KEGG   Cryptococcus neoformans var. neoformans JEC21: CNI01240
Entry
CNI01240          CDS       T00243                                 
Name
(RefSeq) protein kinase, putative
  KO
K18669  dual specificity tyrosine-phosphorylation-regulated kinase 2/3/4 [EC:2.7.12.1]
Organism
cne  Cryptococcus neoformans var. neoformans JEC21
Pathway
cne04111  Cell cycle - yeast
Brite
KEGG Orthology (KO) [BR:cne00001]
 09140 Cellular Processes
  09143 Cell growth and death
   04111 Cell cycle - yeast
    CNI01240
 09180 Brite Hierarchies
  09181 Protein families: metabolism
   01001 Protein kinases [BR:cne01001]
    CNI01240
Enzymes [BR:cne01000]
 2. Transferases
  2.7  Transferring phosphorus-containing groups
   2.7.12  Dual-specificity kinases (those acting on Ser/Thr and Tyr residues)
    2.7.12.1  dual-specificity kinase
     CNI01240
Protein kinases [BR:cne01001]
 Serine/threonine kinases: CMGC group
  DYRK family [OT]
   CNI01240
SSDB
Motif
Pfam: Pkinase PK_Tyr_Ser-Thr ABC1 RIO1 Choline_kinase APH
Other DBs
NCBI-GeneID: 3259471
NCBI-ProteinID: XP_024513480
Position
9:join(304210..304292,304330..306634,306708..308087,308148..308454,308509..308599,308668..308810,308866..309362,309423..309446)
AA seq 1609 aa
MSRPLPHPPGHEASSSGPHLPRDASRNSIHAYPTSPLASAPYSAQLPGSAQPHPSSIDRR
TLVGVGELSTPRWPGSGVHNRAPSMPHNMGSPSRLPPRPQTPTTVQQGDHSTVRPRPTSA
TQSPPRPRDTRSPATQRETLTAPNTAAHDGSLYSLASLAQFNFDSSMEASLAASLATLTS
PKMDSPKMSSSDSSKMDSPKMDSPKSPVLPRLESILPPSPGSARSRIYARRQERANAAAS
ISQLPGPSQSLQPPQTLQPLKPPPPPGFADSQTFSQRASRDSRKTPPNPSRHNPSHDILK
QFAVKDFSHLPPSPSSASINQFLRASGSTQNISSGTPPGSASASNAYFPSKGVQREDSQK
SQKSQKQQRTTPKPKELDPNVDEALRKLDGLTGTPGKNKAKGKSSGGPSAASSRPGTPVA
ESKSRSEGKIPSKPSIGSFKDATGSPLSNWIDLTEDLPAIPIPRARIPPNRESSSSASVT
GTPNSHDSQSLPTTATTMSSADLASSSNKPRRASGGSDTFAAQAGVHVDQPEETEKSVPP
VPPLPQVYVNKKQSMPAQSSAMRPPSYVPMREPSPEPPAVSSPFEPGSPSTTAPVPVPAQ
PKMHKKWSFSSALNLKSAASSASSVDEMRMTTPQSPQTPWSEIHRAELFSPSSSVHGKES
AGGDSGPQGATPLAPPSSKASNVNKRLTPSSIPFFRRSSSSSFQSKASQSVAPLPVPLPE
TPKQTEKTAAVPSSQSRKSVLGMHFPSMLRGSSSKRGLAQQTSQSQVSAKGKEEVKPTSA
PSASATSGWTGRKRGKTLSISGDLPNPFPGLKHQSSADSSFGTRGSAVSSNSDATTISGS
NTFDRLPAIMGSPARPPEGARYSNSPRNLPSTTPTKIPRMTQRPAPSPATVTAHSGMPPP
PFPTTRKISNTVSGAGEQQQRGGPPVSEFGMVDGIPHMPTTPRLTTSGAHRAHLLAPMSA
RQETRRVNNRPFDPPPRSKEAYTGAVPPSRRHLPQPPPASTVTSMTLSASAKRASREFKN
KRRESKDGQDGSSSGKNSPVKPSKSMHSSMAVPSSSRLPSSYSAGTPGSNYRKLSLADSS
PSMSPADDDEASGDAEMEAYIKRRRERAAANKKDDLSDVTEFPRDITPVEPLSQRAFITR
NLAKMSDAERKEVLDFDYIYYSPTPGTIRRPSQPGGAMFNHGYDDERGDYLVVEGDHLCY
RYEVVGILGKGSFGQVVQCRDHKTGKSVAVKIIRNKKRFHTQALVEVKILQQLIEWDPED
KHFMVRMTDSFSFRNHLCIVTELLSINLYELIKANHFAGFSTVLIRRFTTQMLGSLQLMR
SHRIVHCDLKPENILLCHPSKSAIKVIDFGSSCLETEKVYTYIQSRFYRSPEVILGMNYA
MAIDMWSLGCILAELYTGVPIFPGENEHEQLACIMEVLGVPDRYLIEKASRRKNFFDATG
APRPFVNAKGRRRRPGSKTLAGVLKCDDELFVDFIARCLTWDPDKRLKPQPAMRHPWILA
GRRRYAPTPSRDEKRATTTERSSRLFGTSHTSTRISSKNLSELSTSSMKDKDKSKLLISS
