Gene Symbol | Gcc2 |
---|---|
Gene Name | GRIP and coiled-coil domain containing 2, transcript variant X3 |
Entrez Gene ID | 101725764 |
For more information consult the page for NW_004624749.1 (Scaffold)
The following genes have been identified as possible homologs of the naked mole-rat gene and compared to it.
GRIP and coiled-coil domain containing 2
Protein Percentage | 82.86% |
---|---|
CDS Percentage | 85.26% |
Ka/Ks Ratio | 0.21743 (Ka = 0.1007, Ks = 0.4632) |
GRIP and coiled-coil domain containing 2
Protein Percentage | 77.14% |
---|---|
CDS Percentage | 81.46% |
Ka/Ks Ratio | 0.23152 (Ka = 0.1431, Ks = 0.6182) |
GRIP and coiled-coil domain containing 2 (Gcc2), mRNA
Protein Percentage | 76.51% |
---|---|
CDS Percentage | 81.16% |
Ka/Ks Ratio | 0.23809 (Ka = 0.1482, Ks = 0.6223) |
>XM_004844506.1 ATGGAGGACCCTGCCCAGGACGGGGTGGCCGCCCCAGCCGTCCCCGGCGCCACGAAATCCAAGCTGGAAACCCTGCCCAAGGAAGATCTCATCAAGTTCGCCAAGAAGCAGATGATGCTGTTACAAAAGGCGAAATCAAGGTGTACAGAATTGGAAAAAGAAATTGATGAACTCAAATCAAAACCTATTGATGGAGGAACTGATGATATTATTAAGGATTCTGTAACTAAAGTGGAAGATGTGCACAAGGAGTTTGAACAGTCACACAAAAACTATGTGAAAGAAATTGAAAATTTGAAAAATGAATTGATGACAGTACATTCCAAACACAATGAAGATAAGGCTGGCTTACAAAAGGAGCTAGAAGAAGCAGTAAATAAACAGGCAGAGCTTTCAGAACAACTTAAACTTCAGAGTATCTCTGAAGACAGTGTTAAAAAACTACAAGAAGAGATTCAGGAAATGAGGTCAGCCTTTGAGGAACAAATTTTATATCTGCAAAAGCAATTAGAAGTCACCACTGATGAAAAGAAGCAAGCAGTTACTCACCTCCAAGAAGTCATGGAAGCAAATTCTCAGCATTACCAAAGAGATGTTAATCGTTTGCAAGAAGAATTTTTGCAGTTGAAAGCTGCACACCAAGAAGAAGTGAAAGAACTGACACACCAGATTGAAGCATCAGCTAAAGAACATGAAGCAGAAATAAGTAAGTTAAACCAGCTGCAAGAGGACTTAGCAAAACAGTATGAGGCCAGTGAGAAGACCATTTGCAAGAAATACGAATGTGAATTGGAAAACCTAAGAAAAGCCACCTCAGATGCAAATCCAGACCATCAGGTGGGTCCTGCCCTCCTACAGGAAGATACTTTTGTAGAACAGGTAATAAATGAAAAAACCAAATACTTAGAGGATTCCTTAAAAGAACTGGAATCTCAACATAGTATCTTAAAAGATGAGGTAACTTATATGAATAATCTTAAATTAAAACTTGAAATGGATGCCCAACATATAAAAGATGAGTTTTTTCATGAACGAGAAGACTTAGAATTTAAAATTAATGAACTATTACTAGCTAAAGAAGAGCAGGTCTGTATAATAGAAAAATTAAAGTATGAGCTAGAAGATTTAAATAAACAGTTTTGTTGTGCTATAGAACAGCATAACAAAGAAGCACAAAATCTCAAGGAACAACATCAAAAAGAAATATCCGAACTAAATGAGACATTTTTGTCAGGTTCAGAAAAAGAAAAACTAACATTACTGTTTGAAATACAGGGTCTTAAGGAACAGTGTGAAAACCTGCAACAAGAAAAGCAAGAAGCAATATTAAATTATGAGAGTTTGAGAGAGATTATGGAAATTTTACAGACAGAACTGGGAGAATCTGCTGGAAAAATAAGTCAAGAGTTTGAATCAATGAAGCAACAGCAAGCATCTGATGTTCATGAACTTCAGCAGAGGCTTAGGACTGCATTTAATGAAAGAGATGCTCTTCTTGAAACTGTGAATCGTCTCCAGGGAGAAAATGAAAAGTTATTATCTCAACAAGAGTTAGTATCACAACTTGAAAATACCATAAAGAGCCTTCAAGAGAAGAATGAAGTGTACTTACTTAGTCTCAGTCAAAGAGACATGGTGATACAAGAATTAGAAGCCAATATAAGGTCTCTTATGGAAGAAAAAGATGATTTCATAAATAAAATTAAAAATTCTCATGATGAGATAGTCAGTCTGCATAAAAAGTGTGAAAGGGAAGAAAACTTTGCTCGAGAACTTAGGGAGAAATGGGAGCAAACCACCCAGTCCAACAGTGCACTAGAACGACAAGTAAATGAATTGACAGGAAGACTAGATGAGACTTTAAAAGAAAAGGATGAAAATGACCAAAAACTTATGGTTCAAATGCAAACTCTCTCTAAAGACCAGGAAGCATTGTCATTGGAAGTGAAGTCTCTTGATGAGGAAAATAGTAGATTGCGTTCTGAAAAGGACCAGTTGAGTAGGGATTTAGAAGCTCTTCTGTCTGAAAAGGAAGATTTTACCCTGAAAGGACATACTACTGAATTAGAAAAGAAACTTGAGTTAACAATGGAAGAGCGAGATAACTTAAATAAACTGTTTGAAAATGAGCAAGTTCAGAAGTCATTTGTTAGAACTCAGCTATATGGTTTTCTTAAACAAATGGGGTCGAGTGTTTCAGAAGAAAATGAAGATGTTAGACTTGTCCTACAAGCTGTAGGAGAATCCTTAGCAAAAGTAAATGAAGAAAATCACAACTTGGTTTTACAGCATCTTGAAAGGGTGTTAGAATTAGAAAAAGAAACTAAGTGCCTTCAAGAAAAGGCCACTCAATGTGAAGAACTTAGGTCTTTACTAAGGGACTATGAGCAAGAGAAAGTTCTCTTAAGGCAAGAGTTAGAAGGGACATTGTCAGAAAAAGAGGCCCTGCAGTTTGATCTTTTAGAAATGAAGAATGCTAATGAGAAAATAAAGCTTGAAAATCACAATCTTTTAATTCAAGTTGAGGAAGTATCTCATATATTACACAGCAAAACTGAAGTCCATGATGAAAAATCTATACCAGGACATGAAGACCTAAGGCCATTACTGGAACAAAAAGAATCTGAATTGCAAGATGTAAGAGCAGAGTTGATGTCATTTAAGGATTCCCTAGAGAAATCATCTCCTGTAAAAAATGATCAACTTTCTTCAGTCAAAGAACTGGAAGAAAAAATAGGAAATCTAGAAAAAGAATCCAAAGAAAAGGAGGAGAAAATAAGTAAGATAAAACTAGTTGCTGTGAAGGCAAAGAAAGAATTAGATTCTAGCAGAAAAGAGGCCCAGACTCTAAGGGAAGAACTCGAGTCTGTTCGGGCAGAAAAGGATCAGTTGTCTGCATCCATGAGAGACCTCATTCAGGGAGCAGAGAGCTATAAGAATCTTTTATTAGAATATGATAAGCAGTCAGAGCAGTTGGATATGGAAAAAGAACGTGCTAATAATTTTGAACATCACATGGAAGACCTTTCAAAACAATTAAGAAATTCAGCTTATCAGTGTGAAAAATTAAGCTCTGATAATGAAGATCTCCTGGCTCGTATTGAGACACTTCAGTCCAATTCCAGGCTATTAGAAGTACAGATTTTAGAAGTCCAGAGAGCCAAAGCAGTGGTAGACAAAGAACTGGAAGCTGAAAAGCTTCAGAAAGAGCAAAAGCTAAAGGAACATGCCAGTACTGTAAATGAACTTGAAGAACTTCAGCTGCAACTTCAAAAGGAAAAGAAACAGCTTCAGAAAACCATGCAAGAATTAGAGCTGGTTAAAAAGGATGCCCAACAGACTACACTGATGAATATGGAAATAGCAGACTATGAGCGTTTGACAAAAGAACTAAATCAACAGTTAACTAATAAAAACAGCAAGATAGAAGATTTGGAGCAAGAAATAAAAATTCAAAGACAGAAACAAGAAACCCTACAAGAAGAAATGACCTCACTCCAGTCTTCCCTGCAGCAGCATGAAGAAAAACACACCAAGATCAAGCAGCTGCTTGTGAAAACCAAAAAAGAGCTGGCAGACTCAAAGCAAGCAGAAACTGATCATCTCATTCTGCAAGCATCCTTAAAGGGCGAGCTGGAGGCTAGCCAGCAGCAAGGAGAAGTCTACAAAATCCAGCTGGCTGAGGTGACTGCAGAGAAACACAAGCTGCACGAGAACCTGAAGGCATCTGCTGAGCAGCACCAGCGTGCACTCGGTGCCTTCCAGCAGCGGGTGGCTGCGCTACAAGAGGAGAGCCGCGCTGCCAAGGCAGAACAAACTGCTGTAACCTCAGAATTTGAGAGCTACAAAGTCCGAGTTCATAACGTTCTGAAACAACAGAAAAATAAATCTGTGTCTCAGGCTGAGACTGAGGGAGCGAAACAAGAAAGGGAACACCTGGAAATGCTGGTTGACCAGCTGAAGATCAAACTACAAGACAGCCAGAATAACCTGCAGGTCAGCATGTCAGAGCTGCAGACACTACAGTTGGAGCACGACACCCTGCTGGAGAGGCACAACCGCATGCTGCAGGAGACCGTGGCCAAGGAGGCGGAGCTGCGGGAAAAGCTGTGTTCCATCCAGTCGGAGAACTTGGCAATGAAGTCTGAGCATGCACAGACAGTGAGTCAGCTGTCATCCCAGAGTGAGGTCCTCCGCAGCAACTTCCGAGAGCAGATGCGGCACTTGCAGGAAGAACACCGGAAGACAGTGGAAACCCTCCAGCAGCAGCTCTCCAAGGTGGAAGCTCAGCTCTTCCAGCTCAAGAGTGAGCCAACCACACGATCCCCAGGTTCTTGCCAGCCTTTGAAGAACCTTCGAGAAAGGAGGACCACCGATCTGCCCCTTCTGGACATACACGCGGTGACTCGGGAGGAGGGGGAAGGCATGGAGACAGCGGACAACGAGTCCGTGTCTTCCACCAGCACTTATGCACCCTCACTGGAGCAGCTGCTCAACTCTCCTGAGACAAAGCTTGAGCCTCCTTTGTGGCATGCTGAGTTTACCAAAGAAGAGTTGGTTCAGAAGCTATGCTCCACCACGAAAAGTGCAGAGCACTTGAATGGGCTGCTTCGGGAGACAGAGGCAACCAATGCCATCCTCATGGAGCAGGTCAAGCTTCTCAAAAGTGAAATAAGAAGATTGGAAAGAAATCAAGAGCGAGAGAAGTCTGTGGCCAACCTGGAATACTTGAAGAATGTCTTGCTGCAGTTCATTTTCCTGAAACCTGGCAGTGAGCGGGAGAGGCTCCTTCCTGTCATCGACACCATGCTGCACCTCAGCCCTGAGGAGAAGGGGAGGCTTGCCACCGTTGCACAGGGCGAGGAAGAAAACACTTCCCGTTCCTCCGGATGGGCCTCTTATCTGCATAGTTGGTCTGGACTTCGATAG
