Entry |
|
Symbol |
ITPR1, ACV, CLA4, INSP3R1, IP3R, IP3R1, PPP1R94, SCA15, SCA16, SCA29
|
Name |
(RefSeq) inositol 1,4,5-trisphosphate receptor type 1
|
KO |
K04958 | inositol 1,4,5-triphosphate receptor type 1 |
|
Organism |
|
Pathway |
hsa04070 | Phosphatidylinositol signaling system |
hsa04270 | Vascular smooth muscle contraction |
hsa04621 | NOD-like receptor signaling pathway |
hsa04625 | C-type lectin receptor signaling pathway |
hsa04723 | Retrograde endocannabinoid signaling |
hsa04750 | Inflammatory mediator regulation of TRP channels |
hsa04925 | Aldosterone synthesis and secretion |
hsa04927 | Cortisol synthesis and secretion |
hsa04928 | Parathyroid hormone synthesis, secretion and action |
hsa04935 | Growth hormone synthesis, secretion and action |
hsa05022 | Pathways of neurodegeneration - multiple diseases |
hsa05163 | Human cytomegalovirus infection |
hsa05167 | Kaposi sarcoma-associated herpesvirus infection |
hsa05170 | Human immunodeficiency virus 1 infection |
|
Network |
|
Element |
N00953 | mGluR1-TRPC3 signaling pathway |
N00954 | Mutation-activated GRM1 to mGluR1-TRPC3 signaling pathway |
N00955 | Mutation-inactivated PRKCG to mGluR1-TRPC3 signaling pathway |
N00956 | Mutation-activated PRKCG to mGluR1-TRPC3 signaling pathway |
N00957 | Mutation-caused abberant ATXN2/3 to mGluR5-Ca2+ -apoptotic pathway |
N00958 | Mutation-activated ITPR1 to mGluR1-TRPC3 signaling pathway |
N00959 | ITPR1-reduced expression to mGluR1-TRPC3 signaling pathway |
N00960 | Mutation-caused aberrant SPTBN2 to mGluR1-TRPC3 signaling pathway |
N00965 | RORA-mediated transcription |
N00966 | Mutation-caused aberrant ATXN1 to RORA-mediated transcription |
N00984 | mGluR5-Ca2+ -apoptotic pathway |
N00985 | Mutation-caused aberrant Htt to mGluR5-Ca2+ -apoptotic pathway |
N01000 | mAChR-Ca2+ -apoptotic pathway |
N01001 | Mutation-caused aberrant Abeta to mAchR-Ca2+ -apoptotic pathway |
N01002 | Mutation-caused aberrant Abeta to mGluR5-Ca2+ -apoptotic pathway |
N01008 | Mutation-caused aberrant PSEN1 to mGluR5-Ca2+ -apoptotic pathway |
N01032 | Mutation-inactivated PRKN to mGluR1 signaling pathway |
N01106 | TCR-PLCG-ITPR signaling pathway |
N01151 | Mutation-inactivated SIGMAR1 to Ca2+ -apoptotic pathway |
N01199 | Scrapie conformation PrPSc to mGluR5-Ca2+ -apoptotic pathway |
N01640 | GPCR-PLCB-ITPR signaling pathway |
N01641 | RTK-PLCG-ITPR signaling pathway |
N01655 | Ca2+-PLCD-ITPR signaling pathway |
|
Disease |
