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Last updated: 2022/11/18
NameA_BomaMG_comp24429_c1_seq1
Scaffold_id
NCBI non-redundant
(nr)
Serine/threonine-protein_kinase_LATS1_[Papilio_xuthus]
Ontology
GO:0000082 P G1/S transition of mitotic cell cycle
GO:0000086 P G2/M transition of mitotic cell cycle
GO:0000166 F nucleotide binding
GO:0000287 F magnesium ion binding
GO:0000819 P sister chromatid segregation
GO:0000922 C spindle pole
GO:0001827 P inner cell mass cell fate commitment
GO:0001828 P inner cell mass cellular morphogenesis
GO:0004672 F protein kinase activity
GO:0004674 F protein serine/threonine kinase activity
GO:0005524 F ATP binding
GO:0005737 C cytoplasm
GO:0005815 C microtubule organizing center
GO:0005819 C spindle
GO:0005856 C cytoskeleton
GO:0006468 P protein phosphorylation
GO:0007049 P cell cycle
GO:0007067 P mitotic cell cycle
GO:0009755 P hormone-mediated signaling pathway
GO:0016301 F kinase activity
GO:0016310 P phosphorylation
GO:0016740 F transferase activity
GO:0018105 P peptidyl-serine phosphorylation
GO:0019901 F protein kinase binding
GO:0030216 P keratinocyte differentiation
GO:0030833 P regulation of actin filament polymerization
GO:0033138 P positive regulation of peptidyl-serine phosphorylation
GO:0034613 P cellular protein localization
GO:0035329 P hippo signaling
GO:0043065 P positive regulation of apoptotic process
GO:0043254 P regulation of protein-containing complex assembly
GO:0045736 P negative regulation of cyclin-dependent protein serine/threonine kinase activity
GO:0046620 P regulation of organ growth
GO:0046872 F metal ion binding
GO:0051220 P cytoplasmic sequestering of protein
GO:0051301 P cell division
GO:0090090 P negative regulation of canonical Wnt signaling pathway
Transcript
Level
FPKM:7.37 TPM:6.83
ORF Entry
Sequence
(Nucleotide)
AACAAGCCCCCAATATCTAAAAAACGGGTGGGGGCGGCAACCTCCCCCCGCCGTATCCGA
TGTCGGGTGCGCCGCCACCTCCTCCCTACTCGGTCTCTATCCAAAATCGTCAAAGCCCAA
CCCAGTCGCAGGATTACAGGAAGAGTCCATCGTCGGGGATCTATTCAGGAGGCACCTCCG
CCGGCTCGCCGAGTCCAATTACGGTAACGCAATCGACTGGTTCAGCCGCGGGAATGACTC
GCCCCACGCCGCTCCAGGCGTGGACCGCGAGACAAGCGGTGCAGCCTCCTATCATCATGC
AGTCTGTGAAGAGCACACAAGTTCAGAAGCCGGTACTACAAACGGCGATAGCACCGGTTG
CCCCACCGCCAGCCACCAGTGCCGGAGCACCCCCACCCCCTCCTTCGTACGCGAGCTCCA
TCCAACAGAAGCAGGCACAGACTCCGCCCAGCTACCCGTCGGCACCGAAGCCGTCGTCTC
CTGGCTCCACACCTACCGCGATTCCTCCCGCCGTCCCGACTACGGAGCCACCAAGTTACG
CGATTACAATGCAAGTGCTCGCCGTTCAACGCGGCATGCACCCCGTCCCGCCGCCTCCGT
ACGGTAACCAAGCCGACAACACGACTACTGTTAATTCCCACCATTCTCCTTTGCATAAGA
AAATTTCGAATAACTGTGACGGTAAACCTGAATCGTCACAAGGGCCGCACGAAATTAAGT
GTCCCAACCAGAACTGTACGAATAATCTCTTAAAAGACAACGTCACGGCCTCCGGCTCTG
