DPGLEAN21841 in OGS1.0

New model in OGS2.0DPOGS203525 
Genomic Positionscaffold751:+ 40761-52033
See gene structure
CDS Length3495
Paired RNAseq reads  171
Single RNAseq reads  494
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA004272 (0.0)
Best Drosophila hit  Na[+]/H[+] hydrogen exchanger 2, isoform F (1e-11)
Best Human hitsodium/hydrogen exchanger 10 (4e-71)
Best NR hit (blastp)  sperm-specific sodium proton exchanger [Strongylocentrotus purpuratus] (0.0)
Best NR hit (blastx)  sperm-specific sodium proton exchanger [Strongylocentrotus purpuratus] (7e-180)
GeneOntology terms












  		GO:0015299 solute:hydrogen antiporter activity
GO:0030154 cell differentiation
GO:0020017 flagellar membrane
GO:0055085 transmembrane transport
GO:0005886 plasma membrane
GO:0007283 spermatogenesis
GO:0015297 antiporter activity
GO:0009434 microtubule-based flagellum
GO:0006814 sodium ion transport
GO:0005929 cilium
GO:0007275 multicellular organismal development
GO:0030317 sperm motility
GO:0016021 integral to membrane
GO:0006812 cation transport
InterPro families




  		IPR018490 Cyclic nucleotide-binding-like
IPR018418 Na+/H+ exchanger, isoforms 7/8
IPR018422 Cation/H+ exchanger, CPA1 family
IPR006153 Cation/H+ exchanger
IPR000595 Cyclic nucleotide-binding domain
IPR014710 RmlC-like jelly roll fold
Orthology groupMCL10338

Nucleotide sequence:

