New model in OGS2.0 | DPOGS202957  |
---|---|
Genomic Position | scaffold1530:- 7586-28138 |
See gene structure | |
CDS Length | 4851 |
Paired RNAseq reads   | 276 |
Single RNAseq reads   | 687 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005747 (1e-06) |
Best Drosophila hit   | Dscam3, isoform C (0.0) |
Best Human hit | Down syndrome cell adhesion molecule isoform CHD2-42 precursor (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to CG31190 CG31190-PC [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to CG31190 CG31190-PC [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0007155 cell adhesion GO:0005886 plasma membrane |
InterPro families    | IPR003598 Immunoglobulin subtype 2 IPR003599 Immunoglobulin subtype IPR003596 Immunoglobulin V-set, subgroup IPR003961 Fibronectin, type III IPR008957 Fibronectin type III domain IPR013783 Immunoglobulin-like fold IPR013098 Immunoglobulin I-set IPR007110 Immunoglobulin-like |
Orthology group | MCL10049 |
Nucleotide sequence:
ATGTGCAGTAACGAACCATTTACTGTAAGCGGATGGTATCGTGAAACGGGAGGTGGAGTA
CTTCGTGAGATACGTGAGGGTGAGGGCGGGGGACGGTACAGCATGACGTCGGATGCGTTG
GCTATCAGACGAGCTGAACTGACGGACGACGGCCGCTGGGCGTGTCGGGCAGCGAACGCT
CATGGCCATGTGACGCTGCGACTCCATCTGTCGCTACGAGCGCATCTCACCATACACGCC
CAACCCCATACACAAGTAGTAAATAGTGGAGGTACGGCTATCATAAACTGCACATGGGCT
GGCTGGCCAACACCCCGCTTGGAGTGGCTTCACAATGGCATACCTCTCTCGGCTGGCGTC
GCTGGAGGTAGAGTGCGAATACAGAATGGAGGAGAACAACTAGTTATAACATCCGTCCAT
CGAGCTGATAAAGGAGTCTATCAATGTGTAGCCAGGAACGAGAGAGATTCAGCTCAAGCC
AGCGCCGAGTTGAGGTTAGGAGACACGGCGCCCGAGTTACAATACACGTTTATCGAGCAA
GTGCTGCGACCCGGTCAAGTTGTAACCCTCAAGTGCTCGGCGGCTGGTTCCCCTCCACCA
CATTTCAGCTGGTTACTGGACGGGCAACCTCTCAATACCATGGCTCGGGGACATAGGTAC
AGTATTGAGCAGTTCGCAACTAAAAGTAACGAAGTGGTGAGCTACTTAAACATCACCGCT
GTGCGCTCTGAAGACGGTGGACTTTACACTTGTAGAGCTGCAAACTCGCTGGGGGAGATA
GCGCATACATCCAGACTTAATATTTATGGTCCACCGTACGTACGATCCATAGGCCCGATC
AGAGCCGTCGCTGGCAGGGAATTGGTACTGTACTGCCCGTACTCTGGTTATCCAATTAGC