PVPLAPAKHPYHASTASTSRIGQAMSSSRLAHQTSARSGSLTTSKLSIG
NT seq 4830 nt   +upstreamnt  +downstreamnt
atgtccaggccgctgccgcatccgccaggccacgaagcgtcttccagcggcccgcacttg
ccgcgcgacgccagccgcaactccatccatgcctatcccacctctccgcttgcgtccgcc
ccgtactctgcccagctgcccggctccgcccagccccacccttcgagcatcgaccgccgc
accttggtgggcgtcggcgagctttccactccgcgatggcctggttccggcgtccacaat
cgtgctcccagtatgccgcataatatgggcagcccctcgcgtctaccgccccggccgcag
acgcccacaacggtccagcaaggggaccattcgacggtacgtccgaggcctacctcggcg
acacagtcgcctccccgtccgcgcgacacaagatcgccagccacacagcgtgagactctt
acagcaccaaacactgccgcccacgatggatcactctattcgctcgcttccctggcgcaa
ttcaactttgactcgtcaatggaagcatcactagccgcctctcttgcgacattgacgtct
ccaaagatggactcgccaaagatgagctcgtcggactcgtcaaagatggactcgccaaag
atggactcgccaaagagcccagtcttaccccgactagaatccatactccctccttcgccg
gggagtgctcgttcgcggatatacgctcgtcgtcaggaacgagccaatgcagcagccagc
atttctcaacttccgggtccttctcaatctctccagccacctcaaacacttcaaccactc
aagccacctccacccccaggctttgccgattcccagacattttcacagcgcgcgagtcgt
gatagcagaaaaacccctccaaacccctcgcgccacaacccttcccacgacatcctcaag
caattcgccgtcaaggacttttcgcaccttccacctagtccatcatctgcctcaatcaat
cagttcctccgcgcaagtggctccacccaaaatatctcttccggcactcctcccggcagc
gcgtccgcctcaaacgcctactttccatccaaaggcgttcagcgtgaagactctcaaaaa
tcgcaaaagtcccaaaaacagcaacggacaacgccaaaaccgaaagagctggatccgaat
gtcgacgaggcgctgaggaaactcgatgggcttaccggcacccccggaaagaacaaggca
aaggggaaatcatcaggcggtccctctgctgccagttcacgccctggtacccctgttgcc
gaaagcaagagcaggtctgaaggcaagatcccttctaaaccaagtattggctccttcaag
gacgctacgggttccccactcagtaactggattgacttgactgaagatctccccgccatt
cctattccacgcgcacgtatcccgcccaatcgcgagtcctcttcctctgcgagcgtaacc
ggtacgcccaattcgcacgactcacagtccttgcccactacagcgacgaccatgtcttcc
gccgatttggcgagcagcagcaacaagccgcgacgggccagtggagggagtgatacgttt
gcagcacaggccggagtccatgtagaccagcccgaagagacggagaagagtgttccgccg
gtacccccgcttccccaggtgtacgtcaacaagaagcagagcatgcccgcacagtctagc
gccatgcgaccgcccagctacgtgcccatgcgtgaaccttcacccgagccgcctgctgta
tcttcaccttttgaacccggatcaccatcgactaccgcacccgtgcccgtgcccgcccaa
ccaaagatgcacaaaaagtggtccttctcctcggcgctcaacctcaaatcggcggcatcg
tctgcatcctcggtggacgagatgagaatgacgacaccgcaaagtccccagacgccatgg
tctgaaatccatcgcgccgaactcttctccccgagctctagtgttcacggcaaagagtcg
gcaggtggtgattccggtccgcagggtgcaacacctctcgcaccgccttcatcaaaggct
tccaacgtcaacaaacgcctcacgccttcttcgatccccttcttccgccgatcctcatcc
tcttcattccaaagcaaggctagtcaatcggtagcgcctctgcccgtgccgttgcccgag
acgcccaaacagactgagaagacggccgccgtcccaagctcccagtcgcgcaagtcggtg
ctggggatgcatttcccgtccatgcttagaggaagctcgtcaaaacgcggtctggcgcag
caaacgagtcaatcccaagtttctgcaaagggaaaggaagaggtcaagcctacaagtgcg
ccgagcgcgagcgcgacgtcggggtggactggccggaaacgtggaaagacactctccata
tctggagatcttccaaacccattcccaggcctcaagcaccagtcttcagcggacagctcc
tttggaacccgtggttcagcggtttcaagcaatagcgatgcgacgaccatcagcggcagc
aacacatttgaccgtttgcctgcgataatgggctcgcctgctcgacctccggaaggtgcg
aggtactccaactctccgagaaacttgccttccaccacgcctaccaagattcctcggatg
