Identification
HMDB Protein ID CDBP03689
Secondary Accession Numbers Not Available
Name Leucine-rich repeat serine/threonine-protein kinase 1
Description Not Available
Synonyms Not Available
Gene Name LRRK1
Protein Type Enzyme
Biological Properties
General Function Involved in protein binding
Specific Function ATP + a protein = ADP + a phosphoprotein
GO Classification
Component
intracellular
cell part
Function
protein binding
purine nucleotide binding
protein kinase activity
binding
nucleotide binding
catalytic activity
guanyl nucleotide binding
guanyl ribonucleotide binding
gtp binding
transferase activity
transferase activity, transferring phosphorus-containing groups
kinase activity
nucleoside binding
purine nucleoside binding
adenyl nucleotide binding
adenyl ribonucleotide binding
atp binding
Process
phosphorus metabolic process
phosphate metabolic process
metabolic process
biological regulation
regulation of biological process
cellular metabolic process
regulation of cellular process
signal transduction
protein amino acid phosphorylation
intracellular signal transduction
small gtpase mediated signal transduction
phosphorylation
Cellular Location
  1. Cytoplasm
Pathways
Gene Properties
Chromosome Location Chromosome:1
Locus 15q26.3
SNPs LRRK1
Gene Sequence
>6048 bp
ATGGCTGGCATGTCGCAAAGACCCCCCAGCATGTACTGGTGTGTGGGGCCGGAGGAGTCA
GCTGTGTGTCCAGAACGTGCCATGGAGACGCTTAACGGTGCCGGGGACACGGGCGGCAAG
CCGTCCACGCGGGGCGGTGACCCTGCAGCGCGGTCCCGCAGGACGGAAGGCATCCGCGCC
GCGTACAGGCGGGGAGACCGCGGCGGCGCCCGGGACCTGCTGGAGGAGGCCTGCGACCAG
TGCGCGTCCCAGCTGGAAAAGGGCCAGCTTCTGAGCATCCCGGCAGCCTATGGGGATCTG
GAGATGGTCCGCTACCTACTCAGCAAGAGACTGGTGGAGCTGCCCACCGAGCCCACGGAT
GACAACCCAGCCGTGGTGGCAGCGTATTTTGGACACACGGCAGTTGTGCAGGAATTGCTT
GAGTCCTTACCAGGTCCCTGCAGTCCCCAGCGGCTTCTGAACTGGATGCTGGCCTTGGCT
TGCCAGCGAGGGCACCTGGGGGTTGTGAAGCTCCTGGTCCTGACGCACGGGGCTGACCCG
GAGAGCTACGCTGTCAGGAAGAATGAGTTCCCTGTCATCGTGCGCTTGCCCCTGTATGCG
GCCATCAAGTCAGGGAATGAAGACATTGCAATATTCCTGCTTCGGCATGGGGCCTATTTC
TGTTCCTACATCTTGCTGGATAGTCCTGACCCCAGCAAACATCTGCTGAGAAAGTACTTC
