Gene
KWMTBOMO12629 Validated by peptides from experiments
Pre Gene Modal
BGIBMGA001416
Annotation
PREDICTED:_dmX-like_protein_2_[Amyelois_transitella]
Full name
DmX-like protein 2
+ More
DmX-like protein 1
Regulator of V-ATPase in vacuolar membrane protein 1
DmX-like protein 1
Regulator of V-ATPase in vacuolar membrane protein 1
Alternative Name
Rabconnectin-3
Suppression of the onset of impotence protein 3
Suppression of the onset of impotence protein 3
Location in the cell
Nuclear Reliability : 2.313
Sequence
CDS
ATGAACTGTCATCAAGTGCTAAGTGGTGCCTGTAATTCAGGAGATCAATGTTTTGCTGTAGGTTCGGTGGAGGGAATACCATTTACAGCCTATGCAGCAGGATGTAACATAGTGATATTAGCTTCAAATTTCGAACGCGTTCAAATAATACCTGGTGCGATTCACGGTTACGTCCGCATTGGTTCTCTCGACTGCAGCACTGATACCGGAAAAATTGCCGCGGCTTATGGTTCCGAAGTTTGCATATTCGAACCCACGCCTCTTATTCATTCTGCCGCTACTACCCATGGATTGGAGTATCGATGGGTGCAAACTGGAAAATTTGTCGCGGATGGTCCGATAACTGCACTTTCTTGGAATCTTGAAGGAACACGGTTACTGACCGGGGGCAAAGTACTGCAGCTATGGCATCAGGCATCCCTATATCAAGATGACAGTCAGCCAAGTTCGGGTGTGACCTTTCAAATCGGTGGCGATCGAGATGACAAACCAAAGCAGACCGAGGAGGAAGAACCCGGTTGGTTCTGTGTATGGCACTGCAACACAGCAACTCCTACCCACCACCTGGCCTTCTCTCCGGACGGAGTGCTGTTTGCAACATCTGGTGTCAATGATAGGCTTGTCAAGATATGGTACCAGAATAAAGTTCTCGTCCAGGCCCAAGGAGAGCACGCTTCACCAGAGCTAAACTATACTTTCATATACGTTGCCCATCCTAGAGCTGTGACGCATCTGTCTTGGAGGAAAACCAGCAAGTATATGCCAAAGGGTAGCGTGGGTAACGTGTTGGTGACGTCATGCGTGGACAACATCTGCCGCGTGTGGGCGGAGACGCTCATCCCGGAGGACGAGTGGGGCGGCGGCTGCGCGTCCTCGCAGTCGCGCTCCCCGCCGCGCCGCCAGCGAGCCACGCACCGACACAAGCACCGCTTCATGCAGCGCTTGAAGCACATGAAAACATGTTTCCATATAAGACGAAACGCGCAGTCTTCCAAGCAACCCGGAGCTCCGATTCCCACTCTCCCTTCCACATACAGCGCTCACGATTTTCATAATCCGTACCACGCCTACACTTATACTGGTGGTCTACATTTCCACTTAGCGGCTTCCATAAACGCGGAGACAGACATTCCGTTAGTTCCGTCCTTGTCCGGGGGAGGGCGGTTTATACTGCACTGGCTTCACAACAAAGAGATGCACTTCACCAGCCAGGCCGAAGCTATACTACACGATCTGACTAAGAAAATATTAGATAAAGAAGAAACAGACGAAGGAGGTTCCGGTTCAGATCAAACGGCACATCCGGATGGAGAGAATGACGGCAGACATAGGCGGCCTAGTCATCATTTGACAAAAATACAGTCTGAGGATAACAGCAATAGTGATGAGCCCCCAGCTACCGGCAACCATAGTCATCCAAGTTTATCGAACACAACATCAATAAACTCCATAGCGACCGACGTCACGTGCACCCATCTCCCGGACTCGCTTGACGCTAAAATCGAAGTGCTACTTCGGGACTGGCATCAAAGTCCTGATTTGCTTTTCTCGATACATCCCGTCGATGGGAGCTTTCTTATATGGGTTTGCGAATGGCTCGACGAGTTGCAAGCGGGCGCGATCCGGCAAGCGCAGGTATCGTTTTCTGCTCGCATCCCGTGCGCCTTCCCGCTGGGCGACGCCACCACCATGTGCACGCCGGCCGCGCTCTACCACGCCGCCGCGCAGCCGCTCTACGTCAGGCACAGAACGAAGCCGGTCGTACCAGGTCAACAACAGCAAACCGAAACCGTAACGACTCCGTTAGCAAGTGTTCAAGAAGAGAAAGAAGAAAACGAGTGGCCTAAAGCCGAGGAGCAAACCGAAGCCCAGGAAAATGGGAACCTAGAAGAAAATAACAACGACATGCAGCGGAAGACGAGCGTAACAAACGAAGACGTCGGCGAGAATCAAGAAGGCGATGTGTTAGATTCGGCCCCGGTCATCTCCATGGTCACCAACCACACCAATGGCACTCTCAACTTATGGCAGCTGACATTCGACGACAAATCGAAATTTTCACAGGTGCTGTCTATAGGTCACGCGTCGAGAGCATCCGGACACAGATTTAGAGTAAACGACATCACTTGCCATCCAGTATTACCTCTGCTACTAACAACGAGTCATCATAATATATCTGACAGCAACAGAGACCATCACAAGTTCGAGGACGACACGGCGGCGGGCGGGCTGTGCTCGGAGCTGATCATGTGGCGCGTGGAGTGCGTGGGCCCGCTCGGCAAGTCGGGCGGCGTGTCCGAGCTGGCGCGGGTCAACTCGCCGCACCTGTCCGCCTTCAGCAACGTCGCCTGGCTGCCCACGCTGCTGCCGAGTACTACTCTGGGAAACTTGTCCAATTCGCCGTCGGCGTGCTTCGTGGCTAGCGACGGCGAGAGTCTCCGCGTGTTCCAAGCTGTGATCGACGCACGAACGTTGCTGGCTGAGATCGCTACTTCTGAAAGACGCCACAAAGATACAACACTACCTGACACAATGTCAGTGTCGTCTGACTCGACGTTAGAAGAAGCCGGTGGTGGGATACCCCTGCACGACCGCATCAAGATCGTGTCGCAGCAGTCCACGGCGCGGCCCGGCGCCATCATACAGCTGCACGCCATCGCGGACGCGACGCACGACTGGCACAACACGCAGCTGCTGCACGTATTCCAGGAACAACTAATTACAGGCGAACGCACAATGGCAGACGCAGAGAATCCAGATGCGGGCGTGGACGGCTGCGACGTGAACACGATCACCGAGACGGGCCTCGAGGCCATAGTGGACCTCCGTAAAACGGCGGTCTTCAACGAGCCCTTCTACATCGTCGTGCTGGAGCGGACCGACGGCGGCTCCACCGTGCACATGTGGCGGCTCACCGTGTCCTCGCAGGGGGATCCAGCCGATGATTTAACAAACAGCATGATGTACGTTCCGGATAGTGCCTTAGTGCAGGAAGAAGAGGGCGAGTCTCGTAAGAACTCAGTGTCCATGGACAACGACAGAACTTTACCTCCTCCACAACCAAACTCTCATCTATCTATATCTACCAAAAAGGTATGTGAATGCCCTCTGTCCTTGCCTGATGGAGTTGACGTCATTCACGCAACTCCTGCCGCGGGACACCTGAGTTCAGCCTCGATATACCCGGCGTGCCTGGCTCCTTACATACTAGCAACGGCTTGCTCTGACAGCACTCTAAGATTTTGGAGATGCAACGTAACAAACAATGAAAATGACGATTTCGAATATACTTGGAAAGAATGGGAAATGATGAATAAAGACCAAGAATCCACAATAGATATTCCAGGTCAGCCCCTCCATATCAGCGCCGCGTACTCGGGGCGCATCGCGTGCGCGTACAAGTGCGGGAGGTCGTTCACCCGGCCGAAGGCGAGCAGCGCGGCCGCCAGCACCAGCCCGGACGCGCGCTTCGTGAACCTCTGCGTGTGCGTGTACGAGTGCGAGAGCACGGGCGGCGCCGAGTGGCTGCTGGAGGACACCATCCCGCTGCGGAACGTCAGCCTGCCGCGCGTGGGCGTCGGCGCCGACACGCAGATCGACTTGTCCTATCTCAACGATACGTCCTTCATGCAGAAGAAGCAACGACTGAATCAAGTTCTTCAAACGTTATCATCCGACGAAAGCCGAAACGGTCGCAACGGGGAAGGCGACACGGGTAAATCGGCTGGACTTCTAGCGGTACCCTCGTTCAGCACTCTACAATCGTTACGTAGAAGCATTATGGAGAATGGCAACACCTGTCCCTTGACACAAAAACACCTTGTGCAACTAGACTGGGTGTCAAAGGAGGATGGATCGCACATATTGACGGTAGCAGTCGGATCTAGAGTGTTGTTGTTCACACCGGTTTCTAGTGATCTCGCACAGGCTAACCTGAAGGCTATGAAGGAATCAATAAACAACAATCGTCCTATATTGCGGAAGGCGTCGTCACTAGCGGCTCCGCTGTTTGTTGAAGAGATACGATGGATGCAACTTCGGCGTATCGAATTGAAAACGGCGGACGGCTTGCCCCCTCTCCCTATGCAAATATCGTGGGTGAGGGACGGTATACTGGTCGTCGGAATGGACTCGGAAATGCACGTGTATTCCCAATGGAAGCCAGAGAATCCACAGACGGCGGGAGGACAGATTGGAGCGCCGGAATTGGAAGAAGGAAGTGAATCTCGAGCCCTCCGAGACTCTGACTTGCGGGTGTCAGCGCCCCATCTGCAACGTGTCTCCTCCATCAACCTGCAGCTGCTGGAGCGTGACGCGAGGAGACGAAACAAGACGCAGCCTGACCAGCCACAGCCGCTACTAGACTACATGCCAGACTACGGATTGTTCGAAGCGTCGCAGATGGCGTGCCCCGTCCTGCCTCAGTATCATCCCAAACAACTCATGGAACTACTCAACAGCGGCAAAATACGATGGGTCAAAGCAATTCTTGCGCATCTCGTCAGATGTATCGGCGGAACATACACTGGTCGTAGTTCGACAGGAGACGAGGACAGTTTGTCCAGACAGCGCGGCTGGTCTCGCTCGCGCACTCTGTCCGTGTCGTTCGCCGCCGGCGCCGCTTCGCCGCTAGATGGCGTTGCACAGATATCAGAGGACGTCCAGTTAGATTACGCGGAAATAACTTCAATACCGCCTTTGCCGTTGTGGACCCTGTTGGTAGCTGACAAGGAGTCTGCGCATCATCCTTCCACTATACAGGAGGCTAAGGATTACAATGAATTGTTCGAGGGAACAATGGACACGGATGACGACTTAGACGCTTTACTGTTGGGTGAAGAAAGTGTAGATCGCAGGCCTTCAATGCCGGAACGGCAGCCCCTTTCGCATTTTGGTCCAAGACAAGGTCGTATACTATCGCGTCTCCTGACGCACACGCACCTGCCGGGGCTGAGCTCGTTGGACCAGATGCACCTGCTGGCGCTGGCGGACACTGTGTCCACGTGCGACGCCGACCTTGCCGAAAGACTCGCTACGAATGCCCGTGTAGATATTGCACAGGGCACCGGGACAGAAGTATTACCTGATTCATTGGACGACTGCGGGCTGCGGTTCCTGCTCGCTATGAAGCACTACGGCTACCTGCTGCGCTGCCTGCCGCTGGCCCAGCGCGCCGCCCTGCAGCGGACCGGCGTCGGCACCTGCAACCTCGTGTGGGCCTTCCACTCTGAAACTCACGAGCAGCTGCTGGCCTTAGTCCCCGGGTATGCTAAGGGTCAACCGAAATGGACTACAATGAGGGAACTGGGAGTGGGCTGGTGGATCCGCGGCGAATTGCTACGCACAAGCGTGGAGAAACTTGCACGTGCTGCCTACATGCAGAAACAGGACCCCATGGACGCGGCTCTGTATTATCTCGCCATGAAGAAAAGAATGCTCCTTTGGGGCTTGTTCCGGTCTAACCGCGATGATAAGATGACAGCGTTCTTCGCGAACGACTTCACTGAGAACCGTTGGCGTAAGGCGGCCCTGAAGAACGCGTTTGTGCTGCTGGGGAAGCAAAGGTTCGAACACGCCGCTGCCTTCTTCTTACTCGGGGGAGCGTTGAAGGATGCTCTTGAGGTCCTCATAACGCGTCTCGGTGACTTACAATTAGCCATGATCGTAGCACGGCTGTACGAGTCGGACAACGTTCTGCCTGCAAGTCTCAAGAAATTGCTAATGGATGAAATATTAGGCGGCGAAACGGAAGATGGTGAAATTGACTTAGAACGGGCGCACCCGGACCCGTTCGTTCGCTCCATGGCGCTGTGGGAGCTGAAGCGGTACGGCGACTCGCTGGACACGCTGCTGAGCCCGGCCGGCAGGCTGCACGCGCCGCGCGACCCGCAGCAGAAGCAGGACGCCGAGCCCGTGCCCAGCGTCTTCAACTTCTACGTGTACCTGCGGACGCATCCGAGACTCAAGCGCCACAATCTACCCAGCCAGGGTGGAACACTGGCACTGTTGCAACAAGAACCCGAAGAGGGCATCACCCGCCTCGAACGTCGCTTGTACTTCCAAACAGCCCACGGACACTTCAAGGCCGGCTGCCCCGCGCTGGCGCTGGAGGTGCTGTCCAAGCTGCCGGCGCGCGTGCGCGACGAGAAGCCGCGCCACGTCGCCGCCGCGCCCTCCGTGGACGCGCCCGACATACACTCCGGGCACATTGTTGAAGAAAACACACCTAAAATGCCGGAAGAAAAACAAGAGATCAATATGGATTGGGGAGCATCGACAATGGACTGGGGGGCACCTGTCACCTCAAACAAAACTGACGAACTTGTCCTGTCTTGGGACGACGATGATAAAGAATCGGAGGCGTCCGGCGCTTCAACACCGCCCTTGGAAATGAAAATGGACCAAAATGATGACGAAGGGCCAGCAGTGCCTGGTACATCTGATAACAAAGAAGCGGAAGAAACTCCCACAGTCGACATAATGGCGCAACAACTGAAGTTTGTGGCCTGTCTCAAGATATTGATGGAAGAATTGAGTACTCTAGCCACTGGGTTCGAAGTTGATGGTGGCCACCTCCGCTTCCAACTGTACATCTGGTTGGAGCGTGAAGTGGAGGCGCTGCGTCGGCTCTGTGGGTACGCGTCGCGCGGGGGAGGGGGCGCGGCGGGCGGGGAGCTCATCTGTGCCGAGACCGAACCCGCTCCGTTACCTGACAAGCCAACACTGCACCAACTGCTCATCAGAGAAAAGGCAGATTTTGAAGCCAAAGTTCAACGCGCATTCGCGAGGAAAAAATGGCTCAAAGCTAACGAAACCCTGCTTCGTACACTGTTATCGTATTGTTCCCTGCACGGAGCGGGCGGGGGAGGCCTGGCTTCGGTCCGAATGGAACTGGTGTTGCTGCTACAAGAACTAGGTCAAGACAAGCAACACCAACAGTTGCTGTCGCCGTTACCGTTCCCCACTACGCTCCCGCTGCTGGCCGCGGCCGTCGCCACCAATAACACCGTGGTCGCCGATCCAGTCCGACACTTGCAGGCCGTAGCACATGACATGCTGGGTACAATAGGCGAGCTGGGCATTCCGGGAGGTTCGGCCACCAGGCTGCTCCATACCCTGAGGGAACTATCAGTGGCGCTTTCTGCTTGTATATACCAGAGCTTGTGTGATTCTGATACGTTCAGCATGAAACATCAGCATCATCACGACGGGATTATCGCCGAGACCCCAGGAACTAGTCAACTCCTAGCTAGAACTAGACGTCAATCTTTTGATGAAGTTGTGGTGACCACTCCGCCCAATAAATGGCCAGGAGTGTCTGCGCTGCGCGGGCTGGCGGTGCGCGCGGCGGAGGAGGAGGACGCGCCGCGGCTGGCCGTGCTGCTGGCGGAGGCGTTCTGCGCCGTGTACCTGGCGCTGCTGGGCTGGGCGCTGGCCGCCAGGGACGCGCACCTGCTGTACCGCCTCGCCGCGCACGCGCCCGACGCACGCGCGCACTCCAAGCTCTTCGGGGGGGGCGTGCGCCGCCTGCTCACCACCGCGCCCGCCCCGCCGCAGCCGAAACTGGTAGAGCGCACAGAAGGTACCTCGGTGTGGTCGTCGTTGCGCGAGAAGAGAGCCTTATTGAACATGCGGTTGCTGGGCCTGGGCCCGGCCGCGCCGCACAAGCACATCCAGGAGGGCCGCCCCACGTACAGGGAGCAGTTCGTTCCGCCGCAGTACAGCATTCTGACCTACCTGCTCACCAAGCCGACGTCGGAGCAAGACCCCGAGAATTACGATTACGATTCAGCTGAATCTGGAGCTGAAGATGTCGACGAGAGCGGAAGCGAAACCGACGATGATGACATTTTCGACACCAGCAACACGAAGCCAGAGAAACGCCGTAAAGGTGCGAACACGGAACATTCGGACCCGGACTCGTACTCGTGGCTCGTGATGCGCGTGGCCGTGCTGCGCCTCGCACAGAAGAACCTGCAACACTTCCTGCAGCTGTGCGGCATCGAGATGACGGAATTGGCGACGACAAGTCCGACAGTGCACGGCGCCTTACGCCGAGTTGACCAGTGGCAGCAACAACTCACAGAGACGCTCGACTCTCGGGCGCCGCCCCTCGACTACATTCCCGGCTGCTTCCCGGAGCAGCAGACGTCCGGACCGCCTATTAATAAATACAGATGTTTATTGGAAAAACACAATACACCATTCAACTCGGTGTTATTCAGCGCCGCGCCCGCTAGGAGGTTGTGGAGCTTCCTCGTGCGACAAGAACCTGTTCAGGAGCTGTTCATCCGGGCGGTGTTCTCGAGACGTCGCACGGCGTCGCTGAGCGCGGTGGACGCGGGCGGGGGGGACTCGCGCGCCGCCGCCGCGCTCCAGCAGCGGAACCGCGACTTCGAACTACACAACCCCGTCCGGATTATTCATAAGGAGCAAGATTCTATATCGGCCTTCTGTCTTAACAAGGCGGGCGGTTGGCTGGTGGCGGTGGCGACGGGCCGCGAGGTGCAGGAGATGGACGTGTCGCTGCTGCTGCGGGGCGGCGCCGTGTGGGCGGAGGACGAGTGCGAGGTGGACCTGCTGGCCCTGGCCGCCGACCCCGCCGCGCTGCCCGACACCGGCTTCCTACTCATCCACCACCAGGACAAACCGAACAACGGATCGGTACCGGGAACTGGAAATAGTTCTCCACTGAACCCAAACGCGCCCCAAGTGCCCGTCGGCATGGCCAGTCAGACCGGACGCGGTGCTAGTGTTGTGAAGGGCCTGCAGTTCCCGGGTTGCCACGATCCGAAATACTGTCGGATGGTGCTGCACCGCTCGAAGCTTCTGATGAAACCGGTGCTGAAACATAAAATCGATAACATCAAACGAATGGCAGCGCATCCAACTCAACCATTGTATCTGACCGGCGGGGCGGACGGCTCGGTCCAGCTGTGGGAGTTCGGTCACCCGTCGTGCGTGTGGTCGCCGCGCGCTCCGGGCGCGTTCGCCAAGGTCACCCGCATCCGGTTCTCGGACTACGGGAACAAGTTCGCCGCGTCCGACGCCGACGGCAACCTCGCCATGTGGCACCTGCACCCCGCGCCGCAGTACCACGAGGCACAGAACCAGGCCTCGAGGAGACCCTTCTTTACTCATCAGTGTCACAGTAAAGGAATAAGCGACTTTGTGTTCTTGGGATCGTGCAGCTTAGTTGCTACAGCTGGTCACAGTTCAGAGAGCAAAAACGTTGCGATATGGGACACGTTGATGCCCATAAAGAAAGCCCTAGTTGTCTGTGAGTACGATATTTGA
Protein
MNCHQVLSGACNSGDQCFAVGSVEGIPFTAYAAGCNIVILASNFERVQIIPGAIHGYVRIGSLDCSTDTGKIAAAYGSEVCIFEPTPLIHSAATTHGLEYRWVQTGKFVADGPITALSWNLEGTRLLTGGKVLQLWHQASLYQDDSQPSSGVTFQIGGDRDDKPKQTEEEEPGWFCVWHCNTATPTHHLAFSPDGVLFATSGVNDRLVKIWYQNKVLVQAQGEHASPELNYTFIYVAHPRAVTHLSWRKTSKYMPKGSVGNVLVTSCVDNICRVWAETLIPEDEWGGGCASSQSRSPPRRQRATHRHKHRFMQRLKHMKTCFHIRRNAQSSKQPGAPIPTLPSTYSAHDFHNPYHAYTYTGGLHFHLAASINAETDIPLVPSLSGGGRFILHWLHNKEMHFTSQAEAILHDLTKKILDKEETDEGGSGSDQTAHPDGENDGRHRRPSHHLTKIQSEDNSNSDEPPATGNHSHPSLSNTTSINSIATDVTCTHLPDSLDAKIEVLLRDWHQSPDLLFSIHPVDGSFLIWVCEWLDELQAGAIRQAQVSFSARIPCAFPLGDATTMCTPAALYHAAAQPLYVRHRTKPVVPGQQQQTETVTTPLASVQEEKEENEWPKAEEQTEAQENGNLEENNNDMQRKTSVTNEDVGENQEGDVLDSAPVISMVTNHTNGTLNLWQLTFDDKSKFSQVLSIGHASRASGHRFRVNDITCHPVLPLLLTTSHHNISDSNRDHHKFEDDTAAGGLCSELIMWRVECVGPLGKSGGVSELARVNSPHLSAFSNVAWLPTLLPSTTLGNLSNSPSACFVASDGESLRVFQAVIDARTLLAEIATSERRHKDTTLPDTMSVSSDSTLEEAGGGIPLHDRIKIVSQQSTARPGAIIQLHAIADATHDWHNTQLLHVFQEQLITGERTMADAENPDAGVDGCDVNTITETGLEAIVDLRKTAVFNEPFYIVVLERTDGGSTVHMWRLTVSSQGDPADDLTNSMMYVPDSALVQEEEGESRKNSVSMDNDRTLPPPQPNSHLSISTKKVCECPLSLPDGVDVIHATPAAGHLSSASIYPACLAPYILATACSDSTLRFWRCNVTNNENDDFEYTWKEWEMMNKDQESTIDIPGQPLHISAAYSGRIACAYKCGRSFTRPKASSAAASTSPDARFVNLCVCVYECESTGGAEWLLEDTIPLRNVSLPRVGVGADTQIDLSYLNDTSFMQKKQRLNQVLQTLSSDESRNGRNGEGDTGKSAGLLAVPSFSTLQSLRRSIMENGNTCPLTQKHLVQLDWVSKEDGSHILTVAVGSRVLLFTPVSSDLAQANLKAMKESINNNRPILRKASSLAAPLFVEEIRWMQLRRIELKTADGLPPLPMQISWVRDGILVVGMDSEMHVYSQWKPENPQTAGGQIGAPELEEGSESRALRDSDLRVSAPHLQRVSSINLQLLERDARRRNKTQPDQPQPLLDYMPDYGLFEASQMACPVLPQYHPKQLMELLNSGKIRWVKAILAHLVRCIGGTYTGRSSTGDEDSLSRQRGWSRSRTLSVSFAAGAASPLDGVAQISEDVQLDYAEITSIPPLPLWTLLVADKESAHHPSTIQEAKDYNELFEGTMDTDDDLDALLLGEESVDRRPSMPERQPLSHFGPRQGRILSRLLTHTHLPGLSSLDQMHLLALADTVSTCDADLAERLATNARVDIAQGTGTEVLPDSLDDCGLRFLLAMKHYGYLLRCLPLAQRAALQRTGVGTCNLVWAFHSETHEQLLALVPGYAKGQPKWTTMRELGVGWWIRGELLRTSVEKLARAAYMQKQDPMDAALYYLAMKKRMLLWGLFRSNRDDKMTAFFANDFTENRWRKAALKNAFVLLGKQRFEHAAAFFLLGGALKDALEVLITRLGDLQLAMIVARLYESDNVLPASLKKLLMDEILGGETEDGEIDLERAHPDPFVRSMALWELKRYGDSLDTLLSPAGRLHAPRDPQQKQDAEPVPSVFNFYVYLRTHPRLKRHNLPSQGGTLALLQQEPEEGITRLERRLYFQTAHGHFKAGCPALALEVLSKLPARVRDEKPRHVAAAPSVDAPDIHSGHIVEENTPKMPEEKQEINMDWGASTMDWGAPVTSNKTDELVLSWDDDDKESEASGASTPPLEMKMDQNDDEGPAVPGTSDNKEAEETPTVDIMAQQLKFVACLKILMEELSTLATGFEVDGGHLRFQLYIWLEREVEALRRLCGYASRGGGGAAGGELICAETEPAPLPDKPTLHQLLIREKADFEAKVQRAFARKKWLKANETLLRTLLSYCSLHGAGGGGLASVRMELVLLLQELGQDKQHQQLLSPLPFPTTLPLLAAAVATNNTVVADPVRHLQAVAHDMLGTIGELGIPGGSATRLLHTLRELSVALSACIYQSLCDSDTFSMKHQHHHDGIIAETPGTSQLLARTRRQSFDEVVVTTPPNKWPGVSALRGLAVRAAEEEDAPRLAVLLAEAFCAVYLALLGWALAARDAHLLYRLAAHAPDARAHSKLFGGGVRRLLTTAPAPPQPKLVERTEGTSVWSSLREKRALLNMRLLGLGPAAPHKHIQEGRPTYREQFVPPQYSILTYLLTKPTSEQDPENYDYDSAESGAEDVDESGSETDDDDIFDTSNTKPEKRRKGANTEHSDPDSYSWLVMRVAVLRLAQKNLQHFLQLCGIEMTELATTSPTVHGALRRVDQWQQQLTETLDSRAPPLDYIPGCFPEQQTSGPPINKYRCLLEKHNTPFNSVLFSAAPARRLWSFLVRQEPVQELFIRAVFSRRRTASLSAVDAGGGDSRAAAALQQRNRDFELHNPVRIIHKEQDSISAFCLNKAGGWLVAVATGREVQEMDVSLLLRGGAVWAEDECEVDLLALAADPAALPDTGFLLIHHQDKPNNGSVPGTGNSSPLNPNAPQVPVGMASQTGRGASVVKGLQFPGCHDPKYCRMVLHRSKLLMKPVLKHKIDNIKRMAAHPTQPLYLTGGADGSVQLWEFGHPSCVWSPRAPGAFAKVTRIRFSDYGNKFAASDADGNLAMWHLHPAPQYHEAQNQASRRPFFTHQCHSKGISDFVFLGSCSLVATAGHSSESKNVAIWDTLMPIKKALVVCEYDI
Summary
Description
May serve as a scaffold protein for MADD and RAB3GA on synaptic vesicles of neuronal and endocrine homeostatic processes (By similarity). Plays a role in the brain as a key controller of neuronal and endocrine homeostatic processes (PubMed:25248098).