H00063 | Spinocerebellar ataxia (SCA) |
|
Brite |
KEGG Orthology (KO) [BR:hsa00001]
09130 Environmental Information Processing
09132 Signal transduction
04371 Apelin signaling pathway
3708 (ITPR1)
04020 Calcium signaling pathway
3708 (ITPR1)
04070 Phosphatidylinositol signaling system
3708 (ITPR1)
04022 cGMP-PKG signaling pathway
3708 (ITPR1)
09140 Cellular Processes
09141 Transport and catabolism
04140 Autophagy - animal
3708 (ITPR1)
09143 Cell growth and death
04114 Oocyte meiosis
3708 (ITPR1)
04210 Apoptosis
3708 (ITPR1)
04218 Cellular senescence
3708 (ITPR1)
09144 Cellular community - eukaryotes
04540 Gap junction
3708 (ITPR1)
09150 Organismal Systems
09151 Immune system
04611 Platelet activation
3708 (ITPR1)
04621 NOD-like receptor signaling pathway
3708 (ITPR1)
04625 C-type lectin receptor signaling pathway
3708 (ITPR1)
09152 Endocrine system
04922 Glucagon signaling pathway
3708 (ITPR1)
04929 GnRH secretion
3708 (ITPR1)
04912 GnRH signaling pathway
3708 (ITPR1)
04915 Estrogen signaling pathway
3708 (ITPR1)
04921 Oxytocin signaling pathway
3708 (ITPR1)
04935 Growth hormone synthesis, secretion and action
3708 (ITPR1)
04918 Thyroid hormone synthesis
3708 (ITPR1)
04928 Parathyroid hormone synthesis, secretion and action
3708 (ITPR1)
04924 Renin secretion
3708 (ITPR1)
04925 Aldosterone synthesis and secretion
3708 (ITPR1)
04927 Cortisol synthesis and secretion
3708 (ITPR1)
09153 Circulatory system
04270 Vascular smooth muscle contraction
3708 (ITPR1)
09154 Digestive system
04970 Salivary secretion
3708 (ITPR1)
04971 Gastric acid secretion
3708 (ITPR1)
04972 Pancreatic secretion
3708 (ITPR1)
09156 Nervous system
04724 Glutamatergic synapse
3708 (ITPR1)
04725 Cholinergic synapse
3708 (ITPR1)
04728 Dopaminergic synapse
3708 (ITPR1)
04726 Serotonergic synapse
3708 (ITPR1)
04720 Long-term potentiation
3708 (ITPR1)
04730 Long-term depression
3708 (ITPR1)
04723 Retrograde endocannabinoid signaling
3708 (ITPR1)
09157 Sensory system
04750 Inflammatory mediator regulation of TRP channels
3708 (ITPR1)
09158 Development and regeneration
04380 Osteoclast differentiation
3708 (ITPR1)
09159 Environmental adaptation
04713 Circadian entrainment
3708 (ITPR1)
09160 Human Diseases
09161 Cancer: overview
05205 Proteoglycans in cancer
3708 (ITPR1)
09172 Infectious disease: viral
05170 Human immunodeficiency virus 1 infection
3708 (ITPR1)
05163 Human cytomegalovirus infection
3708 (ITPR1)
05167 Kaposi sarcoma-associated herpesvirus infection
