Tan0000939 (gene) Snake gourd v1
Overview
Sequences
The following sequences are available for this feature:
Legend: five_prime_UTRexonCDSpolypeptidethree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GGAAACTTTACAATTTCTTAAATTACTCCTACATAATAAATTACCCCTTTTTTTTTTGAGTACAATCCCTACATAATTCCTAAATTATGTTCACAGGAACTTTGAATCTACTTTGAACTCCGAAGTTCTTCGAATTCTCTTTGGAAACCAAAATCCGAAGCTCTACGACGATGGAAGCGACTGCTACCGACATGTCCAGAAGCGGAAGCGTCCAGATTTTCAATCTCTTGGTGAGGCTGTTAGACGGGAAAACCCTAGTTCTGAAATTGACATCCCCCTCTGTACACGGCAATGCCCTCAAGCATCGTCTCTTCGAGACCACTGGAATTCTCCCAAATCACCAGCGTCTTGTCACCGGTGTCCGCCAGATCGAGGACGATTCGGTTGTATCATGTTCCGGTGAGTCTTCTGGAAAATTTCCCACTGTTCATCTTCTGCTTCGGCTCCTGGGAGGCAAGGGAGGGTTTGGATCGTTGCTACGTGGGGCGGCGACGAAAGCGGGGCAGAAGAAGACGAATAATTTCGATGCTTGTAGGGATATGAGTGGGAGAAGGTTGAGGCATGTGAATGCTGAGAAGCGATTGGAGGAGTGGAAAGCGGGAGAGGAGGAGAGGAGATTGGAGAAGGTGGCCGAGGAGTTTCTGAAGAAGAAAGCGAATGTTGGGAAGAAGGGGGTTGGGGAATCTGCAGCTCAGAAGTACGTAGAGAAGTATAGGGAGGAATCTGCACGTTGTGTGGCTGAGGTCGAGGAATCCGTGAGAGATGCGATGATGAAGGGTCGGAATGGAAAAAGGAAGGGTGGCTCGATGGGCAATGTTGCAGATGCGAAAAAGTTGAAGATCTGGTTAGTGTCTTGGCTATTGCTTTTCTTATATGTGTTAGATTATGTCTTAGTTTGCTAATTGGCATTACCAAAGAGCTCTTTTGCCTTCCAAGTGATCTTTCTGATCATAAATCCCAAAAGAAGCTTTATAACTCATAACAAAAGATAACCAGAAAGAAACTGCGCATCATTCTGGTCGGCACCCCTAAGTCTGGACTGCGAAATTAAATGCCTCCTTGCTTTATGTGAAGTCCCCGAGAAATCTTTAAAACCAACTAATGACGTTTTAGAAATCACTTTTTCACCCTAGTTAGGAATTATCAATCTTCTTATTTTTATTTTTTTGGGAACCAATAGTTTTGTAGATGGGATTGTTATGAAATTACATTAGAGTGGAGGAGAGCCAAGCCCCAAATCAAGAAAGATTACCAAAAAAAAACCTGCAATTGATATAAAGATCAAATGAACTGTAACTATTAAAATAGGGACATAATTTATACCAAGATGGGCCATAAAAATTACGTTGTCAAGAAAGATATCTATGGCTTTTTCTATATAGTTGAAGAATCTATGCTTCTTTCTAACAAAAAATTCCAGGAAAAAAAGATCTAATTAATTGTAGCCAAAGAGCCTTCTTTTCCTTTATGAATAAGTGGCAGAACAATGAAGATTCTGAAAAGCCTTTGGTGTTCTTTGCGAAGTCAGTTGCTATTTTTTTTTTTTTTTTTGACAAGAAACAAACACTTTCATTGAAAAAGTAAAAAGAGACTAATCCTCCAAAATAGAAGAACAAAAGAAAAAGATCCTCCACCTTCAGCCATTTCCCAAATCGAAACATCGTCCCCTCCTCACATCCATGAATCCCAAACAACAACCTTATCCACCATAAAAGGATTGATCTGAACTTTAACACGGAAGTAACATTCTAAGACCACGAATTGTGTGCGAAAAGACGGGTAACCACCAACATCTCTTCAAAGCAAAGACTTTACACTTGAGACTTTTTTCTTACCCAACCCTTATGACTCCCAAACTTTTTAAGAAGGGAATCAACATGCCTTACCACTTCTGAATTTTCTCGCGCAACCAGATTTCCTTTCTCCAACAGGCCTTATTTGGTGATCGCTACTTCAAAGGTCTACCTTTAAAAAAATTGTTGCGCCACCCAATTGATCTAGTAAATCACCTATCCTTGGAATAGGGAATCAATATTTGATTGTGATTCTGTTTATGGCTCCGTTGTTTACACACATTCTCTAACTCTCATCTTTTTTTTGAGTTAATAGAGCAACGATTGTACAAGGACTGATGCTTTGTTGTATGTGTCCTTTTTGTAATAAATCGTGAATGTGATCATGAAGGATTTCACATTCTTTTGGACTCAGCTTGTAGTATGGTAGATTAGGTATTGTAGATCCTGGGATGAGGTCTATTTGATGCTGAATGTCCCTTAGAGGAGGTAATTGTGATGGCTCATGGATAAGATCTAGGGTGTGTTTTAGTATTTCATGAATTTTGGCAAGGAAGTCTTGAATTTCCTGCTGTTTTTCTTGGCCACCGACTATCAATTCGAACATTAAGTCTTCTCTTTCTGAGGTCACTTAGTACTGTGAAGAGTTGTCCCCTATTCTTGCTTGTTTGCCCGCCTGGCTTGTCATTTAGGAGCTGTTTGGGGTGCTGAGTGTTTTATAATAACAGGGGGTTATAATAGTCTGTGGATTATTATAATCTGTGGAATCATATTATATTATTTAAAATGCAGAGTAATATAGTTTGGGGTTATAATAGTCTGTGTTTGTGGTACAGAGTATTCCACAAGTTATAATAACACAGGTTATTATAACCTGTGCCCCAAACAACCCCTTACTGTAGGTAGAGGAACTAGGACAATTTTCTTGCCCATCCACATGAATTCATATGTGTTGTCTCTCCTTTTATGTGTCGTTTGCATGTCATATTGCCAAGGGAAACCGAGAAGTATATGACAGACATCCATTTCAAGTACATCACACACTAATTGATCCTTGTAGTAATTTCCCATCAATATAGGTACTGTGCAAATTTCTGATATGTGTGCTTCTCCTCCTTTCTTTATCCAACTGACATGGTATGGATTTGGGTGAGCATTAGTCTTAAGGTTCAATGTGGTGACCAATTTTTTAGAGACAATGTTCTCGCTGCTACCACGGTCAATAATAACATTACAAACCTTCCCATTGGTTGTACATCTTGTCTTGAAAAGAGAATGGCGTTGTGGGTGAATTTCTTTCTTGGGTGTGAGAAGAATTCGTTTTAAAACGCATGAACCAACCTCCTCATCATTGAACTCTTTAACACCAAAAGGCTCTGTAAGGATTCTCCCTCACTCTATATTATATTTACAATCAAAAACTTGCCCAAAGGCTACACAATCACCCAACCAATTTGAGAGGGTTGGTATCTCTCCCTTTCCTTAATTTGCTCTTTGCAAATTACTACTAAAAAACTCACGAGCCAAAACCAAAATGAGAAAAAGGCTGTAAACCCTTCATAACAATCTCTCACTGGTCCCCACCACACTACACTCACTCCCACGATCTCTTTTCTAACTAACTCCCTTTTGAGAAATTCCCTTCTTGCCCCTCCTCTGATAAACCTCCTTAATTGGTGGCCTAACAGGCTCCTCCTTGTGACTAATCGATGACTTAATCTAAAGAGCAACTTTAAAAAACCGAGCAAATAATACTCTTCAAAACTTGAGGGTCTCGGGAGATTGCACAACTTCAACTGCCTTCTAAATGTTGGAATCAAGAATTTTGAAGAAGAGGTATCCAGATTATTGAAATTAAAAAAAAAGAGGGGAAAAAACCTTTATGACCTCTGCATCCTTGTCCTTTCTTAGAATATAATAATTGGAGCAAGTAGAGCAAAATCAGTCTTGAATTTCCTTTACTATACTCGGAATGGGAGGTAGGGAGAAAGCTTTGGAATTCTCATTACAATGATTCTGACTAGAAACAACAAAAGAGACAAGAGGGATCCCATTAACAACCTTCTCCACGTTACAATTCAACTTGAAGAGCACCTTTGTCCGGACTCGAGGCCATAGGCGTAGACACATCTACCAAACGGGAAGAGTTAAGAGCATTTAAATCCTTTTCATGAACCATAATTGACATACTTGGCAGAGGAGATGAATGAGCATCTAACAAAGGGGAAGAGCAAACGACAGGAGAAGATGTTACAACAAGGTTCTTGGAATCACCCTTCATTAATCTCCAAACTTCAAACTAATGACTCCTTGAACTCCTTGCTGCTGGAGGAAGCCAAACCGTTTTCCATATTTAAAGCCAATGACATCAAGGGGCAACTCCATCTACCTCCCATTTATCATGAATTACTTGATAAATGTGACCCAAATCCACAGAATTTGAAACATCTTTCAACCCCAGAGAATCCAATAGCCTAGACCGAATAGCCGAGGAATCAACATCACCAAACTTTAAGGAGAAGGAATCGAGGAGGTTGTCATGAACATCGATTGAAGTAGTGAGAAACCCACTGAGATTTTCCTTAACTTTGATACGAGCCGCCGAAATGTCTAAGAGATTGAAAGTTTTTGTTGCAATGTCTTCCAGGCCCCCGAAATGCAACCCAATGGCTTCAGAAATCCATCTTTTCTAGAATTTGAGAGGCAAGTTTTGGATCGAAATCCAACGACCATAACCACCAACAAATTTGGGGAAACTATGCCGTTGGTTTCACCAATTTTCAATTTTAAGATGAAGCTTTTCTACCACTTGCCATTTGCCAATGTTGGCAAAAATTGAATTATTTAACCCACCTTCTACTTGAAGAATGACTTAAAGAACCATGACAAGATTAATTTGAGCTTTAATCTGAAAAAAAAATCCTCCAAAGACTCCTTGATGAAACTCCTAGAAATGTGAGCAAAAAGACGAGATACCTCCAACAAATTTGCAAAATCAACATCGACCACCCCATCTGACTTCCTAATCCTAAAGGAAAGAGGGGAAAATGCAACCACCCTCGAACGATTCAAACTGCCTGGAATGAGCTTAGCCTCAGCCATAGTCCCAATACCCACCCTTTCATAAGACAACTTTCGTCGAGCCGCTGATCCATCCATAAATGGAGAATCATGCTTCCTTAAAAAATCAGAGAGCATTTCATGTAATACCACCTACAGAGAAAATTTCGTCCACTTGCAAGAGACCAAACAACAGTTTCAGCGAACCAAGTACCACCTCTTCTAGTCTTGAATTAGCCAAGTGTAGCTACTTGTCTTTGAATTTTCGCTGCAGGAAAAAAGACTTAGTCTTATGGACAATCTCAACAAAGGATACATCAAACCATCTCAGATGGATCAAAGAGAGCGAAATCTTAAAATCGTTGGAGGTGTCCTCGATGAAGAAAGATGAATTGTCACACCAAATACAGAAATAAGTGTTGCTAATACAACAATTAGAGATTTCCACGACTTCCTAGAAACCAACGAAAGAGGCAACAGAAAGCAACGAGGGTAAAGGCTCAGATGGAAATGGAAGAATGCAATCAGTCAAAGGAACTCGAAAAACCGACTGAGATCGGGTAAAACCGAGCAAGGAGAACGATCGCCCAACACTAATGGAACGACAAGATAGAAGGAGATTGGAAGGGCAGGAAACAAAGAGATGATGAATGGAAAAGGCTATCAGGACGAAATCGGAGAAACGGTGAGCGAACAAGGCTAGCGGGAGGAGAGAGAAGAGAGAAAATGGGGTTGCATTATCATTTGTCATTGGAAGTCCGTTGCTAATTAGATGTTGGGTGGGCATAATTTAGTTGTTTTTTCCACTGAAAGTTTATTTGCCGAAAGGAAATTGAAGCCTCATTTGCAGCTAGGGTGTAGATGCTAGAAACCTCGTCATATTATAAAGCTAGCTTTTCTATGCGGTTGAACCCATAGGATAAAGAGTTTTACGGTGTGAAGTGTGGGAGCAGTTTGATTAAGTTTGTTTTATGAGTTCGAAAAGTTTCTCCGTTTAATTCTTTATAAGTTTCTTTTACCTTTTTTTCGTTGGGGGGGGGGGGGTGTTTGACTAGGAAACAACTTTCCATTTAAGTTATGAAAAGTAGCAAGGTTAAAAACCCCTTGTAGGAGCATATCAAGATTCCTTACTGCCTTTCACATCAAGAAAGATACAGTATTTAAGTAAAGTAACCCCAGAAAGTTCAACAATCGGCATTAAGAGAATATTCAAATCTCAAACTCAGCTGCAAATAAAAGGAGAACCAGTCATTAAAAGGTAGCCTTTTAATTAAGAATACGTAAAGATGGATCTAACCAACAAAGAACATATTCACCATCAAGCCACTAAGAGACAAAATCTGGCCTAAAACTCCTCCAAGAAGCTATTAAAAGAGGATCAAAACAACTACAAATTCTGCAAGAAATTATTGAGATAATGTAACATTAATTAACATCACTTTCTTCTATTAGTCTACTATTGACGAATTATTTAGAACCTGGAGATTTTAAATGTATTCATTTCCTATAAATTAACTGAGCATTTTCTTATTAGATTTGTGCCAATATTTTTTGTTTGCCAGGATGGGCAAGAGGAAAATGGGTGAAAGTGATAGCGATGATTCGGATGAGGATGACACTGAAAAAGAAGAGGAAAGCGAGAAATCAGTCATCTTGAATGATGGTACATGTGATTTAAATAAGGACGTTGAAGGGAGCTCAGACTCTGTTCACTTTGGTAAACATGGGGATGGTTCTGGTGGAGCCTCGTGTGAAAGTGGTTCCGAGGAAGAAAAGGACTTGGCAGTGCACGGAACTGTGGAATTAATTGGAAGCTCCAGTGAAAAAGCTACTCATTCTGAACGGGTTGATGAGGTTGAGATGAATGATCAGATAACTCAGGGTGCAGTTGAACCTTGTTCAGAGGCTGTTGCTGTTTCTCCCCATCAAGAAGACAAGGTTGTAAAGCAGGATGCTCATGAGGTTGAAATCGCTAACACAGAAGATGTACCTGCTGATTCACAAGATATATCAGGTCCAAATAATGATGATGTTATTGAAGATTTGTTGAGGCTTCCTGAACCAAATGGCTCTCCAGTGTCCAAGTTGAGTGACCATGAGGAAACAACTACAAATACTAGTAATTCAGAAAAACCACTGAATTTTGATGATTTTAGTTCTGCTGCTGCAATGGAGGTATGCTCAAGAAATCCAATTAACATTTTCTTATGCACTTGATTTTATTGTAAAATTACCTTTCTCGTTTTTTCCTTCCGCTGGGTTGCACTGAATCGATAAGTTTCCTCAAAAAAAAAATAAAAAAAAAAGAAGCAAAAATCTATGTTCTGGTTGCCGTTGCAAGTATATAATTGTGTATGACATGGCAATACCTTCACACATGGTTTAAATTCAGAAAATTTCATAAGGGGCCTAAATTTTATGTTCTAACATTATATATTTGTAATCCACTCATTCTAAAAGTTGAAGGGGACAAATTAGATAAAAGTAATATAACTTAGGTTTATATGGTTATATGTGTATGTACTTTATTATGTATACTGGTATTCAATATATGTTATATACACATTATGGCAAACTTTGTCCTTGTTCTTGGCTCTGCGACTTCATTTAGAAAGGTGGCTTTAGGTCATATTGTGAAGATTTATTATTTCCTTTATATTGTTTACCGAAGTAAGAATGTGAATTATACTTGCTTACAAGCATATTTAAATACCTTGCACAGTGTTGATGATCCCATGTGCATTTCGATACATGCCTTGTGGAACATGCCAATATTTTCGTTTTCTTTTTCCTCTTATTTTTGTTAAGAGTGCTGTCTGTAGTCAGTTTACTAGGAAAATAAGTTTCTTGCCGATGATTTTTCTAAGAGTAATTTTCTTAAAACTTTAATAATGTTAGTTTATGCCACAAATTTTGAACTCTGAAGGACTTATAACTAACCGGCTATGTTTGTTCGTGGTAAGCATTATTGCTTTCGGGATCTGAAAGTGAATGAAACTCCTATTGTGATTCTAGCATTATAATTCATATTATTTGGCCTTGTTACCCAGGTTCTTGGCTTGGAAAAGCTAAAGTCGGAATTGCAAGCACGTGGCCTAAAATTTGGAGGTACTTTGCAAGAGAGGGCAGCAAGGCTTTTCCTGCTCAAGTCTACCCCTTTGGACAAGCTTCCAAAGAAACTTCTGGCCAGAAAGTGACTGTAAATTTTTGTTATCTGACTTTTGTAGCGACTCAACTCCATACATATGTGATGATCTTATTGCACTTTTAATCATTTTGAAAGAGATCTTATTGTAGATTGTGGTCTGAAGAACTCAACCAGTGGTCAAGTAGTCGGGGTTGTGTATCCATTACACTTTTGATATTGTCATAAATATAAAATTACTAAAATGATGCTTTTGTTCTTGCTTTATTTATTTATTTATTTTTATTGGAGTTATTGCGGGAGAATTGTAAATATTTGTATAAATGACACTAGCGATTGCGCTATCAAACTTTTATTTGTGTTA