Cla005827 (gene) Watermelon (97103) v1
The following sequences are available for this feature:
Legend: CDS Hold the cursor over a type above to highlight its positions in the sequence below.ATGGATTATACAAAATACGAGATGATGAACAAAGCATTGGGCGCCTTTCGAGATCTTGGAGATGATGAGGAATTGGGACCTGCTGACTGGCCTACAGTTAAAAGACATATTACAAGTCTTAGTCACGTGGAGGGGGAACCATTGCACCCGCACAATGCATTTGAAAGTGATCAAAATGTTCACTCTATGAATTTGAGAGACACTCGTCTGCGACTTTTGAATGGTAAAGTTAGCTAATGCTGCTACACCTGGCACTGCTTGTCCATTTATTTGTTTGTTTCACTATATACCAAATTTAAATATTATATCATTTTCTGGATTTAACCTTTTCAAGCTAGAACAAAATCTTGTCACCTTCAATTTAGTGATATCAATACAGGTTAAAAGGTTCATTTGATGAAAACTTTGGAGTAATAAAACATCTGATGGAAGTATTGGATAGTGTTTTCGGAAGTTTTGTAGATGAGAATCTATAAGGTCTTATAGAACATCATTTTCTTTTTCGTAATTGGTATAGTAGTTACAAGATTCATTTCACAGTAATACATTTGGACTTTTGTTTTGGTATAAATGTAATTTTCTTGGATCAAACTTGTAACTTCAAAGGATACAGATTGAACAGCTTATTAAATATTTAAGGTGGGTTCCCTATTGTGGGCTCTTTTTTTCGATTCTTTTTTTTTTTTTTTTCTCAATGAAGTTTGGTATATTATACAAAAATGAAAATTGATGAATGAAATATATATTAAAAAAAAAAGTAAGATAAAAACTTTGGTGGACTACAGAAAGGATTTCCAGCTAGTGACTATTCTGGACTCTGGAGACACTATAATCCTTAAAGAGATGAGAGTATTTACACCAATAAAAGACATTAAAAAGTACAATATCCATAAAACTTAATTCACCCCTGGTGAATCTTCTGTGCTTTTAGACTTACTTCCATGTGAGCATGATGTCATGTCTCAAGTAACTGAAAAAATCATTTATCATTAGGTGTTCAAGCTGCTTACTGGGGTATGCTTGATGAGGGAAGGATAACACAAAGTACTGCAAATATCTTGATGCAATCTGTGGATGAAGCCCTTGATCAGGTTGCAAATGAGCCCTTATGTGATTGGAAAGGTTTAAAAGCTAATGTCCATTTTCCAAATTATTACAAGTTCCTTCAGACAAGCATTTTCCCTCGGAAGTTGGTTACATATTTCACTGTGGAAAGATTGGAATCTGGATGTTATATTTGTGCTGCATTTCTCCGTGCACATAGAATTGCAAGACGACAGCTTCATGAGTTTATAGGTAACTGTAACTAACTAGCTTCCATTGAGATAGCTGGGATTGTTTATTTAGGTTTTCGGTTCCCTGCTTTCCTATGGCTATCTAGGATACTAAGCTAAAGGATATATTTCTGATGAGCAGCATGCCTTTAAAAATGATGCATTTCTTCTCAAGTAGTTGCTAAAGAATTCAATTTGGGTACTTATACGTGGTTTATGATAATAATTATGAGAATCCTGGATGACCATGCAGATAGTAGCATCATAGGGATTACTTGTGCCTTATATAGTAGCATCATAGCAATCCTTATGCTATATCAATATGTGATAATTATTTAATTTGTTCATTACCTCATCATGAGAATCCTGTTCTTTATATACTTTTGTTGGTTTCTTTCTGTGAGCCACTTGATGTGCTCTGAATCTAGATCTTCATTCAAATTTTCTCGACATTTGAAATGCTATACTTTAACAATTATATTGTTATCATTTTACATTCAGCATGATGTACAAACATATATGTTTATGATATTTCAGGTGATAGTGATGTTGCTTCTACTGTAATTAATGAAAGTGAGGCTGAGGGTGAAGAAGCACGAAAGTTTCTAGAAGATGTTCGTGAGACATTTCCTCAGGTTTGTAAGTTTGGTATGGATGTTTCATGAGCAATTCTTGGTCACTTCTAATAAGGGTCGTTGTCATCGATGAAATTTCTCGGTGCTTTATTATTTATGATTATGTGGAATAATATCAATTATAAATAAAGTTCCATCCTTCATATTTGTTTTTCACTTTTGATTTATATTATCAACTCATAGCCTTAGCCAACATTCCATCTTTCTGTATAAGACTTAAAGAGAAGAAATCAAAGACCAGGGTAGGTAAAGGATCAACATTTCATTGGATTGCCCACTCCTAGAGCTTTGAGTTGAGCTCAAGGCAGTGCTGTAGGAGGCACGGATGTACTACTATGCCTTTCATATTACTACTGATCCTGAATATCATGAGTGAACTAATTGGAGTTGATTATCATTCTACGCATGAGAATATAACTTGGCTTAGTCTCTATAAGATAAATAAAGACTAAAGTGATACTTTATTAGTGTAGCACAAATAAATTATTTTTGTATCAAGTTGGATATGATCATCATATTTTCTCCAAGTTGAAGGTTAGTGCTGGACATGTATATTTTCGTAAATACTTAGCTATAGAACTATCATCCTTTCTTTTGGCTATATTTGGAGTTTGGTTGAAACACATGTTCCTTCTTTGTTCCATTTTGGAGGTCCATGTCAAAATGGAGAAAAAAAAAATGCTTCTGTGGTTTTATACATGTAGAGCTTCTTTTTAGGTTTTATGGTTAGAAAAGAATAACTGCATTTCCACCAACAAAGCAGTCCCGTTTCGATTTTTTTTGGAACTCAGTTCCTACCCTTGCATTTAACTTGGGGTAAATGCTTCTTGCCCTTTTCAACAACAGATGACATGATCTCTTAGCTAACTGGAAATATTTTTTTGTATTCAGTTAACTATGGCAGGAATAACCACACTTTCTTGCTATGGTCTTCATCTTCACCCACCAGAAAGATAAAAACCATAGCAAGAAAATTAAAAAATGAAATCATTATCAAATGGAGCCTTAGGTTTTTGTTTTTTCTATTGAAATGTTACAACATATTACTCTAGGGCTCTCATATATGTGCATAATTTGTACAGCTATTTGCTGGTGGGTGTCTCCTCTTATGCAAAGTCCATTCGATTTATGCTCTACAAATCCTTCCTACTCACTATGACTTTGAAGTAGTATGATTTAGCAGGAANNNNNCAGGAATGAACCGGTGCTCATTAAATTTTTTGCCATCTGGGTATTACTTTTCCGTTATTATCTTTTTTTCTCCACAATATCTAAACCTTTTCATTTTAAGTTTCAAGGGTTGGATGGTCTATAAAGAGAAGTAATAATGTGTTTACTTTGTTTTGCTCCTTTTTTTGGCTAGTTCTTTATGATTATAAGCTAATCAAATTGCTATAACATGCTTATTTGACAACTTCTTTTCAGGTTTTGCGTGTTGTTAAAACCAGACAGGTAACATATTCAGTGCTCAACCATTTAATTGAATATGTCCAAAATCTGGAGAAGGTTGGCCTATTAGAAGAGAAAGAGATGCTGCATCTTCATGATGCTGTTCAGGTTCTTCTGATGTTTCTCTCGCTCGTTTACTGTTGCAGTTACTGATCCTTGCTTTAAACTGCTGCTTCGTTTATTGCAGACTGACTTAAAAAGACTTCTAAGAAATCCTCCTCTGTTAAAGGTTCCGAAAATGCGGAACTTAATCACTGCCCATCCATTTCTTGGGGCACTTCCTCCTTTAGTGCGCGAACCACTTGAAGTTTCCACAAAAGAAGTGATGAAACTACGTGGTGTGACACTTTACAAGGAAGGTTCAAAGCCTAGTGGTGTTTGGCTTATATCCAATGGAGTGGTAAAGGTAAGAAGTTTTTCTAAATCCCATCATGTTTATCACATTTCTGACTTTGAGCACATAAATTTTACTTACTCTTCCTTTGTTTCATTTTGATTATTTTTTCCTTACAGTGGGTAAGTAAGAGCATGAGAAACAAGTTCTCCTTGCACCCCACATTTACTCATGGAAGTACTTTGGGCCTATATGAATTGCTTACTGGGAAGCCATGCATCTGTGACATGATTACAGATTCCGTTGTTCTCTCTTTTTTTATTGAACATGATAAGTTTCTGTCAGTACTTAGATCAGATCCTTCGGTTGAAGACTTCTTGTGGCAGGTATTACTATTGACTGCAGAACTTTGTTTTTGTAGTACTATTGTTATGGATCCTGACTCCCTATCGAATGTCAAATGGTAAATATTGGACTTAATCCATTCGAATATCCTGTTATTTAGTTCTCACAGAGGACTCGAAGCCATTGTGTGTGAAGGGCACATTTCACTTACTTATTTGTGATGTGTCAGTGGAATTGGCAATGCTTATTTTGGCTGGGTTTGCATGCAGGAAAGTTCCATTGTGCTTGCCAAACTCTTGCTTCCACAAGTATTTGAGAAAATGGAAATGAGAGATTTGAGAGTTCTTGTTGTTGAAAGGTCAGTAATGACCACGCATATAGCAGGAGAAACAATAGAAATTCCACGCCATTCTATTGGCCTTTTGTTAGAAGGATTTATCAAAAGTCATGGCATCCAAGAGGAACTAATAGCCTCACCTGCTGTATTGTTCTCCTCGCATGGGAATCCAAGCTTCCATAATATGGAAAACTCAGGTAACTATAGTTGTATGCTGTTTGAATGATTTAATATTACTAAGTTTCTGTTTTGGGTGATATGATAAATAGAGCTGGTAGAAAGAGTCAAATTACAAGGGTCAATTTTATCCATTTCTTACAAAAATAAAACATAGAAAAAGAACACTAAACCTGAATAAGTGTTGCAACTTGCAATTGATTTCTCCTTAAAACATAATTAAAAAGATTGCATAAACCAACCACTAAATCATACATATTCAACTTATAGAACACTCAATACCAAGTCGTAGGAATATCCAAGCCCAATTATGAAAACAATCGAATTAAGCAACAAAATGTCCAAATTCAACTATTTTAAAGTATGAACACAATTATAATAATCAATACTTAAATACTTAAAAAAACTAAAAAGCACAGATATAGAGACAATACGACACAAACATAGCAACATGTAAGTTTGTAGAAATGTAGGACACAAACACTTTGGGGATACATTTTTATTTTTTTGAAAATGTGTATATATACTACTACCAAATGTTATACTTCAATAGAATAAGACACGTAAATTTAGCATAAAAAAGTTAATGAGTTGTAATAATTAGTAGCGTGAACCTCTCCCACAGTTTCTTTTTATCTTTCAAATGTGTTTTTAAGGTTGGGTTAAGTTTTAGGGGCGTCTATAATAAGATAAGTAGGCAAGGTTAAGGTTTTTTTTTTTTTTTTTTTTTTTTCTCTCTCTCTCTTTTTCTTTTTAAATTCTCAATCAACTTTTTTAGGTTGATATGTCTAGGCATTCCCTACGTTGGGCTTGTTCCATGTGTGTCCTTGACTTGTATTTGAAATTGAAAAAAAAATAAAAACAAAATAGTACACTTTTTTTTCACATATACATGTCCAAAGCATGTCCAAACATATTCATATCCAGTACGTGTTTGATATGGACATGGACACCTTGCAAAAAGGAGAACGTTTTGTGTTTGTGCTTCCTAGCTAAAAAGTAATCTCATCCGACCATTAAAATGTTCGTAGCTCTTCACAAATCATTACAAAAATGTAAACTTAACTAATTAAGAGCATTAATTGTACCACTCTTTCAAGTTTAGAGGGGGTTTCCCCCTTTTTGGATAAGACACCTGAAGTTAAATTGTTATAATTAAAGGTTTAAGCTTAAAATTTACTCACTAACTTATGTACATGGTTAAAAGAAAATGGAAAAAACTATTAAGTCCTCAGACTCGATGGATCCAAATGATAAGAGTAGTTCTTGTGGAAGTTGGATTTTCTCAACCAAAAAAAAAAAAAAAAAGAAAAAAAGAAAAAAAAAAAACCCTGCATTGCTTGACCTGGTAATGGGAGTAAACAAAGTAGCTACAAAGGTCAGGTCAGGTGTATGAGGTGGAGCATACTTCCATGTTATGCTAGGATATGAGAAACGATTTGAAGTGATATGAAGTGATAACTCTATTTTGGAAAGTAGATAATCTTACTAGGCTTGAATAGGAATGCTGTTGATAATCTTACTAGGCTTGAATAGGAATGCCATTGACGATTGAAAAGTTGGGTGGAGATGAAAGGCAACTGTTGATCCTCGCTAGAGGATTCCTTTCTGAAATTTTTCTTTCCCTCAAATTGGAGATAATACTAACAATGGTTGAGTTTCCTAGCAGCCTTGTTGAAGGTGGATTTGAGATGTTGTAAAACATTAAAACATGTGTAATGGGAAGTTGCTTCTGGTTCCTGTCAGACCTCCATAAGGTTTCAGACGTGGTCCCATGGACAGGAAGAGCTGATTATATTTTGGAATCAGACTACGGCCGTAGGTTTTCTCTTGACAGATGTTCTTGCTATTGATTGTAGAAGATGAAGGGGAAACCCCCTTTTTCTCGTATTTTGCTATAGTCGACTATGATTCAAGTAAAATACAATTTGAAATTTAAATTTAAATTGAAGACTCAAGGAGTTTAAACTGTCATCAGGCTACAAAAAAGACAATCTCTTATTTAAACATACATTCCTGATTACTTTAAAATAGATAAAGTACATTCCAACAAGATAAAATAAAACAAAGTTAATGACTAAAATTTGGTAAATTAGTAAGAGCTGCAAATACTTTTCTACAACAATTTTCGTTCTCTCTTTATTAATAGTCCGGCTTATGCATCAATAATGTTTAACACAAGTGGAGGAAACAAATGCATCGACCATCAATGGATAGATTGTAGTTATCAAGTTAGTGAAATGGAAGGCTGGAATTGAAGGTGATTTCTGCGCATGTGAAATCTCTTTGCTGAACAGCAGTTTAAATGTTGGCTGAAACGTGGCTAACTCTGTGGGTTTTCAACTACAACTTGACCAATGACATTGCATATATGAGGATGTTTGGGTAACTGAAGATAGCATTCTCTAACCGAGATCCACTTCACTGTGTCAGTCCTCTACTTTGTTGGTTCTCTCTCTGTTTATTGATTTATATGATCCAGGAATGTGTGCATGTGCAACTGTTGTATTTATACTTGTAATTAGTTGTTTTGTTAAACTAGTTCTCCGTGAATCTCTGTATTTGGTTATGATAAATATCAAAGCACTTGATACAGATTCTTTGATATGACTTGGATTCTGGTCTAATTCTTTATGTTACTTACGGTGGATGTGTATTCTGATTTATTATTATTATTTTGATAAGAAAGAAATAATGGTCACTATTGTTTGATTCTTACAGGGATGAGTGGTTCTAGTTTTTCTCATCAAGGCTCCTATTATGAAGTTGAAACAAGATCAAGAGTAATCATTTTTGACATGGCTGCCCTTCAATCAGATGACAATCTAAATCGGTCATCATCTTTTATACATTCTGTTGATCACCCTCAAAGATCTCTGAGCAGAGATCACTCTGGTCTTATGAGTTGGCCTGAACTGCTTTCCAAGCCTAGACCACCACAGAAGCAGAAATCTGAAAGAACTGAGCGTCCAGCTGATAGCTTGTCTGAAAAGGCTATGCAACTAAGCATATACGGTAGCAGCATGGTATGTTCAGTTGTAATATTTCAGATTTCACTATTAGTTGATTCTCGATTCTATGTATTTGCCTTAATTATTCTTCAGCACTCTTTGTTTCTCTACTAAGTAAAAGGTGTCCTTTGGCTACCACATATAATTTAGGTAGTTTTTTAGTTTGTCACAATATTTAAGTCATTCATTTTGGTTTTGATTCCATTATGTCTTTCCTTCAAGGTTGATATTCGTCAGCGGACTAAGAGTTTTCCAGGCAACACTGCTGAACCTGAACCATCTCATAGCCGGTCAAATCCTGCAATTGGTTCATATAAAGGTATTCCCCTTCCATATGTGAAATCAGAAGGAGCTGCTACATTGAAGAAGAGGCTTGATGCAAGAAAGTTACCAATAAGCACTGTTCGGCCCCCACAAGAAAAACCAGCTCCTGATGAGAGAAATGCAAGAGATGATTCAAGTGAGGAATCTGGTGGTGAGGATGATATCATTGTGAGAATTGATTCACCAAGTGTGCTTTCATTTCACCAGGTTCCATGA