ATTGAAGCCAGTCCCTTGCCCAGCAGTTATCCGGGAAAAACAGCTCTCCGTGTGAAATGG
TCCCATCTCAGACTGCCCTGGGTAGACCTAGACTGGCTCATAGACATCTCCTGCCAGATC
ACGGAGCTCGACCTTTCTGCCAACTGCCTGGCGACCCTCCCCTCGGTTATCCCCTGGGGC
CTCATCAATCTCCGGAAGCTGAACCTCTCCGACAACCACCTGGGGGAGCTGCCTGGCGTG
CAGTCATCGGACGAAATCATCTGTTCCAGGCTACTTGAAATTGACATTTCCAGCAACAAG
TTGTCCCACCTCCCTCCTGGATTCTTGCACCTCTCAAAACTTCAAAAACTGACAGCTTCA
AAAAATTGTTTAGAAAAATTGTTCGAAGAAGAAAATGCCACTAACTGGATAGGTTTACGG
AAGCTACAGGAACTTGATATATCTGACAATAAATTGACAGAACTCCCTGCCCTGTTCCTT
CACTCTTTCAAGTCCCTCAATTCTCTGAATGTCTCCAGAAACAACCTGAAGGTGTTTCCA
GATCCCTGGGCCTGCCCTTTGAAATGTTGTAAAGCTTCCAGAAATGCCCTGGAATGTCTG
CCAGACAAAATGGCTGTCTTTTGGAAAAATCACCTGAAGGATGTGGATTTCTCAGAAAAC
GCACTCAAAGAAGTTCCCCTGGGACTTTTCCAGCTTGATGCCCTCATGTTCTTGAGGTTA
CAGGGGAACCAGCTGGCGGCACTTCCACCTCAAGAGAAGTGGACCTGCAGGCAGCTCAAA
ACCCTGGATCTCTCCAGAAACCAACTTGGCAAAAATGAAGATGGACTGAAAACGAAGCGT
ATTGCCTTTTTCACCACCAGAGGTCGCCAGCGCTCCGGGACTGAGGCAGCAAGTGTGCTG
GAATTTCCGGCCTTCCTAAGTGAGTCTTTGGAAGTCCTTTGCCTGAACGACAACCACCTC
GACACAGTCCCTCCCTCGGTTTGCCTACTGAAGAGCTTATCAGAGCTCTACTTGGGAAAC
AACCCTGGCCTCCGGGAGCTCCCTCCTGAGCTGGGGCAGCTGGGCAACCTCTGGCAGCTG
GACACTGAAGACCTGACCATCAGCAATGTGCCTGCAGAAATCCAAAAAGAAGGCCCCAAA
GCAATGCTGTCTTACCTGCGTGCTCAGCTGCGGAAAGCGGAAAAGTGCAAGCTGATGAAG
ATGATCATCGTGGGTCCCCCGCGCCAGGGCAAGTCCACCCTCCTGGAGATCTTACAGACG
GGGAGGGCCCCCCAGGTGGTGCATGGAGAGGCCACCATCAGGACCACCAAGTGGGAGCTC
CAGAGGCCGGCTGGCTCAAGAGCCAAGGTTGAGTCCGTGGAGTTCAACGTCTGGGACATC
GGGGGACCGGCCAGCATGGCCACTGTCAACCAGTGCTTCTTCACGGACAAGGCCCTGTAC
GTGGTGGTCTGGAACCTGGCGCTGGGGGAGGAGGCCGTGGCCAACCTCCAGTTCTGGCTG
CTCAACATCGAGGCCAAGGCCCCAAACGCCGTGGTGCTGGTGGTCGGGACGCACCTGGAT
TTAATTGAAGCCAAGTTCCGTGTGGAAAGGATTGCAACGCTGCGTGCCTATGTGCTGGCA
CTCTGCCGCTCCCCCTCCGGCTCCAGGGCCACAGGCTTCCCAGACATCACCTTCAAACAC
TTACATGAGATTTCCTGCAAGAGCCTGGAAGGTCAGGAAGGGCTGCGACAGCTGATTTTC
CACGTCACGTGCAGCATGAAGGACGTGGGCAGCACCATCGGCTGCCAGCGACTGGCAGGG
CGGCTGATCCCCAGGAGCTACCTGAGCCTGCAGGAGGCCGTGCTGGCAGAGCAGCAGCGC
CGCAGCCGGGACGACGACGTGCAGTACCTGACGGACAGGCAGCTGGAGCAGCTGGTGGAG