GGAAACTTTACAATTTCTTAAATTACTCCTACATAATAAATTACCCCTTTTTTTTTTGAGTACAATCCCTACATAATTCCTAAATTATGTTCACAGGAACTTTGAATCTACTTTGAACTCCGAAGTTCTTCGAATTCTCTTTGGAAACCAAAATCCGAAGCTCTACGACGATGGAAGCGACTGCTACCGACATGTCCAGAAGCGGAAGCGTCCAGATTTTCAATCTCTTGGTGAGGCTGTTAGACGGGAAAACCCTAGTTCTGAAATTGACATCCCCCTCTGTACACGGCAATGCCCTCAAGCATCGTCTCTTCGAGACCACTGGAATTCTCCCAAATCACCAGCGTCTTGTCACCGGTGTCCGCCAGATCGAGGACGATTCGGTTGTATCATGTTCCGGTGAGTCTTCTGGAAAATTTCCCACTGTTCATCTTCTGCTTCGGCTCCTGGGAGGCAAGGGAGGGTTTGGATCGTTGCTACGTGGGGCGGCGACGAAAGCGGGGCAGAAGAAGACGAATAATTTCGATGCTTGTAGGGATATGAGTGGGAGAAGGTTGAGGCATGTGAATGCTGAGAAGCGATTGGAGGAGTGGAAAGCGGGAGAGGAGGAGAGGAGATTGGAGAAGGTGGCCGAGGAGTTTCTGAAGAAGAAAGCGAATGTTGGGAAGAAGGGGGTTGGGGAATCTGCAGCTCAGAAGTACGTAGAGAAGTATAGGGAGGAATCTGCACGTTGTGTGGCTGAGGTCGAGGAATCCGTGAGAGATGCGATGATGAAGGGTCGGAATGGAAAAAGGAAGGGTGGCTCGATGGGCAATGTTGCAGATGCGAAAAAGTTGAAGATCTGGATGGGCAAGAGGAAAATGGGTGAAAGTGATAGCGATGATTCGGATGAGGATGACACTGAAAAAGAAGAGGAAAGCGAGAAATCAGTCATCTTGAATGATGGTACATGTGATTTAAATAAGGACGTTGAAGGGAGCTCAGACTCTGTTCACTTTGGTAAACATGGGGATGGTTCTGGTGGAGCCTCGTGTGAAAGTGGTTCCGAGGAAGAAAAGGACTTGGCAGTGCACGGAACTGTGGAATTAATTGGAAGCTCCAGTGAAAAAGCTACTCATTCTGAACGGGTTGATGAGGTTGAGATGAATGATCAGATAACTCAGGGTGCAGTTGAACCTTGTTCAGAGGCTGTTGCTGTTTCTCCCCATCAAGAAGACAAGGTTGTAAAGCAGGATGCTCATGAGGTTGAAATCGCTAACACAGAAGATGTACCTGCTGATTCACAAGATATATCAGGTCCAAATAATGATGATGTTATTGAAGATTTGTTGAGGCTTCCTGAACCAAATGGCTCTCCAGTGTCCAAGTTGAGTGACCATGAGGAAACAACTACAAATACTAGTAATTCAGAAAAACCACTGAATTTTGATGATTTTAGTTCTGCTGCTGCAATGGAGGTTCTTGGCTTGGAAAAGCTAAAGTCGGAATTGCAAGCACGTGGCCTAAAATTTGGAGGTACTTTGCAAGAGAGGGCAGCAAGGCTTTTCCTGCTCAAGTCTACCCCTTTGGACAAGCTTCCAAAGAAACTTCTGGCCAGAAAGTGACTGTAAATTTTTGTTATCTGACTTTTGTAGCGACTCAACTCCATACATATGTGATGATCTTATTGCACTTTTAATCATTTTGAAAGAGATCTTATTGTAGATTGTGGTCTGAAGAACTCAACCAGTGGTCAAGTAGTCGGGGTTGTGTATCCATTACACTTTTGATATTGTCATAAATATAAAATTACTAAAATGATGCTTTTGTTCTTGCTTTATTTATTTATTTATTTTTATTGGAGTTATTGCGGGAGAATTGTAAATATTTGTATAAATGACACTAGCGATTGCGCTATCAAACTTTTATTTGTGTTA ATGGAAGCGACTGCTACCGACATGTCCAGAAGCGGAAGCGTCCAGATTTTCAATCTCTTGGTGAGGCTGTTAGACGGGAAAACCCTAGTTCTGAAATTGACATCCCCCTCTGTACACGGCAATGCCCTCAAGCATCGTCTCTTCGAGACCACTGGAATTCTCCCAAATCACCAGCGTCTTGTCACCGGTGTCCGCCAGATCGAGGACGATTCGGTTGTATCATGTTCCGGTGAGTCTTCTGGAAAATTTCCCACTGTTCATCTTCTGCTTCGGCTCCTGGGAGGCAAGGGAGGGTTTGGATCGTTGCTACGTGGGGCGGCGACGAAAGCGGGGCAGAAGAAGACGAATAATTTCGATGCTTGTAGGGATATGAGTGGGAGAAGGTTGAGGCATGTGAATGCTGAGAAGCGATTGGAGGAGTGGAAAGCGGGAGAGGAGGAGAGGAGATTGGAGAAGGTGGCCGAGGAGTTTCTGAAGAAGAAAGCGAATGTTGGGAAGAAGGGGGTTGGGGAATCTGCAGCTCAGAAGTACGTAGAGAAGTATAGGGAGGAATCTGCACGTTGTGTGGCTGAGGTCGAGGAATCCGTGAGAGATGCGATGATGAAGGGTCGGAATGGAAAAAGGAAGGGTGGCTCGATGGGCAATGTTGCAGATGCGAAAAAGTTGAAGATCTGGATGGGCAAGAGGAAAATGGGTGAAAGTGATAGCGATGATTCGGATGAGGATGACACTGAAAAAGAAGAGGAAAGCGAGAAATCAGTCATCTTGAATGATGGTACATGTGATTTAAATAAGGACGTTGAAGGGAGCTCAGACTCTGTTCACTTTGGTAAACATGGGGATGGTTCTGGTGGAGCCTCGTGTGAAAGTGGTTCCGAGGAAGAAAAGGACTTGGCAGTGCACGGAACTGTGGAATTAATTGGAAGCTCCAGTGAAAAAGCTACTCATTCTGAACGGGTTGATGAGGTTGAGATGAATGATCAGATAACTCAGGGTGCAGTTGAACCTTGTTCAGAGGCTGTTGCTGTTTCTCCCCATCAAGAAGACAAGGTTGTAAAGCAGGATGCTCATGAGGTTGAAATCGCTAACACAGAAGATGTACCTGCTGATTCACAAGATATATCAGGTCCAAATAATGATGATGTTATTGAAGATTTGTTGAGGCTTCCTGAACCAAATGGCTCTCCAGTGTCCAAGTTGAGTGACCATGAGGAAACAACTACAAATACTAGTAATTCAGAAAAACCACTGAATTTTGATGATTTTAGTTCTGCTGCTGCAATGGAGGTTCTTGGCTTGGAAAAGCTAAAGTCGGAATTGCAAGCACGTGGCCTAAAATTTGGAGGTACTTTGCAAGAGAGGGCAGCAAGGCTTTTCCTGCTCAAGTCTACCCCTTTGGACAAGCTTCCAAAGAAACTTCTGGCCAGAAAGTGA MEATATDMSRSGSVQIFNLLVRLLDGKTLVLKLTSPSVHGNALKHRLFETTGILPNHQRLVTGVRQIEDDSVVSCSGESSGKFPTVHLLLRLLGGKGGFGSLLRGAATKAGQKKTNNFDACRDMSGRRLRHVNAEKRLEEWKAGEEERRLEKVAEEFLKKKANVGKKGVGESAAQKYVEKYREESARCVAEVEESVRDAMMKGRNGKRKGGSMGNVADAKKLKIWMGKRKMGESDSDDSDEDDTEKEEESEKSVILNDGTCDLNKDVEGSSDSVHFGKHGDGSGGASCESGSEEEKDLAVHGTVELIGSSSEKATHSERVDEVEMNDQITQGAVEPCSEAVAVSPHQEDKVVKQDAHEVEIANTEDVPADSQDISGPNNDDVIEDLLRLPEPNGSPVSKLSDHEETTTNTSNSEKPLNFDDFSSAAAMEVLGLEKLKSELQARGLKFGGTLQERAARLFLLKSTPLDKLPKKLLARK Homology
BLAST of Tan0000939 vs. ExPASy Swiss-Prot
Match: Q7T293 (Replication stress response regulator SDE2 OS=Danio rerio OX=7955 GN=sde2 PE=2 SV=2) HSP 1 Score: 105.9 bits (263), Expect = 1.3e-21 Identity = 133/481 (27.65%), Postives = 211/481 (43.87%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy Swiss-Prot
Match: Q07G43 (Replication stress response regulator SDE2 OS=Xenopus tropicalis OX=8364 GN=sde2 PE=2 SV=1) HSP 1 Score: 95.9 bits (237), Expect = 1.3e-18 Identity = 134/444 (30.18%), Postives = 184/444 (41.44%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy Swiss-Prot
Match: Q6IQ49 (Replication stress response regulator SDE2 OS=Homo sapiens OX=9606 GN=SDE2 PE=1 SV=1) HSP 1 Score: 86.3 bits (212), Expect = 1.0e-15 Identity = 124/435 (28.51%), Postives = 192/435 (44.14%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy Swiss-Prot
