Spg021111 (gene) Sponge gourd (cylindrica) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GTTCCATCGGTGATTCAGAAATGAGAGGACTGTCGCCGTCTAGAATAATAAGATCGTTTTCAGTGTGGAGTACGCGACGGCAAGATTTTCCACATTCAATCCTATGTTGTTCTTTCTGTACTGGCGATGATAATTACGACAGTAGGATCAGCGATGGAATGCAGAACTCGAAGGTCAAGGTTTTTGATCGTGATCTCAAGCGTAAACAGGTAAGCCTAATTGCACGGCATTTTCTTTTCTAGGTTTTTTTTTCCTTCTTTGATCTATGGGAGTTAACCAGAACAGGGTTTAGTGAAATTATTTTGAGATATTTGGCTAAAATATGGTGATATTGTGAAGATAATTTGTAATGGTCGCATGTACAAAGGGAAATTCTGGGAGCATTATTATTTTTCTGTGATGGTGTTTGTCAATTGACTGTTTCATGTGTTCGTATTCTGCTTTGGTTCTGTTTATTGTGTGTGCAAATAATTTTTAACTAGGTAAATGGCAAGCAGATATATACTACAAGGAACTTTTTAGCTCCTCCTCCATAAGCTTTCTGATTTGCGGTGCCTTCAGTTCTTGGAGGATTTCTATATTTTGTTCTTTGCTAAAATTGTTGTTTCTGGCTGACAGCGGGACCGAGCCGCTTGGTTGATGCGCCCAAAGGATTCCCTTGTTGATACGGTTGCAGAGAACTTATTGGATCGTTTGGAGGTATTAGATAGGGATGTTGTGAAATTATGTCCATTTAAATCTGTGACTTCCTGTCATTGATCTTCCAGTTGTCATTTTTTCAAGGAAATGTTGCACCTGTTGAAGAAATTTTATGAAAGCATTGGATATGAAATCACATCTGAAATGGAAATTTTACAGAGATGAGAAAACCATTACTTTTTTCTTAGTGATAATACCAATAAGATGAATGCTCTGTAACATCTTTTGGACATTAAATGAAACAGGAACTAGTTTCTATTCCAAATGTCACTAATATTTTCTAACTATTGTCAATTTATATTGTTAACTTGGATCAAATCAATTACTGTTTTGTTTGTGGTAATTGCTTAACTCTTTGAAACAGAAGTTGCATGCTTATTTATCATCTGGAATGTAACTTACCAATCTGTTCTTTTTCTCTAAACTTTAGAATCAATATGAAATATTTAACTTGGATCTTATCTTATCGTGGGTTTCAATGCATAAATCTGGATCCAGTTGACTTCAACATCTTTAAAATCTCAAGTTACTTGACAAGGGCATTTTCTAATTGATTTTACATGTCTCACATTGTGCCTTTTGAAGGATTGCAAGAAGACATTCCCTACAGCATTATGTTTGGGGGGTTCATTGGAGGCTATCAGGCGATTATTACGTGGCCGTGGTAATAATCTTATTTCTACTTTCTTCAATTATTAGGAAAAAGAAGACTGCACTTAGAGAATAAGAGAGGTGAAGAGGATATTCATAAATTTAATGCATCTCATGATTTTAAAGGATTGCTTTTGAGTCTTATCAAAAAACATAAAGGATTGCTTTTGAGAGTATGAATATAATATTTTAGGAATATTAAGGTAAACAAAGATTACTACCATAAGCATGCAATGATCATATAAAATTGGAGTGGAATTTTGAAATGACGAATTGAGAACATCAAAGTTCAGCTCTCATGTCATGAACAGTTGAAATTTGCTGTCTTCATTTTCTTGAGCTTATGAAATTCTTACCCATGCACACTTTGTTCCATTTCATTTGCTTTCTCTTGAAAGGTACATATTGATCCACTGAAGGTTGTGGGTTCACTACATTTATTAGCAAGGATAATTGCAGAATACGTAACTGTTTTTTTTTTTTTTTTTTTTTTTGCTCTTGAAACATGAAACAAAAGAATATAAAAGAATACAAAATTGTGTGCAATAAACATAAGTTTCTTAAAACTATACTGACTTACCTTGAATTATGGTGAATGTTTTATTTTACCTTTTTGCAATGACCTGTTTACATGAATTGATTTTTGTATGTAGTCAAAGATTTCAGGGAAAAACAGACAAGAAGAATGTGATTTTAGATGGCAATCTGACACGAGAAGTGATTTACTATTGTTTCTATAAATACTTTTTCTTACCTTCGACTTTTACAATCATCTTCTTTTAAGTCCTCGGGTTTCCGATTCAAGTTCTTGGCACATTGTCTTTTTTTAAGAAAATGCCCTTCTTTGTTTTGAATGAGAAAGAGAATTATTCATATTTTTAGCTTATGACCTTCTATAGATAATGAAAGTTTATATTTCTTATTTTTAAATATATATATATATATATATATCAAGGGAACTCATCTTTCGAGTTTAAAGGTTGGGCTCATTCTTTTTTTCACATTGGATAAATGATGTCTGAAAATACACTCGATATTCTCTGCTCAATTGACTTCGTACCTTATCTTTTCTGCTTTTAAGTTTCTTTTAATTATAATGTGCTGCTTTTTTTTTTCCTTTTAAATTTAAGAAGTATAACTGCTTTAGCCCAATTATTATCATTGTCGAATGCTCTAATGATACATGTATAGTTATGAATTGTTTTTTTTCTAAACTAAGAAACTGAGAAACCTTGTATTCACACAAAAACAAAAGAACAACGTAAGGGCAAGGAGTAGAATTGTGATTTGTGACATTGATCGATTGGAAGATTTGACAACCGAGTTGAAGTTTGCATAGTTATGTGTTTTGCCTTTGTGCTTTGTTCTTGTCGTTATATTATATATTGTTTAAGTTCATTTGGATGTTGCAGTTGGTTCTGGTTTAAACAAATGAATAAATTTGTAAACACCAGCATTAGAAAAACCTTGAAAAATTACTCTGTTCTTTATATGGTGTTAAGTTGTAAAATAAAATTTTATCCAATTGCCAGGTTCAGTTGAAAAGCTGATCATGATGGATGCATCACATGGCATGATAAAATTATGCAAAGATGATACAGGTGCACATGATCGGGATGTTGAAACATCTTTTATTGTTGGTGACGAAGAGTTTCTACCCATCAAAGAAAGGTGTTCTTAAGCTTGTTTCTTTTTCAATAATGTCTATTCATTGGTTGAATGAAACTAATGCTTTATAATTTCTATCCTTCTACTTCTGGTCTGAAGTTCAGTAGATCTAATTATTAGTTGCTTGGGCCTTCATTGGACAAATGATCTTCCAGGAGCCATGATTCAGGTTTGTCCCCCATACTTCATTAATTCTCATCTTCACATCGAAACCTAATATATGTTGGACAGTGGAATCTGCTAATGGAAAACCTTGTTAATTTTACTTTTACAGTTTCATAAAAAGTCAGTAGCTTTTGTTTTTTAAGCGTCTGATGTAATAATTGAAACTTGTGAAAATTGAAATCTCAATTTCTTCAACCTTTGTACGAGAGAGAGGTAACAGGATCTTTTAGTATGAAGCATGATTGCTGGATAACAATGTTACATTGATTATTAACTTGTTATTACATGGTATCTTGTGTTTTTTTTCTTTTTTTTAATCCTCAAATTTTGCTTTGTCTTTTTAGTTTTTACATATCATGTTCTGGAGCTAGTATGTTTAGTGGCCTTTTCTGGATCTCTTTTCTTGACAGAGTAGATTGGCACTGAAGCCAGATGGGCTATTTTTAGCTGCGATCTTTGGAGGAGAAACCTTGAGGTTTGTGATGTTTCTTCCTGTTTGAATTTTTAGTTCATTGCTTAAATCCCTGCCTGATTTCCTTTGCATATACTTGCATCAGGGAACTGAGAATAGCATGTACTCTTGCACACATGGAGCGTGAAGGAGGCATCAGTCCACGAGTATCACCATTGGCACAAGTATGCTATTGCAAACTTTCCTGATTTGTATTATTGTAAAAGACTCAGGAGAGCTTTCTTTCCTTAAAGGGCCCTATCAGGATATTTCTTGCCTATAATTTTTACTTTTGTGTAACCTTCCTTCTTAGTATCATTTTCACTCAGATTTAGTTACATAGCTTGGGTTGGTGATTTGAAATATGAAATAAGAGAAATATGCAAGCTACTCTTGTGGCTTTGAATTGAATCCAGAACTTTCTATTTCTAGATATAATTGTAGTGGTTAGATAGATTCTGAAAAAGAATCAGCATATTCAGACATGTATCTGCATTTAACTGAATGAAGCACATGTCGTTTTACTTATTTAGGTGAGAGATGCAGGCAATCTTCTGACAAGAGCTGGTTTTACCTTGCCTGGTGTAGATGTCGATGAGTATGTAGTTCGCTATCCAAGTGGTGAGCATGCTTATGTCACTATTTATTGTTTAATTCAGTAAATTTCTCGCCAATTAGAATGTCTGTCTATTGTAGACGATAGGAAGTGATTTATTAAGCCTACAGTTCTCCCGTTCTGACTTGTTGCCCATGGACAATGGGTTAGTAGAAATCAGTACCAGCCAAAATTTTCAATCAAAATCGAAAAATTACACCAAAAAAATAATAATAACTAATATAAGATGCTGCTCCAACTTGAAGCACTGTACTCTACAAAGTCTTGTATCTTATGTTTAATGATTTTTTTTTCTTCTGTTCCGTTTACACAAACTTAAGCACTGGAGCTGGTCGAACACTTGCGTGCAATGGGTGAAACAAATGCCCTTTTACAAAGGAACCCAGTAAGATTTCTTCCTTCCTCATCTTTAAGAAAAGAAGAATATCATCGACTTTAGGCTTTCAATTTTGATATTATCTTCGTGTTCATCAACTAAGAATCGAAAAGTCTATGTTGTTGATCAATATATCATTGATGTTTGAATGATGAATCTCAGATCCTGAAGAGAGAAACAGCCCTTGCTACAGCAGCTATTTATGATTCCATGTTTGCTGCAGATGATGGATCCATTCCTGCAACCTTCCAGGTCAGCATAGTATAGTGCACCTAGTTAAATAATTTGATTTTATGACATATTCAAAGGTTGAAGTTGTCTCTTGGTCATTGACTTTAAGTTTTAGGGGTGCTTGAATACATGGCAACAACATTCTGGATCTACCAATATGGCAAAAGAAATAAAATAAAAAGCATACCTCAAACCCACTCATAGAAAATACGAAAATAACTTTAAAACCAGCAGCAATGTTTTAAAAGGCTATTGAGGCTTACACCTTGAGGCTCGCCTTGAGGCGAAGCTCTAACTTTTAGCCTCGAGACTTACACCTTCTTTGGACCATAAGAGGTTTATGCCTCTCACCGGAGAGGCTTACGCCTCATATAATGGTTAGAAGAATAGTATTAATTTCCCCATTCTTTAAAAATATAAAGGTTTGAGTTGTTACAATTTAAAATATTACTACTTTTACCACTTAGGCTTTAAAAACATTGAAAATAAAAATTTATAGAAAAAGTCAGTCGTATAAGTGACAATAGTAGTGATGTTAAAGATATACTTGTAGAATTTTTGTTCAAGTAGCAATTCAAGGGGGTGACTTTTTCTATATTTTTATATAAGTATTATTTTTAGCATTACTTGTTCACACAAATTTAGGATTTACGTAATGTTTTTAATTAAAATTGAGGCTTACGCCTCACACCGCCTCAAGGCTTGTGCCTCACCTCTTCAAGAGGAAAAGCCTCGAGGCCACCTTTAGCCTTTTAAAACATTGACCAGCAGTAGCTTCTTCCTCCCATGATGTCTCAATCCCACACTGATAGACATCTATCAATGAATGATAAACACAAATCGGTGATAGACGTGTCTAGATGTGCCCCCAATTACCATGTAGTATTCTAGGAGTGGTAAAAAGGGGAATCTAGCAGTAGGAAGTTAGTTATTTTTGGGGGGACTGTATGTAGGCTTTATATGTCGCTGTCCTATGGGAATGTTTTTATGCTTTTGGTGAATAGTTTGTTAGCTCAGGGAGTGAGAGATTACTGGCCCTTTCGAATAGGCTAGGAGTTTTGTATTACCTTAAGGTGTCGTTTGTTTCGCAGTAATCCAAGATTCCCATGGAATGGGCATCTGGATTACCTCGTTTGTTTTGCGGTAATGTAAGATGTCCAGTCATCTTGGGATGCCCACACGAGAGGCATCTAAGAAGATTTGGATGCCCTCCTGATACATGGGTTTCTAAGATTCCCATGTTAAGGGAATCAACTATTGACGTTTTGGTCCTTCGTTTTTTATATTTTCGTTCATCAATTTTTTTTATTTCTCCCTTTTTTTCTTTTTTTCTTTTTTTTTTATTTTTTTTAATTTTTTTTATTTTAGGATTTTAAAAAATTAGTGGATTCATTCACTAATAAACAATTATATGAAATTAACTATATTTATATGTTTTATTAACATATAGAATAAACTTCATTTAATTTGTATAACATATAGTTTTTCTCAAAAAAAAAAAAAAAATTGTATAACATATAGTTGAATCTATTTTCAATTGAAATTTGAAGTGAAATTTTTATTTGTTTTCCCTTTCCAATAACGATCATCCAATATCTTTTTATCAAAAAAATACAATCACAAATTGATATTATTTCTTTTCAAACTTTCTCTATTTTGATAATTTATAAATATAATCCACTAAAAAATGCTATCAACCATATAATTGTCTTCTTTTAAAATAAGTTCGAGCAGTTCAAGTTTAAATTGAAATTAATATTTAATTATAATTTTTTCATACAAATCTTAAGACAATAGAAATTATTGTTTTTACAAAATAACATATAAAATTAATACAAATTGAATTGATAACAATATTAAATTATTAAAGTAAAAAAATGTTGTACAAATTAAATTAATATATAAATGATTTGAAGATAGAAAAGGGTATTGCTGGAATAATACATTATTTTAAGACATTCTCGTCCAAAAATCCTACAAAACAAACATGGTTATCTAAATATTCCTGAACATCCCTATAAAATTATTCCTTCAAAACAAACACAATTATCTAAAATGTCGGGCATCTATATTTCCGAACATATATAATTCTAGGCATCTGAAAATTCCGGCTATCTTGATTACCAAAAAACAAACGGCCCCTAAGGGATCTTCTTCTCTGGTTTGATATCAATACATAGTGAGGATACCTCACATTTTGGTATCAAGAGGATTGATGGGATGTTACAGATTCCAAGATTGAAGGAATCAAGGAGGTGCAGAAACTTCTGGGAATGGAACGTACCTTAGCTAAGCTGTCACAGACTTCCGACGAGACAGTGAAAGCGTTGGAGGCCATGGCCTTAGAAATGTCGTACTAGCGTATGAGAAATCCTTCATCAGCTGTCGCCTGTCATGGAGGAATCGATGTAGAAGAATAAGGAGGTGGAAGGTAGTAGCAGTCTAACTAAGGAAGATGGGCGACAGACTGTTGTGAAAGATGATCGGATGGTGGATCAAGAAAATGGAAGAGACCTCACCGGAGGTTTCGCCAGTGAACGACTCAAGTTTAAGAAGGTCGAGATGCCGATCTTTGGAGGGGACGATCCCGATTCTTGGCATCTTCGCGCTGAAAGGTATTTCCAACTTTACAAGGTTACTGATTATGAAAAATTGACTGGCTGTTGTTAGCTTAGAAGGGGAAGCATTGAACTGGCATCGTGGACCGAAGGAGCGTGAACCGTTTTAGGGATGGCAAGATTTCAAAATAAGGTTATTAGAGAGATTCTGAAATGCCCAGAAGGGTAGTGTGTTAGGGCGATTCTTGGCCGTCAAGTAGGAGACGACGGTGGCTGCTTGCACCATTACCTCATATCTCAAATGAAGTATTGGAAAATACGTTTCTTAACAGACTGGACCTAGTGATTAGGTTAGAGGTTCAATGTTGGGAAGCTAGTGGGTTGCATACAATTATGAAGAAAGCCTAACTCATGGACGATAAGGAGATAACCCGTTCGATGGCCAACAAGGGTGGTTATTCGGAAGCCTAAGGGGTTAGTTCTAAACTCACTAATTCCACAAGCCCTAAAGATAATTCTAAAACCCTAAACCTTGCACTAATACCATGTGCGCAGTATTAAGAGAAATGCTCTTACTATTTCACATTAAACAGTAACATATATATTGGTATACAAAGAACTCACAAAGGAAGGTACAATTACGATTAAGAACAACTATACAAAATAACATATATCATAACATCTATTAGTCTATTCGTGATAAACATTTGTTAGTCAATTAATGTCGGGGAAGACGTCTATCGGTGATCATTGAGATAGAGTAGAAAAGGAATCATGTAAAAATTTCTAAGTAGACCTGCATAAAATTATTTTAAAAAATTTGTATTTGCAAAATCATAATCCTGCTCCTATTATTGCTAATGTGGTAATGTGAATTGTCAACTAAAATTTCCTACGTTTTACCCAGGGGTGTGAGTTACTCCTATCAAAAAGAGTTAACTGTTCGGCCTTTAGCCAAAACCACCAACTGACCAACAAGTATAATAACTAAAAAAAAAAAAAAAAAAAAATGATAAGAATTCAATCTTTCAAAGAAGGCCATACAAAAAAAGATCTAATAGGAGAGCCAAAACCTAATCCAAAAGAATAACTACCTAACTAGTAATTACAAAAAGCCTTAGAAGCCAACATCGCTAATATTATCCCAAAATAACATCTCCAAAATTTGTTTTTATTTTATGAAACTGAATTGACCAGAAATAAGGGGGAAAGTATTACTCCATCTGATCAAATCAACTCAATTAGTTTTGTTGATTTGTCCAATTTGACCGAAACCCTTCGGCTTTACCCTCCTCTCCCTCTGCCCTCTCAGATTTAGAGTTCATTTGTAAAAAATGATGATGGGAAGATTTATTCCGAAGTAAATGAGTGAATTTAGAGTTTACAAATTGTTTTGCATGTGATTGCAATTGCAGGTAATTTACATGACAGGATGGAAGGAACATACTTCCCAACAGAAGGCCAAAAGAAGAGGATCTGCAACCATATCCTTCAACGACATCAAGAAACAGTTTGGAAATGGCAGTTGATCTTTATTGTCTCTTTTATTCTCAATTTGTAGTCCTAAAAGGACGTTCCAATGGGAAAACCTAGCTGTCTGAACACTGCAATTTTGTCTTGTTTATTTTTAATTTTTTAATTGTCATTTGTAAACATGAAAAGAAACATTCCAATAAATTTCAGGGGAATGTGAAAACCACTCCTGAAATGTAGTTATAAATTGCTATAATTAAAAGTTTCTTTAAGACGATGGATCCTTAATGCCATCATCAGGTATGACGGTCTGGACTTGAGCCTATGTAACGGTGAGGTTGTAGAACAACCCTTCCACTACATCGAGACACTCTCAACTCTTGAGATAGATGTAACCAACCAGTTGTATTGGCCCCATCAACAACTCTTTTTCATAATCCAGCATCATCAACTTGTTGACTTATTAACAATTCTTGTTGATGTTTTTGTAGCTTCATCAGTTAATTTACTTAAAAACGACATTACTTTGTGGTTTATTATTTGTAATGTGG ATGAGAGGACTGTCGCCGTCTAGAATAATAAGATCGTTTTCAGTGTGGAGTACGCGACGGCAAGATTTTCCACATTCAATCCTATGTTGTTCTTTCTGTACTGGCGATGATAATTACGACAGTAGGATCAGCGATGGAATGCAGAACTCGAAGGTCAAGGTTTTTGATCGTGATCTCAAGCGTAAACAGCGGGACCGAGCCGCTTGGTTGATGCGCCCAAAGGATTCCCTTGTTGATACGGTTGCAGAGAACTTATTGGATCGTTTGGAGGATTGCAAGAAGACATTCCCTACAGCATTATGTTTGGGGGGTTCATTGGAGGCTATCAGGCGATTATTACGTGGCCGTGGTTCAGTTGAAAAGCTGATCATGATGGATGCATCACATGGCATGATAAAATTATGCAAAGATGATACAGGTGCACATGATCGGGATGTTGAAACATCTTTTATTGTTGGTGACGAAGAGTTTCTACCCATCAAAGAAAGTTCAGTAGATCTAATTATTAGTTGCTTGGGCCTTCATTGGACAAATGATCTTCCAGGAGCCATGATTCAGAGTAGATTGGCACTGAAGCCAGATGGGCTATTTTTAGCTGCGATCTTTGGAGGAGAAACCTTGAGGGAACTGAGAATAGCATGTACTCTTGCACACATGGAGCGTGAAGGAGGCATCAGTCCACGAGTATCACCATTGGCACAAGTGAGAGATGCAGGCAATCTTCTGACAAGAGCTGGTTTTACCTTGCCTGGTGTAGATGTCGATGAGTATGTAGTTCGCTATCCAAGTGCACTGGAGCTGGTCGAACACTTGCGTGCAATGGGTGAAACAAATGCCCTTTTACAAAGGAACCCAATCCTGAAGAGAGAAACAGCCCTTGCTACAGCAGCTATTTATGATTCCATGTTTGCTGCAGATGATGGATCCATTCCTGCAACCTTCCAGTTTGTTAGCTCAGGGAGTGAGAGATTACTGGCCCTTTCGAATAGGCTAGGAGTTTTGTATTACCTTAAGGTAATTTACATGACAGGATGGAAGGAACATACTTCCCAACAGAAGGCCAAAAGAAGAGGATCTGCAACCATATCCTTCAACGACATCAAGAAACAGTTTGGAAATGGCAGTTGA