CAGACGCCCGACAACGACATCAAGGACTACGAGGACCTGCAGTCAGCCATCAGCTTCCTC
ATAGAAACCGGCACCCTGCTCCATTTCCCGGACACCAGCCACGGCCTGAGGAACCTCTAC
TTCCTCGACCCTATTTGGCTCTCCGAATGTCTGCAGAGGATCTTTAATATTAAGGGCTCT
CGGTCAGTGGCCAAGAATGGGGTGATCAGAGCAGAAGACCTCAGGATGCTGCTGGTGGGG
ACTGGCTTCACGCAGCAGACGGAAGAGCAGTACTTCCAGTTCCTGGCCAAGTTTGAGATC
GCCCTGCCCGTCGCCAATGACAGCTACCTCCTGCCCCATCTCCTTCCATCTAAACCTGGC
CTGGACACCCACGGTATGCGGCACCCCACAGCCAACACCATTCAGAGGGTATTTAAGATG
AGCTTCGTTCCCGTTGGCTTCTGGCAAAGGTTTATAGCACGGATGCTGATCAGCCTGGCG
GAGATGGACCTGCAGCTTTTTGAAAACAAGAAGAATACTAAAAGCAGGAACAGGAAAGTC
ACCATTTACAGTTTTACAGGAAACCAGAGAAATCGCTGTAGCACATTCAGAGTGAAAAGA
AATCAGACCATCTATTGGCAGGAAGGGCTCCTGGTCACTTTTGATGGGGGCTACCTCAGT
GTGGAATCTTCCGACGTGAACTGGAAAAAGAAGAAAAGCGGAGGAATGAAAATTGTTTGC
CAATCAGAAGTGAGGGACTTCTCAGCCATGGCTTTCATCACGGACCACGTCAATTCCTTG
ATTGATCAGTGGTTTCCCGCCCTGACAGCCACAGAGAGCGACGGGACGCCACTCATGGAG
CAGTACGTGCCCTGCCCGGTCTGCGAGACAGCCTGGGCCCAGCACACGGACCCCAGTGAG
AAATCAGAGGATGTGCAGTACTTCGACATGGAAGACTGTGTCCTGACGGCCATCGAGCGG
GACTTCATCTCCTGCCCCAGACACCCGGACCTCCCCGTGCCGCTGCAGGAGCTGGTCCCT
GAACTGTTCATGACCGACTTCCCGGCCAGGCTCTTCCTGGAGAACAGCAAGCTGGAGCAC
AGCGAGGACGAGGGCAGCGTCCTGGGCCAGGGCGGCAGTGGCACCGTCATCTACCGGGCC
CGGTACCAGGGCCAGCCTGTGGCCGTCAAGCGCTTCCACATCAAAAAATTCAAGAACTTT
GCTAACGTACCGGCAGACACCATGCTGAGGCACCTGCGGGCCACCGATGCCATGAAGAAC
TTCTCCGAGTTCCGGCAGGAGGCCAGCATGCTGCACGCGCTGCAGCACCCCTGCATCGTG
GCGCTCATCGGCATCAGCATCCACCCGCTCTGCTTCGCCCTGGAGCTCGCGCCGCTCAGC
AGCCTCAACACCGTGCTGTCCGAGAACGCCAGAGATTCTTCCTTTATACCCCTGGGACAC
ATGCTCACCCAAAAAATAGCCTACCAGATCGCCTCGGGCCTGGCCTACCTGCACAAGAAA
AACATCATCTTCTGTGACCTGAAGTCGGACAACATTCTGGTGTGGTCCCTTGACGTCAAG
GAGCACATCAACATCAAGCTATCTGACTACGGGATTTCGAGGCAGTCATTCCATGAGGGC
GCCCTAGGCGTGGAGGGCACTCCTGGCTACCAGGCCCCAGAGATCAGGCCTCGCATTGTA
TATGATGAGAAGGTAGATATGTTCTCCTATGGAATGGTGCTCTACGAGTTGCTGTCAGGA
CAGCGCCCTGCACTGGGCCACCACCAGCTCCAGATTGCCAAGAAGCTGTCCAAGGGCATC
CGCCCGGTTCTGGGGCAGCCGGAGGAAGTGCAGTTCCGGCGACTGCAGGCGCTCATGATG
GAGTGCTGGGACACTAAGCCAGAGAAGCGACCGCTGGCCCTGTCGGTGGTGAGCCAGATG
AAGGACCCGACTTTTGCCACCTTCATGTATGAACTGTGCTGTGGGAAGCAGACAGCCTTC