ATGGATTATACAAAATACGAGATGATGAACAAAGCATTGGGCGCCTTTCGAGATCTTGGAGATGATGAGGAATTGGGACCTGCTGACTGGCCTACAGTTAAAAGACATATTACAAGTCTTAGTCACGTGGAGGGGGAACCATTGCACCCGCACAATGCATTTGAAAGTGATCAAAATGTTCACTCTATGAATTTGAGAGACACTCGTCTGCGACTTTTGAATGGTGTTCAAGCTGCTTACTGGGGTATGCTTGATGAGGGAAGGATAACACAAAGTACTGCAAATATCTTGATGCAATCTGTGGATGAAGCCCTTGATCAGGTTGCAAATGAGCCCTTATGTGATTGGAAAGGTTTAAAAGCTAATGTCCATTTTCCAAATTATTACAAGTTCCTTCAGACAAGCATTTTCCCTCGGAAGTTGGTTACATATTTCACTGTGGAAAGATTGGAATCTGGATGTTATATTTGTGCTGCATTTCTCCGTGCACATAGAATTGCAAGACGACAGCTTCATGAGTTTATAGGTGATAGTGATGTTGCTTCTACTGTAATTAATGAAAGTGAGGCTGAGGGTGAAGAAGCACGAAAGTTTCTAGAAGATGTTCGTGAGACATTTCCTCAGGTTTTGCGTGTTGTTAAAACCAGACAGGTAACATATTCAGTGCTCAACCATTTAATTGAATATGTCCAAAATCTGGAGAAGGTTGGCCTATTAGAAGAGAAAGAGATGCTGCATCTTCATGATGCTGTTCAGACTGACTTAAAAAGACTTCTAAGAAATCCTCCTCTGTTAAAGGTTCCGAAAATGCGGAACTTAATCACTGCCCATCCATTTCTTGGGGCACTTCCTCCTTTAGTGCGCGAACCACTTGAAGTTTCCACAAAAGAAGTGATGAAACTACGTGGTGTGACACTTTACAAGGAAGGTTCAAAGCCTAGTGGTGTTTGGCTTATATCCAATGGAGTGGTAAAGTGGGTAAGTAAGAGCATGAGAAACAAGTTCTCCTTGCACCCCACATTTACTCATGGAAGTACTTTGGGCCTATATGAATTGCTTACTGGGAAGCCATGCATCTGTGACATGATTACAGATTCCGTTGTTCTCTCTTTTTTTATTGAACATGATAAGTTTCTGTCAGTACTTAGATCAGATCCTTCGGTTGAAGACTTCTTGTGGCAGGAAAGTTCCATTGTGCTTGCCAAACTCTTGCTTCCACAAGTATTTGAGAAAATGGAAATGAGAGATTTGAGAGTTCTTGTTGTTGAAAGGTCAGTAATGACCACGCATATAGCAGGAGAAACAATAGAAATTCCACGCCATTCTATTGGCCTTTTGTTAGAAGGATTTATCAAAAGTCATGGCATCCAAGAGGAACTAATAGCCTCACCTGCTGTATTGTTCTCCTCGCATGGGAATCCAAGCTTCCATAATATGGAAAACTCAGGGATGAGTGGTTCTAGTTTTTCTCATCAAGGCTCCTATTATGAAGTTGAAACAAGATCAAGAGTAATCATTTTTGACATGGCTGCCCTTCAATCAGATGACAATCTAAATCGGTCATCATCTTTTATACATTCTGTTGATCACCCTCAAAGATCTCTGAGCAGAGATCACTCTGGTCTTATGAGTTGGCCTGAACTGCTTTCCAAGCCTAGACCACCACAGAAGCAGAAATCTGAAAGAACTGAGCGTCCAGCTGATAGCTTGTCTGAAAAGGCTATGCAACTAAGCATATACGGTAGCAGCATGGTTGATATTCGTCAGCGGACTAAGAGTTTTCCAGGCAACACTGCTGAACCTGAACCATCTCATAGCCGGTCAAATCCTGCAATTGGTTCATATAAAGGTATTCCCCTTCCATATGTGAAATCAGAAGGAGCTGCTACATTGAAGAAGAGGCTTGATGCAAGAAAGTTACCAATAAGCACTGTTCGGCCCCCACAAGAAAAACCAGCTCCTGATGAGAGAAATGCAAGAGATGATTCAAGTGAGGAATCTGGTGGTGAGGATGATATCATTGTGAGAATTGATTCACCAAGTGTGCTTTCATTTCACCAGGTTCCATGA