LRRK2

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Synonyms
AURA17, DARDARIN, PARK8, RIPK7, ROCO2
Plasmid
pcDNA5frtTO HALO LRRK2
Parent Plasmid
pcDNA5D FRT/TO FLAG Halo
Expressed
HALO-Prec-LRRK2
DU Number
DU44618
Genbank
NM_198578.3
Tag
HALO
Species
Human
Sequence of Insert
ggatccatggctagtggcagctgtcaggggtgcgaagaggacgaggaaactctgaagaagttgatagtcaggctgaacaatgtccaggaaggaaaacagatagaaacgctggtccaaatcctggaggatctgctggtgttcacgtactccgagcacgcctccaagttatttcaaggcaaaaatatccatgtgcctctgttgatcgtcttggactcctatatgagagtcgcgagtgtgcagcaggtgggttggtcacttctgtgcaaattaatagaagtctgtccaggtacaatgcaaagcttaatgggaccccaggatgttggaaatgattgggaagtccttggtgttcaccaattgattcttaaaatgctaacagttcataatgccagtgtaaacttgtcagtgattggactgaagaccttagatctcctcctaacttcaggtaaaatcaccttgctgatattggatgaagaaagtgatattttcatgttaatttttgatgccatgcactcatttccagccaatgatgaagtccagaaacttggatgcaaagctttacatgtgctgtttgagagagtctcagaggagcaactgactgaatttgttgagaacaaagattatatgatattgttaagtgcgttaacaaattttaaagatgaagaggaaattgtgcttcatgtgctgcattgtttacattccctagcgattccttgcaataatgtggaagtcctcatgagtggcaatgtcaggtgttataatattgtggtggaagctatgaaagcattccctatgagtgaaagaattcaagaagtgagttgctgtttgctccataggcttacattaggtaattttttcaatatcctggtattaaacgaagtccatgagtttgtggtgaaagctgtgcagcagtacccagagaatgcagcattgcagatctcagcgctcagctgtttggccctcctcactgagactattttcttaaatcaagatttagaggaaaagaatgagaatcaagagaatgatgatgagggggaagaagataaattgttttggctggaagcctgttacaaagcattaacgtggcatagaaagaacaagcacgtgcaggaggccgcatgctgggcactaaataatctccttatgtaccaaaacagtttacatgagaagattggagatgaagatggccatttcccagctcatagggaagtgatgctctccatgctgatgcattcttcatcaaaggaagttttccaggcatctgcgaatgcattgtcaactctcttagaacaaaatgttaatttcagaaaaatactgttatcaaaaggaatacacctgaatgttttggagttaatgcagaagcatatacattctcctgaagtggctgaaagtggctgtaaaatgctaaatcatctttttgaaggaagcaacacttccctggatataatggcagcagtggtccccaaaatactaacagttatgaaacgtcatgagacatcattaccagtgcagctggaggcgcttcgagctattttacattttatagtgcctggcatgccagaagaatccagggaggatacagaatttcatcataagctaaatatggttaaaaaacagtgtttcaagaatgatattcacaaactggtcctagcagctttgaacaggttcattggaaatcctgggattcagaaatgtggattaaaagtaatttcttctattgtacattttcctgatgcattagagatgttatccctggaaggtgctatggattcagtgcttcacacactgcagatgtatccagatgaccaagaaattcagtgtctgggtttaagtcttataggatacttgattacaaagaagaatgtgttcataggaactggacatctgctggcaaaaattctggtttccagcttataccgatttaaggatgttgctgaaatacagactaaaggatttcagacaatcttagcaatcctcaaattgtcagcatctttttctaagctgctggtgcatcattcatttgacttagtaatattccatcaaatgtcttccaatatcatggaacaaaaggatcaacagtttctaaacctctgttgcaagtgttttgcaaaagtagctatggatgattacttaaaaaatgtgatgctagagagagcgtgtgatcagaataacagcatcatggttgaatgcttgcttctattgggagcagatgccaatcaagcaaaggagggatcttctttaatttgtcaggtatgtgagaaagagagcagtcccaaattggtggaactcttactgaatagtggatctcgtgaacaagatgtacgaaaagcgttgacgataagcattgggaaaggtgacagccagatcatcagcttgctcttaaggaggctggccctggatgtggccaacaatagcatttgccttggaggattttgtataggaaaagttgaaccttcttggcttggtcctttatttccagataagacttctaatttaaggaaacaaacaaatatagcatctacactagcaagaatggtgatcagatatcagatgaaaagtgctgtggaagaaggaacagcctcaggcagcgatggaaatttttctgaagatgtgctgtctaaatttgatgaatggacctttattcctgactcttctatggacagtgtgtttgctcaaagtgatgacctggatagtgaaggaagtgaaggctcatttcttgtgaaaaagaaatctaattcaattagtgtaggagaattttaccgagatgccgtattacagcgttgctcaccaaatttgcaaagacattccaattccttggggcccatttttgatcatgaagatttactgaagcgaaaaagaaaaatactatcttcagatgattcactcaggtcatcaaaacttcaatcccatatgaggcattcagacagcatttcttctctggcttctgagagagaatatattacatcactagacctttcagcaaatgaactaagagatattgatgccctaagccagaaatgctgtataagtgttcatttggagcatcttgaaaagctggagcttcaccagaatgcactcacgagctttccacaacagctatgtgaaactctgaagagtttgacacatttggacttgcacagtaataaatttacatcatttccttcttatttgttgaaaatgagttgtattgctaatcttgatgtctctcgaaatgacattggaccctcagtggttttagatcctacagtgaaatgtccaactctgaaacagtttaacctgtcatataaccagctgtcttttgtacctgagaacctcactgatgtggtagagaaactggagcagctcattttagaaggaaataaaatatcagggatatgctcccccttgagactgaaggaactgaagattttaaaccttagtaagaaccacatttcatccctatcagagaactttcttgaggcttgtcctaaagtggagagtttcagtgccagaatgaattttcttgctgctatgcctttcttgcctccttctatgacaatcctaaaattatctcagaacaaattttcctgtattccagaagcaattttaaatcttccacacttgcggtctttagatatgagcagcaatgatattcagtacctaccaggtcccgcacactggaaatctttgaacttaagggaactcttatttagccataatcagatcagcatcttggacttgagtgaaaaagcatatttatggtctagagtagagaaactgcatctttctcacaataaactgaaagagattcctcctgagattggctgtcttgaaaatctgacatctctggatgtcagttacaacttggaactaagatcctttcccaatgaaatggggaaattaagcaaaatatgggatcttcctttggatgaactgcatcttaactttgattttaaacatataggatgtaaagccaaagacatcataaggtttcttcaacagcgattaaaaaaggctgtgccttataaccgaatgaaacttatgattgtgggaaatactgggagtggtaaaaccaccttattgcagcaattaatgaaaaccaagaaatcagatcttggaatgcaaagtgccacagttggcatagatgtgaaagactggcctatccaaataagagacaaaagaaagagagatctcgtcctaaatgtgtgggattttgcaggtcgtgaggaattctatagtactcatccccattttatgacgcagcgagcattgtaccttgctgtctatgacctcagcaagggacaggctgaagttgatgccatgaagccttggctcttcaatataaaggctcgcgcttcttcttcccctgtgattctcgttggcacacatttggatgtttctgatgagaagcaacgcaaagcctgcatgagtaaaatcaccaaggaactcctgaataagcgagggttccctgccatacgagattaccactttgtgaatgccaccgaggaatctgatgctttggcaaaacttcggaaaaccatcataaacgagagccttaatttcaagatccgagatcagcttgttgttggacagctgattccagactgctatgtagaacttgaaaaaatcattttatcggagcgtaaaaatgtgccaattgaatttcccgtaattgaccggaaacgattattacaactagtgagagaaaatcagctgcagttagatgaaaatgagcttcctcacgcagttcactttctaaatgaatcaggagtccttcttcattttcaagacccagcactgcagttaagtgacttgtactttgtggaacccaagtggctttgtaaaatcatggcacagattttgacagtgaaagtggaaggttgtccaaaacaccctaagggcattatttcgcgtagagatgtggaaaaatttctttcaaaaaaaaggaaatttccaaagaactacatgacacagtattttaagctcctagaaaaattccagattgctttgccaataggagaagaatatttgctggttccaagcagtttgtctgaccacaggcctgtgatagagcttccccattgtgagaactctgaaattatcatccgactatatgaaatgccttattttccaatgggattttggtcaagattaatcaatcgattacttgagatttcaccttacatgctttcagggagagaacgagcacttcgcccaaacagaatgtattggcgacaaggcatttacttaaattggtctcctgaagcttattgtctggtaggatctgaagtcttagacaatcatccagagagtttcttaaaaattacagttccttcttgtagaaaaggctgtattcttttgggccaagttgtggaccacattgattctctcatggaagaatggtttcctgggttgctggagattgatatttgtggtgaaggagaaactctgttgaagaaatgggcattatatagttttaatgatggtgaagaacatcaaaaaatcttacttgatgacttgatgaagaaagcagaggaaggagatctcttagtaaatccagatcaaccaaggctcaccattccaatatctcagattgcccctgacttgattttggctgacctgcctagaaatattatgttgaataatgatgagttggaatttgaacaagctccagagtttctcctaggtgatggcagttttggatcagtttaccgagcagcctatgaaggagaagaagtggctgtgaagatttttaataaacatacatcactcaggctgttaagacaagagcttgtggtgctttgccacctccaccaccccagtttgatatctttgctggcagctgggattcgtccccggatgttggtgatggagttagcctccaagggttccttggatcgcctgcttcagcaggacaaagccagcctcactagaaccctacagcacaggattgcactccacgtagctgatggtttgagatacctccactcagccatgattatataccgagacctgaaaccccacaatgtgctgcttttcacactgtatcccaatgctgccatcattgcaaagattgctgactacggcattgctcagtactgctgtagaatggggataaaaacatcagagggcacaccagggtttcgtgcacctgaagttgccagaggaaatgtcatttataaccaacaggctgatgtttattcatttggtttactactctatgacattttgacaactggaggtagaatagtagagggtttgaagtttccaaatgagtttgatgaattagaaatacaaggaaaattacctgatccagttaaagaatatggttgtgccccatggcctatggttgagaaattaattaaacagtgtttgaaagaaaatcctcaagaaaggcctacttctgcccaggtctttgacattttgaattcagctgaattagtctgtctgacgagacgcattttattacctaaaaacgtaattgttgaatgcatggttgctacacatcacaacagcaggaatgcaagcatttggctgggctgtgggcacaccgacagaggacagctctcatttcttgacttaaatactgaaggatacacttctgaggaagttgctgatagtagaatattgtgcttagccttggtgcatcttcctgttgaaaaggaaagctggattgtgtctgggacacagtctggtactctcctggtcatcaataccgaagatgggaaaaagagacataccctagaaaagatgactgattctgtcacttgtttgtattgcaattccttttccaagcaaagcaaacaaaaaaattttcttttggttggaaccgctgatggcaagttagcaatttttgaagataagactgttaagcttaaaggagctgctcctttgaagatactaaatataggaaatgtcagtactccattgatgtgtttgagtgaatccacaaattcaacggaaagaaatgtaatgtggggaggatgtggcacaaagattttctccttttctaatgatttcaccattcagaaactcattgagacaagaacaagccaactgttttcttatgcagctttcagtgattccaacatcataacagtggtggtagacactgctctctatattgctaagcaaaatagccctgttgtggaagtgtgggataagaaaactgaaaaactctgtggactaatagactgcgtgcactttttaagggaggtaatggtaaaagaaaacaaggaatcaaaacacaaaatgtcttattctgggagagtgaaaaccctctgccttcagaagaacactgctctttggataggaactggaggaggccatattttactcctggatctttcaactcgtcgacttatacgtgtaatttacaacttttgtaattcggtcagagtcatgatgacagcacagctaggaagccttaaaaatgtcatgctggtattgggctacaaccggaaaaatactgaaggtacacaaaagcagaaagagatacaatcttgcttgaccgtttgggacatcaatcttccacatgaagtgcaaaatttagaaaaacacattgaagtgagaaaagaattagctgaaaaaatgagacgaacatctgttgagtaagcggccgc
Amino Acid Sequence
MAEIGTGFPFDPHYVEVLGERMHYVDVGPRDGTPVLFLHGNPTSSYVWRN
IIPHVAPTHRCIAPDLIGMGKSDKPDLGYFFDDHVRFMDAFIEALGLEEV
VLVIHDWGSALGFHWAKRNPERVKGIAFMEFIRPIPTWDEWPEFARETFQ
AFRTTDVGRKLIIDQNVFIEGTLPMGVVRPLTEVEMDHYREPFLNPVDRE
PLWRFPNELPIAGEPANIVALVEEYMDWLHQSPVPKLLFWGTPGVLIPPA
EAARLAKSLPNCKAVDIGPGLNLLQEDNPDLIGSEIARWLSTLEISGLEV
LFQGPGSMASGSCQGCEEDEETLKKLIVRLNNVQEGKQIETLVQILEDLL
VFTYSEHASKLFQGKNIHVPLLIVLDSYMRVASVQQVGWSLLCKLIEVCP
GTMQSLMGPQDVGNDWEVLGVHQLILKMLTVHNASVNLSVIGLKTLDLLL