ATGAGAGGACTGTCGCCGTCTAGAATAATAAGATCGTTTTCAGTGTGGAGTACGCGACGGCAAGATTTTCCACATTCAATCCTATGTTGTTCTTTCTGTACTGGCGATGATAATTACGACAGTAGGATCAGCGATGGAATGCAGAACTCGAAGGTCAAGGTTTTTGATCGTGATCTCAAGCGTAAACAGCGGGACCGAGCCGCTTGGTTGATGCGCCCAAAGGATTCCCTTGTTGATACGGTTGCAGAGAACTTATTGGATCGTTTGGAGGATTGCAAGAAGACATTCCCTACAGCATTATGTTTGGGGGGTTCATTGGAGGCTATCAGGCGATTATTACGTGGCCGTGGTTCAGTTGAAAAGCTGATCATGATGGATGCATCACATGGCATGATAAAATTATGCAAAGATGATACAGGTGCACATGATCGGGATGTTGAAACATCTTTTATTGTTGGTGACGAAGAGTTTCTACCCATCAAAGAAAGTTCAGTAGATCTAATTATTAGTTGCTTGGGCCTTCATTGGACAAATGATCTTCCAGGAGCCATGATTCAGAGTAGATTGGCACTGAAGCCAGATGGGCTATTTTTAGCTGCGATCTTTGGAGGAGAAACCTTGAGGGAACTGAGAATAGCATGTACTCTTGCACACATGGAGCGTGAAGGAGGCATCAGTCCACGAGTATCACCATTGGCACAAGTGAGAGATGCAGGCAATCTTCTGACAAGAGCTGGTTTTACCTTGCCTGGTGTAGATGTCGATGAGTATGTAGTTCGCTATCCAAGTGCACTGGAGCTGGTCGAACACTTGCGTGCAATGGGTGAAACAAATGCCCTTTTACAAAGGAACCCAATCCTGAAGAGAGAAACAGCCCTTGCTACAGCAGCTATTTATGATTCCATGTTTGCTGCAGATGATGGATCCATTCCTGCAACCTTCCAGTTTGTTAGCTCAGGGAGTGAGAGATTACTGGCCCTTTCGAATAGGCTAGGAGTTTTGTATTACCTTAAGGTAATTTACATGACAGGATGGAAGGAACATACTTCCCAACAGAAGGCCAAAAGAAGAGGATCTGCAACCATATCCTTCAACGACATCAAGAAACAGTTTGGAAATGGCAGTTGA MRGLSPSRIIRSFSVWSTRRQDFPHSILCCSFCTGDDNYDSRISDGMQNSKVKVFDRDLKRKQRDRAAWLMRPKDSLVDTVAENLLDRLEDCKKTFPTALCLGGSLEAIRRLLRGRGSVEKLIMMDASHGMIKLCKDDTGAHDRDVETSFIVGDEEFLPIKESSVDLIISCLGLHWTNDLPGAMIQSRLALKPDGLFLAAIFGGETLRELRIACTLAHMEREGGISPRVSPLAQVRDAGNLLTRAGFTLPGVDVDEYVVRYPSALELVEHLRAMGETNALLQRNPILKRETALATAAIYDSMFAADDGSIPATFQFVSSGSERLLALSNRLGVLYYLKVIYMTGWKEHTSQQKAKRRGSATISFNDIKKQFGNGS Homology
BLAST of Spg021111 vs. NCBI nr
Match: XP_038889820.1 (putative methyltransferase At1g22800, mitochondrial [Benincasa hispida]) HSP 1 Score: 655.2 bits (1689), Expect = 3.4e-184 Identity = 335/374 (89.57%), Postives = 342/374 (91.44%), Query Frame = 0
BLAST of Spg021111 vs. NCBI nr
Match: XP_011656106.1 (putative methyltransferase At1g22800, mitochondrial [Cucumis sativus] >KGN52686.1 hypothetical protein Csa_007717 [Cucumis sativus]) HSP 1 Score: 640.2 bits (1650), Expect = 1.1e-179 Identity = 326/374 (87.17%), Postives = 340/374 (90.91%), Query Frame = 0
