KEGG   Monodelphis domestica (gray short-tailed opossum): 100019531
Entry
100019531         CDS       T01031                                 
Symbol
CACNA1F
Name
(RefSeq) calcium voltage-gated channel subunit alpha1 F
  KO
K04853  voltage-dependent calcium channel L type alpha-1F
Organism
mdo  Monodelphis domestica (gray short-tailed opossum)
Pathway
mdo04010  MAPK signaling pathway
mdo04020  Calcium signaling pathway
mdo04022  cGMP-PKG signaling pathway
mdo04024  cAMP signaling pathway
mdo04260  Cardiac muscle contraction
mdo04261  Adrenergic signaling in cardiomyocytes
mdo04270  Vascular smooth muscle contraction
mdo04723  Retrograde endocannabinoid signaling
mdo04725  Cholinergic synapse
mdo04726  Serotonergic synapse
mdo04727  GABAergic synapse
mdo04911  Insulin secretion
mdo04912  GnRH signaling pathway
mdo04921  Oxytocin signaling pathway
mdo04924  Renin secretion
mdo04925  Aldosterone synthesis and secretion
mdo04927  Cortisol synthesis and secretion
mdo04929  GnRH secretion
mdo04934  Cushing syndrome
mdo04935  Growth hormone synthesis, secretion and action
mdo05010  Alzheimer disease
mdo05020  Prion disease
mdo05022  Pathways of neurodegeneration - multiple diseases
mdo05207  Chemical carcinogenesis - receptor activation
mdo05410  Hypertrophic cardiomyopathy
mdo05412  Arrhythmogenic right ventricular cardiomyopathy
mdo05414  Dilated cardiomyopathy
Brite
KEGG Orthology (KO) [BR:mdo00001]
 09130 Environmental Information Processing
  09132 Signal transduction
   04010 MAPK signaling pathway
    100019531 (CACNA1F)
   04020 Calcium signaling pathway
    100019531 (CACNA1F)
   04024 cAMP signaling pathway
    100019531 (CACNA1F)
   04022 cGMP-PKG signaling pathway
    100019531 (CACNA1F)
 09150 Organismal Systems
  09152 Endocrine system
   04911 Insulin secretion
    100019531 (CACNA1F)
   04929 GnRH secretion
    100019531 (CACNA1F)
   04912 GnRH signaling pathway
    100019531 (CACNA1F)
   04921 Oxytocin signaling pathway
    100019531 (CACNA1F)
   04935 Growth hormone synthesis, secretion and action
    100019531 (CACNA1F)
   04924 Renin secretion
    100019531 (CACNA1F)
   04925 Aldosterone synthesis and secretion
    100019531 (CACNA1F)
   04927 Cortisol synthesis and secretion
    100019531 (CACNA1F)
  09153 Circulatory system
   04260 Cardiac muscle contraction
    100019531 (CACNA1F)
   04261 Adrenergic signaling in cardiomyocytes
    100019531 (CACNA1F)
   04270 Vascular smooth muscle contraction
    100019531 (CACNA1F)
  09156 Nervous system
