Cla97C06G110240.1 (mRNA) Watermelon (97103) v2
The following sequences are available for this feature:
Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below.ATGGTACTTCTCAAATTCTAATTCCTAATTTCATTGCTTTTCTATTGTTCATATCCTTCACATACGTTCATGATTCAATCCACTTTTGATTTATTAGTACTATGTTTGCTGTCGCCGACTTGTCATCTGCTCTGATTTAGTTTCTCTTCAACCTTGTTGAACGTTATGAGGCTGCATATCCTCATTAGCTAACAATTTCAGATGTTCTACTCACGCTGAAATTTGAGGCGTTCTTGAGTATTTTTTTGTTAAGGTCTACGAGGATTTAAGTAACAGTTTGAGATGCAGATTTTGTTCCTCAAATTCTTCACTTTTGTGCACACGTCTCCCTCTCGTTTGCATATCTTATGCCTTGGGTTATTTTATAATCAATTCTTTGTCTTTTTGTTCCATATTTCAATTTGCAGCCGAAACAAATTCACGAGATCAAAGATTTCCTTCTCACTGCTAGAAGGAAAGATGCTCGTTCTGTGAAAATTAAGAGGAGCAAAGATGTGGTGAAGTTCAAAGTTCGATGCTCCAAATATCTTTATACTCTTTGTGTTTTCGACTCTGAGAAAGCAGACAAGTTGAAGCAATCTCTTCCACCAGGTTAGATTTTCTTTCTCAAGAACCAACACTGCGATGTTTTAAGAGCATTAATGATATATTGGAAGTAGCTATAACTGTAGCTAGGTGAAGTGTTTTTAATTGGTTAGATAGATTACATACAAGTGTTTCATAATTTGTTTGTGAAGGCTATAAATTTCCGAGGAAGAGGCTAAAAACACTCGTGTGTGCTTTTATCATGTGCTTTTGGCTTAAATGAACCTTAAATTTCCTAAAACACACTTTTTCTTTAGACTAACTTCCCTTTAAGTACAAATAGAAACTCTCCCACAAATCTCCCGCTTGTGATTTTTTCCTCTACAAGTTTGTATGTGCTTCTTGCTTCCATATATCGGTCTCTTTACAAAATTGTGTATTTCTTTAGCACTGCCCACATCACTTATCTTCTTAACCATAAGGATGAATTGCTTACGATGAATCCCCTTGTAGATAGGGGCAAACCCTTCGGCAGGCTTGCTTTTCCCCCTTCCTTGGGGAATTTTTACTTGACTCTTGAGACGAATTTTAGACATTTAGGAGTTTACAGATCTGGGTAGGTTATTAGCTTCTTGGGGGTTCAGTCGTCAAGTTAGGCTTCATTTGTTTGGATTGGTGTTCGGATTCCTTTTTTTCAACTCCCGGCGTATTCATTCACTATCTATGAAAGCATGGTTTCTTGTTAAAATAAATATTAAAATACTATTTTGGTCTTGTATTTTAGGACTTACATTTTAGTTTTGTCTTATTTTAGTCCTCACACCTTCAATTAATTTTTAAGTTTTAGTCTATTTTAGTTTATGGCGAACTTTTTCAAAAAGTATAATGAGATCATCTCTACTATCCTTCATCCCATCAATTCTGGAGGAAAATTTTTTACATTCACTTTTCTTAAATAGAAATTATTATAATTATTTTATGAAGTTTGACATAAAAAAAATATTAACCTCAAACTAACCTAAAATGACTAATTTCAAAATTTAAGAAAGAATATGGACTAAAATTGGACATTTGGGAGTTTTGTGACTAAGTTTGAATGAATCCAAATTACATGGATGAAAATGGTATTTTAACGTAGAACAAAATTGGTGCCTATTACATTTTGCTAGGATGAAGATGACTTTGGTTTGAATACTGACTGACATTTATTTTTCCACTTTGGCAGGTTTGAGTGTGCAAGATCTGTGAAAGAATGGTTAAAGTCTCAAATGATCACAAGAATGAGAACCAAAATTTTTGTATGATGTTTGCTTTCCCAACTATTCAGAATACATTTAAATTGGATTTGAGCCTTTAGTAATCCGTATTTATCTTCGTTTTCCAGTGGATTGGTTTAAATTTAGAATTGTTATGTTGAGTTTATCATGTGAGTTGATATTTCGTTGAATTCATGGCTACTCCCGCGGTGTTTATAACCAAAGATGGATTTGATTAGCACAACCTTTTTGATATGCGGCAGCAAGCAGTTTGGTTTTTGAACAATACCAAGCTGATCCTTTTATTTTTATTCTTTTTGCCATTTCGTTTTGAATTCTAACATGTGGTTTTAGATACATGTTTTAATTATTTTAACTATGTTCATCTTGGCTATTAAATCATATAGATGCTGAATGTAATGTACGAAATTTACCGCCAAATTTGACGCCCACGCATTCTGTGAACATGATGAGGATTGTTGTGAAATTATTTGGCTTGCATTACTCAAAACTGAGGAAGGTTGAAAACAATTAAAACTCAATTCAACAGTCATTAGGTGTGTAGATGATCGTAACAAAGGAAGCAATTACAGATTATTCATTAGGGGCTTCTCCGTGAAATGTCTTAGTAAAAGGTCTATATTACACTAATGTCTACGACATCCAATTTTTTACATAGAAGGCTTTTTTGTTAAGACTTTTTTTCATTAATGTCAAAGGCTATAAGTTCTCCTCTATGCACAAAGTTTTTTAAGTTTTTTTTTATCCTCCATGCTCGTGCTTAGGACTTTACACCCATTGTTAAATTCTTCCACTTCTACGAATTGGTACTTGGATGGTGTACTGCGCAAAAACTGATAATATCCAAGGCCGCAAGACATTAGATTGCGACATACTCTCTAGAATTCTTTGAGTATTTGGTCACAAGCAGGAGAAGATTGCAAAGTCCGCGAGTTTGTTGGCTGACATGCTTTTTTACCAGTTCATGTCGTTTCTTTTTTTCCCAACTATAATTAACATTTAATAAATTCATTTTAATGCATATAATAGGAGCGAGAAGTGATAAGCGAGCTCAATAAAAATTAGTTGTACTAATTGGAATTTGAGCGAGGATCATGAGTTGATTCAAAAGTGAGAAGCGGGTATGATAATAGTAAATAATTGGCAATAGTGAAATTCTACGTACAGCAAGAGTCTGATCAACTAGTGAGAGCAAAAATTTTACAGAAAGCTTTGAATTTTCAACTAAACACCAGCCTGTCAATTGTGCCATGTACCACCACATTGACTGCATTTCTTGACTGGACACTGTTCTCCAATAAATGGGTCATTAGTATAAATTTTTCAAGACAAAGATGAAAACAAAAAGAGTAGTGTTTGGAGTTGTTCTTATTTTTCCTTATCTACATGATAATTAGTGAATGAGGCAGATAAAAGTGAAAATGGGGGAGAGAGGGAAACAAAAAATGAAACTAAAAATTACTTTGGGATTCACATAAGAAAAAGAAATGGAAAGTTAAAAGATGAAGTCTACCTACAATGTCTATTTTAAACCTCACTAAGTGTATCTATAATGCCAGTCAAAAAATGACATTAAAGATCCATGCTTTTTTTTTTCTCCTTACATTGTACATCAATGCCTCTTTTTTACCAACATCAGAGGTTGTTGTAGAATAATAATAAGTCAACCATCAATGGTATCACAAGAGAAGAATATTTCAATGCCGATTTTTCCATAGATTTCAAGATTAAACTATAAAAGGCCAAGAGTTTATACGATATGGCGTATAAATAATGCAAATCAAATCTAAATATATTAAGTCTACATTTAAAAAAATAAAGAGATTTTCCTTACCAAAAAAAATATATAAAGAGATTTTTTTCCGCAAAACAAGGGGATACTTGCAAAATATGGGGAGAATTTATATTACAATTCGCATTGATTCATTTTTTAAAAAATGAATTTAATTAAATTTACGTGTTTATGTTCAATAAATAAGTAAATGGGCCTTGTTGGATTGGGCTTATCTCAAATGACAGCCCATCTAGGGTTTGAAACAACTAAGTATCATCTTCGTTCCCCTTTGAACCTCCACATAAATGACAACTTCTAAAAGCTAGGGTTTTGAGCCTCCACAATCAGAAGCTACTCGGCAATCTCAGCTCTGCCACCACAATGGTACTTCTCAAATTCTAATTCCTAATTTCATTGCTTTTCTATTGTTCTTATCCTTCATATACGTTCATGATTCAATCCACTTTTGATTTATTAGTACTATGTTTGCTGTCGCCGACTTGTCATCTGCTCTGATTTAGTTTCTCTTCTGTCTTGTTGAATGTTACGAGGCTGCATATTCTCATCAGATTACAACTCCAGATGCTCTATTCACGCTGAAATTTGAGGCGTTCTCGAGTTTTTTTGTTTATTGTCTATGCGGAAAGTAAACTTTTTGAGATGTAGATTGTGTTCATCAAATTTGTCACTTTTGTGTACATGTCTCCCTCTCGTTTGCATTTCTTATGCTTTGGGTTATTTTATAATCAATTCTTTTTTTTTTTTTTTTGTTCCATATTTCAATATGCAGCCGAAACAAATTCATGAGATCAAAGATTTCCTTCTCACTGCTAGAAGGAAAGATGCTCGTTCTGTGAAAATTAAGAGGAGCAAAGATGTGGTGAAGTTCAAAGTTCGATGCTCCAAATATCTTTATACTCTTTGTGTTTTTGACTCCGAGAAAGCAGACAAGTTGAAGCAATCTCTTCCACCAGGTTAGATTCGCTTTCTTAAGAACCAACACTGCAATGTTTTAAGAGTATTCCTGATATATTGGAAGTGGCTATAACTATAGCTAGGTGAAGTGTTTTTAATTGGTTAGATAGATTACATACAAGTGTTTCATAATTTGTTTGTGACAACTATAAATTCCCGAGGAAGAGGCTAAAAACACTCATGTGTGCTTTTATCATCTGCTTTTGGCTATAAGTACAAATAGAAGCTCTCCCACAAATCTCTCGCTTGTGATTTTTTTCTCTACAAGTTTGTATTTGCTTCTTGCTTTCTTACACCGGTCTCTTTACAAAATTTTGTGTATTTCTTTAGCACTGCCAACATCTCTATCGTCTTAACCATAAGGATGAATTGCTTACGATGAATCCCCTTGTAGATAGAGGCAAAGTCCTTCGGCAGGCTTGTTTTTCCCCCTTCATTGGGGAATTTTACTCGACTCTTGAGAGGAATTTTAGACTTTTTAGGGGTTGAGAGATCTGGGTGGGTTATTAGTATCTTGGGGCTTCAGTCGTCAGGTTAGACTTCATTTTTGGGTTGGTATTCATTCTAGTTTGTGTCCGGATTCCTTTTCTTCAACTCCCGGTGCATTCTTTCGCTATCTATGAAAGCACGCTTTCTTATTTATGGCCAACTTTTTACGAAAAGTATAATAAGATCATCTCTACTATCCTTCATCGCATAGAAATTATTTACTTTCACTTTTCTTAAATAGAAATTATTGTAATTATTTTATAAAGTTTAATATAAAAAAATATTAACCTCAAACTAACCAAAAAGGACTACTTTTGAAATTTAGGAAAGAACATGACTAAAATTGTACGTTTGAGAGTTTTGTGACTAAATTTGAATGAATCCTACATGGATGAAAATGGTATTTTAACTTCAAACAAAATTGGTGCCTATGATGTTTTGCTAAGATGAGGATGGATTTGGTGTGAATACTGACTGGCGTTTATTGTTCCACTTTGGCAGGTTTGAGTGTGCAAGATCTGTGAAAGAATGGTTAAAGTCTCAAATGATCGCAAGAATGAGAACTAGTTTTTTTGTATGATGTTTTCTTCCCCAACTATTTAGAATACATTTAAGTTGGATTTGAGCTTGTAGCAATCCATATTTATCTTCGGTTTTCAGTGGATTGGTTGAAATTTAGAATTGATATTTCATTAAATTTATGGCTACTCAAGCAGTGTTTCTAACCAAAGGTGGATTTGATTAGCACAACCTTTTTGATATGGGGCAGCAAACAGTTTGGTTTTTTAACAATACCAAGCTGATCCTTTTATTATTATTTTTTTTTCCATTTCGTTTTGAATTCTAACATGTGGGAGGGTGAGATTCAAATCTTGAATCTCTTTGTTCTAGATACATGTTTCAATTATTTTAACTATGCTCATCTTGGCTATCAAATCATGTAGATGCTGAATGTAATGTTCGACATTTACCACCAAATTTGACCCGCAAACATTTATTTGATCATGACGAGGATTGTTTTGAAATTATTTGCCTTGCATATCTCAGAATTGAGGAAAGTTGAAAATAATTGAAACTCAATTCAACAGCCATTGGATGTGTAGAACATCATAACACTAATGAAGCAATTACAGAAAATTGTCTGATTATTCCTTTTTTAAAAAATTGTTGAAGGATAAATATATTAAAACGTGAGAATTAAATATAGGAAGGTGAGGACACCTTTTTTGGGACTTTCAGCCCAAAAAATCTACTTTGACACTTCATGCGAGGGGAGACTACAAAAACATAAGTTAAAGGTAAGGCTTGCTGTAAGCTTTTAGACTAATTTACTTTCTTTATCGGTGGCACAATAAACTTTATAAACGGGTGGTAAATCACCTTATTGTAATATAAAAGTGCTAACGTCAGTTAAGGTGAAGGTGGTGCCTATCATGACGATTCCAATGACTAACTCGAGTGAAGTTTAAGCTTTGGTTCGTGTTTGTCTAGTTCTTGGGCTAACAAGACAATGTCAATTGTTGCCAATGGTTATGATTTCGGTTATGATGACGTGAAGTTCAAGTTTTGATTCGTGTTTGCCTAGTTCTTAGGCTAACAAGACAATGTCAATTGTTGCCAGTGATCATGATTTTGGTTATGATGACGTGAAGTTCAAGCTTTGATTCGTGTTTGCCTAGTTCTTGGGCTAGCAAGACAATGTCAGTTATTGCCAGGGATTATGATTTTGGTTATGATGACGAAGCTCTCTTTGAGAAGACCTATTGCTACTCTGAATACGAGGTTTTTTGTGTGCCTTCTCCTCATAAGGGGATTGAAACCACTAAAGATTGATGAACTCCTTATGTTGGCTTTTTGGTCTATTGCCTTCAATGGCTTAGTAAGTCTGTGTGCTTTCTACTTGTTGCAAAACCCTTATCACTTAGTTTTTCAACTTCTCGAAAATATATTAGCTAATGAATTAGTAGTCGTTGCATCTAGCATTGGGTAGACCTCATACAATATCTGTCCTAGTTCTACCATATCTTTTGTTTCATTTCTTCTGGAATAATCACAAACACTTCTTTTTATTATGGATCTACTACTAGAAACTCAATGCGTAATCTTAGCATTCAATGTGTATCCCACATCTGAACTGAATTCTTTATGGTTAAAGAATCTCTTTCTACATTTTGCAAGTTCGTTATTACGAGTAGTTCCTACAAAGGATTGGACTAATAATTCAATTGTGTTTTATTTGAAGATAGTATATTTTCTTCTCTATAAACAAGGTCCATTGCCTTTTGATGTCCATTGCCACTTCTATATGCACTAGGCTCATTGGTCCAGTGATGAGCAACTTGTCTTTGAATAGTGGATTTATTCGTGAAATTCGTTTAGGCGCAATAAGGGACTTCATTCTTCCAGACGTAAACCCATTGTTTGTGAGAAAGTCACCAATATATTAGGATTTCCAAGATCCTCAAAAGACGAATTTGAAAGAGGTCCTAGTAAAGGGATCAAATGTTGGAACCTCATGGGTAAGGATAAGGTAATAGAATTGATAGAGAAATTCATGGATCTAGGTGGGATAGGAGAATTGAAAAAGGGAAATAGAGACGATGATAGAGATCACACTGAGAAACAAAGGAATTTTGTATGGGTACAACTCTTATTTGAATGAAAAGAAAAAAAGTGCGATATTTGTTGTCTAATAGAACTAAGACTAATACCTTAATTGGCTCAGTCAGGTTCAAATCAGTGCTTCTTTGATTGCTCAAGACATCTTTTTCAACTGAGAAACAAAACAAGATCATTTCGTTTCATTACGAAGAAGCATATTCCATTAGCAATGAAAAATGGGGTTGAGGGGATCAGTATATGTTCAGGTTGATCAGAAGGTGCGACAATAGCTAAAACTGAATGCGGAAAGCATGGCAAGTGTTTGAGGGTATGGAGCATTTTTTAATCGAGTCTTTTAAGAAGTTATATAAGTTGGATTGGCGCCATTGACGATGTCGTTTTGGGTGATTTTTTTGTGCTTGTTCTTGGAAATCAAAACAAATGTTTGGATCAACTCCTTTTCAAATTTAAGTATGCTTAATCCTATATTGGGTGACCTCTTGAGATCAAGTAGGATTAAAGATGGTATATCAATATATTATAAATGTATTTAATCTATTGAAAAGCCTTGTTAATTATCTTACAAAAAGTTATACTTTTGGGACATGGGCCTAATTTTTATAACTCATTTTATCAATCTGGCCAATCATTAATTATCCAGAAAAAACTTGTACTCGAGTTCATCGAAATGGACTAAACATCATGAATCAAATCGAAATCTAACAATCAGTTTGCCATTTTTCATTATTTATCATTTAATTAATTTTTTATTTTTAATTAAAATTTTCGTGTTTCTAATCAATAAATAGCTAAATGGGCCTTGTTGGATTGGGCTTATCTCAAATGACAGCCCATCTAGGGTTTAGAACAATTAAGTATCATCTTCGTTTCCCTCTGAACCTCCGCATAAATGACAACTTCTAAAAGCTAGGGTTTTGAGCCTCCACAATCAGAAGCTACTCGGCAATCTCAGCTCTGCCACCACAATGGTACTTCTCAAATTCTAATTCCTAATTTCATTGCTTTTCTATTGTTCATATCCTTCACATACGTTCATGATTCAATCCACTTTTGATTTATTAGTACTATGTTTGCTGTCGCCGACTTGTCATCTGCTCTGATTTAGTTTCTCTTCAACCTTGTTGAACGTTATGAGGCTGCATATCCTCATTAGCTAACAATTTCAGATGTTCTACTCACGCTGAAATTTGAGGCGTTCTTGAGTATTTTTTTTGTTAAGGTCTACGAGGATTTAAGTAACAGTTTGAGATGCAGATTTTGTTCCTCAAATTCTTCACTTTTGTGCACACGTCTCCCTCTCGTTTGCATATCTTATGCCTTGGGTTATTTTATAATCAATTCTTTGTCTTTTTGTTCCATATTTCAATTTGCAGCCGAAACAAATTCACGAGATCAAAGATTTCCTTCTCACTGCTAGAAGGAAAGATGCTCGTTCTGTGAAAATTAAGAGGAGCAAAGATGTGGTGAAGTTCAAAGTTCGATGCTCCAAATATCTTTATACTCTTTGTGTTTTCGACTCTGAGAAAGCAGACAAGTTGAAGCAATCTCTTCCACCAGGTTAGATTTTCTTTCTCAAGAACCAACACTGCGATGTTTTAAGAGCATTAATGATATATTGGAAGTAGCTATAACTGTAGCTAGGTGAAGTGTTTTTAATTGGTTAGATAGATTACATACAAGTGTTTCATAATTTGTTTGTGAAGGCTATAAATTTCCGAGGAAGAGGCTAAAAACACTCGTGTGTGCTTTTATCATGTGCTTTTGGCTTAAATGAACCTTAAATTTCCTAAAACACACTTTTTCTTTAGACTAACTTCCCTTTAAGTACAAATAGAAACTCTCCCACAAATCTCCCGCTTGTGATTTTTTCCTCTACAAGTTTGTATGTGCTTCTTGCTTCCATATATCGGTCTCTTTACAAAATTGTGTATTTCTTTAGCACTGCCCACATCACTTATCTTCTTAACCATAAGGATGAATTGCTTACGATGAATCCCCTTGTAGATAGGGGCAAACCCTTCGGCAGGCTTGCTTTTCCCCCTTCCTTGGGGAATTTTTACTTGACTCTTGAGACGAATTTTAGACATTTAGGAGTTTACAGATCTGGGTAGGTTATTAGCTTCTTGGGGGTTCAGTCGTCCTGTTAGAGTTCATTTGTTTGGATTGGTGTTCATTCTAGTTGGTGTCCGGATTCGTTTTCTTCAACTCCCGGTGTATTCTTTGACTATCTATGAAGGCATGGTTTCTTATTAAAAAAATATATATTAAAATACCATTTTGGTTTTTTATTTTAGGGCTGGCATTTTAGTTTTGTCTTATTTTTGTCATCACACTTTCAATAAAATTTTAAGTTTTAGTCTATTTTAGTTTATGGCCAACTTTTTCAATTCTGAGGGATAATTTTTTACATTCACTTTTCTTAAATAGAAATTATTATAATTATTTTATAAAGTTCAATATAAAAAAATATTAACCTCAAACTAACCCAAACTAACCTAAAATGGCTAATTTTGAAATTTGTGAAAGAACATGGATTAAAGTTCGACATTTGAGAGTTTTGTCTCTAGGTTTGAATGAATCCCAAATTACATGAATGAAAATAGTATTTTAACTACAAACAAAATTGGTGCCTATGATGTTTGGCTAAGATGAGCATGAATTTGCCCTGCATATTAAATGACATTTATTTTTCTGCTTTGGCAGGTTTGAGTGTGCAAGATCTGTGAAAGAATGGTTAGTCTCAAATGATCACAAGAATGAGAACTAG