3708 (ITPR1)
09171 Infectious disease: bacterial
05131 Shigellosis
3708 (ITPR1)
09164 Neurodegenerative disease
05010 Alzheimer disease
3708 (ITPR1)
05012 Parkinson disease
3708 (ITPR1)
05016 Huntington disease
3708 (ITPR1)
05017 Spinocerebellar ataxia
3708 (ITPR1)
05020 Prion disease
3708 (ITPR1)
05022 Pathways of neurodegeneration - multiple diseases
3708 (ITPR1)
09166 Cardiovascular disease
05417 Lipid and atherosclerosis
3708 (ITPR1)
09167 Endocrine and metabolic disease
04934 Cushing syndrome
3708 (ITPR1)
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:hsa01009]
3708 (ITPR1)
09183 Protein families: signaling and cellular processes
04040 Ion channels [BR:hsa04040]
3708 (ITPR1)
Protein phosphatases and associated proteins [BR:hsa01009]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-1
PP1-interacting proteins (PIPs)
3708 (ITPR1)
Ion channels [BR:hsa04040]
Ligand-gated channels
IP3 receptor
3708 (ITPR1)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
3:4493348..4847506
|
AA seq |
2743 aa
MSDKMSSFLHIGDICSLYAEGSTNGFISTLGLVDDRCVVQPETGDLNNPPKKFRDCLFKL
CPMNRYSAQKQFWKAAKPGANSTTDAVLLNKLHHAADLEKKQNETENRKLLGTVIQYGNV
IQLLHLKSNKYLTVNKRLPALLEKNAMRVTLDEAGNEGSWFYIQPFYKLRSIGDSVVIGD
KVVLNPVNAGQPLHASSHQLVDNPGCNEVNSVNCNTSWKIVLFMKWSDNKDDILKGGDVV
RLFHAEQEKFLTCDEHRKKQHVFLRTTGRQSATSATSSKALWEVEVVQHDPCRGGAGYWN
SLFRFKHLATGHYLAAEVDPDQDASRSRLRNAQEKMVYSLVSVPEGNDISSIFELDPTTL
RGGDSLVPRNSYVRLRHLCTNTWVHSTNIPIDKEEEKPVMLKIGTSPVKEDKEAFAIVPV
SPAEVRDLDFANDASKVLGSIAGKLEKGTITQNERRSVTKLLEDLVYFVTGGTNSGQDVL
EVVFSKPNRERQKLMREQNILKQIFKLLQAPFTDCGDGPMLRLEELGDQRHAPFRHICRL
CYRVLRHSQQDYRKNQEYIAKQFGFMQKQIGYDVLAEDTITALLHNNRKLLEKHITAAEI
DTFVSLVRKNREPRFLDYLSDLCVSMNKSIPVTQELICKAVLNPTNADILIETKLVLSRF
EFEGVSSTGENALEAGEDEEEVWLFWRDSNKEIRSKSVRELAQDAKEGQKEDRDVLSYYR
YQLNLFARMCLDRQYLAINEISGQLDVDLILRCMSDENLPYDLRASFCRLMLHMHVDRDP
QEQVTPVKYARLWSEIPSEIAIDDYDSSGASKDEIKERFAQTMEFVEEYLRDVVCQRFPF
SDKEKNKLTFEVVNLARNLIYFGFYNFSDLLRLTKILLAILDCVHVTTIFPISKMAKGEE
NKGNNDVEKLKSSNVMRSIHGVGELMTQVVLRGGGFLPMTPMAAAPEGNVKQAEPEKEDI
MVMDTKLKIIEILQFILNVRLDYRISCLLCIFKREFDESNSQTSETSSGNSSQEGPSNVP
GALDFEHIEEQAEGIFGGSEENTPLDLDDHGGRTFLRVLLHLTMHDYPPLVSGALQLLFR
HFSQRQEVLQAFKQVQLLVTSQDVDNYKQIKQDLDQLRSIVEKSELWVYKGQGPDETMDG
ASGENEHKKTEEGNNKPQKHESTSSYNYRVVKEILIRLSKLCVQESASVRKSRKQQQRLL
RNMGAHAVVLELLQIPYEKAEDTKMQEIMRLAHEFLQNFCAGNQQNQALLHKHINLFLNP
GILEAVTMQHIFMNNFQLCSEINERVVQHFVHCIETHGRNVQYIKFLQTIVKAEGKFIKK
CQDMVMAELVNSGEDVLVFYNDRASFQTLIQMMRSERDRMDENSPLMYHIHLVELLAVCT