TTCTCATCCCAGGGCCAGGAGTACACCGTGGTGTTTTGGGATGGAAAAGAGGAGTCCAGG
AACTACACGGTGGTGAACACAGAGAAGGGCCTCATGGAGGTGCAGAGGATGTGCTGCCCT
GGGATGAAGGTGAGCTGCCAGCTCCAGGTCCAGAGATCCCTGTGGACAGCCACCGAGGAC
CAGAAAATCTACATCTACACCCTCAAGGGCATGTGCCCCTTAAACACACCCCAACAGGCC
TTGGATACTCCAGCTGTCGTCACCTGCTTCTTGGCCGTGCCTGTTATTAAAAAGAATTCC
TACCTGGTCTTAGCGGGCCTCGCCGATGGGCTTGTGGCTGTGTTTCCCGTGGTGCGGGGC
ACCCCAAAGGACAGCTGCTCCTACCTGTGCTCACACACAGCCAACAGGTCCAAGTTCAGC
ATCGCGGATGAAGACGCACGGCAGAACCCCTACCCAGTGAAGGCCATGGAGGTGGTCAAC
AGCGGCTCTGAGGTCTGGTACAGCAATGGGCCGGGCCTCCTTGTCATCGACTGTGCCTCC
CTGGAGATCTGCAGGCGGCTGGAGCCCTACATGGCCCCCTCCATGGTTACGTCAGTCGTG
TGCAGCTCTGAGGGCAGAGGGGAGGAGGTCGTCTGGTGCCTGGATGACAAGGCCAACTCC
TTGGTGATGTACCACTCCACCACCTACCAGCTGTGTGCCCGGTACTTCTGCGGGGTCCCC
AGCCCCCTCAGGGACATGTTTCCCGTGCGGCCCTTGGACACGGAACCCCCGGCAGCCAGC
CACACGGCCAACCCAAAGGTGCCTGAGGGGGACTCCATCGCGGACGTGAGCATCATGTAC
AGTGAGGAGCTGGGCACGCAGATCCTGATCCACCAGGAATCACTCACTGACTACTGCTCC
ATGTCCTCCTACTCCTCATCCCCACCCCGCCAGGCTGCCAGGTCCCCCTCAAGCCTCCCC
AGCTCCCCAGCAAGTTCTTCCAGTGTGCCTTTCTCCACCGACTGCGAGGACTCAGACATG
CTACATACGCCCGGTGCTGCCTCCGACAGGTCTGAGCATGACCTGACCCCCATGGACGGG
GAGACCTTCAGCCAGCACCTGCAGGCCGTGAAGATCCTCGCCGTCAGAGACCTCATTTGG
GTCCCCAGGCGCGGTGGAGATGTTATCGTCATTGGCCTGGAGAAGGATTCTGGCGCCCAG
CGGGGCCGAGTCATTGCCGTCTTAAAAGCCCGAGAGCTGACTCCGCATGGGGTGCTGGTG
GATGCTGCCGTGGTGGCAAAGGACACTGTTGTGTGCACCTTTGAAAATGAAAACACAGAG
TGGTGCCTGGCCGTCTGGAGGGGCTGGGGCGCCAGGGAGTTCGACATTTTCTACCAGTCC
TACGAGGAGCTGGGCCGGCTGGAGGCTTGCACTCGCAAGAGAAGGTAA
Protein Properties
Number of Residues 2038
Molecular Weight 227841.2
Theoretical pI 6.58
Pfam Domain Function
Signals
  • ["None"]
Transmembrane Regions
  • ["None"]
Protein Sequence
>Leucine-rich repeat serine/threonine-protein kinase 1
MSQRPPSMYWCVGPEESAVCPERAMETLNGAGDTGGKPSTRGGDPAARSRRTEGIRAAYR
RGDRGGARDLLEEACDQCASQLEKGQLLSIPAAYGDLEMVRYLLSKRLVELPTEPTDDNP
AVVAAYFGHTAVVQNTLPTEPTDDNPAVVAAYFGHTAVVQELLESLPGPCSPQRLLNWML
ALACQRGHLGVVKLLVLTHGADPESYAVRKNEFPVIVRLPLYAAIKSGNEDIAIFLLRHG
AYFCSYILLDSPDPSKHLLRKYFIEASPLPSSYPGKTALRVKWSHLRLPWVDLDWLIDIS
