Entry |
|
Symbol |
KIF5A, ALS25, D12S1889, MY050, NEIMY, NKHC, SPG10
|
Name |
(RefSeq) kinesin family member 5A
|
KO |
K10396 | kinesin family member 5 |
|
Organism |
|
Pathway |
hsa05022 | Pathways of neurodegeneration - multiple diseases |
|
Network |
|
Element |
N00978 | Anterograde axonal transport |
N00979 | Mutation-caused aberrant Htt to anterograde axonal transport |
N01017 | Mutation-caused aberrant PSEN1 to anterograde axonal transport |
N01055 | Mutation-caused aberrant SNCA to anterograde axonal transport |
N01202 | Oligomeric conformation PrPc to anterograde axonal transport |
N01297 | Arl8-regulated microtubule plus-end directed transport |
N01298 | Salmonella SifA to microtubule plus-end directed transport |
N01299 | Salmonella PipB2 to microtubule plus-end directed transport |
|
Disease |
H00058 | Amyotrophic lateral sclerosis (ALS) |
H00266 | Hereditary spastic paraplegia |
|
Brite |
KEGG Orthology (KO) [BR:hsa00001]
09140 Cellular Processes
09141 Transport and catabolism
04144 Endocytosis
3798 (KIF5A)
09142 Cell motility
04814 Motor proteins
3798 (KIF5A)
09150 Organismal Systems
09156 Nervous system
04728 Dopaminergic synapse
3798 (KIF5A)
09160 Human Diseases
09162 Cancer: specific types
05223 Non-small cell lung cancer
3798 (KIF5A)
09171 Infectious disease: bacterial
05132 Salmonella infection
3798 (KIF5A)
09164 Neurodegenerative disease
05010 Alzheimer disease
3798 (KIF5A)
05012 Parkinson disease
3798 (KIF5A)
05014 Amyotrophic lateral sclerosis
3798 (KIF5A)
05016 Huntington disease
3798 (KIF5A)
05020 Prion disease
3798 (KIF5A)
05022 Pathways of neurodegeneration - multiple diseases
3798 (KIF5A)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:hsa04131]
3798 (KIF5A)
09183 Protein families: signaling and cellular processes
04812 Cytoskeleton proteins [BR:hsa04812]
3798 (KIF5A)
04147 Exosome [BR:hsa04147]
3798 (KIF5A)
Membrane trafficking [BR:hsa04131]
Others
Actin-binding proteins
Others
3798 (KIF5A)
Cytoskeleton proteins [BR:hsa04812]
Eukaryotic cytoskeleton proteins
Microtubules
Tubulin-binding proteins
Kinesins
3798 (KIF5A)
Exosome [BR:hsa04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
3798 (KIF5A)
|
SSDB |
|
Motif |
|
Other DBs |
|
Structure |
|
LinkDB |
|
Position |
12:57550044..57586633
|
AA seq |
1032 aa
MAETNNECSIKVLCRFRPLNQAEILRGDKFIPIFQGDDSVVIGGKPYVFDRVFPPNTTQE
QVYHACAMQIVKDVLAGYNGTIFAYGQTSSGKTHTMEGKLHDPQLMGIIPRIARDIFNHI
YSMDENLEFHIKVSYFEIYLDKIRDLLDVTKTNLSVHEDKNRVPFVKGCTERFVSSPEEI
LDVIDEGKSNRHVAVTNMNEHSSRSHSIFLINIKQENMETEQKLSGKLYLVDLAGSEKVS
KTGAEGAVLDEAKNINKSLSALGNVISALAEGTKSYVPYRDSKMTRILQDSLGGNCRTTM
FICCSPSSYNDAETKSTLMFGQRAKTIKNTASVNLELTAEQWKKKYEKEKEKTKAQKETI
AKLEAELSRWRNGENVPETERLAGEEAALGAELCEETPVNDNSSIVVRIAPEERQKYEEE
IRRLYKQLDDKDDEINQQSQLIEKLKQQMLDQEELLVSTRGDNEKVQRELSHLQSENDAA
KDEVKEVLQALEELAVNYDQKSQEVEEKSQQNQLLVDELSQKVATMLSLESELQRLQEVS
GHQRKRIAEVLNGLMKDLSEFSVIVGNGEIKLPVEISGAIEEEFTVARLYISKIKSEVKS
VVKRCRQLENLQVECHRKMEVTGRELSSCQLLISQHEAKIRSLTEYMQSVELKKRHLEES
YDSLSDELAKLQAQETVHEVALKDKEPDTQDADEVKKALELQMESHREAHHRQLARLRDE
INEKQKTIDELKDLNQKLQLELEKLQADYEKLKSEEHEKSTKLQELTFLYERHEQSKQDL
KGLEETVARELQTLHNLRKLFVQDVTTRVKKSAEMEPEDSGGIHSQKQKISFLENNLEQL
TKVHKQLVRDNADLRCELPKLEKRLRATAERVKALEGALKEAKEGAMKDKRRYQQEVDRI
KEAVRYKSSGKRGHSAQIAKPVRPGHYPASSPTNPYGTRSPECISYTNSLFQNYQNLYLQ