EGKNVYTEIKCNSLLPLDDIVRVVTHEDCIPEVKIAYINFLNHCYVDTEVEMKEIYTSNH
MWKLFENFLVDICRACNNTSDRKHADSILEKYVTEIVMSIVTTFFSSPFSDQSTTLQTRQ
PVFVQLLQGVFRVYHCNWLMPSQKASVESCIRVLSDVAKSRAIAIPVDLDSQVNNLFLKS
HSIVQKTAMNWRLSARNAARRDSVLAASRDYRNIIERLQDIVSALEDRLRPLVQAELSVL
VDVLHRPELLFPENTDARRKCESGGFICKLIKHTKQLLEENEEKLCIKVLQTLREMMTKD
RGYGEKLISIDELDNAELPPAPDSENATEELEPSPPLRQLEDHKRGEALRQVLVNRYYGN
VRPSGRRESLTSFGNGPLSAGGPGKPGGGGGGSGSSSMSRGEMSLAEVQCHLDKEGASNL
VIDLIMNASSDRVFHESILLAIALLEGGNTTIQHSFFCRLTEDKKSEKFFKVFYDRMKVA
QQEIKATVTVNTSDLGNKKKDDEVDRDAPSRKKAKEPTTQITEEVRDQLLEASAATRKAF
TTFRREADPDDHYQPGEGTQATADKAKDDLEMSAVITIMQPILRFLQLLCENHNRDLQNF
LRCQNNKTNYNLVCETLQFLDCICGSTTGGLGLLGLYINEKNVALINQTLESLTEYCQGP
CHENQNCIATHESNGIDIITALILNDINPLGKKRMDLVLELKNNASKLLLAIMESRHDSE
NAERILYNMRPKELVEVIKKAYMQGEVEFEDGENGEDGAASPRNVGHNIYILAHQLARHN
KELQSMLKPGGQVDGDEALEFYAKHTAQIEIVRLDRTMEQIVFPVPSICEFLTKESKLRI
YYTTERDEQGSKINDFFLRSEDLFNEMNWQKKLRAQPVLYWCARNMSFWSSISFNLAVLM
NLLVAFFYPFKGVRGGTLEPHWSGLLWTAMLISLAIVIALPKPHGIRALIASTILRLIFS
VGLQPTLFLLGAFNVCNKIIFLMSFVGNCGTFTRGYRAMVLDVEFLYHLLYLVICAMGLF
VHEFFYSLLLFDLVYREETLLNVIKSVTRNGRSIILTAVLALILVYLFSIVGYLFFKDDF
ILEVDRLPNETAVPETGESLASEFLFSDVCRVESGENCSSPAPREELVPAEETEQDKEHT
CETLLMCIVTVLSHGLRSGGGVGDVLRKPSKEEPLFAARVIYDLLFFFMVIIIVLNLIFG
VIIDTFADLRSEKQKKEEILKTTCFICGLERDKFDNKTVTFEEHIKEEHNMWHYLCFIVL
VKVKDSTEYTGPESYVAEMIKERNLDWFPRMRAMSLVSSDSEGEQNELRNLQEKLESTMK
LVTNLSGQLSELKDQMTEQRKQKQRIGLLGHPPHMNVNPQQPA |
NT seq |
8232 nt +upstreamnt +downstreamnt
atgtctgacaaaatgtctagcttcctacatattggagacatttgttctctgtacgcggag
ggatcgacaaatggatttattagcaccttgggcctggttgatgatcgttgtgttgtacag
ccagaaaccggggaccttaacaatccacctaagaaattcagagactgcctctttaagcta
tgtcccatgaaccgctactctgcccaaaagcagttctggaaagccgctaagcctggggcc
aacagcaccacagacgcagtgctactcaacaaactgcaccacgctgcagacttggaaaag
aagcagaatgagacagaaaacaggaaattgctggggaccgtaatccagtatggcaatgtg
atccagctcctgcatttgaaaagtaataaatacctaacagtgaataagaggcttcctgct
ctgttggagaagaatgccatgagagtcacattggacgaggctggaaatgaagggtcctgg
ttttatattcagccattctacaagctgcgatccattggagacagcgtggtcataggtgac
aaggtggttctgaaccccgtcaatgctggtcagcccctacatgctagcagccatcaactg
gtagataacccaggctgcaatgaggtcaattccgtcaactgcaatacaagctggaaaata
gtccttttcatgaaatggagtgataacaaagacgacatattaaaggggggtgacgtggtg
aggctgtttcatgctgagcaggagaagtttctcacctgtgacgaacacaggaagaagcag
cacgtcttcctgagaaccacgggccggcagtcggccacatctgccaccagttcaaaagcc
ctgtgggaggtggaggtggtccagcatgacccatgtcggggcggagcagggtattggaac
agccttttccgtttcaagcatctggccacggggcattacttggcagcagaggtggaccct
gatcaggacgcctctcgaagtaggttgcggaatgcccaagaaaagatggtatactccctg
