Spg028993 (gene) Sponge gourd (cylindrica) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGACTGGGCTAATAAAAACGATCTCAAGCAAGAAAACGCAGGATGGAAGGCGGGTAGAAAAGGCTTGGCTTTGTTTTCGTAGTGGTGATGCATGCGTGCGTCAGTTGACCATGTTGATAGATAATATAGACAGATATTAGATATATATGCAAGATTGAAGACGCGATTTGCGCGGGTCCTCTTTTTTTTCTTTTTTAAGATAGCAAGGAGGCGATTTGTTTTTTTTTTTTTTTTTTTTTTGATGAAAAACCAACTTTCATTGAGAAAAAATGAAAGAATACACGGGCATACAAAAAACAAGCCCACAAAAAAGGCGCCCAACTAGAGGAAGGGGCCCCAATCAAGCAAGATACAACCTAACGGATAATTACAGAACAACTTTGAGACCGAAGCCCAAAGAGAGACATGATAGCGAGTGAGGGACCATATATCCTCGGGATCCCTCTCTCTCCCCCTAAACACTCTATTATTCCTTTCACCCCAAAGGTTCCACAACAACGCACACATCCCCCCAAGCCACAAAAATCTCGCTCTCTCACGCAAAGGCGGATGGAGGAGGAACTCCTCGATCATCTCCCTGTGGTCAACAAAAGGCATCCCCTGCATCCCAAAAACCTGAGCAAACCGATCCCACGCTCCACGCGCATAGGCACAACTCCACAGAATGTGACCCAGATCTTCCTCCGCCTTCCGACACAGGATGCAACAAAACGGGCCAACCAAAGAGGACATCCTTTTCATCAGACGATCGTAGGTATTGACCCTGCCATGGATAACTTGCCACATAAAAAACCTAATCTTCTTCGGGACTTTCACCTTCCACAAACGCGAAAAAATGGACCCACTTTGGGGAGAAGGTTGCAAGAGCCAACGAAAAAGGGAGCTACAAGAGAACCCGTCAGAAGGACTGGGGCTCCAACAACGGAAATCCCTCCTCCCCACCCTAAAATCGAACTCCTCAATCAAAGACAAAGGGGACACAACATCCGTCGTTTCCCTATTGGACAACGGACGACTGAAGCCAAAAGCAAACGAAGGAGAGCTCCCTAAGTGAAACAAAACATCAGCCACTGAACGGTTTTTCATGGAGGATAAATGGAACAACCGAGGAAAGGATAGACAGAGGGGTCTATCCCCCAACCATCTGTCTTCCCAGAAATAAGTATCTCTCCCATCCCCCACCATGCAATGAACAAGGCTAGAGAAGGTAGGAATCTCGAGGGCTATGTCTTTCCAGGGATTTCTAAAAGTGCCTTTACCCCCTCCCGTCAACCACTCATTAGGATGAGGACCGTATTTGCTCACAATAATCTTATGCCAAAGGGAAGAAGACTCTAGGGGGAAACGCCAGAGCCATTTAGCTAACAAGGCTTTGTTGCGAACCTTAAGATTACCCATCTCTAAACCCCCCAAACTAATCGGCTTACCCACAACCTCCCAACTCACGAGGTGAGCCCCTTTACCTACCTCTCCTCCCTTCCATAAGAAGTCCCTCATGAGTTTCTCCAATCTCCTACAAACCTTTTGAGGAGCTCTAAACATAGAGAAAAAATAAGTAGGGATCCCGCTTAGAACAGATCGAATAAGGGTTAACCTCCCACCTTTAGAGAAAAAACTACGGTTCCAAGAGGCTAGCCTGCAAGGAGGCGATTTGTTCACGGGGCGATTCAGCTAGCAAAATCGCACTAATGCAATTCATTCGCCCTACGAGACTACAGAGCAATTCAAACTCTTAGTAAGACTAGGGTAGGGCTAGGGCGACTCAAATTCTATCTGAGGTCAGGTAGGTGAAGCGTCTAGCTTAGGGCTTAGGGGGGAAAGGAGCTTGGGGCTGTCCTTGCCTCAAAACCGTAGAATCTTGGATAAGACCTCTTGGCCTTTTGTTCACAAAAACTGAAAAAGTGGTGTTAGTAATACAACCTTTTATCCAGCTGATCCATCTTCCTCCAAAGCCTCATTATGAAGAACTTCAGGCAAGAAATTGCAGTCCATGTTGTAAGCTTTCTTGAATTCGAGCTTGATCACCCAACCTTTCTTGTGTACTCATCATTCACCTCATTTGCAACAAGGATTGAATCAAGAATCTGCCTTCCCAAAATGAACGCTGACTATAAGAAATGGTATGATGCAATATTTTCCTTAGCCTATTAGCCATGACTTTAGCCACCACCTTATTAATGCTTGTTACAAGGCTTATGGGCCTATAATCAGCCACGAAAGTTACTCTTGTTCTTTTCAGAATGAGACATAAGTAGGTTTCATTCACACACTTGTTATTTGTAATTGATACACATGGATTGAATAACTTGAAATCAAAATCGAAATGAGCAGTGAACTGGAGGACGAAGTGTCAAATAGAAGACTATTTTTTTGATAAAAAATAGAAGACTATTTGAATATAGGCAGAGGGAATTCTAATAATTTTGAGACACTCTACGGTACAGAACCTCAAATTGGAATCCAGGCTTTAGACAGGGGGTTTGTAACTATTCTGCCCACTTTATTAGGAGGTAATTCCTATAAACTCCTTTTTTGGGAGAAGTGAAGAGTTATCATCACCCTTCTCCTAGATATCATTTGTTCTTTATAGGATATGTGCACTATCTTCCAAACGAAGGAAAGAACAGTTAGATTATTACGTTAGATTTTTTCCTTGATAGATAAGATAACCTGAAGAATATTAATCTCGATGTCTTTCATAAGAATGTTATTGACTAGGAGTTGGTTCTTTGGCATTGGTCCAGATGAGTGACCCTTTTTTCCGTATGCATTTCTGAATCATTCTAAGTACCTTGTGGGAATTTGGGCCCTTAACACGTGGCTATGTGTTTGTCCATGTCCCAGTATATTCTACAATAATGAAACTTCTTTTTGTATAAAGGATTTTTTTTTACATTATATAGATAATAAAAAAGACAATTTGTCTTCCGCACTCATCGGCACAGTTGAACTCTTTTGTGTAGTGAAACATTTAATCAATAATTTACTGAATATTACTGTTTTGTTATATAGGAGGTCACTGCATTAGCATTTGATGATATTGGTGGGTTCCAAATGGCCGTGGGCAGTAGCTCAGGAAAGGTAAAGCTTCATCTCCCTAAGTTGTGGTGATCTTGGAATTGAAATCTTTATGACTTTCCTGGATATTGAATGATTGCATGAAAGGTGAAAATCTAAATTAAAAATGGTGATGGAAGACTTGGATTGGAGTTTTTATACTTTTACCTGCTTTCTTATTGATGTATTGTGGATGCAAAAGTGAACATATTATTGTTGGCTGCCTTTTTCTTACTGTTTGTTTTTTACCATCCTTATGGGGCCTGTTACATGCGCTTTTGGTATTAATTGGTAAATCTTATCCAATTGGGTTACGTTTTTATTTTTTTCAATAATTTAAATAATATAATAAGAAACAATAATTCAATAATTCATTACAAAAAAGGAGATGAGAAGTCCCCAACAAGCCAAGAGTATTAATTGGTAAATCTTATGCAATTTGGTTACATTGTTTGTTTGTTTTTTTTTTCTTTTTTGTTTTGTTTTGTTTTTTTTTAAAATATGAAATTATTAATACAAAAAATGAGACGAGAAGTCCCCACCAAGCCAAGGGGATTATAAAAAAGCTTCCCAATTGGCATAAATATGAACAAAGGAGTAATTACAAAAATCATTTGATGGCACACCAACTTGATGCAAAATCTCTCAAGTCTCTCAAAAAAAGTCAAGGCTAGTCTCTTCTCCTTGGAAGATAAAGATGACTATCATTTCTGTAGTAGACAAAGCCGCAATCTTTATCTTCCAGGACATAGCCTATATAGTTTAATAAAAAATATATATATCATTTCTTAATTATATTTTGACCTGATTGATTTTGTCACATCTCACATGCAGGTTTTGATTTATGATTTGCGTTCATCAGATCCTATAAGAATCAAAGATCACATGTGAGTTTACCTTCTTCTATTAGATTTAAGACTTAACCATCATGTACTGATTAAAATAATATGATTATTTTGCAGGTACGACAGTCCAATTCTGGACATTAAGTGGCATAGCACTCTTAATTCTGAAAAACCAAAAATGATTACCTCCGACAAGCACATTGTTAGGATTTGGGACCCTGATACTGTAAGAAATCTCTCCAAGAATTAAATTTCGAGCAACATGCATTGACTTTTGAGCTAGGTGTAAATCTCTTTTCACTATAGTCGATGACATGTCATCGACATCACCGTATTTCTTTCTAACTTTTTGCTTCATTAGAAAGATTTACAAGGGAAAGCCTATACTAAGTTGTCCAGTGTAATTGTGGGTCAAGTATAAATGCACCTCTCCTCTCTCCCCTCCCCTCATATCATTTATTCCCTCATATTTTCAAATAGTTTCATTTTACTTTATATATTTTCTTAATTTTCCATAATTTCTATTTTTTTTTCAAGATTCCATCAATATTTATGTATTTATTTCTTTTTAGTTGCTGTATTTTTGTTATTTTGTTGTTCCTTTTTACTTTTTCTCTCCCAAGTGGAGTTTGTATCTTTTTGAGCATCAGTCTCTTTTCATTTCCTTAATGAAAAGTTGTTTCTTGTTCAAAAAATATTACTTATATTATGAATAATAAAATTTTGAACACATATTCAAGAAATAATGTTGGTCATTCTTTACTTTGTTGACTCTTAATAAGTTTTTGAAATGATAGTAATTACATATGTTTGAGAATGCTATGATTTATTGCGGCTATGTCATGGAATATAAAGATGACTCTTCTCATTTATAGAAATTCTGATTTTTTTGTCTTCATTTTAGATTATACGTATTAAGTGGCTATATTCTTGTGCATTTTTACCCTAGGTAGATGTTATTTCTTCTATTAGTACTAATTGTACAATTTAAGTGGATGCATAAATGAAATCTGGACATAGAGTTGTTCTAGACTGCTGAGTATTAAACGTTATATGTATTCTGAGAATTATTTTGATTTGTTAGTGTCTATTTGTTAACTGTTCTTTAATTATTAAACTACACGGTCCATTTCTCATTATCTTCTGTGTTCATTCTTTGGTAGACAAAATTTTTTCTGATATCTTCTTTCAATTATAAAAATAATGTTCTTTAGGGGGAAGGAATGACCAGCATTGAGCCCACGCTTGGACCAATAAATGATACATGTGTATTCAAAGACAGTGGATTGATGTTACTAGCTTTGAATTCAAGTCAAATACCTTCTTACTTTCTACCTGCGCTGGGACCTGCACCAAAGTGGTGCTCTTATTTGGAGAATTTGACGGTGAGGTTTTGAACATTATTGTCTTTTGTTTGGGATATTGGATTTGTAATACTAATACTTCTTTTCTCTTGATGTAGGAGGAGTTGGAGGAGGGTGCACAAACAACAATATATGATGATTTCAAGTTCTTAACGAAAGAAGAACTTGAGAGGCTAAATTTGACAAACCTGATTGGGACCAATCTTCTAAGAGCTTACCTTCATGGTTTCTTTATTGATTATCGCTTGTATAAAAAGGTAATTTTATGGCTCTGTTTGTAGCGTAGCCTGTTAAGTTCACGGTTTTGTTTGCTTAGGTGTAAATTGTTGGTTTTGTCTATACTATGGCTTGTAGTATTAAATACATGAGAAATGTTGCTTAATTTTGATAGATTACTGGGTAACCGAATTATGGTACCCTAAGAAATATTTGTATTTTGTTGTTGAGAATGTTCAAAATGCTGAGTTAGTTACTTTTGTTATGGAATGCTTGTGACTTTTCAGGCAAAATCACTGGCGGATCCTTTTGCATACGATGCTTACATAGAACAAAGGAAGAAAGAGAAACTAGATGAGGAGCGTGCCAACCGAATTACGGTAAACCATTTTTTGTCCTAAAAATTTATAATACTTGATTACCTAAGTTCTGATCAATTTGTTAATATTCTAGTATGTTGTTATGATGCAAATTTTATTTCTGATAAAGAACTCCAGAATTTAAGATACGGAGGATTTCAATTGTTGGTTTGAAAAATGCATTTGGAGACTACAACTAAATTTCATTTGGACCTCATGTGTACAAATTGTCTGTTTCACTTGCCATTGCTTTTCATTATTTTTCTTCTTTTTCCTTGTAAGAAATTGAAATTATTCATTTCTCACAAAAAGGAAGATTGCAGAAGGGATGAGGCCAAGGGAAGTTTGCAAATAGAACTTCCAATTGGTGTTCATAAGAAACAAATCGTAAATACCAAAGAATTTATGATAAACTTCCATGCGTTGGATTGCTCTTTCCAAATATTTTTTTTTAAAGATTTATATTCCAATTATAAATCTGCTTGATGTGTGAATGAGTTTTCTTTCTATTTTGTTATGGGATGTTTCCATGTACTTGGAATTTGTAAGTGGAGGTATTGGACGCAGTCTGTATGGGGTCTACTATTATGACTTGTCAGTTTCTTTTAATATTTCTAATTTTCATCAAAATACAAGGCTTGTATTTTTATCTACTTTTTTGCTCCAGGTGAAAAGGAAACTACCCAAAGTCAACAGGCGCCTTGCAAATCAAATCCTTGAAGAGGAAGAAGCTGAAACGGAAAAGAAGGATGAAGATGTCAATAAGACCAAGAAGGCATCAAAGAAGAAGAAAGGGCTCAATACTGAAATCTTTCAAGATGAACGTTTTGCGAAAATGTTTAAAAATGAGGTATGACTGGATTGTCAGACACTCCTTGTCATCTTTTTCTCTACGTTTCTGTTAGTTATTTGCAATCCGTCTCAAAACTTCTTCAAAGAAAAATGGAGGAAGAAAAAAATTCAAGGCTCATCTACAGCATGTTTGAGTGAAGATTAAAAAACATATGCAAACATCTATTCGTGGGATGGGGATGTTTGCAGACGTTTCATAACAAAATAAATGTCAAGAGAAAGAAACTTTTGGCGTGGGGTGTTCATTTGAATTTCACTAATTTAAAAGTAGCTTCCTTGGTTTGTGTTGGGACACGTTCCGTTTGTTCATCTAATTTTGGATTGTGTTATGCTGCAGGACTTCGAGATCGATGAGCTTTCACAAGAGTATCTTGCCCTGCATCCAGTGGCTTCTACGAAGCAGCCATCTTTGGTGGAAGAGCATTTTGAACCTGTCTTGGAGGACAGTGATCAAAGCTTAAGTAATTCTGATGCCTCAGTTGTATCAGAGTCTGAAGATGAACCCAGCAGAGATAAACATAAGAAGGCACGAGCTCCAAAGTGAGTTTTTTCAACTCATAATTTTTTTCTATTGGTTTTTTCTCTTAGGAGCTAGGACTTTACTGATCTTCAACCTATTAAAAGAAAGCTGTTTCGATCTAGGGAAAGAAATACGTACTAATGAATCACTCTCTTTCTTCATGAGTTCATATGGATTCTTTGTGCTAAATATCGTTATCTTTGAGGGGAAAAGCCTTTGATTGTTTTATTGATGACAATGTGTAGATTGTATGAGGTCAAGGATGAAAGGCATGCCGAGGCGTTCTGGAACCGTGTATCACTTGCTAAGGAGGAAAGACTCACTATGGAGGAGAGAATTGCTGCTATTGGAGACAGTAAGCAAGATTCTGGAATTCTAAATGAAGTGAAATTGGGACCAGGAGGTTCGCGAGAGATTTCGTTTAAGCCAAGAAGCTCGGCCAGGTACAAGGAAGATGATGATGATGATGAAGGCCCACGTAAGAACAATTGGAGGAACGCCGAATCTTCAGGTCCAAAGGCCAATAAATCAGGTTCACGAGGTCGAATGAGACCTGGAAACAGCAGAGGCAGAAACAGTAGAGGTGGAAATAGCAGAGGTAGAAGGGGTCGCCGATGAGTGCAAAGTTCATTCACAATGTTGTATTGCACGAAGAAAACTGTCATACAGTTGCAGCCTTAGCTACCAAGAACGAACATAAGAGGAACGGTTGAGGATAATAGTAAAGCGTAAAGTTTAAAGGCCTTGGCGTAGAGTTCATCTGACCCATGAGAAGATTTTAGAAACTGTAAATTTTGTTAGGTAATTTTAAGTTATGATATTGTTTCACTTGAATGAGGAGAGCCTGTTATTTATTAATATTATTGAGAGAGACAGGATACTGAATAGAGGACCCAATTGAAAAAAATATGATCATATACAGAAGGAATAGTATATGAAAAAGTTTTGTGATTCAAAAATGTGATTTATATGTAATGAATTTTGTTTGATTATCAGTCATTGTTTTCATCTCCTTTGATGTTTTAGAGTTTTCATTGGGATGGAACTCAACATCAAAATGCTCTAATGCC ATGACTGGGCTAATAAAAACGATCTCAAGCAAGAAAACGCAGGATGGAAGGCGGGTAGAAAAGGCTTGGCTTTGTTTTCGTAGTGGTGATGCATGCGAGGTCACTGCATTAGCATTTGATGATATTGGTGGGTTCCAAATGGCCGTGGGCAGTAGCTCAGGAAAGGTTTTGATTTATGATTTGCGTTCATCAGATCCTATAAGAATCAAAGATCACATGTACGACAGTCCAATTCTGGACATTAAGTGGCATAGCACTCTTAATTCTGAAAAACCAAAAATGATTACCTCCGACAAGCACATTGTTAGGATTTGGGACCCTGATACTGGGGAAGGAATGACCAGCATTGAGCCCACGCTTGGACCAATAAATGATACATGTGTATTCAAAGACAGTGGATTGATGTTACTAGCTTTGAATTCAAGTCAAATACCTTCTTACTTTCTACCTGCGCTGGGACCTGCACCAAAGTGGTGCTCTTATTTGGAGAATTTGACGGAGGAGTTGGAGGAGGGTGCACAAACAACAATATATGATGATTTCAAGTTCTTAACGAAAGAAGAACTTGAGAGGCTAAATTTGACAAACCTGATTGGGACCAATCTTCTAAGAGCTTACCTTCATGGTTTCTTTATTGATTATCGCTTGTATAAAAAGGCAAAATCACTGGCGGATCCTTTTGCATACGATGCTTACATAGAACAAAGGAAGAAAGAGAAACTAGATGAGGAGCGTGCCAACCGAATTACGGTGAAAAGGAAACTACCCAAAGTCAACAGGCGCCTTGCAAATCAAATCCTTGAAGAGGAAGAAGCTGAAACGGAAAAGAAGGATGAAGATGTCAATAAGACCAAGAAGGCATCAAAGAAGAAGAAAGGGCTCAATACTGAAATCTTTCAAGATGAACGTTTTGCGAAAATGTTTAAAAATGAGGACTTCGAGATCGATGAGCTTTCACAAGAGTATCTTGCCCTGCATCCAGTGGCTTCTACGAAGCAGCCATCTTTGGTGGAAGAGCATTTTGAACCTGTCTTGGAGGACAGTGATCAAAGCTTAAGTAATTCTGATGCCTCAGTTGTATCAGAGTCTGAAGATGAACCCAGCAGAGATAAACATAAGAAGGCACGAGCTCCAAAATTGTATGAGGTCAAGGATGAAAGGCATGCCGAGGCGTTCTGGAACCGTGTATCACTTGCTAAGGAGGAAAGACTCACTATGGAGGAGAGAATTGCTGCTATTGGAGACAGTAAGCAAGATTCTGGAATTCTAAATGAAGTGAAATTGGGACCAGGAGGTTCGCGAGAGATTTCGTTTAAGCCAAGAAGCTCGGCCAGGTACAAGGAAGATGATGATGATGATGAAGGCCCACGTAAGAACAATTGGAGGAACGCCGAATCTTCAGGTCCAAAGGCCAATAAATCAGGTTCACGAGGTCGAATGAGACCTGGAAACAGCAGAGGCAGAAACAGTAGAGGTGGAAATAGCAGAGGTAGAAGGGGTCGCCGATGA