BLAST of Spg021111 vs. NCBI nr
Match: XP_008459637.1 (PREDICTED: putative methyltransferase At1g22800 isoform X1 [Cucumis melo] >KAA0039257.1 putative methyltransferase [Cucumis melo var. makuwa] >TYK00443.1 putative methyltransferase [Cucumis melo var. makuwa]) HSP 1 Score: 639.8 bits (1649), Expect = 1.5e-179 Identity = 326/374 (87.17%), Postives = 339/374 (90.64%), Query Frame = 0
BLAST of Spg021111 vs. NCBI nr
Match: XP_022973985.1 (LOW QUALITY PROTEIN: putative methyltransferase At1g22800, mitochondrial [Cucurbita maxima]) HSP 1 Score: 637.9 bits (1644), Expect = 5.6e-179 Identity = 322/373 (86.33%), Postives = 334/373 (89.54%), Query Frame = 0
BLAST of Spg021111 vs. NCBI nr
Match: XP_022925466.1 (LOW QUALITY PROTEIN: putative methyltransferase At1g22800, mitochondrial [Cucurbita moschata]) HSP 1 Score: 634.4 bits (1635), Expect = 6.2e-178 Identity = 323/374 (86.36%), Postives = 335/374 (89.57%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy Swiss-Prot
Match: O80543 (Putative methyltransferase At1g22800, mitochondrial OS=Arabidopsis thaliana OX=3702 GN=At1g22800 PE=1 SV=2) HSP 1 Score: 473.8 bits (1218), Expect = 1.8e-132 Identity = 240/329 (72.95%), Postives = 272/329 (82.67%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy Swiss-Prot
Match: A3KP37 (Arginine-hydroxylase NDUFAF5, mitochondrial OS=Danio rerio OX=7955 GN=ndufaf5 PE=2 SV=1) HSP 1 Score: 249.2 bits (635), Expect = 7.3e-65 Identity = 136/320 (42.50%), Postives = 186/320 (58.13%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy Swiss-Prot
Match: Q5TEU4 (Arginine-hydroxylase NDUFAF5, mitochondrial OS=Homo sapiens OX=9606 GN=NDUFAF5 PE=1 SV=1) HSP 1 Score: 245.0 bits (624), Expect = 1.4e-63 Identity = 134/320 (41.88%), Postives = 181/320 (56.56%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy Swiss-Prot
Match: Q5RBS1 (Arginine-hydroxylase NDUFAF5, mitochondrial OS=Pongo abelii OX=9601 GN=NDUFAF5 PE=2 SV=1) HSP 1 Score: 243.0 bits (619), Expect = 5.2e-63 Identity = 133/320 (41.56%), Postives = 181/320 (56.56%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy Swiss-Prot
