| Entry |
|
|---|
| Symbol |
DNM1
|
|---|
| Name |
|
|---|
| KO |
|
|---|
| Organism |
mdo Monodelphis domestica (gray short-tailed opossum)
|
|---|
| Pathway |
| mdo04072 | Phospholipase D signaling pathway |
| mdo04961 | Endocrine and other factor-regulated calcium reabsorption |
| mdo05100 | Bacterial invasion of epithelial cells |
|
|---|
| Brite |
KEGG Orthology (KO) [BR:mdo00001]
09130 Environmental Information Processing
09132 Signal transduction
04072 Phospholipase D signaling pathway
100012623 (DNM1)
09140 Cellular Processes
09141 Transport and catabolism
04144 Endocytosis
100012623 (DNM1)
09150 Organismal Systems
09155 Excretory system
04961 Endocrine and other factor-regulated calcium reabsorption
100012623 (DNM1)
09156 Nervous system
04721 Synaptic vesicle cycle
100012623 (DNM1)
09160 Human Diseases
09171 Infectious disease: bacterial
05100 Bacterial invasion of epithelial cells
100012623 (DNM1)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
04131 Membrane trafficking [BR:mdo04131]
100012623 (DNM1)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:mdo04147]
100012623 (DNM1)
Enzymes [BR:mdo01000]
3. Hydrolases
3.6 Acting on acid anhydrides
3.6.5 Acting on GTP to facilitate cellular and subcellular movement
3.6.5.5 dynamin GTPase
100012623 (DNM1)
Membrane trafficking [BR:mdo04131]
Endocytosis
Clathrin-mediated endocytosis
Dynamin
100012623 (DNM1)
Lipid raft mediated endocytosis
Caveolin-mediated endocytosis
100012623 (DNM1)
RhoA-dependent endocytosis
100012623 (DNM1)
Exosome [BR:mdo04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
100012623 (DNM1)
|
|---|
| SSDB |
|
|---|
| Motif |
|
|---|
| Other DBs |
|
|---|
| LinkDB |
|
|---|
| Position |
1:453942968..454011662
|
|---|
| AA seq |
851 aa
MGNRGMEDLIPLVNRLQDAFSAIGQNANLDLPQIAVVGGQSAGKSSVLENFVGRDFLPRG
SGIVTRRPLVLQLVNATTEYAEFLHCKGKKFTDFEEVRLEIEAETDRVTGSNKGISAVPI
NLRVYSPHVLNLTLVDLPGMTKVPVGDQPPDIEFQIRDMLMQFVTKENCLILAVSPANSD
LANSDALKIAKEVDPQGQRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYIGVVNRSQK
DIDGKKDITAALAAERKFFLSHPSYRHLAERMGTPYLQKVLNQQLTNHIRDTLPGLRNKL
QSQLLSIEKEVEEYKNFRPDDPSRKTKALLQMVQQFAVDFEKRIEGSGDQIDTYELSGGA
RINRIFHERFPFELVKMEFDEKELRREISYAIKNIHGIRTGLFTPDMAFETIVKKQVKKI
REPCLKCVDMVISELINTVRQCTKKLQQYPHLREEMERIVTTHIREREGKTKDQVMLLID
IELAYMNTNHEDFIGFANAQQRSSQMNKKKAAGNQDEILVIRKSWLTINNIGIMKGGSKE
YWFVLTAENLSWYKDDEEKEKKYMLPVDNLKLRDVEKGFMSSKHIFALFNTEQRNVYKDY
RQLELACETQEEVDSWKASFLRAGVYPERVGDKEKASETEENGSDNFMHSMDPQLERQVE
TIRNLVDSYMAIVNKTIRDLMPKTIMHLMINNTKDFIHSELLANLYSCGDQNTLMEESAE
QAQRRDEMLRMYHALKEALGIIGDINTTTISTPMPPPVDDSWLQVQSVPAGRRSPTSSPT
PQRRAPAVPPARPGSRGPAPGPPPAGSALGGAPPVPSRPGASPDPFGPPPQVPSRPNRAP
PGVPRITISDP |
|---|