ATGACTGGGCTAATAAAAACGATCTCAAGCAAGAAAACGCAGGATGGAAGGCGGGTAGAAAAGGCTTGGCTTTGTTTTCGTAGTGGTGATGCATGCGAGGTCACTGCATTAGCATTTGATGATATTGGTGGGTTCCAAATGGCCGTGGGCAGTAGCTCAGGAAAGGTTTTGATTTATGATTTGCGTTCATCAGATCCTATAAGAATCAAAGATCACATGTACGACAGTCCAATTCTGGACATTAAGTGGCATAGCACTCTTAATTCTGAAAAACCAAAAATGATTACCTCCGACAAGCACATTGTTAGGATTTGGGACCCTGATACTGGGGAAGGAATGACCAGCATTGAGCCCACGCTTGGACCAATAAATGATACATGTGTATTCAAAGACAGTGGATTGATGTTACTAGCTTTGAATTCAAGTCAAATACCTTCTTACTTTCTACCTGCGCTGGGACCTGCACCAAAGTGGTGCTCTTATTTGGAGAATTTGACGGAGGAGTTGGAGGAGGGTGCACAAACAACAATATATGATGATTTCAAGTTCTTAACGAAAGAAGAACTTGAGAGGCTAAATTTGACAAACCTGATTGGGACCAATCTTCTAAGAGCTTACCTTCATGGTTTCTTTATTGATTATCGCTTGTATAAAAAGGCAAAATCACTGGCGGATCCTTTTGCATACGATGCTTACATAGAACAAAGGAAGAAAGAGAAACTAGATGAGGAGCGTGCCAACCGAATTACGGTGAAAAGGAAACTACCCAAAGTCAACAGGCGCCTTGCAAATCAAATCCTTGAAGAGGAAGAAGCTGAAACGGAAAAGAAGGATGAAGATGTCAATAAGACCAAGAAGGCATCAAAGAAGAAGAAAGGGCTCAATACTGAAATCTTTCAAGATGAACGTTTTGCGAAAATGTTTAAAAATGAGGACTTCGAGATCGATGAGCTTTCACAAGAGTATCTTGCCCTGCATCCAGTGGCTTCTACGAAGCAGCCATCTTTGGTGGAAGAGCATTTTGAACCTGTCTTGGAGGACAGTGATCAAAGCTTAAGTAATTCTGATGCCTCAGTTGTATCAGAGTCTGAAGATGAACCCAGCAGAGATAAACATAAGAAGGCACGAGCTCCAAAATTGTATGAGGTCAAGGATGAAAGGCATGCCGAGGCGTTCTGGAACCGTGTATCACTTGCTAAGGAGGAAAGACTCACTATGGAGGAGAGAATTGCTGCTATTGGAGACAGTAAGCAAGATTCTGGAATTCTAAATGAAGTGAAATTGGGACCAGGAGGTTCGCGAGAGATTTCGTTTAAGCCAAGAAGCTCGGCCAGGTACAAGGAAGATGATGATGATGATGAAGGCCCACGTAAGAACAATTGGAGGAACGCCGAATCTTCAGGTCCAAAGGCCAATAAATCAGGTTCACGAGGTCGAATGAGACCTGGAAACAGCAGAGGCAGAAACAGTAGAGGTGGAAATAGCAGAGGTAGAAGGGGTCGCCGATGA MTGLIKTISSKKTQDGRRVEKAWLCFRSGDACEVTALAFDDIGGFQMAVGSSSGKVLIYDLRSSDPIRIKDHMYDSPILDIKWHSTLNSEKPKMITSDKHIVRIWDPDTGEGMTSIEPTLGPINDTCVFKDSGLMLLALNSSQIPSYFLPALGPAPKWCSYLENLTEELEEGAQTTIYDDFKFLTKEELERLNLTNLIGTNLLRAYLHGFFIDYRLYKKAKSLADPFAYDAYIEQRKKEKLDEERANRITVKRKLPKVNRRLANQILEEEEAETEKKDEDVNKTKKASKKKKGLNTEIFQDERFAKMFKNEDFEIDELSQEYLALHPVASTKQPSLVEEHFEPVLEDSDQSLSNSDASVVSESEDEPSRDKHKKARAPKLYEVKDERHAEAFWNRVSLAKEERLTMEERIAAIGDSKQDSGILNEVKLGPGGSREISFKPRSSARYKEDDDDDEGPRKNNWRNAESSGPKANKSGSRGRMRPGNSRGRNSRGGNSRGRRGRR Homology
BLAST of Spg028993 vs. NCBI nr
Match: XP_038887856.1 (nucleolar protein 10 [Benincasa hispida]) HSP 1 Score: 819.7 bits (2116), Expect = 1.4e-233 Identity = 435/474 (91.77%), Postives = 451/474 (95.15%), Query Frame = 0
BLAST of Spg028993 vs. NCBI nr
Match: XP_004137047.1 (nucleolar protein 10 [Cucumis sativus] >KGN43690.1 hypothetical protein Csa_017139 [Cucumis sativus]) HSP 1 Score: 816.2 bits (2107), Expect = 1.5e-232 Identity = 432/479 (90.19%), Postives = 452/479 (94.36%), Query Frame = 0
BLAST of Spg028993 vs. NCBI nr
Match: XP_008455234.1 (PREDICTED: nucleolar protein 10 [Cucumis melo]) HSP 1 Score: 814.7 bits (2103), Expect = 4.4e-232 Identity = 431/476 (90.55%), Postives = 451/476 (94.75%), Query Frame = 0
BLAST of Spg028993 vs. NCBI nr
Match: KAG7027704.1 (Nucleolar protein 10 [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 811.6 bits (2095), Expect = 3.8e-231 Identity = 434/474 (91.56%), Postives = 453/474 (95.57%), Query Frame = 0
BLAST of Spg028993 vs. NCBI nr
Match: XP_023540093.1 (nucleolar protein 10 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 809.7 bits (2090), Expect = 1.4e-230 Identity = 437/475 (92.00%), Postives = 454/475 (95.58%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy Swiss-Prot
Match: Q7T0Q5 (Nucleolar protein 10 OS=Xenopus laevis OX=8355 GN=nol10 PE=2 SV=1) HSP 1 Score: 271.6 bits (693), Expect = 1.8e-71 Identity = 174/477 (36.48%), Postives = 284/477 (59.54%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy Swiss-Prot
Match: Q802W4 (Nucleolar protein 10 OS=Danio rerio OX=7955 GN=nol10 PE=2 SV=1) HSP 1 Score: 266.9 bits (681), Expect = 4.5e-70 Identity = 184/516 (35.66%), Postives = 293/516 (56.78%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy Swiss-Prot
Match: Q6NVM6 (Nucleolar protein 10 OS=Xenopus tropicalis OX=8364 GN=nol10 PE=2 SV=1) HSP 1 Score: 265.4 bits (677), Expect = 1.3e-69 Identity = 174/477 (36.48%), Postives = 283/477 (59.33%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy Swiss-Prot
