggtggcgtttttctatccatttaaaggagtaagg
ggaggaacactagagccacactggtcaggccttctgtggacagccatgctcatctctctg
gccattgtcattgctctgcccaagccccacggcatccgggccttaattgcttctacaatc
ctacgactgatattttcagttgggttgcagcccacactgtttctgctgggagctttcaat
gtctgcaataaaatcatcttcctgatgagctttgtgggcaactgtgggaccttcaccaga
ggctaccgggccatggttctggatgtggagttcctctatcatttgctgtatctactcatc
tgtgccatgggcctcttcgtacatgagttcttctatagcttgctgctttttgatttagtg
tacagagaggagactttgcttaatgtcattaaaagtgtcacccgcaatggacggtccatc
atcttgacagcggtcctggctctgatcctggtttacctgttctcaattgtgggctatctg
ttcttcaaggatgactttatcttggaagtagataggttgcccaatgaaacagctgttcca
gaaactggcgagagtttggccaacgatttcctgtactctgatgtgtgcagggtagagacg
ggggagaactgcacctctcctgcacccaaagaagagctgctccctgccgaagaaacggaa
caggataaggaacacacgtgtgagaccctgctcatgtgcatcgtcactgttctgagtcac
gggctgcggagtgggggaggggtaggagacgtgctcaggaagccatccaaagaggagcct
ctgtttgctgcaagggtgatctacgacctcctcttcttcttcatggtcatcatcatcgtc
ctgaacctgattttcggggtcatcattgacacctttgctgacctgaggagtgagaagcaa
aagaaggaggagatcttaaaaaccacgtgcttcatctgcggcttggaaagggacaagttt
gacaataagactgtcacctttgaagagcacatcaaggaagagcacaacatgtggcactat
ctgtgcttcatcgtgctggtgaaagtgaaggactccacagagtacaccgggcctgagagt
tacgtggcagagatgatcagggaaagaaaccttgattggttccccagaatgagagccatg
tccctggtcagcagcgattctgaaggggaacagaacgagctgaggaacctgcaggagaag
ctggagtctaccatgaagctggtcaccaatctttctggccagctgtcagaactaaaggac
cagatgacagaacagaggaagcagaaacaaagaatcggccttctaggacatcctcctcac
atgaatgtcaacccacagcagccggcctag |