CQITELDLSANCLATLPSVIPWGLINLRKLNLSDNHLGELPGVQSSDEIICSRLLEIDIS
SNKLSHLPPGFLHLSKLQKLTASKNCLEKLFEEENATNWIGLRKLQELDISDNKLTELPA
LFLHSFKSLNSLNVSRNNLKVFPDPWACPLKCCKASRNALECLPDKMAVFWKNHLKDVDF
SENALKEVPLGLFQLDALMFLRLQGNQLAALPPQEKWTCRQLKTLDLSRNQLGKNEDGLK
TKRIAFFTTRGRQRSGTEAASVLEFPAFLSESLEVLCLNDNHLDTVPPSVCLLKSLSELY
LGNNPGLRELPPELGQLGNLWQLDTEDLTISNVPAEIQKEGPKAMLSYLRAQLRKAEKCK
LMKMIIVGPPRQGKSTLLEILQTGRAPQVVHGEATIRTTKWELQRPAGSRAKVESVEFNV
WDIGGPASMATVNQCFFTDKALYVVVWNLALGEEAVANLQFWLLNIEAKAPNAVVLVVGT
HLDLIEAKFRVERIATLRAYVLALCRSPSGSRATGFPDITFKHLHEISCKSLEGQEGLRQ
LIFHVTCSMKDVGSTIGCQRLAGRLIPRSYLSLQEAVLAEQQRRSRDDDVQYLTDRQLEQ
LVEQTPDNDIKDYEDLQSAISFLIETGTLLHFPDTSHGLRNLYFLDPIWLSECLQRIFNI
KGSRSVAKNGVIRAEDLRMLLVGTGFTQQTEEQYFQFLAKFEIALPVANDSYLLPHLLPS
KPGLDTHGMRHPTANTIQRVFKMSFVPVGFWQRFIARMLISLAEMDLQLFENKKNTKSRN
RKVTIYSFTGNQRNRCSTFRVKRNQTIYWQEGLLVTFDGGYLSVESSDVNWKKKKSGGMK
IVCQSEVRDFSAMAFITDHVNSLIDQWFPALTATESDGTPLMEQYVPCPVCETAWAQHTD
PSEKSEDVQYFDMEDCVLTAIERDFISCPRHPDLPVPLQELVPELFMTDFPARLFLENSK
LEHSEDEGSVLGQGGSGTVIYRARYQGQPVAVKRFHIKKFKNFANVPADTMLRHLRATDA
MKNFSEFRQEASMLHALQHPCIVALIGISIHPLCFALELAPLSSLNTVLSENARDSSFIP
LGHMLTQKIAYQIASGLAYLHKKNIIFCDLKSDNILVWSLDVKEHINIKLSDYGISRQSF
HEGALGVEGTPGYQAPEIRPRIVYDEKVDMFSYGMVLYELLSGQRPALGHHQLQIAKKLS
KGIRPVLGQPEEVQFRRLQALMMECWDTKPEKRPLALSVVSQMKDPTFATFMYELCCGKQ
TAFFSSQGQEYTVVFWDGKEESRNYTVVNTEKGLMEVQRMCCPGMKVSCQLQVQRSLWTA
TEDQKIYIYTLKGMCPLNTPQQALDTPAVVTCFLAVPVIKKNSYLVLAGLADGLVAVFPV
VRGTPKDSCSYLCSHTANRSKFSIADEDARQNPYPVKAMEVVNSGSEVWYSNGPGLLVID
CASLEICRRLEPYMAPSMVTSVVCSSEGRGEEVVWCLDDKANSLVMYHSTTYQLCARYFC
GVPSPLRDMFPVRPLDTEPPAASHTANPKVPEGDSIADVSIMYSEELGTQILIHQESLTD
YCSMSSYSSSPPRQAARSPSSLPSSPASSSSVPFSTDCEDSDMLHTPGAASDRSEHDLTP
MDGETFSQHLQAVKILAVRDLIWVPRRGGDVIVIGLEKDSGAQRGRVIAVLKARELTPHG
VLVDAAVVAKDTVVCTFENENTEWCLAVWRGWGAREFDIFYQSYEELGRLEACTRKRR
GenBank ID Protein 90991702
UniProtKB/Swiss-Prot ID Q38SD2
UniProtKB/Swiss-Prot Entry Name LRRK1_HUMAN
PDB IDs Not Available
GenBank Gene ID Not Available
GeneCard ID LRRK1
GenAtlas ID LRRK1
HGNC ID HGNC:18608
References
General References Not Available