ATPSSTSDMYFANSCTSSGATSSGGPLASYQKANMDNGNATDINDNRSDLPCGYEAEDQA
KLFPLHQETAAS |
NT seq |
3099 nt +upstreamnt +downstreamnt
atggcggagaccaacaacgaatgtagcatcaaggtgctctgccgattccggcccctgaac
caggctgagattctgcggggagacaagttcatccccattttccaaggggacgacagcgtc
gttattggggggaagccatatgtttttgaccgtgtattccccccaaacacgactcaagag
caagtttatcatgcatgtgccatgcagattgtcaaagatgtccttgctggctacaatggc
accatttttgcttatggacagacatcctcagggaaaacacataccatggagggaaagctg
cacgaccctcagctgatgggaatcattcctcgaattgcccgagacatcttcaaccacatc
tactccatggatgagaaccttgagttccacatcaaggtttcttactttgaaatttacctg
gacaaaattcgtgaccttctggatgtgaccaagacaaatctgtccgtgcacgaggacaag
aaccgggtgccatttgtcaagggttgtactgaacgctttgtgtccagcccggaggagatt
ctggatgtgattgatgaagggaaatcaaatcgtcatgtggctgtcaccaacatgaatgaa
cacagctctcggagccacagcatcttcctcatcaacatcaagcaggagaacatggaaacg
gagcagaagctcagtgggaagctgtatctggtggacctggcagggagtgagaaggtcagc
aagactggagcagagggagccgtgctggacgaggcaaagaatatcaacaagtcactgtca
gctctgggcaatgtgatctccgcactggctgagggcactaaaagctatgttccatatcgt
gacagcaaaatgacaaggattctccaggactctctcgggggaaactgccggacgactatg
ttcatctgttgctcaccatccagttataatgatgcagagaccaagtccaccctgatgttt
gggcagcgggcaaagaccattaagaacactgcctcagtaaatttggagttgactgctgag
cagtggaagaagaaatatgagaaggagaaggagaagacaaaggcccagaaggagacgatt
gcgaagctggaggctgagctgagccggtggcgcaatggagagaatgtgcctgagacagag
cgcctggctggggaggaggcagccctgggagccgagctctgtgaggagacccctgtgaat
gacaactcatccatcgtggtgcgcatcgcgcccgaggagcggcagaaatacgaggaggag
atccgccgtctctataagcagcttgacgacaaggatgatgaaatcaaccaacaaagccaa
ctcatagagaagctcaagcagcaaatgctggaccaggaagagctgctggtgtccacccga
ggagacaacgagaaggtccagcgggagctgagccacctgcaatcagagaacgatgccgct
aaggatgaggtgaaggaagtgctgcaggccctggaggagctggctgtgaactatgaccag
aagtcccaggaggtggaggagaagagccagcagaaccagcttctggtggatgagctgtct
cagaaggtggccaccatgctgtccctggagtctgagttgcagcggctacaggaggtcagt
ggacaccagcgaaaacgaattgctgaggtgctgaacgggctgatgaaggatctgagcgag
ttcagtgtcattgtgggcaacggggagattaagctgccagtggagatcagtggggccatc
gaggaggagttcactgtggcccgactctacatcagcaaaatcaaatcagaagtcaagtct
gtggtcaagcggtgccggcagctggagaacctccaggtggagtgtcaccgcaagatggaa
gtgaccgggcgggagctctcatcctgccagctcctcatctctcagcatgaggccaagatc
cgctcgcttacggaatacatgcagagcgtggagctaaagaagcggcacctggaagagtcc
tatgactccttgagcgatgagctggccaagctccaggcccaggaaactgtgcatgaagtg
gccctgaaggacaaggagcctgacactcaggatgcagatgaagtgaagaaggctctggag
ctgcagatggagagtcaccgggaggcccatcaccggcagctggcccggctccgggacgag
atcaacgagaagcagaagaccattgatgagctcaaagacctaaatcagaagctccagtta
gagctagagaagcttcaggctgactacgagaagctgaagagcgaagaacacgagaagagc
accaagctgcaggagctgacatttctgtacgagcgacatgagcagtccaagcaggacctc
aagggtctggaggagacagttgcccgggaactccagaccctccacaaccttcgcaagctg
ttcgttcaagacgtcacgactcgagtcaagaaaagtgcagaaatggagcccgaagacagt
ggggggattcactcccaaaagcagaagatttcctttcttgagaacaacctggaacagctt
acaaaggttcacaaacagctggtacgtgacaatgcagatctgcgttgtgagcttcctaaa
ttggaaaaacgacttagggctacggctgagagagttaaggccctggagggtgcactgaag
gaggccaaggagggcgccatgaaggacaagcgccggtaccagcaggaggtggaccgcatc
aaggaggccgttcgctacaagagctcgggcaaacggggccattctgcccagattgccaaa
cccgtccggcctggccactacccagcatcctcacccaccaacccctatggcacccggagc
cctgagtgcatcagttacaccaacagcctcttccagaactaccagaatctctacctgcag
gccacacccagctccacctcagatatgtactttgcaaactcctgtaccagcagtggagcc
acatcttctggcggccccttggcttcctaccagaaggccaacatggacaatggaaatgcc
acagatatcaatgacaataggagtgacctgccgtgtggctatgaggctgaggaccaggcc
aagcttttccctctccaccaagagacagcagccagctaa |