Match: Q5RJG1 (Nucleolar protein 10 OS=Mus musculus OX=10090 GN=Nol10 PE=2 SV=1) HSP 1 Score: 259.2 bits (661), Expect = 9.5e-68 Identity = 170/476 (35.71%), Postives = 268/476 (56.30%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy Swiss-Prot
Match: Q66H99 (Nucleolar protein 10 OS=Rattus norvegicus OX=10116 GN=Nol10 PE=2 SV=1) HSP 1 Score: 258.5 bits (659), Expect = 1.6e-67 Identity = 169/484 (34.92%), Postives = 274/484 (56.61%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy TrEMBL
Match: A0A0A0K1Z0 (NUC153 domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_7G058640 PE=3 SV=1) HSP 1 Score: 816.2 bits (2107), Expect = 7.4e-233 Identity = 432/479 (90.19%), Postives = 452/479 (94.36%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy TrEMBL
Match: A0A1S3C010 (nucleolar protein 10 OS=Cucumis melo OX=3656 GN=LOC103495447 PE=3 SV=1) HSP 1 Score: 814.7 bits (2103), Expect = 2.2e-232 Identity = 431/476 (90.55%), Postives = 451/476 (94.75%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy TrEMBL
Match: A0A6J1I2M0 (nucleolar protein 10 isoform X1 OS=Cucurbita maxima OX=3661 GN=LOC111469983 PE=3 SV=1) HSP 1 Score: 809.3 bits (2089), Expect = 9.1e-231 Identity = 435/472 (92.16%), Postives = 451/472 (95.55%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy TrEMBL
Match: A0A6J1EZS1 (nucleolar protein 10 OS=Cucurbita moschata OX=3662 GN=LOC111440847 PE=3 SV=1) HSP 1 Score: 802.0 bits (2070), Expect = 1.4e-228 Identity = 431/471 (91.51%), Postives = 449/471 (95.33%), Query Frame = 0
BLAST of Spg028993 vs. ExPASy TrEMBL
Match: A0A6J1DWS5 (nucleolar protein 10 OS=Momordica charantia OX=3673 GN=LOC111025246 PE=3 SV=1) HSP 1 Score: 794.3 bits (2050), Expect = 3.0e-226 Identity = 428/484 (88.43%), Postives = 445/484 (91.94%), Query Frame = 0
BLAST of Spg028993 vs. TAIR 10
Match: AT3G56990.1 (embryo sac development arrest 7 ) HSP 1 Score: 504.6 bits (1298), Expect = 9.2e-143 Identity = 288/476 (60.50%), Postives = 358/476 (75.21%), 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.
|