ACAAAGGCTCTAACGGATCATCGGACAGACGACCAAAAATGTTAGATAAGATAAGGCATC
AATCGCCAATACCGGAACGCAGAAATTACAGTAAAGAAAAAGAAGACGAGAGAAGAGATT
GTAAAGTCCGAAATTATTCACCGCAAGCTTTCAAATTTTTTATGGAACAGCATGTGGAAA
ACGTTTTAAAATCTTATAAACAGAGACTGTTCAGAAAGATGCAGCTCGAAAAGGAGATGA
GTAAAATAGGTCTAAGTGCAGAAGCTCAGTGTCAGATGAGAAAGATGCTGTCCCAGAAGG
AATCCAATTATATTCGATTGAAAAGGGCCAAGATGGACAAGTCTATGTTTACTAAGATTA
AGCCTATAGGTGTGGGAGCATTTGGGGAGGTGACGTTGGTGAAAAAGATCGATACTAGTC
ATCTGTATGCCATGAAGACACTTCGGAAAGCTGACGTGCTAAAGAGAAATCAAGTGGCAC
ACGTAAAAGCCGAAAGAGACATATTGGCGGAGGCAGACAACGAATGGGTCGTCAAGCTTT
ATTACAGTTTCCAAGATAAAGATAATCTGTATTTTGTAATGGACTATATACCGGGCGGGG
ACCTTATGTCCTTATTAATAAAATTAGGAATATTCGAGGAGAATCTCGCTAGGTTCTACA
TTGCAGAGTTGACGTGTGCTGTCGAAAGCGTGCACAAAATGGGTTTTATCCACAGAGACA
TCAAGCCAGATAACATATTGATAGATCGTGATGGTCATATAAAGTTAACAGATTTTGGTC
TATGCACCGGTTTTAGATGGACGCACAACTCCAAATATTATCAAAGGAATGATCATGGAC
GACAAGACTCAATGGATCCAGTGGATGGAGAATGGGGGGCTATGGGCGAATGTCGATGTT
ATCAACTCAAACCCTTAGAAAGGCGGCGGAGAAGAGAACACCAGCGGTGTTTGGCCCATT
CGTTAGTGGGAACGCCAAACTATATTGCGCCAGAAGTCTTGCAGCGGACTGGATACACGC
AGCTTTGCGATTGGTGGTCGGTTGGAGTTATATTGTACGAGATGTTGGTTGGGTCGCCGC
CGTTCTTGGCGCCGACCCCCGCAGAGACGCAACTCAAGGTGATCAATTGGGAGAGTACAC
TACACGTACCTGATGCAGCCAACTTATCCCTAGAGAGCAAAGACCTCATTCTGCAGCTAT
GTTCTGGTCAAGACACAAGGCTTGGCAAAGATGCAAATGAAGTAAAAAACCATCCCTTCC
TCAAGGGCATCGATTTTGACAAAGGATTGAGGAATCAGGTTGCTCCTTACATCCCGAGGA
TTGAATACCCTACAGACACATCCAATTTCGACCCCATTGATCCAGATAAGCTCAGGAACT
CTGGTAGCTCAGATTCAAATAAATCAGACAGTGAACTATTAGACAATGGCAAGACTTTCC
ATGGTTTCTTTGAGTTCACATTCAGAAGATTCTTTGATGATGGCTATACGAGCAAAATCA
ATTTGGATGACAATGATAATCAAGGACCTGTGTACGTGTGATATCAACTGTGCAAATAGA
CAATCGGACTAACTCATAGGATTATATTTTTACAAAGTGTGTGCCTTTGACTCTCTCTAT
TAAAACACTAGTAAGTTTTGTAAACGTAACGAATATAACGTATTTAATAAATAAAATGTT
AATAATCCCGGTGATAATGTTGTAATATTGTATCGTTATCAGTTCGTAAGGGTAATATTA
TACGAGTGTAATATATACGGATGGATCGTAGTAGTGCATAATTCTTGATGGTGCTGTTGA
CGGGGCCGTGAATGTGCTTCGTTCTAATATCGTTTCATTCACTTGTATACTGTATTTTTG
TAACTAGAGAAATTATTTATGAAATAAGGAAAAGCTTATTTGATCTAGCAAATGTTTTTG
ATAGTGTCATTATATTTTCTTATGTATTTATCATGTTAGGTCGCTTAAAATGTGTGTTTG
TTTATATAATTGTAACTTATAAAGTCGTTATAAATAATCAAACTGGAATCGGCGTAAAGT
TGTACTGCTTCCATTTGTCTGTTGGACACTAGCTCATATTGTGTGCCTTAGTATTGAAGA
ATTGTATATTGAAAGTGTATTTAGGGGAAGTAAATGTTTGTACGACTTTAGTAGCAGTCA
GCTCGGCAACGTGTAAAGAGTGCAATACGTATTTATTTAACACAACTTGAACTCTTGTTA
TCTTCGTTTTCGAAGATTTTTAGTTTGTCAATCGGATACTATGAGCACATTTCAGTCAAA
TGCTAGTATTAAAACGTGCAACTTTAAGTTATTTATGTTTACACTAACAATATTCAATTT
ACGAATGTATTAGCAAAATATTTATCATCAGTAATTGTTTTTTGGCAACACTAAATATTC
TCCCTTTGTACAGTAAAATGCAAACGAGTCATTACAAAAACTTTAAATTATGTGTTATCA
AATGTAAATTGTTTCATTCTGGAATGAAACATGCTTATAAGAAGTAAATGAAAAATAAAA
T
(3301 bp)

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