gtctctgtgcctgaaggcaatgacatctcctccattttcgagctagatcccaccactctg
cgtggaggtgacagccttgtcccaaggaactcttatgttcggctcagacacctatgtact
aatacctgggttcacagcacaaatattcctattgacaaggaagaagaaaagcccgtgatg
ctgaaaattggcacctctcctgtgaaggaggataaggaagcatttgccatagttccggtt
tctcctgctgaagttcgggacctggactttgccaatgatgccagcaaggtgctgggctcc
attgctgggaagctagagaagggcaccatcacccagaatgaaaggaggtctgtaaccaag
ctgctagaagatttggtttacttcgtcactggtggaactaattctggtcaagatgttctc
gaagttgtcttctccaagcccaacagagaacggcagaaactgatgagagaacagaatatt
ctcaagcagatcttcaagttgttacaagccccattcacagactgcggtgatggcccaatg
cttcggctggaagagctcggggaccagcggcacgctcctttcagacacatctgccggctc
tgctacagggtgctgagacactcgcagcaagactacaggaagaaccaggagtatatagcc
aagcagtttggcttcatgcagaagcagattggctatgatgtgttggctgaagacactatc
actgccctgctccacaataatcggaaactcctggaaaaacacattaccgcggcagagatt
gacacatttgtcagcctggtgcgaaagaacagggagcccagattcttagattacctctcc
gacctctgtgtctccatgaacaaatcaattccagtgacccaggaactgatatgtaaagct
gtgctgaaccccaccaacgctgacatcctgattgagaccaagttggttctttctcgtttt
gaatttgaaggtgtctcttccactggagagaatgctctggaggcaggagaagacgaggaa
gaggtgtggctgttttggagggacagcaacaaagagattcgcagcaagagtgtgagggaa
ttggctcaggatgctaaagaagggcagaaggaggaccgagacgttctcagctactacaga
tatcagctgaacctctttgcgaggatgtgtctggaccgccaatacctggccatcaacgaa
atctcaggccagctggatgtcgatctcattctccgctgcatgtctgacgagaacctgccc
tatgacctcagggcgtccttctgccgcctcatgcttcacatgcatgtggaccgagatccc
caggaacaagtcacccccgtgaaatatgcccgcctctggtcggagattccctcggagatc
gccattgacgactatgatagtagtggagcttccaaagatgaaattaaggagagatttgct
cagaccatggagtttgtggaggagtatttaagagatgtggtttgtcagaggttccctttc
tctgataaagagaagaataagcttacgtttgaggttgtaaatttagctaggaatctcata
tactttggtttctacaacttctctgaccttctacgattaactaagatccttctggccata
ttggactgtgtacatgtgacaacaatcttccccattagcaagatggcgaaaggagaagag
aataaaggtaacaatgatgtggagaagctgaagagcagtaacgtgatgagatctattcat
ggcgtgggagagctgatgacccaggtggtgctccggggaggaggctttttgcccatgact
cccatggctgctgcccctgaaggcaatgtgaagcaggcagagcctgagaaggaggacatc
atggtcatggacaccaagctgaagatcattgagatactccagtttattttgaatgtgagg
ttggattataggatctcctgcctcctgtgtatatttaagcgagagtttgatgaaagcaat
tcccagacttcagaaacatcctccggaaacagcagccaagaagggccaagtaatgtacca
ggtgctcttgactttgaacacattgaagaacaagcagaaggcatctttggaggaagtgag
gagaacaccccactggacttggatgaccacggcggcagaacctttctccgtgtcctgctc
cacttgacgatgcatgactacccacccctggtgtcaggggccctgcagctcctcttccgg
cacttcagccagaggcaggaggtgctccaggccttcaaacaggttcaactgctggttacc
agccaagatgtggacaactacaaacagatcaaacaagacttggatcaactgaggtccatc
gtggaaaagtcagagctttgggtgtacaaagggcagggccccgatgagactatggatggt