May serve as a scaffold protein for MADD and RAB3GA on synaptic vesicles (PubMed:11809763). Plays a role in the brain as a key controller of neuronal and endocrine homeostatic processes (By similarity).
Component of the RAVE complex, which is required for stable assembly of the vacuolar ATPase complex V-ATPase under many conditions. Required for transport between the early endosome and the late endosome/prevacuolar compartment (PVC), suggesting that assembly of vacuolar ATPase at the early endosome is required for transport from the early endosome to the PVC.
May serve as a scaffold protein for MADD and RAB3GA on synaptic vesicles (PubMed:11809763). Plays a role in the brain as a key controller of neuronal and endocrine homeostatic processes (By similarity).
Component of the RAVE complex, which is required for stable assembly of the vacuolar ATPase complex V-ATPase under many conditions. Required for transport between the early endosome and the late endosome/prevacuolar compartment (PVC), suggesting that assembly of vacuolar ATPase at the early endosome is required for transport from the early endosome to the PVC.
Subunit
Interacts with MADD and RAB3GAP.
Component of the RAVE complex composed of RAV1, RAV2 and CBF3D/SKP1. Within the complex, it interacts directly with RAV2 and CBF3D. Interacts with the V-ATPase V1 subunits VMA1, VMA2 and VMA8.
Component of the RAVE complex composed of RAV1, RAV2 and CBF3D/SKP1. Within the complex, it interacts directly with RAV2 and CBF3D. Interacts with the V-ATPase V1 subunits VMA1, VMA2 and VMA8.
Miscellaneous
Present with 149 molecules/cell in log phase SD medium.
Keywords
Alternative splicing
Cell junction
Coiled coil
Complete proteome
Cytoplasmic vesicle
Membrane
Phosphoprotein
Reference proteome
Repeat
Synapse
WD repeat
Polymorphism
Deafness
Diabetes mellitus
Direct protein sequencing
Disease mutation
Hypogonadotropic hypogonadism
Neuropathy
Non-syndromic deafness
Protein transport
Transport
Feature
chain DmX-like protein 2
splice variant In isoform 3.
sequence variant In dbSNP:rs7700801.
splice variant In isoform 3.
sequence variant In dbSNP:rs7700801.
Pubmed
16141072
19468303
15368895
17242355
21183079
25248098
+ More
27657680 10708522 15372022 18669648 19413330 19690332 20068231 21269460 21406692 23186163 24275569 15489334 19144319 11809763 10048485 12168954 16572171 15144186 18691976 8641269 24374639 7668047 8619316 11283612 11844802 15090613 14562106 15665377 18407956 19779198
27657680 10708522 15372022 18669648 19413330 19690332 20068231 21269460 21406692 23186163 24275569 15489334 19144319 11809763 10048485 12168954 16572171 15144186 18691976 8641269 24374639 7668047 8619316 11283612 11844802 15090613 14562106 15665377 18407956 19779198
EMBL
Proteomes
Interpro
SUPFAM
SSF50978
SSF50978
Gene 3D
PDB
5NZV
E-value=0.00429533,
Score=103
Ontologies
GO
Topology
Subcellular location
The external layer of the inferior boundary for the hypothalamus part of the human brain (the so called median eminence (ME)) displayed a punctate pattern of expression; expression also observed in the cell bodies lining the third ventricle, in the long processes extending from these cell bodies toward the external layer of the ME, in small clear vesicles, and in large dense core vesicles. With evidence from 4 publications.
Endomembrane system
Endomembrane system
Length:
3098
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
4.40355000000001
Exp number, first 60 AAs:
1.93079
Total prob of N-in:
0.08530
outside
1 - 3098
Population Genetic Test Statistics
Pi
235.373112
Theta
164.683341
Tajima's D
1.447793
CLR
0.185091
CSRT
0.780660966951652
Interpretation
Uncertain
