Entry |
|
Symbol |
CDH1
|
Name |
|
KO |
K05689 | cadherin 1, type 1, E-cadherin |
|
Organism |
csab Chlorocebus sabaeus (green monkey)
|
Pathway |
csab05100 | Bacterial invasion of epithelial cells |
|
Brite |
KEGG Orthology (KO) [BR:csab00001]
09130 Environmental Information Processing
09132 Signal transduction
04015 Rap1 signaling pathway
103233229 (CDH1)
04390 Hippo signaling pathway
103233229 (CDH1)
04371 Apelin signaling pathway
103233229 (CDH1)
09133 Signaling molecules and interaction
04514 Cell adhesion molecules
103233229 (CDH1)
09140 Cellular Processes
09144 Cellular community - eukaryotes
04520 Adherens junction
103233229 (CDH1)
09160 Human Diseases
09161 Cancer: overview
05200 Pathways in cancer
103233229 (CDH1)
09162 Cancer: specific types
05226 Gastric cancer
103233229 (CDH1)
05216 Thyroid cancer
103233229 (CDH1)
05218 Melanoma
103233229 (CDH1)
05219 Bladder cancer
103233229 (CDH1)
05213 Endometrial cancer
103233229 (CDH1)
09171 Infectious disease: bacterial
05100 Bacterial invasion of epithelial cells
103233229 (CDH1)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:csab03036]
103233229 (CDH1)
09183 Protein families: signaling and cellular processes
04515 Cell adhesion molecules [BR:csab04515]
103233229 (CDH1)
04090 CD molecules [BR:csab04090]
103233229 (CDH1)
Chromosome and associated proteins [BR:csab03036]
Eukaryotic type
Centrosome formation proteins
Other centrosome associated proteins
103233229 (CDH1)
Cell adhesion molecules [BR:csab04515]
Cadherins
Major cadherins
103233229 (CDH1)
CD molecules [BR:csab04090]
Proteins
103233229 (CDH1)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
5:complement(58578244..58679677)
|
AA seq |
882 aa
MGPWSRSLSALLLLLQVSSWLCQEPEPCHPGFDAESYTFTVPRRHLERGRVLGRVSFEDC
TGRQRTAYFSVDTRFKVGPDGVITVKRPLQFHNPQIHFLVYAWDSTYRKFSTKVTLNTVG
YHSRTPPLHASVSGVQAELLTFPNSSPGLRRRKRDWVIPPISCPENEKGPFPKNLVQIKS
NKDKEGKVFYSITGQGADTPPVGVFIIERETGWLKVTEPLDRENIATYTLFSHAVSSNGN
AVEDPMEILITVTDQNDNKPVFTQEVFKGSVMEGALPGTSVMEVTATDADDDVSTYNAAI
AYSILSQDPELPDKNMFTINKNTGVISVVTTGLDRESFPMYTLVVQAADLQGEGLSTTAT
AVITVTDTNDNPPVFNPTTYKGQVPENEANFVITTLKVTDADAPNTPAWEAVYTILNDND
GQFVVTTNPVTNDGILKTAKGLDFEAKQQYILHVAVTNVAPFEVSLTTSTATVTVDVLDV
NEAPIFVPPEKRVEVSEDFGVGQEITSYTAREPDTFMEQKITYRIWRDTANWLEINPDTG
AISTRAELDREDIEHVKNSTYTALIIATDNGSPVATGTGTLLLILSDVNDNAPIPESRNI
FFCERNPKPQVINIIDADLPPNTSPFTAELTHGASANWTIEYNDPTQESIILKPKIALEV
GDYKINLKLMDNQKKDQVTTLEVSVCDCEGAAGVCKKAPLVEAGMQIPAILGILGGILAL
LILILLLLLFLRRRAVVKEPLLPPEDDTRDNVYYYDEEGGGEEDQDFDLSQLHRGLDARP
EVTRNDVAPTLLSVPRYLPRPANPDEIGNFIDENLKAADSDPTAPPYDSLLVFDYEGSGS
EAASLSSLNSSESDKDQDYDYLNEWGNRFKKLADMYGGGEDD |
NT seq |
2649 nt +upstreamnt +downstreamnt
atgggcccttggagccgcagcctgtcggcgctgctgctgctgctgcaggtctcgtcttgg