gcatctggagaaaatgaacataagaaaacggaggagggaaataacaagccacaaaagcat
gaaagcaccagcagctacaactacagagtggtcaaagagattttgattcggcttagcaaa
ctctgtgttcaagagagtgcctcagtgagaaagagcaggaagcagcaacagcgtctgctc
cggaacatgggcgcgcacgccgtggtgctggagctgctgcagattccctatgagaaggcc
gaagataccaagatgcaagagataatgaggttggctcatgaatttttgcagaatttctgc
gcaggcaaccagcagaatcaagctttgctacataaacacataaacctgtttctcaaccca
gggatcctggaggcagtaaccatgcagcacatcttcatgaacaatttccagctttgcagt
gagatcaacgagagagttgttcagcacttcgttcactgcatagagactcacggtcggaat
gtccagtatataaagttcttacagacaattgtcaaggcagaagggaaatttattaaaaaa
tgccaagacatggttatggccgagctggtcaattcgggagaggatgtcctcgtgttctac
aacgacagagcctctttccagactctgatccagatgatgcggtcagaacgggatcggatg
gatgagaacagccctctcatgtaccacatccacttggtcgagctcctggctgtgtgcacg
gagggtaagaatgtctacacagagatcaagtgcaactccctgctcccgctggatgacatc
gttcgcgtggtgacccacgaggactgcatccctgaggttaaaattgcatacattaacttc
ctgaatcactgctatgtggatacagaggtggaaatgaaggagatttataccagcaatcac
atgtggaaattgtttgagaatttccttgtagacatctgcagggcctgtaacaacactagt
gacaggaaacatgcagactcgattttggagaagtatgtcaccgaaatcgtcatgagtatt
gttactactttcttcagctctcccttctcagaccagagtacgactttgcagactcgccag
cctgtctttgtgcaactgctgcaaggcgtgttcagggtttaccactgcaactggttaatg
ccaagccaaaaagcctccgtggagagctgtattcgggtgctgtctgatgtagccaagagc
cgggccattgccattcccgtggacctggacagccaagtcaacaacctctttctcaagtcc
cacagcattgtgcagaaaacagccatgaactggcggctctcagcccgcaatgccgcacgc
agggactctgttctggcagcttccagagactaccggaatatcattgagagattgcaggac
atcgtctccgcgctggaggaccgtctcaggcccctggtgcaggcagagttatctgtgctc
gtggatgttctccacagacccgagctgcttttcccagagaacacagacgccagaaggaaa
tgtgaaagtggcggtttcatttgcaagttaataaagcatacaaaacagctgctagaagaa
aatgaagagaagctctgcattaaggtcctacagaccctgagggaaatgatgaccaaagat
agaggctatggagaaaagctaatttccattgatgaattggataatgctgagcttcctcca
gctccggattctgagaacgccactgaggagcttgaaccaagtccacccctgcggcagctg
gaagaccataaaaggggtgaggcgctcaggcaagttctggtcaaccgttactatggaaac
gtcagaccttcgggacgaagagagagccttaccagctttggcaatggcccactgtcagca
ggaggacccggcaagcccgggggaggagggggaggttccggatccagctctatgagcagg
ggtgagatgagtctggccgaggttcagtgtcaccttgacaaggagggggcttccaatcta
gttatcgacctcatcatgaacgcatccagtgaccgagtgttccatgaaagcattctcctg
gccattgcccttctggaaggaggcaacaccaccatccagcactcctttttctgtcgcttg
acagaagataagaagtcagagaaattctttaaggtgttttatgaccggatgaaggtggcc
cagcaagaaatcaaagcaacagtgacagtgaacaccagtgacttgggaaataaaaagaaa
gacgatgaggtagacagggatgccccatcacggaaaaaagctaaagagcccacaacacag
ataacagaagaggtccgggatcagctcctggaggcctccgctgccaccaggaaagccttc
accactttcaggagggaggctgatcccgacgaccactaccagcctggagagggcacccag