TSGKITLLILDEESDIFMLIFDAMHSFPANDEVQKLGCKALHVLFERVSE
EQLTEFVENKDYMILLSALTNFKDEEEIVLHVLHCLHSLAIPCNNVEVLM
SGNVRCYNIVVEAMKAFPMSERIQEVSCCLLHRLTLGNFFNILVLNEVHE
FVVKAVQQYPENAALQISALSCLALLTETIFLNQDLEEKNENQENDDEGE
EDKLFWLEACYKALTWHRKNKHVQEAACWALNNLLMYQNSLHEKIGDEDG
HFPAHREVMLSMLMHSSSKEVFQASANALSTLLEQNVNFRKILLSKGIHL
NVLELMQKHIHSPEVAESGCKMLNHLFEGSNTSLDIMAAVVPKILTVMKR
HETSLPVQLEALRAILHFIVPGMPEESREDTEFHHKLNMVKKQCFKNDIH
KLVLAALNRFIGNPGIQKCGLKVISSIVHFPDALEMLSLEGAMDSVLHTL
QMYPDDQEIQCLGLSLIGYLITKKNVFIGTGHLLAKILVSSLYRFKDVAE
IQTKGFQTILAILKLSASFSKLLVHHSFDLVIFHQMSSNIMEQKDQQFLN
LCCKCFAKVAMDDYLKNVMLERACDQNNSIMVECLLLLGADANQAKEGSS
LICQVCEKESSPKLVELLLNSGSREQDVRKALTISIGKGDSQIISLLLRR
LALDVANNSICLGGFCIGKVEPSWLGPLFPDKTSNLRKQTNIASTLARMV
IRYQMKSAVEEGTASGSDGNFSEDVLSKFDEWTFIPDSSMDSVFAQSDDL
DSEGSEGSFLVKKKSNSISVGEFYRDAVLQRCSPNLQRHSNSLGPIFDHE
DLLKRKRKILSSDDSLRSSKLQSHMRHSDSISSLASEREYITSLDLSANE
LRDIDALSQKCCISVHLEHLEKLELHQNALTSFPQQLCETLKSLTHLDLH
SNKFTSFPSYLLKMSCIANLDVSRNDIGPSVVLDPTVKCPTLKQFNLSYN
QLSFVPENLTDVVEKLEQLILEGNKISGICSPLRLKELKILNLSKNHISS
LSENFLEACPKVESFSARMNFLAAMPFLPPSMTILKLSQNKFSCIPEAIL
NLPHLRSLDMSSNDIQYLPGPAHWKSLNLRELLFSHNQISILDLSEKAYL
WSRVEKLHLSHNKLKEIPPEIGCLENLTSLDVSYNLELRSFPNEMGKLSK
IWDLPLDELHLNFDFKHIGCKAKDIIRFLQQRLKKAVPYNRMKLMIVGNT
GSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVW
DFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARAS
SSPVILVGTHLDVSDEKQRKACMSKITKELLNKRGFPAIRDYHFVNATEE
SDALAKLRKTIINESLNFKIRDQLVVGQLIPDCYVELEKIILSERKNVPI
EFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQDPALQLS
DLYFVEPKWLCKIMAQILTVKVEGCPKHPKGIISRRDVEKFLSKKRKFPK
NYMTQYFKLLEKFQIALPIGEEYLLVPSSLSDHRPVIELPHCENSEIIIR
LYEMPYFPMGFWSRLINRLLEISPYMLSGRERALRPNRMYWRQGIYLNWS
PEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFP
GLLEIDICGEGETLLKKWALYSFNDGEEHQKILLDDLMKKAEEGDLLVNP
DQPRLTIPISQIAPDLILADLPRNIMLNNDELEFEQAPEFLLGDGSFGSV
YRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPR
MLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYR
DLKPHNVLLFTLYPNAAIIAKIADYGIAQYCCRMGIKTSEGTPGFRAPEV
ARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLP
DPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSAELVCLTRR
ILLPKNVIVECMVATHHNSRNASIWLGCGHTDRGQLSFLDLNTEGYTSEE
VADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTD
SVTCLYCNSFSKQSKQKNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNI
GNVSTPLMCLSESTNSTERNVMWGGCGTKIFSFSNDFTIQKLIETRTSQL
FSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFL
REVMVKENKESKHKMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRR
LIRVIYNFCNSVRVMMTAQLGSLKNVMLVLGYNRKNTEGTQKQKEIQSCL
TVWDINLPHEVQNLEKHIEVRKELAEKMRRTSVE*
Vector Type
Mammalian
Antibiotic
Amp
Comments
Precission cleavage.
All LRRK2 plasmids MUST be grown at 30 degrees C or less to prevent recombination. Contains SNP S1647T
100042 R 1000 1001 1047 19007
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