ctctgccaggagccagagccctgccaccccggctttgacgccgagagctacacgttcacg
gtgccccggcggcacttggagagaggacgcgtcctgggcagagtgagttttgaagattgc
accggtcgacaaaggacagcctatttttccgtcgacacccgattcaaagtgggcccagat
ggtgtgattacagtcaaaaggcctctacagtttcataacccacagatccatttcttggtc
tacgcctgggactccacctacagaaagttttccaccaaagtcacgctgaatacagtggga
taccacagccgcaccccgccccttcatgcctctgtttctggagtccaagcagaattgctc
acatttcccaactcctctcctggcctcagaagacggaagagagactgggttattcctcct
atcagctgcccagaaaatgaaaaaggcccatttcctaaaaacctggttcagatcaaatcc
aacaaagacaaagaaggcaaggttttctacagcatcactggccaaggagctgacacacca
cctgttggtgtctttattattgaaagagaaacaggatggctgaaagtgacagagcctctg
gatagagaaaacattgccacatacactctcttctctcatgctgtgtcatccaacgggaat
gcagttgaggacccaatggagattttgatcacggtgaccgatcagaatgacaacaagcct
gtgttcacccaggaggtctttaaggggtctgtcatggaaggtgctcttccagggacctct
gtaatggaggtcacagccacagacgcggacgatgatgtgagcacctacaatgctgccatc
gcttacagcatcctcagccaagatcctgagctgcctgacaaaaatatgttcaccattaac
aagaacacaggagtcatcagtgtggtcaccactgggctggaccgagagagtttccctatg
tataccctggtggttcaagctgctgaccttcaaggtgaagggttaagcacaacagcaaca
gctgtgatcacagtcactgacaccaatgataaccctccagtcttcaatcccaccacgtac
aagggtcaggtgcctgagaatgaggctaacttcgtaatcactacactgaaagtgactgat
gctgacgcccccaataccccagcgtgggaggctgtatacactatattgaatgataatgac
ggacaatttgttgtcaccacaaatccagtgaccaacgatggcattttgaaaacagcaaag
ggcttggattttgaggccaagcagcagtacattctacacgtggcagtgacgaacgtggcg
ccttttgaggtctctctcaccacctccacagccaccgtcaccgtggatgtgctggatgtg
aacgaagcccccatctttgtgcctcctgaaaagagagtggaagtgtccgaggacttcggc
gtgggccaggaaatcacatcctacactgcccgggagccagacacatttatggaacagaaa
ataacgtatcggatttggagagacactgccaactggctggagattaatccggacactggt
gccatttccactcgggctgagctggacagggaggacattgagcacgtgaagaacagcacg
tacacagccctcatcatagctacagacaatggttctccagttgctactggaacagggact
cttctgctgatcctgtctgatgtgaatgacaacgcccctataccagaatctcgaaatata
ttcttctgcgagaggaatccaaagcctcaggtcataaacatcattgatgcagaccttcct
cccaatacatctcccttcacagcagaactaacgcatggggcgagtgccaactggaccatt
gagtacaacgacccaacccaagaatctatcattttgaagccaaagatagccttagaggtg
ggtgactacaaaatcaatctcaagctcatggataaccagaagaaagaccaagtgaccacc
ttagaggtcagcgtgtgtgactgtgaaggggccgccggcgtctgtaagaaggcaccgctt
gtcgaagcaggaatgcaaattcctgccattctggggattcttggaggaattcttgctttg
ctaattctgattctgctgctcttgctgtttcttcggaggagagcggtggtcaaagagccc
ttactgcccccagaggatgacacccgggacaacgtttattactatgatgaagaaggaggt
ggagaagaggaccaggactttgacttgagccagttgcacaggggcctggacgctcggcct
gaagtaactcgtaacgacgttgcaccaaccctcctgagtgtcccccggtaccttccccgc
cctgccaatcccgatgaaattggaaattttattgatgaaaatctgaaggcggctgatagt
gaccccacggccccgccttatgattctctgctcgtgtttgactatgaaggaagcggttcc
gaagctgctagtctgagctccctgaactcttcagagtcagacaaagaccaggactatgat
tacttgaacgaatggggcaatcgcttcaagaagctggcagacatgtacggaggcggcgag
gatgactag |