Match: Q6NRI5 (Replication stress response regulator SDE2 OS=Xenopus laevis OX=8355 GN=sde2 PE=2 SV=1) HSP 1 Score: 85.1 bits (209), Expect = 2.3e-15 Identity = 113/395 (28.61%), Postives = 172/395 (43.54%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy Swiss-Prot
Match: Q5RET9 (Replication stress response regulator SDE2 OS=Pongo abelii OX=9601 GN=SDE2 PE=2 SV=1) HSP 1 Score: 84.3 bits (207), Expect = 4.0e-15 Identity = 114/404 (28.22%), Postives = 170/404 (42.08%), Query Frame = 0
BLAST of Tan0000939 vs. NCBI nr
Match: XP_038875299.1 (replication stress response regulator SDE2 [Benincasa hispida]) HSP 1 Score: 711.4 bits (1835), Expect = 5.0e-201 Identity = 394/477 (82.60%), Postives = 420/477 (88.05%), Query Frame = 0
BLAST of Tan0000939 vs. NCBI nr
Match: XP_004140590.1 (replication stress response regulator SDE2 [Cucumis sativus] >KGN46346.1 hypothetical protein Csa_005291 [Cucumis sativus]) HSP 1 Score: 705.7 bits (1820), Expect = 2.8e-199 Identity = 386/470 (82.13%), Postives = 412/470 (87.66%), Query Frame = 0
BLAST of Tan0000939 vs. NCBI nr
Match: KAG7025327.1 (Protein SDE2-like protein, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 702.6 bits (1812), Expect = 2.3e-198 Identity = 390/482 (80.91%), Postives = 422/482 (87.55%), Query Frame = 0
BLAST of Tan0000939 vs. NCBI nr
Match: XP_008460000.1 (PREDICTED: protein SDE2 homolog [Cucumis melo]) HSP 1 Score: 702.6 bits (1812), Expect = 2.3e-198 Identity = 386/470 (82.13%), Postives = 416/470 (88.51%), Query Frame = 0
BLAST of Tan0000939 vs. NCBI nr
Match: XP_023005011.1 (protein SDE2 homolog [Cucurbita maxima]) HSP 1 Score: 702.2 bits (1811), Expect = 3.1e-198 Identity = 390/480 (81.25%), Postives = 423/480 (88.12%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy TrEMBL
Match: A0A0A0KEZ6 (Ubiquitin-like domain-containing protein OS=Cucumis sativus OX=3659 GN=Csa_6G087750 PE=3 SV=1) HSP 1 Score: 705.7 bits (1820), Expect = 1.3e-199 Identity = 386/470 (82.13%), Postives = 412/470 (87.66%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy TrEMBL