ATGCCGAAACAAATTCACGAGATCAAAGATTTCCTTCTCACTGCTAGAAGGAAAGATGCTCGTTCTGTGAAAATTAAGAGGAGCAAAGATGTGGTGAAGTTCAAAGTTCGATGCTCCAAATATCTTTATACTCTTTGTGTTTTCGACTCTGAGAAAGCAGACAAGTTGAAGCAATCTCTTCCACCAGATAGGGGCAAACCCTTCGGCAGGCTTGCTTTTCCCCCTTCCTTGGGGAATTTTTACTTGACTCTTGAGACGAATTTTAGACATTTAGGAGTTTACAGATCTGGGTTTGAGTGTGCAAGATCTGTGAAAGAATGGGTTTTGAGCCTCCACAATCAGAAGCTACTCGGCAATCTCAGCTCTGCCACCACAATGCCGAAACAAATTCACGAGATCAAAGATTTCCTTCTCACTGCTAGAAGGAAAGATGCTCGTTCTGTGAAAATTAAGAGGAGCAAAGATGTGGTGAAGTTCAAAGTTCGATGCTCCAAATATCTTTATACTCTTTGTGTTTTCGACTCTGAGAAAGCAGACAAGTTGAAGCAATCTCTTCCACCAGATAGGGGCAAACCCTTCGGCAGGCTTGCTTTTCCCCCTTCCTTGGGGAATTTTTACTTGACTCTTGAGACGAATTTTAGACATTTAGGAGTTTACAGATCTGGGTTTGAGTGTGCAAGATCTGTGAAAGAATGGTTAGTCTCAAATGATCACAAGAATGAGAACTAG ATGCCGAAACAAATTCACGAGATCAAAGATTTCCTTCTCACTGCTAGAAGGAAAGATGCTCGTTCTGTGAAAATTAAGAGGAGCAAAGATGTGGTGAAGTTCAAAGTTCGATGCTCCAAATATCTTTATACTCTTTGTGTTTTCGACTCTGAGAAAGCAGACAAGTTGAAGCAATCTCTTCCACCAGATAGGGGCAAACCCTTCGGCAGGCTTGCTTTTCCCCCTTCCTTGGGGAATTTTTACTTGACTCTTGAGACGAATTTTAGACATTTAGGAGTTTACAGATCTGGGTTTGAGTGTGCAAGATCTGTGAAAGAATGGGTTTTGAGCCTCCACAATCAGAAGCTACTCGGCAATCTCAGCTCTGCCACCACAATGCCGAAACAAATTCACGAGATCAAAGATTTCCTTCTCACTGCTAGAAGGAAAGATGCTCGTTCTGTGAAAATTAAGAGGAGCAAAGATGTGGTGAAGTTCAAAGTTCGATGCTCCAAATATCTTTATACTCTTTGTGTTTTCGACTCTGAGAAAGCAGACAAGTTGAAGCAATCTCTTCCACCAGATAGGGGCAAACCCTTCGGCAGGCTTGCTTTTCCCCCTTCCTTGGGGAATTTTTACTTGACTCTTGAGACGAATTTTAGACATTTAGGAGTTTACAGATCTGGGTTTGAGTGTGCAAGATCTGTGAAAGAATGGTTAGTCTCAAATGATCACAAGAATGAGAACTAG MPKQIHEIKDFLLTARRKDARSVKIKRSKDVVKFKVRCSKYLYTLCVFDSEKADKLKQSLPPDRGKPFGRLAFPPSLGNFYLTLETNFRHLGVYRSGFECARSVKEWVLSLHNQKLLGNLSSATTMPKQIHEIKDFLLTARRKDARSVKIKRSKDVVKFKVRCSKYLYTLCVFDSEKADKLKQSLPPDRGKPFGRLAFPPSLGNFYLTLETNFRHLGVYRSGFECARSVKEWLVSNDHKNEN
BLAST of Cla97C06G110240.1 vs. NCBI nr
Match: KVH95117.1 (Ribosomal protein L38e, partial [Cynara cardunculus var. scolymus]) HSP 1 Score: 213.8 bits (543), Expect = 6.6e-52 Identity = 123/186 (66.13%), Postives = 130/186 (69.89%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. NCBI nr