TCAGTAAGATGGGAACGCGACGGAAGTCAGCTGGAGTGGGAGGGCAGTACGGGTGGAGAA
GGGGCTCTGAGGATATCACGCGTTGAAGCGAGCAGCGCTGGGGCATACACTTGTAGTGCT
GTTGGACCACATGGGGAAATTGCGAGACGAGAGCTGCAGCTTATTGTCAGCAATCCTCCC
GAAATCGAGCCGTTCTCCTTCTCCGCCAACTTGCAAGAAGGCAAGCGAGCCCAAGTTAGT
TGTAGCGTGGCATCCGGCGACATGCCTGTGCGATTCGCCTGGCTCAAGGACGATCTGCCC
ATACCAGCTGACCTACAGGTGGAAGAACGTGGGGCAGATTTTTTCAGCAACCTCGTTTTC
AAAGAGGTTTCAGCTCGTCACAGCGGTCGGTACACATGTGTTGCGTCCAACAGCGCGGCC
AAAGTTAACTATACCGCGGAGTTGGTGGTCAAAGTTTCTCCCAAATGGCTCCGCGAGCCC
ATGGACGCAGCTGTATTAGCTGGAGAGCAGCTAGCGTTGCACTGCCACACGACAGGATCA
CCCGCACCACATACTACGTGGCTTAAACAAAGAGCTGGTTCTGCATCAGACTTTGTTCCA
ATCATCAACCTTGGAGGGAGGTTTCAGTTTCTCTCGAACGGCACTCTCTGGATTGAAGCA
GCCTTGCCGTACGATGAGGGTTACTATATGTGCAAAGCTGAAAACGGAGTTGGAACTCCG
CTGTCCAAAACTATATTTGTGGCTATTAATGAGCCCGCACGTTTTGAGATGACGTCTCAT
AACGTGTCCGCAAGACGGGAGGCGGGCGCGACGCTCGCGTGTGAGGCGCGGGGCGACGCA
CCGCTGAGGGTCACTTGGTCAAGGGACAACGCCCCGCTTGACCTCTCTACTTATAGATTA
AGCATTTCTGAAGCAAAGACTGATAGTGGTTTAAGGTCCCAACTGTACATAAGCCGCACA
GACCGACAAGACTCCGGCGTCTACAAGTGTCAGGCCGTCAATGCCTACGGTCACAGCGAC
CATTACATTTACTTATCCGTCCAAGAGAAACCTGAAATGCCTCAGTCATTGTCTGTGACT
GAGATCCAGTCCCGTGCTGTCCGCCTGTCTTGGAGCGCGGGCTTCGATGGCAACTCACCT
CTCCACGGCTACACGGTCCAGTACACGCCGCTTAGTACTCAGGCTCGAGGTGAAAGATGG
GAGAATGCCGCTACACTGAACGTCACCTGGGCCGAACACGCTGGACATACACACTCTCAC
GTCACGCTCACCAAAAAGGGCGATATACATTACGAAGCATTATTGAGTAACTTGCGGCCG
CACACAGCGTATATGATCCGCATCGCCGCTATCAACCAGATAGACCGTAGTGCTTTTACT
GAACCAGTGGTTGTAAAGACACAGGAGGAAGCCCCGTCCGAAGCCCCCAGCGGCGTGTCA
GTCTCAGCTGGGGCGGCAGGTGAACTGCACGTGTCGTGGCGCGCTCCTCCCCGGGACGCA
TGGCACGGAGAGTTACTAGGGTACTCTGTGACTTGCGCCGAATTAGGTCCAGACTCTGCT
CCGATACCCAATGCGACTAGAACTCTCACAGTTAACGGTTGGTCGGCAAGTGAACTGACC
CTTTCAGCACTCAAGAAATTCACTCGTTATGAAGTACGCGTCCGTGCTTTCAACGGCATC
GCGGCTGGACCTCCGTCTGTACCCGTCACAGCTACAACATTAGAAGGAGTGCCTGAGGCG
GCCCCGAGCCACGTTTCGTGTTCCGCCCTATCATCCTCAAGCCTTAAAATATCCTGGAAC
GCGCCACCGCCAGCGTTACGAGGCGGAATAGTTCAAGGATACAAGATTATCTACGCCCCG