Match: A0A1S3CBI3 (protein SDE2 homolog OS=Cucumis melo OX=3656 GN=LOC103498946 PE=3 SV=1) HSP 1 Score: 702.6 bits (1812), Expect = 1.1e-198 Identity = 386/470 (82.13%), Postives = 416/470 (88.51%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy TrEMBL
Match: A0A6J1KTR5 (protein SDE2 homolog OS=Cucurbita maxima OX=3661 GN=LOC111498131 PE=3 SV=1) HSP 1 Score: 702.2 bits (1811), Expect = 1.5e-198 Identity = 390/480 (81.25%), Postives = 423/480 (88.12%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy TrEMBL
Match: A0A6J1H6Y8 (protein SDE2 homolog OS=Cucurbita moschata OX=3662 GN=LOC111461065 PE=3 SV=1) HSP 1 Score: 702.2 bits (1811), Expect = 1.5e-198 Identity = 389/482 (80.71%), Postives = 423/482 (87.76%), Query Frame = 0
BLAST of Tan0000939 vs. ExPASy TrEMBL
Match: A0A5D3DLW6 (Protein SDE2-like protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold266G001340 PE=3 SV=1) HSP 1 Score: 698.4 bits (1801), Expect = 2.1e-197 Identity = 384/470 (81.70%), Postives = 415/470 (88.30%), Query Frame = 0
BLAST of Tan0000939 vs. TAIR 10
Match: AT4G01000.1 (Ubiquitin-like superfamily protein ) HSP 1 Score: 331.3 bits (848), Expect = 1.3e-90 Identity = 225/460 (48.91%), Postives = 283/460 (61.52%), Query Frame = 0
BLAST of Tan0000939 vs. TAIR 10
Match: AT3G06455.1 (ubiquitin family protein ) HSP 1 Score: 191.8 bits (486), Expect = 1.3e-48 Identity = 166/467 (35.55%), Postives = 220/467 (47.11%), Query Frame = 0
BLAST of Tan0000939 vs. TAIR 10
Match: AT5G06160.1 (splicing factor-related ) HSP 1 Score: 56.2 bits (134), Expect = 8.2e-08 Identity = 32/60 (53.33%), Postives = 40/60 (66.67%), Query Frame = 0
BLAST of Tan0000939 vs. TAIR 10
Match: AT1G55060.1 (ubiquitin 12 ) HSP 1 Score: 49.3 bits (116), Expect = 1.0e-05 Identity = 36/108 (33.33%), Postives = 56/108 (51.85%), Query Frame = 0
BLAST of Tan0000939 vs. TAIR 10
Match: AT5G37640.1 (ubiquitin 9 ) HSP 1 Score: 47.4 bits (111), Expect = 3.8e-05 Identity = 35/108 (32.41%), Postives = 56/108 (51.85%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Snake gourd (anguina) v1
Date Performed: 2021-10-25
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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