Match: XP_014812068.1 (PREDICTED: 60S ribosomal protein L38 [Calidris pugnax]) HSP 1 Score: 137.1 bits (344), Expect = 7.8e-29 Identity = 92/187 (49.20%), Postives = 109/187 (58.29%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. NCBI nr
Match: KFD71281.1 (hypothetical protein M514_16628 [Trichuris suis]) HSP 1 Score: 132.1 bits (331), Expect = 2.5e-27 Identity = 83/195 (42.56%), Postives = 114/195 (58.46%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. NCBI nr
Match: CDP18171.1 (unnamed protein product [Coffea canephora]) HSP 1 Score: 128.3 bits (321), Expect = 3.6e-26 Identity = 64/67 (95.52%), Postives = 65/67 (97.01%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. NCBI nr
Match: CDP04642.1 (unnamed protein product [Coffea canephora]) HSP 1 Score: 127.9 bits (320), Expect = 4.8e-26 Identity = 71/100 (71.00%), Postives = 77/100 (77.00%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. TrEMBL
Match: tr|A0A103XQP8|A0A103XQP8_CYNCS (Ribosomal protein L38e (Fragment) OS=Cynara cardunculus var. scolymus OX=59895 GN=Ccrd_002813 PE=3 SV=1) HSP 1 Score: 213.8 bits (543), Expect = 4.4e-52 Identity = 123/186 (66.13%), Postives = 130/186 (69.89%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. TrEMBL
Match: tr|A0A0D9X019|A0A0D9X019_9ORYZ (Uncharacterized protein OS=Leersia perrieri OX=77586 PE=3 SV=1) HSP 1 Score: 201.1 bits (510), Expect = 2.9e-48 Identity = 113/187 (60.43%), Postives = 125/187 (66.84%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. TrEMBL
Match: tr|A0A085NP85|A0A085NP85_9BILA (Uncharacterized protein OS=Trichuris suis OX=68888 GN=M514_16628 PE=3 SV=1) HSP 1 Score: 132.1 bits (331), Expect = 1.7e-27 Identity = 83/195 (42.56%), Postives = 114/195 (58.46%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. TrEMBL
Match: tr|A0A068VBT7|A0A068VBT7_COFCA (Uncharacterized protein OS=Coffea canephora OX=49390 GN=GSCOC_T00007069001 PE=3 SV=1) HSP 1 Score: 128.3 bits (321), Expect = 2.4e-26 Identity = 64/67 (95.52%), Postives = 65/67 (97.01%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. TrEMBL