   04727 GABAergic synapse
    100019531 (CACNA1F)
   04725 Cholinergic synapse
    100019531 (CACNA1F)
   04726 Serotonergic synapse
    100019531 (CACNA1F)
   04723 Retrograde endocannabinoid signaling
    100019531 (CACNA1F)
 09160 Human Diseases
  09161 Cancer: overview
   05207 Chemical carcinogenesis - receptor activation
    100019531 (CACNA1F)
  09164 Neurodegenerative disease
   05010 Alzheimer disease
    100019531 (CACNA1F)
   05020 Prion disease
    100019531 (CACNA1F)
   05022 Pathways of neurodegeneration - multiple diseases
    100019531 (CACNA1F)
  09166 Cardiovascular disease
   05410 Hypertrophic cardiomyopathy
    100019531 (CACNA1F)
   05412 Arrhythmogenic right ventricular cardiomyopathy
    100019531 (CACNA1F)
   05414 Dilated cardiomyopathy
    100019531 (CACNA1F)
  09167 Endocrine and metabolic disease
   04934 Cushing syndrome
    100019531 (CACNA1F)
 09180 Brite Hierarchies
  09183 Protein families: signaling and cellular processes
   04040 Ion channels [BR:mdo04040]
    100019531 (CACNA1F)
Ion channels [BR:mdo04040]
 Voltage-gated cation channels
  Calcium channel, voltage-gated (Cav)
   100019531 (CACNA1F)
SSDB
Motif
Pfam: Ion_trans CAC1F_C Ca_chan_IQ GPHH PKD_channel HemY_N FAM176
Other DBs
NCBI-GeneID: 100019531
NCBI-ProteinID: XP_016282061
Position
X:complement(72166882..72190838)
AA seq 2007 aa
MSLGRNTTLLLLPTPEPSPADGXGPGPEWGLATGPPPVVEGQASVAAGRRRVPPSKHKGP
GAGGIQRSPRALFCLSLTNPVRRFCITIVEWKPFDILILMTIFANCVALGVYVPFPEDDS
NAGNHNLEQVEYAFLVIFTVETALKIVAYGLVLHPNAYIRNGWNLLDFVIVVVGLFSVLL
EQGPPRPGDASHAAGKPGGFDVKALRAFRVLRPLRLVSGVPSLHIVLNSAEEDPSPCALP
GSSGRQCLGNHTECRGRWAGPNGGITNFDNFFFAMLTVFQCVTMEGWTDVLYWVQDAMGY
ELPWLYFVSLVIFGSFFVLNLVLGVLSGEFSKEREKAKARGDFQKLREKQQMEEDLKGYL
EWLTQAEELDFQEQEKAEAEAEAEREGMATRRPHQRMEGGGGEGFPDLALSPGASRKGEG
FCLHSLASQQLPEEELGGGHQNSGPPFHVPLPIGVTLSEMMHKNRSQLRWFRHSTSSHAS
ETGSMTVEAGAEEDEEAGNTCSRNLAKIMKARICRRLRRANRTLRARCRHAVKSVACYWL
VLLLVFLNTLTIASEHHGQPLWLTQTQESANKVLLLLFTVEMLLKLYGLGPTAYAASFFN
RFDCFVVCGGILETTLVEAGAMQSLGISVLRCVRLLRIFKVTRHWASLSNLVASLLNSMK
SIASLLLLLFLFLIIFSLLGMQLFGGKFNFDQTHTKRSTFDTFPQALLTVFQILTGEDWN
VVMYDGILAYGGPFFPGMLVCIYFIILFICGNYILLNVFLAIAVDNLAGGDASASKGPGK
EKSAEESDSPQEKGVLVPCGEAEEERGQSEGGGSGAEEEEEEEEEEEDHHDIDEEDDNDQ
EGIRLERLQEVVPKEKVVPIPEGSAFFCLSHTNLLRVHCHALIHHRIFTNLILVFIILSS
VSLAAEDPIRAHSFRNHVLGYFDYAFTSIFTIEILLKMTAFGAFLHRGSFCRNWFNLLDL
LVVSVSLISFGIHSSAISVVKILRVLRVLRPLRAINRAKGLKHVVQCVFVAIRTIGNILI
VTSLLQFMFACIGVQLFKGKLYSCTDEAKHTPTECKGTFLVYPDGDVAHPVMRERVWQNS
DFNFDNVLSAMMALFTVSTFEGWPSLLYKAIDAHAEDQGPIYNYRLEISVFFIVYIIIIA
FFMMNIFVGFVIITFRAQGEQEYKNCELDKNQRQCVEYALKAQPLRRYIPRNRHQHRVWA
TVNSPAFEYLMFLLILLNTITLAMQHYEQTAPFNYTMDVLNMVFTGLFTVEMLLKVIAFK
PKHYFCDAWNTFDALIVVGSVVDIAVTEVNNGGHLGESSEDSSRISITFFRLFRVMRLXK
LLSKGEGIRTLLWTFIKSFQALPYVALLIAMIFFIYAVIGMQMFGKVALQDGTQINRNNN
FQTFPQAVLLLFRCATGEAWQEIMLASLPGKRCDPESDFTAGEEFTCGSTFAIVYFISFF
MLCAFLIINLFVAVIMDNFDYLTRDWSILGPHHLDEFKRVWSEYDPGAKGHIKHLDVVAL
LRRIQPPLGFGKLCPHRVACKRLVAMNMPLNADGTVTFNATLFALVRTSLRIKTDGNLDL
ANQELRVVIKKIWKHTKPKLLDEVIPPPEEEEVTVGKFYATFLIQDYFRKFRRRKEKGLL
GAEDLPSNSSALRAGLKSLQDLGPEIRQALTCDLEDEGGAADPREEDGAPKEADRDSLDA
LSPSCHGPTTPGTFPVVMAFSPISTDEDGQAMRRLPPGTHSPSAVPVAEELLHSGPEGLL
EQEEEEDHPPGQDRCLHRNELTGRPHHILLPPPPPPPSPPLPPGEPSGQLGRPPGPRHRH
RRRRLLPPTPAVRKPSFAIQCMQRQGSCDDFPIPGTYQRGRPSGNSQAQGSWATPPQRGH
LLYAPLLLVEEGQLQGDYTEAGSQGPLRTYARLRMPSTHIPPGPGKRGSADSLVEAVLIS
EGLGLFARDPRFVALAKQEIADACRLTLDEMDSAACDLLALGAAARPSTGPLQMGGATGS
DEDEEVFQATEVEEEELADEMACVPAP
NT seq 6024 nt   +upstreamnt  +downstreamnt
atgtctctgggcaggaacaccaccctgctgctactgcccacccctgagccctctcctgcg
gatggataagggccaggccctgagtggggcctggctactggcccccctccagtggtagaa
ggccaggcttcggtggcagcggggcgaaggagggtccctcccagcaaacacaaaggcccg
ggagctgggggcatccagagatcccccagggctctcttctgcctgagcctcaccaacccg
gtgaggagattctgcatcaccatcgtggaatggaaacccttcgacatcctcatcctcatg
accatttttgccaactgtgtggctctcggggtctatgtccccttcccagaggatgactcc
aatgcaggcaaccacaatctggagcaagtggaatatgcattcctggttatcttcactgtg
gagacagcgctgaagatcgtggcctacggcctagtgctgcaccccaacgcctacattcgc
aatggctggaatctgctggactttgtcattgtggtcgtagggctcttcagtgtactactg
gagcaaggccctccccgcccaggggatgcctcccatgccgcagggaagcctggaggattt
gatgtaaaggccctgagggcgttcagggtcctgaggcctctccgcctggtatcaggggta
cccagtctgcacatcgtgctcaactccgctgaggaggacccctccccctgcgccctcccg
ggctcctctggtcggcagtgcctgggtaaccacactgagtgtcgaggtcgatgggcaggg
cccaacgggggtatcaccaacttcgacaacttcttctttgccatgctgactgtcttccag
tgtgtcaccatggagggttggactgatgtgctctactgggtgcaggacgccatggggtat
gagctcccctggctctactttgtcagcttggtcatctttggctccttcttcgtcctcaac
cttgtactgggcgtcttgagtggggaattctccaaggaaagagagaaggccaaggcccga
ggagacttccagaaacttcgggaaaagcagcagatggaagaagacctaaaaggctacctg
gagtggctcacccaggctgaagagctggacttccaggaacaggagaaggcagaagcggag
gccgaggctgagagagagggcatggccaccagaaggcctcaccagcgtatggagggtggg
ggtggtgagggattcccagaccttgccctgagcccaggagcaagtaggaagggagaaggc
ttctgccttcactctcttgcttctcaacagctaccagaggaagagttgggaggggggcac
cagaattcagggccccccttccacgtacctcttcctataggagtgacactgtcggagatg
atgcacaagaaccgaagtcagctgaggtggttccgtcactccactagcagccatgctagt
gaaacgggttcaatgactgtagaggctggggctgaggaagacgaagaggccgggaacacg
tgtagcaggaacctggccaagataatgaaggccaggatatgccgcaggcttcgcagagcc
aacaggaccctcagggcccgctgccgccatgcagtgaaatccgtggcttgttattggctg
gtcctgctgcttgtcttcttgaacacgctgaccatcgcttctgagcaccacgggcagcct
ctgtggctcacccagacccaagaatctgccaacaaggtcctgctgctcctattcactgtg
gagatgctgctgaagctctacggccttggcccaactgcctacgctgcctccttcttcaac
cgctttgactgctttgtggtgtgtggaggcattctggagaccaccctggtggaggctggg
gccatgcaatcactgggcatctcagtgctgcgctgcgtgcggctcctgaggatcttcaag
gtgaccaggcactgggcgtccctcagcaacctggtggcctcccttctcaactccatgaag
tccattgcctccttgctcctgctgctcttccttttcctcatcatcttctccctcctgggg
atgcagctctttggagggaagttcaactttgaccagacccacaccaagcggagcaccttt
gacacgttcccccaagccctgctcactgtctttcagatcctcaccggagaggactggaac
gtggtcatgtatgatgggatccttgcctacggggggcccttcttccctgggatgttggtc
tgcatctacttcatcatcctcttcatctgtggcaactatatcctcctcaacgtcttcctc
gccatcgccgtggacaacctggcagggggcgatgccagtgcctccaagggcccgggaaag
gagaagagtgctgaggaaagtgacagcccccaagaaaagggagtgttggtgccctgtgga
gaagctgaagaagagagagggcagagtgaaggtggaggttcaggggcagaggaggaagag
gaggaggaagaggaggaggaggaccaccacgacatcgacgaggaggacgacaatgaccaa
gaagggattaggctagaacgcctccaagaagtggtacccaaagagaaagtggtgcccatc
cctgagggcagtgccttcttctgcctcagtcacacaaacctgcttcgggttcactgccac
gctctcatccatcaccgcatcttcactaaccttatcctggtcttcatcatccttagcagt
gtctccctggctgctgaggaccccatccgggcccactccttccgcaaccacgtccttggt
tattttgattatgccttcacttccatctttactattgaaatcctgctcaagatgactgct
tttggggcctttctacaccgaggctccttttgccggaactggtttaatctactggacctg
ctggtggtcagcgtatccctcatctcctttggcatccactccagcgccatctctgtggtc
aagatcttgcgggtgctgcgagtgctccggcctctacgtgccatcaatcgagccaagggc
ctcaagcatgtggtccagtgtgtcttcgtggccatccgcaccatcggtaacatcctcatt
gtgaccagcctgctgcaatttatgtttgcctgcatcggggtccagctctttaagggcaag
ctgtacagctgcacagatgaggccaagcacacgccgacagagtgcaaaggcaccttcctt
gtgtaccctgatggagatgtggcccatcctgtcatgagggaacgtgtgtggcagaacagc
gacttcaattttgacaacgttctgtcggccatgatggcactgttcaccgtgtccaccttt
gaaggctggccttcgttgctctacaaggccatcgatgcccacgcagaggaccagggcccc
atctacaactaccggctggagatctccgtcttcttcattgtctacatcatcatcatcgcc
ttcttcatgatgaacatcttcgtgggctttgtcatcatcaccttccgagctcagggagaa
caagagtacaagaactgtgagctcgacaagaaccagcgccagtgtgtggaatatgccctg
aaggcccagcctctccgccgctacatccctaggaataggcaccaacaccgggtctgggcg
actgtgaactcgccagcttttgagtacctcatgttcctgcttatcttgctcaacaccata
accctggccatgcagcactatgaacagacggctcccttcaattacacaatggatgtcctc
aacatggtcttcacaggcctattcactgtggagatgttgctcaaggtcattgccttcaag
cccaagcattacttctgtgacgcctggaataccttcgatgccctgatcgtagtgggtagt
gtggtggacatcgcggtcaccgaggtcaataatggaggacaccttggtgagagctccgag
gacagctcccggatctccatcaccttcttccgtcttttccgtgtcatgaggcttngtaag
cttctcagtaagggagaagggatccgcacccttctgtggacctttatcaagtctttccag