ATGCTTACTGGTGTTGTGATAAGGTCCATAATGCTGTACACCGGCCTGTGTGTTCCGTAT
AGGGTCATCATGTTCAGTATCGGCGGTGTAGTTGGCTTCTGTGCCAACAAATACCCAAAT
TTCAAGCCGTTCGTTCAAGTTTGTTATATGGATGTCGATTTGCTGCTGCTGTCATACCTC
CCGGGTATGGTTTTTCATACTTCGTACTCCGTGGACTCCCATTCGTTCTGGAGAAGTTTC
CCACAAATTTTGCTGGTCGGTGTCCCTGGGGCGTTGCTGACGGCTCTCATGGTGGCATTC
ATGGCGTATTACCTGATAGAATCTTCATGGAATTTTGCAACGGCCTTCCTGTTCGGAGTG
ATATCGTCTCCTATACATCCCATCGACGTAGTTAAACAGTTAAAAGAGATGTCTAAAGGG
AAATACGTAAGTGTTCTTTTGTGTGGCGAAGGTTTGATCGGTGATGCGACAGCTATCATT
GAATTTACTGCGGTCTTTGGTTACCTATCACTGGCTTTGACCTCGGCGTCACATATATCC
TTAATGCTGCTAAGATTTGCTGGAGGTGGCCTGTTACTTGGAATCGTTATGGGAAAAATA
ACTGCTACGCTTTTATCTCTAACGTACTATGACGTTCTTTGTGTGGTAACGGTGACCATG
GCTGGTGCTTATCTGACTTATTACATCGGTGAAAAATTTTTCTACGTGTCCGGCTTACTC
GGGACAGTGATCAATGGAGTGCTGGTCAGTCAGAGTAAATCTACAGTTGCGGGTGAAGTA
GAACAAGTCGTAGCACATTTTTGGAACATATTATCATATGTCGCTAATAGTTTGGTGTTC
ACAATTGTTGGGGTGGTTATTTTCGAGAAAGTTAGTTATGTGATAAGCGTTAGACAAGTC
GCTATGATATTCGTTACATATACAACAGTTTACTTTGCGAGGTTAATAGTATATACGTCT
ATGACTCCGATTTTGAGACACATAGGTTATGGGATATCTTGGCAGCATTCCTTGGCCTGT
GTCTGGGGCGGGCTGAGAGGACCCTTGTCGTTGTGTTTGGCGTTGATAGTACTCCAAACA
CCAGCTGTAGCTGATGCTGGTGAAATATTTATAATTCAAACTGCGGGATTAGTCATACTA
TCTTTGATGATAAACGCGACGTCTATGAAAAGGGTTTTAAAAATCCTAGGCTTGGCGGAA
ATATCGTTGGCGAAGAAGGCAAATATGACCAACTGTGTAAAGAGAATTATGTTGACTAGA
GACAGATGTATATCGATGCTTAAGATGGACAAGTTTTTGGCCGACGCTAATTGGGATCTG
GTACAGGAAGGGACTACGATAAAGCACCCGTACCAGATCCAAATGTCACGTGATGATGAT
AGTGACGACGAGACCTACATGGGCTATCATTACACCACCTGTCCCGACTGCGAACGCGAG
ATCCCTAATGAACCAACTAAAAAAGAATTTGCGGAAATGATGAGAGAAGCAAATCAACGG
GTGTTAAAAGCAATGAAGATTTCTTATTGGCGACAATATGAACATGGCAAAATAAGTAAA
GACGGGGTGAGGACTCTCGTCCAGGCTGTGGAAGTAGCCGCTGATGCTGAAGATGGTAGA
ATTAATTTGGATCAGTTGGGAAATTTGTGGAAACCGAAGGCTCATGCGATCTGGCTTCGT
AAGAAGCTGGTGGATATGATGATGCCGGAACCAGCCAACGCTCTGGTGCCCCGACATCCT
TGGAGACAGTGGTGCTACAAGGTGATCTCCAACGTCTGGTTCGACGCCTCCATATACATC
ATGATTCTTTGCAACACGCCTGTCATCCTGTGCGAGGTGATGGTGAAGGCGCCCGTCACC
ATGCCCGTCGTTTACACCATCAAGTCCATGAATCTATTTTTCTACTGCGTCTATCTTTTG
GAGATGATTGTCAAAATGTTAGGACTCTCGGTGAAGGGTTACTTCAAATCTCATTGGAAT
AAATTAGATTTCATCATCCTCGTAATGGCTACCGGCGATCTGATCTTAGACATAATAGAC
GCCCTCACGACTTGGAACAAGTGGAACAATTTTAATTCCAGTTTCTTAACGGCTACCAAG
CTTTTAAGGATGCTGCGTTTTCTCAGACTTTGCAAGTTGGCCAGAGTGTCGGTACCGAAA
GTAATGTCGTACATCGATCGCATGATTGATTTACAGCTGGCTTACGGATACGACGTCGGC
AAAGGTTTTGTAACCGGTGAGCAAGAAGTATGTAACCTCCTTCCTCAGTTAGTCGACAAT
CGTCAGATACAAGAGACCTTGTATAATAGACTTGAAGCGGATAGATTAGCGGTTACAAGA
CAACTAGGTTTACTCCAGAGGGACAGACCGTGGACGGCCATCACTGTGAAGACGAAGCAG
GCGACCACGTCCACATTAAATATAATGCTTCTGGACGCGATGCAGCTCAAAGAAGAAGGT
TTCCTGGACGAAGTGGAGTATCAGTTACTTGTGCATGCCATACAAGAGAAAGTTCAATTG
TGTCGACACAAAGGAAGTCTTGTAGCGCCATCTTTACCGGAAACTCAACTGCGAGCTGTG
TCATGGCTTCAAGGAAACGAAAGGGTCGCTGATTACTTTCTAGAAAATTCTGGGATTATT
AATTACAACATCAATGACATATTAATCACACGAGGCGACCAGCCGAAAGGCATTTATATA
TTGGTGTCTGGTCTCTGTGAAGCGAACTACATCCCCCCGGAGGACGACTTAGACGAAGCC
ATACCAAACTACGAGTACATAACTGATTTGAAATTCTCTGAACCGAGCAAGGATTATATC
GTGTCCGGGAACGCGATTGGAATTTTGGGGGTCCTCACTAACCGTCCTTACAACTACACC
GTCCGCTGCGAGTCGGCCGTTCAAGCGTACTACATCACCATGGCCACAGTCAAAGAGGCG
TTCAACCTGGCGCCGCATCCCATCATGGGCTTGGAAGCGGCCATGTGGAGAGAGATCGGT
ATAAAACTGACGTTGATGATATTACCCACCGTGCCCGCGTATCACGGCTGGTCGGTCGAG
AAAATTAGCATGAGACTAGAGCACGCGTTCGTACCGTGTTTGAAAGCCTTGGAAGCGGCC
ATGTGGAGAGAGATCGGTATAAAACTGACGTTGATGATATTACCCACCGTGCCCGCGTAT
CACGGCTGGTCGGTCGAGAAAATTAGCATGAGACTAGAGCACGCGTTCGTACCGTGTTTG
AAAGCGTTTAAGGTGTCGAATGTGTCCTCGCGTTGTTTGTACCACAAAGTTGTTCATAAG
CTGTCCAGCGAGTCTCGCGGGAAGAGCGCCCTCCGAGCGAGGGCGAAAAGACGCAGGAGG
AGAGTCAATTATAAGGAGAGCGTTTGGGGGAACAAGATGTCCTCCGCTACAGTGGCCGCT
CCGTCCTTGACTCACAGCGAGAGGGAGATTAACTCAAAGTACTACAAGCCCAGCTTGGTA
GATGTGGTACGTTAA