Match: tr|A0A068U8M1|A0A068U8M1_COFCA (Uncharacterized protein OS=Coffea canephora OX=49390 GN=GSCOC_T00018662001 PE=3 SV=1) HSP 1 Score: 127.9 bits (320), Expect = 3.1e-26 Identity = 71/100 (71.00%), Postives = 77/100 (77.00%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. Swiss-Prot
Match: sp|O22860|RL38_ARATH (60S ribosomal protein L38 OS=Arabidopsis thaliana OX=3702 GN=RPL38A PE=3 SV=1) HSP 1 Score: 122.1 bits (305), Expect = 8.5e-27 Identity = 59/62 (95.16%), Postives = 61/62 (98.39%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. Swiss-Prot
Match: sp|P46291|RL38_SOLLC (60S ribosomal protein L38 OS=Solanum lycopersicum OX=4081 GN=RPL38 PE=3 SV=1) HSP 1 Score: 115.2 bits (287), Expect = 1.0e-24 Identity = 56/62 (90.32%), Postives = 60/62 (96.77%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. Swiss-Prot
Match: sp|Q95V84|RL38_BRABE (60S ribosomal protein L38 OS=Branchiostoma belcheri OX=7741 GN=RPL38 PE=3 SV=1) HSP 1 Score: 109.0 bits (271), Expect = 7.5e-23 Identity = 53/62 (85.48%), Postives = 58/62 (93.55%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. Swiss-Prot
Match: sp|Q32PB9|RL38_BOVIN (60S ribosomal protein L38 OS=Bos taurus OX=9913 GN=RPL38 PE=3 SV=4) HSP 1 Score: 101.7 bits (252), Expect = 1.2e-20 Identity = 49/62 (79.03%), Postives = 57/62 (91.94%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. Swiss-Prot
Match: sp|P63173|RL38_HUMAN (60S ribosomal protein L38 OS=Homo sapiens OX=9606 GN=RPL38 PE=1 SV=2) HSP 1 Score: 101.7 bits (252), Expect = 1.2e-20 Identity = 49/62 (79.03%), Postives = 57/62 (91.94%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. TAIR10
Match: AT2G43460.1 (Ribosomal L38e protein family) HSP 1 Score: 122.1 bits (305), Expect = 4.7e-28 Identity = 59/62 (95.16%), Postives = 61/62 (98.39%), Query Frame = 0
BLAST of Cla97C06G110240.1 vs. TAIR10
Match: AT3G59540.1 (Ribosomal L38e protein family) HSP 1 Score: 122.1 bits (305), Expect = 4.7e-28 Identity = 59/62 (95.16%), Postives = 61/62 (98.39%), Query Frame = 0
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of watermelon 97103 v2
Date Performed: 2019-05-12
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