ATGGATTATACAAAATACGAGATGATGAACAAAGCATTGGGCGCCTTTCGAGATCTTGGAGATGATGAGGAATTGGGACCTGCTGACTGGCCTACAGTTAAAAGACATATTACAAGTCTTAGTCACGTGGAGGGGGAACCATTGCACCCGCACAATGCATTTGAAAGTGATCAAAATGTTCACTCTATGAATTTGAGAGACACTCGTCTGCGACTTTTGAATGGTGTTCAAGCTGCTTACTGGGGTATGCTTGATGAGGGAAGGATAACACAAAGTACTGCAAATATCTTGATGCAATCTGTGGATGAAGCCCTTGATCAGGTTGCAAATGAGCCCTTATGTGATTGGAAAGGTTTAAAAGCTAATGTCCATTTTCCAAATTATTACAAGTTCCTTCAGACAAGCATTTTCCCTCGGAAGTTGGTTACATATTTCACTGTGGAAAGATTGGAATCTGGATGTTATATTTGTGCTGCATTTCTCCGTGCACATAGAATTGCAAGACGACAGCTTCATGAGTTTATAGGTGATAGTGATGTTGCTTCTACTGTAATTAATGAAAGTGAGGCTGAGGGTGAAGAAGCACGAAAGTTTCTAGAAGATGTTCGTGAGACATTTCCTCAGGTTTTGCGTGTTGTTAAAACCAGACAGGTAACATATTCAGTGCTCAACCATTTAATTGAATATGTCCAAAATCTGGAGAAGGTTGGCCTATTAGAAGAGAAAGAGATGCTGCATCTTCATGATGCTGTTCAGACTGACTTAAAAAGACTTCTAAGAAATCCTCCTCTGTTAAAGGTTCCGAAAATGCGGAACTTAATCACTGCCCATCCATTTCTTGGGGCACTTCCTCCTTTAGTGCGCGAACCACTTGAAGTTTCCACAAAAGAAGTGATGAAACTACGTGGTGTGACACTTTACAAGGAAGGTTCAAAGCCTAGTGGTGTTTGGCTTATATCCAATGGAGTGGTAAAGTGGGTAAGTAAGAGCATGAGAAACAAGTTCTCCTTGCACCCCACATTTACTCATGGAAGTACTTTGGGCCTATATGAATTGCTTACTGGGAAGCCATGCATCTGTGACATGATTACAGATTCCGTTGTTCTCTCTTTTTTTATTGAACATGATAAGTTTCTGTCAGTACTTAGATCAGATCCTTCGGTTGAAGACTTCTTGTGGCAGGAAAGTTCCATTGTGCTTGCCAAACTCTTGCTTCCACAAGTATTTGAGAAAATGGAAATGAGAGATTTGAGAGTTCTTGTTGTTGAAAGGTCAGTAATGACCACGCATATAGCAGGAGAAACAATAGAAATTCCACGCCATTCTATTGGCCTTTTGTTAGAAGGATTTATCAAAAGTCATGGCATCCAAGAGGAACTAATAGCCTCACCTGCTGTATTGTTCTCCTCGCATGGGAATCCAAGCTTCCATAATATGGAAAACTCAGGGATGAGTGGTTCTAGTTTTTCTCATCAAGGCTCCTATTATGAAGTTGAAACAAGATCAAGAGTAATCATTTTTGACATGGCTGCCCTTCAATCAGATGACAATCTAAATCGGTCATCATCTTTTATACATTCTGTTGATCACCCTCAAAGATCTCTGAGCAGAGATCACTCTGGTCTTATGAGTTGGCCTGAACTGCTTTCCAAGCCTAGACCACCACAGAAGCAGAAATCTGAAAGAACTGAGCGTCCAGCTGATAGCTTGTCTGAAAAGGCTATGCAACTAAGCATATACGGTAGCAGCATGGTTGATATTCGTCAGCGGACTAAGAGTTTTCCAGGCAACACTGCTGAACCTGAACCATCTCATAGCCGGTCAAATCCTGCAATTGGTTCATATAAAGGTATTCCCCTTCCATATGTGAAATCAGAAGGAGCTGCTACATTGAAGAAGAGGCTTGATGCAAGAAAGTTACCAATAAGCACTGTTCGGCCCCCACAAGAAAAACCAGCTCCTGATGAGAGAAATGCAAGAGATGATTCAAGTGAGGAATCTGGTGGTGAGGATGATATCATTGTGAGAATTGATTCACCAAGTGTGCTTTCATTTCACCAGGTTCCATGA