Protein sequence:

MLTGVVIRSIMLYTGLCVPYRVIMFSIGGVVGFCANKYPNFKPFVQVCYMDVDLLLLSYL
PGMVFHTSYSVDSHSFWRSFPQILLVGVPGALLTALMVAFMAYYLIESSWNFATAFLFGV
ISSPIHPIDVVKQLKEMSKGKYVSVLLCGEGLIGDATAIIEFTAVFGYLSLALTSASHIS
LMLLRFAGGGLLLGIVMGKITATLLSLTYYDVLCVVTVTMAGAYLTYYIGEKFFYVSGLL
GTVINGVLVSQSKSTVAGEVEQVVAHFWNILSYVANSLVFTIVGVVIFEKVSYVISVRQV
AMIFVTYTTVYFARLIVYTSMTPILRHIGYGISWQHSLACVWGGLRGPLSLCLALIVLQT
PAVADAGEIFIIQTAGLVILSLMINATSMKRVLKILGLAEISLAKKANMTNCVKRIMLTR
DRCISMLKMDKFLADANWDLVQEGTTIKHPYQIQMSRDDDSDDETYMGYHYTTCPDCERE
IPNEPTKKEFAEMMREANQRVLKAMKISYWRQYEHGKISKDGVRTLVQAVEVAADAEDGR
INLDQLGNLWKPKAHAIWLRKKLVDMMMPEPANALVPRHPWRQWCYKVISNVWFDASIYI
MILCNTPVILCEVMVKAPVTMPVVYTIKSMNLFFYCVYLLEMIVKMLGLSVKGYFKSHWN
KLDFIILVMATGDLILDIIDALTTWNKWNNFNSSFLTATKLLRMLRFLRLCKLARVSVPK
VMSYIDRMIDLQLAYGYDVGKGFVTGEQEVCNLLPQLVDNRQIQETLYNRLEADRLAVTR
QLGLLQRDRPWTAITVKTKQATTSTLNIMLLDAMQLKEEGFLDEVEYQLLVHAIQEKVQL
CRHKGSLVAPSLPETQLRAVSWLQGNERVADYFLENSGIINYNINDILITRGDQPKGIYI
LVSGLCEANYIPPEDDLDEAIPNYEYITDLKFSEPSKDYIVSGNAIGILGVLTNRPYNYT
VRCESAVQAYYITMATVKEAFNLAPHPIMGLEAAMWREIGIKLTLMILPTVPAYHGWSVE
KISMRLEHAFVPCLKALEAAMWREIGIKLTLMILPTVPAYHGWSVEKISMRLEHAFVPCL
KAFKVSNVSSRCLYHKVVHKLSSESRGKSALRARAKRRRRRVNYKESVWGNKMSSATVAA
PSLTHSEREINSKYYKPSLVDVVR