| NT seq |
2556 nt +upstreamnt +downstreamnt
atggggaaccgtggtatggaagacctgatcccgctggtcaacagactgcaggatgccttt
tccgccatcggccagaatgccaacctggacctgccgcagatcgctgtggtgggtggccag
agcgccggaaagagctcggtgctggagaatttcgtgggcagggacttcctgccccgtgga
tctggcattgtgacccgtcggcctctagtcctgcagctggtgaatgccaccacagaatat
gctgagtttctccactgcaaagggaagaagtttacagactttgaagaggtccgactggag
attgaggcagagactgatcgtgtcactggctccaacaagggcatttcagcagtgcccatc
aacttgcgggtctattctccacatgtgctgaacctgaccctggtggacctgcccggaatg
accaaggtcccagtgggggaccagcctccagacatagagttccagatccgagacatgctt
atgcagtttgtcaccaaggaaaactgtctcattctggctgtatcccctgccaactctgac
cttgccaactctgatgccctcaagattgccaaggaggttgatcctcaaggacaacgcacc
ataggggtcatcaccaaactggatttgatggatgaagggactgatgcccgagatgttcta
gagaataagctgctgcccctgcgaagaggctacatcggagtggtgaatcggagccagaaa
gatattgatggcaaaaaggatatcacagcagccctggcagctgaacgaaagtttttcctg
tcccatccgtcttaccgccatctggctgagcgcatgggtacaccttacctacagaaagtc
ctcaatcagcaactgactaaccatatccgggacactctgcctggacttcggaacaagctg
cagagtcagctgctgtctattgagaaggaggtggaagagtacaagaacttccgtcctgat
gacccctcccgcaagaccaaggctctcttgcagatggtccagcagtttgctgtagacttt
gagaaacgaattgaaggttcaggagaccagattgacacctatgaactgtctggaggggcc
cgaatcaatcgcatcttccatgagcgtttcccctttgagctggtcaaaatggagtttgat
gaaaaggagctgaggcgggagatcagctacgccatcaagaacattcatggcatcagaacg
gggctgttcacccccgatatggcttttgaaaccatcgtgaaaaagcaggtgaagaagatc
cgagagccctgtctgaaatgtgtggacatggtcatttcggagttaatcaataccgttaga
cagtgcaccaagaagctccagcagtacccccacttgcgagaagaaatggaacgcatcgtc
accactcatattcgtgagagagaggggaagactaaggaccaggtcatgcttcttattgac
attgaattggcctatatgaacactaaccatgaagacttcatcggctttgctaatgcccaa
cagaggagcagccagatgaataagaaaaaggcagcagggaatcaggacgagattttggtg
atccgaaagagctggctgaccatcaacaacatcggcatcatgaagggaggctccaaggaa
tattggtttgtgctgacagctgaaaacctgtcctggtataaagatgatgaggagaaggag
aaaaaatatatgctccctgtggacaacctgaagcttcgggacgtggaaaagggctttatg
tccagcaagcatatctttgccctcttcaacactgaacagaggaatgtctacaaggattac
agacagctggagttggcctgtgaaactcaggaggaggtggacagctggaaagcatctttc
ctgagggctggggtataccctgagcgggttggggacaaggagaaagccagtgagacggaa
gagaatggctcggacaacttcatgcactccatggacccccagttggaaaggcaggtggaa
actatccgcaacctggtggattcttacatggccatcgtgaacaagactatccgtgacctc
atgcccaaaactatcatgcacctcatgataaacaacaccaaggatttcatccactcggag
ctgctggccaacctgtactcgtgcggggaccagaacacgctgatggaggagtccgcggag
caggcccagcggagagatgagatgctgcgcatgtaccacgccctgaaagaggccctgggc
atcatcggggacatcaacaccaccaccatcagcacgcccatgcccccgcccgtggacgac
tcctggctgcaggtgcagagtgtaccggccggacgcaggtcgcccacgtccagccccacc
ccgcaaaggcgagcccccgccgtgcccccagcccggcccggctcccggggccctgctcct
gggcctccgcctgctgggtccgccctggggggggcgccccccgtgccctccaggccgggg
gcttcccctgacccatttggaccaccccctcaggtgccgtcaaggcccaaccgtgccccc
ccgggggttcccagaatcactatcagtgacccctga |
|---|