CTTTCTATCACGCACTCTGAGGGTGCTGAAATGAAGCGTGTGTCTACTACGGAGACTTAC
CTGCATACACTACACAAGTATAGCAACTACTCAGTGCAGGTGGTGGCGTACACAGCGGCG
GGAGACGGCAAGAGGAGCGCTCCAGTGTATTGCATGACGGAAGAAGATGTGCCCTCGGCT
CCGGAAAAGATCAAGGCGTTACCATATTCAAGCGACTCGGTGCTGGTAAGCTGGCTGCCA
CCCTTGCACCCCAACGGTATCATATCACACTATACGGTTTACTACAGGGAGGCTGGACGG
TTAGGCAAGCACTCAACCTTCACAGTGTCAGCTGATAAGTCTCCCGAGATGGAATTGATG
TTTCAAGTTAGGAATCTGATGGAAAACCAGTTGTATGAGTTCTGGGTGTCAGCGACTACT
GGCTCGGGAGAAGGGGAGTCTACTCTGGTAGTAGGCCAAGGTCCCAGTTCCAGAATTCCA
GCTCGCATAGCCTCTTTTGGTGGTACGATCCGCGTTGGTCCCGGTCGCGGCGCCTTACTG
GCGTGCTTGGCTGTAGGGGTCCCTCCACCTAGAACGCGGTGGGCGCACGCTCGAGCCCCC
GTTACACATCACCGTTACTATCAAGTTACCAGAGCTGGACATTTACATATTCGTGAGGTC
AACTCCGAATCATCTGGGAATTTCACCTGCACGGCCACAAACAGTATCGGCGAAGACTCC
ATCGTGTACTCGGTGAGAGCAGAGAAGCCGCCATCCGCGCCCGCACTCTCCTTACAGTAT
ACCACCGCTACCAGCATCAAGCTGCATTGGCGACTAGTAGACAACGAGCAGCCGGTCTTA
GGTTACATTCTACATTATAAACAAGCCTCTGAAACAGAGTGGACCAGCGTCGAACTTTCA
CCAGAACAAACTTCCTACACCATGGATATGTTGAGATGTGGAACTACTTACAACGCTAAA
ATACAAGCCCAGAATAAAATATCTCTGGGACCACCGAGTGAGATACTGACTGCTACAACC
AGAGGGGGACGCCCAAAACCGCCCAAGCCAGAAGAGCACGTGCATACAAATGCGACGGCC
ATCAAGATTAATCTTTACGCCTGGAGGGATGCCGGTTGCCCCATATTGGGCTTTAGAGTC
GCTTACCGACGAGCAGGGGACGAGCATTGGATACAGGCGGGTTCTGATTTGAATGCGGCT
CGCCACGTAGTAGGAGCCTTGTCTCCAGGCGCGTGGTACGAGCTGGCTGTGGAAGCCTGG
AGCGATGCGGGCAGTGAGCGCGTCACGTTACTGGCTGATACTCATACACTTGCTGGAGGT
CGTATCCCTCCCCTGCGTGTTTCCCCTCCAGCAGGCGGTGCTCGTACCAGCATCATGAGA
ACAGCTCTCGCGTGGTGTGCCGCTAGTGCATTACTGCTCGTCGCCACGCTAGCAGCTCTG
GTCTGCTTTTTACACGCCAAACGCAAATTCTTCTGTTTCTCTAACGACCACTATTTGAGG
GATAACAGGAAACTAAGCGAAAGCAATGAGGCCGAGCGAGAAAAACTACGAGAAGGTCAT
AAATTATATTCATCTTCGTCAATTAACGGGAACGAAAAGTTGAATGACGATTCATCAGCG
GAATTGTACGAGATAAGTCCTTATGCGACATTCGGCGGCGCCGCGGCACACAGTCTGCAG
TTCCGTACACTGGCGCGACGCGAGGACGACGCAGCGCCGCCGCATCGACGACGCAGGCGA
GCGTGCGATCACTATAGATATGACGAGTCAAGTCTCTCCAAGTGTTCTACTGTGGAGGCG
CGTCACCGCCTCCGCGCTGCGCCTGCGCCGGCGCCGCCACATTGGCGAGAGAGATCCGAC