gccctcccctatgtggcccttctcattgccatgatcttcttcatctatgctgtcatcggc
atgcagatgtttgggaaggtggccctccaggatggcacccagatcaaccgtaacaacaac
ttccagaccttcccccaagctgtgctcctcctgttcaggtgcgccacaggggaggcatgg
caggagatcatgctggccagcctgcctgggaaacgctgtgacccagagtcagacttcacg
gccggtgaggagttcacctgtgggagcaccttcgccattgtctatttcatcagcttcttc
atgctctgcgcattcctgatcattaatctatttgttgctgtcataatggacaactttgac
tacctgacccgggactggtccatcctgggcccccaccacctggacgagttcaagagggtc
tggtctgagtacgaccctggggccaaaggccacatcaaacatctggacgtggtggcttta
ctccgccgtatccagcctccattgggctttgggaagctctgtcctcaccgtgtagcctgc
aagcggctggtggccatgaacatgcctttgaacgctgacgggacggtgaccttcaatgcc
accctctttgccctggtgcggacatctctgaggattaagaccgatgggaacctggacttg
gctaatcaggaactacgcgttgtcatcaagaagatctggaagcacacgaaacccaaactc
ctggatgaggtcatcccccctccagaagaggaggaagtgactgttgggaagttttatgcc
acattcctgatccaggattattttcgaaagttccgacgtcggaaagagaagggtctactg
ggggctgaggacctgccaagcaactcatctgcccttcgggctgggctgaagagcctgcag
gacctgggcccagagatccgccaggcccttacatgtgacctggaagacgagggaggggcc
gccgaccccagagaggaagatggcgcccccaaggaagctgacagggacagcctggacgct
ctctcaccatcctgccatggccccactactcctgggactttccctgtggtgatggccttc
tcccctatatccactgatgaggatggccaagcgatgaggagacttccaccaggaactcat
tctcccagtgccgttcccgtggcagaagagctgttgcactctggacctgagggcctgctg
gagcaagaggaagaagaagaccaccctcctggtcaggacagatgccttcatcgaaacgag
ctcactgggagaccccaccacatcctcctcccacccccgccaccaccaccttctcctcct
cttcctcctggggaaccctctggacaactgggcaggccaccaggtccacgccaccgccac
cgccgccgtcgtctgctgcccccaacacctgctgtccgaaagccttccttcgccatccag
tgtatgcagcgccaggggagctgtgacgacttccccatccctggaacctatcagcgtggg
agaccttctggcaacagccaggctcagggttcatgggccacaccccctcagcggggccat
ctgctctatgcgcctctgctactggtggaggagggccagcttcagggagattacactgaa
gctgggtcccaaggcccactgcgcacctatgcccgcctacgcatgcccagcacccacata
ccacctggcccggggaagaggggcagtgccgacagcctggtggaagccgtgctgatctcg
gagggcctgggcctctttgcccgtgaccctcgctttgtggccctggcgaagcaggagatc
gctgatgcttgccgcctgaccctggatgagatggacagtgctgcctgtgacctgctggcc
ctgggggccgctgcaaggccttccactggcccactccagatggggggtgccacaggcagt
gatgaggatgaggaggtcttccaggccacagaggtcgaggaggaagagctagcggacgaa
atggcttgtgtcccagccccctag

  All links  
Ontology (2)   
   KEGG BRITE (2)   
Pathway (27)   
   KEGG PATHWAY (27)   
Genome (1)   
   KEGG GENOME (1)   
Gene (76)   
   KEGG ORTHOLOGY (1)   
   RefGene (72)   
   NCBI-PROTEINID (1)   
   NCBI-Gene (1)   
   OC (1)   
Protein sequence (1)   
   RefSeq(pep) (1)   
DNA sequence (1)   
   RefSeq(nuc) (1)   
Protein domain (7)   
   Pfam (7)   
All databases (115)   

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