DPGLEAN21158 in OGS1.0

New model in OGS2.0DPOGS206486 
Genomic Positionscaffold820:- 75223-84234
See gene structure
CDS Length2031
Paired RNAseq reads  1269
Single RNAseq reads  3727
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA002393 (0.0)
Best Drosophila hit  aralar1, isoform D (0.0)
Best Human hitcalcium-binding mitochondrial carrier protein Aralar2 isoform 2 (0.0)
Best NR hit (blastp)  PREDICTED: similar to mitochondrial solute carrier [Nasonia vitripennis] (0.0)
Best NR hit (blastx)  PREDICTED: similar to mitochondrial solute carrier [Nasonia vitripennis] (0.0)
GeneOntology terms







  
GO:0005740 mitochondrial envelope
GO:0022857 transmembrane transporter activity
GO:0016021 integral to membrane
GO:0005509 calcium ion binding
GO:0005743 mitochondrial inner membrane
GO:0006810 transport
GO:0006839 mitochondrial transport
GO:0055085 transmembrane transport
GO:0005811 lipid particle
InterPro families





  
IPR002067 Mitochondrial carrier protein
IPR023395 Mitochondrial carrier domain
IPR011992 EF-hand-like domain
IPR002048 Calcium-binding EF-hand
IPR018108 Mitochondrial substrate/solute carrier
IPR018247 EF-Hand 1, calcium-binding site
IPR018249 EF-HAND 2
Orthology groupMCL11633

Nucleotide sequence:

ATGGTTTCCACAACATCAAATGTGGTTTACATTAAGGTGGGGGCTGGTTATTTAAAACGA
GCCGATACAGAGAAACTTCACGAGATATTCCTGAAGTATGCGACTATAGAGAAGAATGGC
GAGAAATACATCACCAGCGAGGACTTTGTCAGAAAATTCCTGGGACTGTTCGACGAAGAT
GACTACAACAAGGAGTCGGTGCAGCTTATCGCTGGAATCGTCGACATGGACAAAGACGGG
TTCATCTCGTTCGAAGAATTCCAGGCCTTCGAGGGGCTTCTCTGCGTCCCGGATGCGTTA
TACAAGACCGCCTTCCAACTGTTCGATACTAATGGCAACGGACTCGTAGCTTTTGACGAA
TTCGCCGAGGTCATGCGAAAGACGGCACTACACAAGAAACTACCGTTCAACATGGAAAGC
ACTTTCGTGCGACTTTATTTCGGAAAGGACAAAAAGCGTCTAGTGACCTATCCAGAGTTC
AGTCAGTTCTTGCACGACTTCCACGAGGAGTACGGTGTGGAGGCGTTCAAGAAATGCGAC
AAAGACGGTAGCGGGTTCATAACCGTCGGGGACTTCAGAGACATAATGGTCAGCGTCAAA
AACCACCTGCTCACCAAGGATATGAAGAACAAAGTTATCATGGCATCTGGTTTTCCTCAA
GGAGAACGTAAAATCAGTTTCCCATACTACATGGCGTTTAACTCGTTACTGAATAACATG
GAATTGATCAAACGCGTGTATCTGAACGCTACTAATGGGCACAGGACACAAGAGGTCACT
AAGGAAGAGTTCTTGCATTCAGCGCAAATGATGAGCCAAATAACGCCCTTGGAAGTCGAC
ATATTGTTCACGCTCTGCGACATGATACATCACACTAATGGTCGTATCGTATACAACGAT
CTGAACGCTATAACACCCGAGCAGTACTTCAAGCAAGTCACGAGAAGAATCGCTGAAATA
AAAGCCGTCTCGAGCCCCGAAGAGAGAAGTATTTTAATACAAATTTTAGAAAGCACCTAC
AGGTTCACCCTCGGTTCCATAGCTGCGGTTGGGGCATCGGCCGTGTATCCCATAGATTTG
GTGAAAACTCGTATGCAGAACCAACGCACGGGTTCCTTCATAGGGGAGGTTGCTTATAGG
AACTCGTGGGATTGTTTCAAGAAGGTCATCAGGCACGAGGGTATTTTTGGACTCTATAGA
GGTCTAGTCCCACAACTCATAGGCGTTGCCCCCGAAAAAGCCATCAAACTAACGATGAAC
GATTTGGTCCGCGACAAGTTTATGGACAAGAAGGGAAATATATCATTATATGCAGAAATC
CTCGCTGGAGCCTGCGCCGGTGGTTCCCAAGTAGTGTTCACAAATCCTTTAGAAATAGTG
AAGATTCGTCTCCAAGTGGCCGGTGAGATCGCTGGTGGCAGTAAAGTTAAAGCTTGGTCC
GTTGTTAAAGACCTTGGGCTCTTCGGCCTCTACAAGGGGGCGAAGGCCTGCCTTCTAAGA
GATGTACCCTTCAGTGCCATATACTTCCCAGCTTATGCTCATGTTAAGGCTAAATTCGCT
GACGAGAACGGTTACAACCACCCCTTGACATTGTTAGCTGCGGGCGCCATCGCTGGCGTG
CCGGCCGCCTCGCTCGTTACACCCGCTGACGTCATCAAGACCAGGCTACAGGTGGTGGCT
CGGTCAGGACAAACTACATACAACGGGGTCATAGATGCTACGAGGAAGATTTACGCCGAG
GAAGGAGCACGGGCTTTCTGGAAGGGAGCTGTTGCCCGTGTGTTCCGCTCGTCTCCTCAG
TTCGCGGTGACGCTGGTGACGTACGAGATCTTACAGCGTCTCTTCTATGTTGACTTCGGT
GGATCCCGTCCTGCCGGTTCAGAACAAACTATATCTACCAGCGTTGAGGAAGCACCTCGC
AGACCGCAGCACATAGGAGGGTATCAAGTAGCCGCTCCAGTGCTCACTGGCTTGGAAACT
AAGTTCGGGATATCACTACCACGTTTCTCATTCGCTAAGACTACCAATTAA

Protein sequence:

MVSTTSNVVYIKVGAGYLKRADTEKLHEIFLKYATIEKNGEKYITSEDFVRKFLGLFDED
DYNKESVQLIAGIVDMDKDGFISFEEFQAFEGLLCVPDALYKTAFQLFDTNGNGLVAFDE
FAEVMRKTALHKKLPFNMESTFVRLYFGKDKKRLVTYPEFSQFLHDFHEEYGVEAFKKCD
KDGSGFITVGDFRDIMVSVKNHLLTKDMKNKVIMASGFPQGERKISFPYYMAFNSLLNNM
ELIKRVYLNATNGHRTQEVTKEEFLHSAQMMSQITPLEVDILFTLCDMIHHTNGRIVYND
LNAITPEQYFKQVTRRIAEIKAVSSPEERSILIQILESTYRFTLGSIAAVGASAVYPIDL
VKTRMQNQRTGSFIGEVAYRNSWDCFKKVIRHEGIFGLYRGLVPQLIGVAPEKAIKLTMN
DLVRDKFMDKKGNISLYAEILAGACAGGSQVVFTNPLEIVKIRLQVAGEIAGGSKVKAWS
VVKDLGLFGLYKGAKACLLRDVPFSAIYFPAYAHVKAKFADENGYNHPLTLLAAGAIAGV
PAASLVTPADVIKTRLQVVARSGQTTYNGVIDATRKIYAEEGARAFWKGAVARVFRSSPQ
FAVTLVTYEILQRLFYVDFGGSRPAGSEQTISTSVEEAPRRPQHIGGYQVAAPVLTGLET
KFGISLPRFSFAKTTN