MDYTKYEMMNKALGAFRDLGDDEELGPADWPTVKRHITSLSHVEGEPLHPHNAFESDQNVHSMNLRDTRLRLLNGVQAAYWGMLDEGRITQSTANILMQSVDEALDQVANEPLCDWKGLKANVHFPNYYKFLQTSIFPRKLVTYFTVERLESGCYICAAFLRAHRIARRQLHEFIGDSDVASTVINESEAEGEEARKFLEDVRETFPQVLRVVKTRQVTYSVLNHLIEYVQNLEKVGLLEEKEMLHLHDAVQTDLKRLLRNPPLLKVPKMRNLITAHPFLGALPPLVREPLEVSTKEVMKLRGVTLYKEGSKPSGVWLISNGVVKWVSKSMRNKFSLHPTFTHGSTLGLYELLTGKPCICDMITDSVVLSFFIEHDKFLSVLRSDPSVEDFLWQESSIVLAKLLLPQVFEKMEMRDLRVLVVERSVMTTHIAGETIEIPRHSIGLLLEGFIKSHGIQEELIASPAVLFSSHGNPSFHNMENSGMSGSSFSHQGSYYEVETRSRVIIFDMAALQSDDNLNRSSSFIHSVDHPQRSLSRDHSGLMSWPELLSKPRPPQKQKSERTERPADSLSEKAMQLSIYGSSMVDIRQRTKSFPGNTAEPEPSHSRSNPAIGSYKGIPLPYVKSEGAATLKKRLDARKLPISTVRPPQEKPAPDERNARDDSSEESGGEDDIIVRIDSPSVLSFHQVP
BLAST of Cla005827 vs. Swiss-Prot
Match: NHX7_ARATH (Sodium/hydrogen exchanger 7 OS=Arabidopsis thaliana GN=NHX7 PE=1 SV=1) HSP 1 Score: 750.0 bits (1935), Expect = 2.3e-215 Identity = 408/698 (58.45%), Postives = 517/698 (74.07%), Query Frame = 1
BLAST of Cla005827 vs. Swiss-Prot
Match: NHX8_ARATH (Sodium/hydrogen exchanger 8 OS=Arabidopsis thaliana GN=NHX8 PE=2 SV=1) HSP 1 Score: 384.8 bits (987), Expect = 2.0e-105 Identity = 187/280 (66.79%), Postives = 230/280 (82.14%), Query Frame = 1
BLAST of Cla005827 vs. TrEMBL
Match: A0A0U2K9U2_MORAL (Sodium/hydrogen exchanger 7 (Fragment) OS=Morus alba var. atropurpurea PE=2 SV=1) HSP 1 Score: 953.4 bits (2463), Expect = 1.6e-274 Identity = 488/689 (70.83%), Postives = 569/689 (82.58%), Query Frame = 1
BLAST of Cla005827 vs. TrEMBL
Match: M5XL29_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa000453mg PE=4 SV=1) HSP 1 Score: 942.6 bits (2435), Expect = 2.7e-271 Identity = 489/709 (68.97%), Postives = 568/709 (80.11%), Query Frame = 1
BLAST of Cla005827 vs. TrEMBL
Match: A0A059BEK7_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_G02062 PE=4 SV=1) HSP 1 Score: 942.6 bits (2435), Expect = 2.7e-271 Identity = 484/689 (70.25%), Postives = 567/689 (82.29%), Query Frame = 1