TCTGACGACTATAGCGACAGCGCGGCCAACACCACTACTAAAGGTTCCGGCGGGTCGGGC
GGTGGCAGTGCGTACGGCAGCGGACGGCGCACCGCCAGCAGCGGTGGCCAGAACGGAAGT
GACGGCCTGTCAGGGTCCTTCGTGCCGGTGCCGCCAGATATATCATCGTTAATAGACAAG
TACCAGCAGAGAAAAGAACAGGAACGTCGGGAATGCACGATACATGTCTAA
Protein sequence:
MCSNEPFTVSGWYRETGGGVLREIREGEGGGRYSMTSDALAIRRAELTDDGRWACRAANA
HGHVTLRLHLSLRAHLTIHAQPHTQVVNSGGTAIINCTWAGWPTPRLEWLHNGIPLSAGV
AGGRVRIQNGGEQLVITSVHRADKGVYQCVARNERDSAQASAELRLGDTAPELQYTFIEQ
VLRPGQVVTLKCSAAGSPPPHFSWLLDGQPLNTMARGHRYSIEQFATKSNEVVSYLNITA
VRSEDGGLYTCRAANSLGEIAHTSRLNIYGPPYVRSIGPIRAVAGRELVLYCPYSGYPIS
SVRWERDGSQLEWEGSTGGEGALRISRVEASSAGAYTCSAVGPHGEIARRELQLIVSNPP
EIEPFSFSANLQEGKRAQVSCSVASGDMPVRFAWLKDDLPIPADLQVEERGADFFSNLVF
KEVSARHSGRYTCVASNSAAKVNYTAELVVKVSPKWLREPMDAAVLAGEQLALHCHTTGS
PAPHTTWLKQRAGSASDFVPIINLGGRFQFLSNGTLWIEAALPYDEGYYMCKAENGVGTP
LSKTIFVAINEPARFEMTSHNVSARREAGATLACEARGDAPLRVTWSRDNAPLDLSTYRL
SISEAKTDSGLRSQLYISRTDRQDSGVYKCQAVNAYGHSDHYIYLSVQEKPEMPQSLSVT
EIQSRAVRLSWSAGFDGNSPLHGYTVQYTPLSTQARGERWENAATLNVTWAEHAGHTHSH
VTLTKKGDIHYEALLSNLRPHTAYMIRIAAINQIDRSAFTEPVVVKTQEEAPSEAPSGVS
VSAGAAGELHVSWRAPPRDAWHGELLGYSVTCAELGPDSAPIPNATRTLTVNGWSASELT
LSALKKFTRYEVRVRAFNGIAAGPPSVPVTATTLEGVPEAAPSHVSCSALSSSSLKISWN
APPPALRGGIVQGYKIIYAPLSITHSEGAEMKRVSTTETYLHTLHKYSNYSVQVVAYTAA
GDGKRSAPVYCMTEEDVPSAPEKIKALPYSSDSVLVSWLPPLHPNGIISHYTVYYREAGR
LGKHSTFTVSADKSPEMELMFQVRNLMENQLYEFWVSATTGSGEGESTLVVGQGPSSRIP
ARIASFGGTIRVGPGRGALLACLAVGVPPPRTRWAHARAPVTHHRYYQVTRAGHLHIREV
NSESSGNFTCTATNSIGEDSIVYSVRAEKPPSAPALSLQYTTATSIKLHWRLVDNEQPVL
GYILHYKQASETEWTSVELSPEQTSYTMDMLRCGTTYNAKIQAQNKISLGPPSEILTATT
RGGRPKPPKPEEHVHTNATAIKINLYAWRDAGCPILGFRVAYRRAGDEHWIQAGSDLNAA
RHVVGALSPGAWYELAVEAWSDAGSERVTLLADTHTLAGGRIPPLRVSPPAGGARTSIMR
TALAWCAASALLLVATLAALVCFLHAKRKFFCFSNDHYLRDNRKLSESNEAEREKLREGH
KLYSSSSINGNEKLNDDSSAELYEISPYATFGGAAAHSLQFRTLARREDDAAPPHRRRRR
ACDHYRYDESSLSKCSTVEARHRLRAAPAPAPPHWRERSDSDDYSDSAANTTTKGSGGSG
GGSAYGSGRRTASSGGQNGSDGLSGSFVPVPPDISSLIDKYQQRKEQERRECTIHV