Gcc2 PREDICTED: GRIP and coiled-coil domain-containing protein 2 isoform X3 [Heterocephalus glaber]
Length: 1642 aa>XP_004844563.1 MEDPAQDGVAAPAVPGATKSKLETLPKEDLIKFAKKQMMLLQKAKSRCTELEKEIDELKSKPIDGGTDDIIKDSVTKVEDVHKEFEQSHKNYVKEIENLKNELMTVHSKHNEDKAGLQKELEEAVNKQAELSEQLKLQSISEDSVKKLQEEIQEMRSAFEEQILYLQKQLEVTTDEKKQAVTHLQEVMEANSQHYQRDVNRLQEEFLQLKAAHQEEVKELTHQIEASAKEHEAEISKLNQLQEDLAKQYEASEKTICKKYECELENLRKATSDANPDHQVGPALLQEDTFVEQVINEKTKYLEDSLKELESQHSILKDEVTYMNNLKLKLEMDAQHIKDEFFHEREDLEFKINELLLAKEEQVCIIEKLKYELEDLNKQFCCAIEQHNKEAQNLKEQHQKEISELNETFLSGSEKEKLTLLFEIQGLKEQCENLQQEKQEAILNYESLREIMEILQTELGESAGKISQEFESMKQQQASDVHELQQRLRTAFNERDALLETVNRLQGENEKLLSQQELVSQLENTIKSLQEKNEVYLLSLSQRDMVIQELEANIRSLMEEKDDFINKIKNSHDEIVSLHKKCEREENFARELREKWEQTTQSNSALERQVNELTGRLDETLKEKDENDQKLMVQMQTLSKDQEALSLEVKSLDEENSRLRSEKDQLSRDLEALLSEKEDFTLKGHTTELEKKLELTMEERDNLNKLFENEQVQKSFVRTQLYGFLKQMGSSVSEENEDVRLVLQAVGESLAKVNEENHNLVLQHLERVLELEKETKCLQEKATQCEELRSLLRDYEQEKVLLRQELEGTLSEKEALQFDLLEMKNANEKIKLENHNLLIQVEEVSHILHSKTEVHDEKSIPGHEDLRPLLEQKESELQDVRAELMSFKDSLEKSSPVKNDQLSSVKELEEKIGNLEKESKEKEEKISKIKLVAVKAKKELDSSRKEAQTLREELESVRAEKDQLSASMRDLIQGAESYKNLLLEYDKQSEQLDMEKERANNFEHHMEDLSKQLRNSAYQCEKLSSDNEDLLARIETLQSNSRLLEVQILEVQRAKAVVDKELEAEKLQKEQKLKEHASTVNELEELQLQLQKEKKQLQKTMQELELVKKDAQQTTLMNMEIADYERLTKELNQQLTNKNSKIEDLEQEIKIQRQKQETLQEEMTSLQSSLQQHEEKHTKIKQLLVKTKKELADSKQAETDHLILQASLKGELEASQQQGEVYKIQLAEVTAEKHKLHENLKASAEQHQRALGAFQQRVAALQEESRAAKAEQTAVTSEFESYKVRVHNVLKQQKNKSVSQAETEGAKQEREHLEMLVDQLKIKLQDSQNNLQVSMSELQTLQLEHDTLLERHNRMLQETVAKEAELREKLCSIQSENLAMKSEHAQTVSQLSSQSEVLRSNFREQMRHLQEEHRKTVETLQQQLSKVEAQLFQLKSEPTTRSPGSCQPLKNLRERRTTDLPLLDIHAVTREEGEGMETADNESVSSTSTYAPSLEQLLNSPETKLEPPLWHAEFTKEELVQKLCSTTKSAEHLNGLLRETEATNAILMEQVKLLKSEIRRLERNQEREKSVANLEYLKNVLLQFIFLKPGSERERLLPVIDTMLHLSPEEKGRLATVAQGEEENTSRSSGWASYLHSWSGLR