BLAST of Cla005827 vs. TrEMBL
Match: U5G5K6_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0008s14030g PE=4 SV=1) HSP 1 Score: 936.4 bits (2419), Expect = 2.0e-269 Identity = 480/686 (69.97%), Postives = 560/686 (81.63%), Query Frame = 1
BLAST of Cla005827 vs. TrEMBL
Match: D7T8E0_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_01s0011g06550 PE=4 SV=1) HSP 1 Score: 932.6 bits (2409), Expect = 2.8e-268 Identity = 480/692 (69.36%), Postives = 563/692 (81.36%), Query Frame = 1
BLAST of Cla005827 vs. NCBI nr
Match: gi|700194568|gb|KGN49745.1| (hypothetical protein Csa_5G098980 [Cucumis sativus]) HSP 1 Score: 1293.5 bits (3346), Expect = 0.0e+00 Identity = 646/689 (93.76%), Postives = 667/689 (96.81%), Query Frame = 1
BLAST of Cla005827 vs. NCBI nr
Match: gi|793418733|ref|NP_001292661.1| (son of sevenless homolog 1 [Cucumis sativus]) HSP 1 Score: 1291.6 bits (3341), Expect = 0.0e+00 Identity = 645/689 (93.61%), Postives = 667/689 (96.81%), Query Frame = 1
BLAST of Cla005827 vs. NCBI nr
Match: gi|659072706|ref|XP_008466844.1| (PREDICTED: sodium/hydrogen exchanger 8 [Cucumis melo]) HSP 1 Score: 1286.6 bits (3328), Expect = 0.0e+00 Identity = 644/689 (93.47%), Postives = 664/689 (96.37%), Query Frame = 1
BLAST of Cla005827 vs. NCBI nr
Match: gi|951871430|gb|ALN94994.1| (sodium/hydrogen exchanger 7, partial [Morus alba var. atropurpurea]) HSP 1 Score: 953.4 bits (2463), Expect = 2.2e-274 Identity = 488/689 (70.83%), Postives = 569/689 (82.58%), Query Frame = 1
BLAST of Cla005827 vs. NCBI nr
Match: gi|658010594|ref|XP_008340539.1| (PREDICTED: sodium/hydrogen exchanger 8 isoform X1 [Malus domestica]) HSP 1 Score: 951.8 bits (2459), Expect = 6.5e-274 Identity = 491/707 (69.45%), Postives = 565/707 (79.92%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
This gene is associated with the following unigenes:
Analysis Name: InterPro Annotations of watermelon (97103)
Date Performed: 2016-09-28
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene:
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