gccactgccgacaaggccaaggacgacctggagatgagcgcggtcatcaccatcatgcag
cccatcctccgcttccttcagctcctgtgtgaaaaccacaaccgagacctgcagaacttc
ctccgttgccaaaataacaagaccaactacaatttggtatgtgagaccctgcagtttctg
gactgtatttgtggaagcacaactggaggccttggtcttctgggcttgtatataaatgaa
aagaacgtagcgcttatcaaccaaaccctggaaagtctgaccgaatactgtcaaggacct
tgccatgagaaccagaactgcatagccacccatgaatccaatggcattgacatcatcaca
gccctgatcctcaatgatatcaatcctttgggaaagaagaggatggaccttgtgttagaa
ctgaagaacaatgcctcgaagttgctcctggccatcatggaaagcaggcacgacagtgaa
aacgcagagaggatactttataacatgaggcccaaggaactggtggaagtgatcaagaaa
gcctacatgcaaggtgaagtggaatttgaggatggagaaaacggtgaggatggggcggcg
tcccccaggaacgtggggcacaacatctacatattagcccatcagttggctcggcataac
aaagaacttcagagcatgctgaaacctggtggccaagtggacggagatgaagccctggag
ttttatgccaagcacacggcgcagatagagattgtcagattagaccgaacaatggaacag
atagtctttcccgtgcccagcatatgtgaattcctaaccaaggagtcaaaactacgaatt
tactatactacagagagagacgaacaaggcagcaaaatcaatgatttctttctgcggtct
gaagacctcttcaatgaaatgaattggcagaagaaactgagagcccagcccgtgttgtac
tggtgtgcccgcaacatgtctttctggagcagcatttcgtttaacctggccgtcctgatg
aacctgctggtggcgtttttctacccgtttaagggagtccgaggaggaaccctggagccc
cactggtcgggactcctgtggacagccatgctcatctctctggccatcgtcattgccctc
cccaagccccatggcatccgggccttaattgcctccacaattctacgactgatattttca
gtcgggttacaacccacgttgtttcttctgggcgctttcaatgtatgcaataaaatcatc
tttctaatgagctttgtgggcaactgtgggacattcacaagaggctaccgagccatggtt
ctggatgttgagttcctctatcatttgttgtatctggtgatctgtgccatggggctcttt
gtccatgaattcttctacagtctgctgctttttgatttagtgtacagagaagagactttg
cttaatgtcattaaaagtgtcactcgcaatggacggtccatcatcctgacagcagttctg
gctctgatcctcgtttacctgttctcaatagtgggctatcttttcttcaaggatgacttt
atcttggaagtagataggctgcccaatgaaacagctgttccagaaaccggcgagagtttg
gcaagcgagttcctgttctccgatgtgtgtagggtggagagtggggagaactgctcctct
cctgcacccagagaagagctggtccctgcagaagagacggaacaggataaagagcacaca
tgtgagacgctgctgatgtgcattgtcactgtgctgagtcacgggctgcggagcgggggt
ggagtaggagatgtactcaggaagccgtccaaagaggaacccctgtttgctgctagagtt
atttatgacctcttgttcttcttcatggtcatcatcattgttcttaacctgatttttggg
gttatcattgacacttttgctgacctgaggagtgagaagcagaagaaggaagagatcttg
aagaccacgtgctttatctgtggcttggaaagagacaagtttgacaacaagactgtcacc
tttgaagagcacatcaaggaagaacacaacatgtggcactatctgtgcttcatcgtcctg
gtgaaagtaaaggactccaccgaatatactgggcctgagagttacgtggcagaaatgatc
aaggaaagaaaccttgactggttccccaggatgagagccatgtcattggtcagcagtgat
tctgaaggagaacagaatgagctgagaaacctgcaggagaagctggagtccaccatgaaa
cttgtcacgaacctttctggccagctgtcggaattaaaggatcagatgacagaacaaagg
aagcagaaacaaagaattggtcttctaggacatcctcctcacatgaatgtcaacccacaa
caaccagcataa |