Match: A2APY7 (Arginine-hydroxylase NDUFAF5, mitochondrial OS=Mus musculus OX=10090 GN=Ndufaf5 PE=1 SV=1) HSP 1 Score: 240.0 bits (611), Expect = 4.4e-62 Identity = 135/320 (42.19%), Postives = 182/320 (56.88%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy TrEMBL
Match: A0A0A0KXX9 (Methyltransf_11 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_5G650510 PE=4 SV=1) HSP 1 Score: 640.2 bits (1650), Expect = 5.4e-180 Identity = 326/374 (87.17%), Postives = 340/374 (90.91%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy TrEMBL
Match: A0A5A7TCE0 (Putative methyltransferase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold169G00470 PE=4 SV=1) HSP 1 Score: 639.8 bits (1649), Expect = 7.1e-180 Identity = 326/374 (87.17%), Postives = 339/374 (90.64%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy TrEMBL
Match: A0A1S3CB55 (putative methyltransferase At1g22800 isoform X1 OS=Cucumis melo OX=3656 GN=LOC103498701 PE=4 SV=1) HSP 1 Score: 639.8 bits (1649), Expect = 7.1e-180 Identity = 326/374 (87.17%), Postives = 339/374 (90.64%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy TrEMBL
Match: A0A6J1ICS2 (LOW QUALITY PROTEIN: putative methyltransferase At1g22800, mitochondrial OS=Cucurbita maxima OX=3661 GN=LOC111472597 PE=4 SV=1) HSP 1 Score: 637.9 bits (1644), Expect = 2.7e-179 Identity = 322/373 (86.33%), Postives = 334/373 (89.54%), Query Frame = 0
BLAST of Spg021111 vs. ExPASy TrEMBL
Match: A0A6J1ECA4 (LOW QUALITY PROTEIN: putative methyltransferase At1g22800, mitochondrial OS=Cucurbita moschata OX=3662 GN=LOC111432759 PE=4 SV=1) HSP 1 Score: 634.4 bits (1635), Expect = 3.0e-178 Identity = 323/374 (86.36%), Postives = 335/374 (89.57%), Query Frame = 0
BLAST of Spg021111 vs. TAIR 10
Match: AT1G22800.1 (S-adenosyl-L-methionine-dependent methyltransferases superfamily protein ) HSP 1 Score: 473.8 bits (1218), Expect = 1.3e-133 Identity = 240/329 (72.95%), Postives = 272/329 (82.67%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Sponge gourd (cylindrica) v1
Date Performed: 2022-08-01
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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