acccaacgcccggctccatcgccggcgactgtgaccgcccacagcgggatgccgcctccc
ccattccctacgaccaggaaaatcagcaacaccgtatcgggcgcaggcgagcaacagcag
cgcggcggtcctcctgtatcagagtttggcatggtcgacggtataccacatatgccaacg
acgcctcgcctgactacttcaggtgctcaccgagctcatttgcttgctcccatgtcggcc
cgacaagagacgcgtcgcgtgaacaatcggccttttgatccgcccccacgcagcaaagaa
gcgtacaccggcgccgtcccgccttcgagaaggcacctccctcaaccaccgcccgcatcg
actgtcaccagcatgacgctttccgccagcgccaagcgcgcaagccgagagttcaagaac
aagcggcgggaatccaaggacggacaggacgggtcctcctctgggaaaaactcgcctgtc
aagccatcaaaatctatgcactcaagcatggctgtgccgagctcttcccgcctgccttct
tcctattccgctggtactcccggttcgaattaccgcaagctgtctttggccgactcgtcg
ccctcgatgagtcccgcggacgatgatgaagctagtggagatgcggagatggaggcttat
atcaagaggcgacgagagcgcgcagcggcgaataagaaggatgacctgtcggatgtgacc
gagttcccgagggatatcacccctgttgagcccctctctcagcgcgcgttcatcaccagg
aaccttgcaaagatgtctgacgcagaaaggaaggaggtgctcgatttcgactatatctat
tacagtcccaccccaggtacgatccgtcggccgtctcagccgggaggagccatgttcaat
cacggatatgatgatgagcgaggtgattatctcgtggtggagggtgatcatctttgttat
aggtacgaagtggtaggtattctaggtaaaggatcgtttgggcaggtcgtccaatgtcgg
gaccataaaacgggcaagtcggtagcagttaaaatcattaggaacaagaaacggttccat
actcaagcgctggtggaagtcaagatcttgcagcagttgattgaatgggaccccgaagac
aaacatttcatggtccgtatgactgatagcttttctttccgcaaccatctctgtatcgtc
acagagctcttgagcatcaatctttacgagcttatcaaagcaaaccactttgccggcttt
tcgacagtgctcatcaggaggtttaccacccagatgctgggttccttgcagttgatgaga
tcacacaggatcgttcactgtgacttgaagcccgaaaatatcctgctctgtcacccctcg
aagagcgcgatcaaggtgattgattttggaagcagttgcttggagacagagaaggtttac
acttatatacaatcccgcttctatcgaagtccagaagttattctcggcatgaactacgcc
atggcgattgacatgtggtctctaggctgcattcttgccgagctctatacaggtgttccc
attttccccggggaaaacgaacacgagcagctggcctgtatcatggaagtcctcggtgtg
cccgatcgctatttgattgaaaaggcatcacgacgtaaaaactttttcgacgctaccggt
gcacctcgtcctttcgtcaatgccaagggtcgacgacgacgtcctggatccaagacccta
gccggcgtcctcaaatgcgatgacgagcttttcgtcgatttcattgcccgctgtctcact
tgggatcccgataagcgcctcaaacctcaacccgctatgcgtcatccttggatcctggca
gggcgaaggcgttacgcgccaacacctagccgcgacgaaaaacgtgccactactactgag
cgatcttcgcgattgttcgggacctcacatacgtcgacaagaatcagttcgaagaatctc
tcagaattatcaacttctagcatgaaagacaaggataaatctaaactcctcatttcctcg
ccggtgcctttggcgcctgcaaagcacccatatcacgcctcgaccgcttcgacatcaagg
attggccaagccatgagctcttcaaggcttgctcatcaaacttctgccagaagtggctct
ctcactacctcaaaactcagcattggctaa

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Ontology (3)   
   KEGG BRITE (3)   
Pathway (1)   
   KEGG PATHWAY (1)   
Chemical reaction (1)   
   KEGG ENZYME (1)   
Genome (1)   
   KEGG GENOME (1)   
Gene (81)   
   KEGG ORTHOLOGY (1)   
   RefGene (77)   
   NCBI-PROTEINID (1)   
   NCBI-Gene (1)   
   OC (1)   
Protein sequence (1)   
   RefSeq(pep) (1)   
DNA sequence (1)   
   RefSeq(nuc) (1)   
Protein domain (6)   
   Pfam (6)   
All databases (95)   

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