Spg035481 (gene) Sponge gourd (cylindrica) v1
|
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCTGTAATGATGGCTAACATAGGTACAGGCGAAGAAAGAATGGCTGAACTGGAAAGGAAGGTCAACATGCTGATGAAGGCGGTTGAAGAGAGAGATTGTGAAATTGCCTCTCTAAAAAATCACATTGAAAGTCGTGATATCGCTGAATCAAGCCAAACACTCGCTGCAAAGAATAATGACAAAGGGAAGGCTATCATGCAAGAAAACCAGCCTCAGCATTCCACTTCAATTGCTTCGCTGTCCGTTCAGCAACTCCAAGATATGATTATGAGCTCCATTAGAGCTCAATATGGTGGACCTACTCAAAATTCTCTTATGTATTCCAAACCATACACTAAGAGAATTGACAACTTGAGGATGCCTACCGGGTTTCAACCTCCAAAATTTCAACAATTTGATGGAAAGGGGAATCCTAAGCAGCATATTGCTCACTTTGTTGAGACATGCGAGAGTGCTGGGACTCGTGGAGATCTCCTAGTTAAACAATTCGTCCGAACCTTAAAGGGAAATGCCTTTGATTGGTATACTGATTTAGAGCCAGAGATGATCGATAGTTGGGAACAATTCGAAAGAGAGTTCCTAAATCGCTTTTACAGCACAAGGCGAACTGTCAGCATGACAGAACTCACAAATACAAAACAACGGAAAGATGAGCCTGTCATTGACTACATTAATCGTTGGAGAGCTCTGAGTCTTGATTGCAAAGATCGACTCACCGAATTATCTGCTGTGGAAATGTGCATGCAAGGAATGCACTGGGAACTTCTTTATATATTGCAGGGCATAAAACCCCGCACCTTTGAAGAATTAGCAACTCGCGCTCATGACATGGAGCTAAGTATTGCTACTAGAGGGAATAAAGACTTTTCAGTCCCCGATGCGAAAAAGGAGAAGAAAGAAGTGAAGAGCACTGAGAAAATCTTGAAGGGTGCTACAAGGGAATCCATGGTCGTCAATACGACCCCCCTAAAGTTTACCTCTAACAGAAGAGAAAAGAAAATGGAGAAGCGTCAAAATGAAGGCGAGAAATGCCGCCTAACTTTGAAAGAAAGACAAGAAAAAGTCTATCCTTTTCCGGACACTGACGTCCCAGATATGTTAGAACAACTGTTGGAAAATAGACTTATCGAACTCCCTGAATGCAAACGACCCGAAGAGAGGGGAAAAGTAAATGATCCCAATTATTGTAAATATCACCGAGTCGTTAGTCATCCGGTGGAGAAATGTTTTGTGTTAAAGGAGCTAATCTTGAAGTTAGCTCAGGAAAAGAAAATCGAGCTAGATCTTGATGAAGTAGCTCAAACAAATCATGCCGCCATAGTAACTCATCCTAGCGTCCAACCACCTATAAGCTTACCTTATGATCAGAGAGGAAGCTTAATCCAATTTGGTACCTTTGATCCTATTATCGTTTGGTCTCAACCAGAGGCCCTAGGAAATGACTTCCCAGAAAGGGCTCTCTACAATGAGGATGTTCAAGAAAAGATTAGGCAAATTGAAGACGTAGATGGAGGTTGGACACTCGTAACCCGACGGAAGAACCGAAAGCAAAATTGGGTTCAAAAGGAATCTCGTTTGTTTCAAGAACACAAAAGAAAAGGCAAGTCTCGAAGGAAAAATGGGAAGAAGTATATGAGAAGGCTCAAGCCTATCTTAGAGGAAAATGAGGAGCATATCCAACCTCCACATCCAATAACTCTAAAAGAATTCTTCCCAAGAACTTTTCTTGCAGGAATCAATCAAATTGTTACATGTCATGTCGTTGATGTGACAGAAGATGATAATGCTACATCGACTACGTCAGAAGCAATCATGAAGCTGGAAGACCTGCCATCCTTCAATATAGATGATTTACTGTCACTCCCTCAAGAGACCAAAAATACTCTTATTGAGGTGTTAAAGGATTGTAAACCATCTACTTCTCAGACAAATAATGTTGCTCCATGTTGCACATCCATAGCCTTTACCGATGAAGATCTACTACTTGGGTCGAAGCCTCATAATAGGCCTTTGTTTGTCTCGGGCTACATCAGAGAGCAAAAAGTTAGCCGAATTCTCATTGATGATGGTTCTGCTGTTAACATAATGCCCAAGTCTACCATGAACCAACTAGGCATTCTGATGCAAGAATTGTCAAATAGTAAGTTGGTAATTCAAGGATTTAACCAAGGCGGACAACGCGCGATTGGCATGATTCGTCCAGAGCTCATTATTGGAGATTTAAAGGCTAACACCCTATTTCATGTTATAGACTCTAGGACCACCTACAAGTTGTTATTAGGTCGTCCCTGGATTCATGAAAATGGAGTAGTTACTTCCACGCTGCATCAGTGTTTTAAATTCCATCAAGATGGTATCAAGAAGGTTGATGCTGATACCAACCCCTTCACAGAGGCTGAGTCTCATTATGCTGATGCAAAGTTTTACATGAAGAATGACAGTGTGGGGGAAGCTATGCCGTCAGAAGTTCCTTTGATAAAAAGCAGCAACAAACCTGAGCAACAAACAAGCACGAGAAAAGAGCTTAATGAAAAAGCAGAAACTTCTCAGAAAAGCAAGGTACTTTGTTCAGAAGAGAAGAAGACAAACGCTCCTATCTTGCGCTATGTTCCCTTATCTCGACGCAAGAAGGGTGATTCGCCATTTGCAGAATGCTCCAATAATTTAAGAGTTGGCGACATTGAAATTTTGAAAGAGAGTTTTATCACACCTCTTACAAAGATATCCAAACAAGAGGTCAAAGACAAACAAGTAGAAGCAACTCTGCCTGATAAACGAACAAAAGAGGGGTTTGATCCTAAAGCATACAAACTCTTGGCAAAGGCAGGTTATGATTTCACAACGCATACTGAGTTTAAAAGTTTACGAATCTTTGACCAAAGGCCTGAACTTTCCTCAACACAGAAGAAGCTTCAAAAAGAGGGATATGCTATACCCATTTCAAGAGCTGGTCTTGGATATAAATCTCCTGAGCAGGTTCGAATCACAAGAAAAGGGAAAGCGAAAGTTGCAGATACGCTTCACATTACAGTGGAAGAAATCGATGATTCCGAACAGGCTAAAGAAAACATAGATCATAGGACTTCTGCATTTGATCGCATTGGACCGTCGGTTACACGATCCTCGGTTTTTCAAAAACTGAGTACAGCTGCAATAGAAGATGAAAGTCAACATCCAACTCATGGCTCCACACGGCCTTCAACTTTCCAAAGATTAAGTATGGCTTCTGAAGAAAAAGAAAATGTGCATTCAACTCCTACCACACGGCTATCAGCTTTCCAAAGGTTGAGTGTAGCCACAAAAAGAAGTAAAGAACGGTCCCCTATATCAGTTTCTAACATAACAGAAACTCCAATCAAGACAAAGGGTGATGAGAAAATTCGTAGCGTTGTCCCCTCACGAATGAAGAGAAAATTGCTTGTTTCTGTAAATACAGAGGGTTCGTTAAAAATAAAGCGACATGATATTATTATCACAAGACCGAAAGAGAAAAGCCCTGATGATGAAAAAGACACAGTCGTATGCTACCACATCACCACAGAGGAAGAAACGGATCCTGAAACGTCTGAAGAAGATGAAAGTTCCTTAAAAAAAATTCTATGCATGAAATGTAAATACTCCTTATCGTAAGAGTCTAAACTACATGATACTCCTGACCCGCATGAGTTAAAAAGGTGAACGGCACAAAAAAAAAATCAAATTTGTATATTGAACTACGTTATGACTTGATCCCTTCCCACTTGAAGGGTACGTAGGCAACTTAAGAAAAAAAAAAACTTAAGTTCAGTCAAAGCAATAAAAAAATTGTGCCGCAGATAAAGCTTCGAACTTTTATTATGGCATAGACAAACGAAGCATAATGTTTGATACAATGCATTAAAAAAAAAAAAAGTCTTACAGGAGACAAGTCTTAAGGTAAGTAAAAAAGAATTTTGGCTATGAATGGAATCTCAACACTTTTATTTATAGCATGAATGAATAAATGAACAAATATTATTCGACAAACATCAATTGATCAATTAAAAAATGGGACTTTACATCTAATTTGGAAAACAAATGGGGGCAATCAAATCAAATCATCCACTTGAAGTTCCTCAACTCTTCACGTATGTCCTCTAAGTTTTTACGAGCCATGGCTAAAGACTTAACATCTTCATCAGTCATGACAGAGGCACACTCAATATTGGGGATCTCTTCACGGACTTTGGTAACCTCGAGTCTCTGTTGCTTCAAAGTCTTCTCCTCCATCACAAATCAAATTGGAAAGCCTCTCATGCTCGACTAACGTTGTCTCAAGTTTGGCCTCTAATTCCTTTATCTCCAAGGATGATCGTGCAAGCTGTTGTTCGAGTGTGTCATTCAAGGCTTTATTTGTCTCAAAGTACAAGTTCAAGCTTTCCTCGTTTCAAATTGCAGTTCGAGTTTTCCTCGCTTCGAGTACTCCAAGTTCAAGCTTCACTCGTTCCAAGTTCAAGTTCGAGTTTTCATAACTTCAAGTACTCTAAGTTCAAGTTCAGGGTTTCGCTCGTTTCAAGTTCAAGTTTGAGCTTTCCTCATTTCAAGTACTTCAAGTTCAAGCTTTCATCGCTTCAAGTACTCTAAGTTCAAGTTCGGGGCTTCACTCGTTTCAAGTTCAAGTTCGAGCATTCCTCACTGCAAGTACTTCAAGTTCCAGTTCAATCTTCGCTCATTTCAAGTTCAAGTTCGAGCTTTCCTCACTTCAAGTACTCTAAATGTCTGTAATGATGGCTAACATAGGTACAGGCGAAGAAAGAATGGCTGAACTGGAAAGGAAGGTCAACATGCTGATGAAGGCGAGAGGAAGCTTAATCCAATTTGGTACCTTTGATCCTATTATCGTTTGGTCTCAACCAGAGGCCCTAGGAAATGACTTCCCAGAAAGGGCTCTCTACAATGAGGATGTTCAAGAAAAGATTAGGCAAATTGAAGACGTAGATGGAGGTTGGACACTCGTAACCCGACGGAAGAACCGAAAGCAAAATTGGGTTCAAAAGGAATCTCGTTTGTTTCAAGAACACAAAAGAAAAGGCAAGTCTCGAAGGAAAAATGGGAAGAAGTATATGAGAAGGCTCAAGCCTATCTTAGAGGAAAATGAGGAGCATATCCAACCTCCACATCCAATAACTCTAAAAGAATTCTTCCCAAGAACTTTTCTTGCAGGAATCAATCAAATTGTTACATGTCATGTCGTTGATGTGACAGAAGATGATAATGCTACATCGACTACGTCAGAAGCAATCATGAAGCTGGAAGACCTGCCATCCTTCAATATAGATGATTTACTAAAAGAGCTTAATGAAAAAGCAGAAACTTCTCAGAAAAGCAAGAAGAAGCTTCAAAAAGAGGGATATGCTATACCCATTTCAAGAGCTGGTCTTGGATATAAATCTCCTGAGCAGGTTCGAATCACAAGAAAAGGGAAAGCGAAAGTTGCAGATACGCTTCACATTACAGTGGAAGAAATCGATGATTCCGAACAGGCTAAAGAAAACATAGATCATAGGACTTCTGCATTTGATCGCATTGGACCGTCGGTTACACGATCCTCGGTTTTTCAAAAACTGAGTACAGCTGCAATAGAAGATGAAAGTCAACATCCAACTCATGGCTCCACACGGCCTTCAACTTTCCAAAGATTAAGTATGGCTTCTGAAGAAAAAGAAAATGTGCATTCAACTCCTACCACACGGCTATCAGCTTTCCAAAGACTTAACATCTTCATCAGTCATGACAGAGGCACACTCAATATTGGGGATCTCTTCACGGACTTTGGTAACCTCGAGTCTCTGTTGCTTCAAAGTCTTCTCCTCCATCACAAATCAAATTGGAAAGCCTCTCATGCTCGACTAACGTTGTCTCAAGTTTGGCCTCTAATTCCTTTATCTCCAAGGATGATCGTGCAAGCTGTTGTTCGAGGTTTCGCTCGTTTCAAGTTCAAGTTTGAGCTTTCCTCATTTCAAGTACTTCAAGTTCAAGCTTTCATCGCTTCAAGTACTCTAAGTTCAAGTTCGGGGCTTCACTCGTTTCAAGTTCAAGTTCGAGCATTCCTCACTGCAAGTACTTCAAGTTCCAGTTCAATCTTCGCTCATTTCAAGTTCAAGTTCGAGCTTTCCTCACTTCAAGTACTCTAA ATGTCTGTAATGATGGCTAACATAGGTACAGGCGAAGAAAGAATGGCTGAACTGGAAAGGAAGGTCAACATGCTGATGAAGGCGAGAGGAAGCTTAATCCAATTTGGTACCTTTGATCCTATTATCGTTTGGTCTCAACCAGAGGCCCTAGGAAATGACTTCCCAGAAAGGGCTCTCTACAATGAGGATGTTCAAGAAAAGATTAGGCAAATTGAAGACGTAGATGGAGGTTGGACACTCGTAACCCGACGGAAGAACCGAAAGCAAAATTGGGTTCAAAAGGAATCTCGTTTGTTTCAAGAACACAAAAGAAAAGGCAAGTCTCGAAGGAAAAATGGGAAGAAGTATATGAGAAGGCTCAAGCCTATCTTAGAGGAAAATGAGGAGCATATCCAACCTCCACATCCAATAACTCTAAAAGAATTCTTCCCAAGAACTTTTCTTGCAGGAATCAATCAAATTGTTACATGTCATGTCGTTGATGTGACAGAAGATGATAATGCTACATCGACTACGTCAGAAGCAATCATGAAGCTGGAAGACCTGCCATCCTTCAATATAGATGATTTACTAAAAGAGCTTAATGAAAAAGCAGAAACTTCTCAGAAAAGCAAGAAGAAGCTTCAAAAAGAGGGATATGCTATACCCATTTCAAGAGCTGGTCTTGGATATAAATCTCCTGAGCAGGTTCGAATCACAAGAAAAGGGAAAGCGAAAGTTGCAGATACGCTTCACATTACAGTGGAAGAAATCGATGATTCCGAACAGGCTAAAGAAAACATAGATCATAGGACTTCTGCATTTGATCGCATTGGACCGTCGGTTACACGATCCTCGGTTTTTCAAAAACTGAGTACAGCTGCAATAGAAGATGAAAGTCAACATCCAACTCATGGCTCCACACGGCCTTCAACTTTCCAAAGATTAAGTATGGCTTCTGAAGAAAAAGAAAATGTGCATTCAACTCCTACCACACGGCTATCAGCTTTCCAAAGACTTAACATCTTCATCAGTCATGACAGAGGCACACTCAATATTGGGGATCTCTTCACGGACTTTGGTAACCTCGAGTCTCTGTTGCTTCAAAGTCTTCTCCTCCATCACAAATCAAATTGGAAAGCCTCTCATGCTCGACTAACGTTGTCTCAAGTTTGGCCTCTAATTCCTTTATCTCCAAGGATGATCGTGCAAGCTGTTGTTCGAGGTTTCGCTCGTTTCAAGTTCAAGTTTGAGCTTTCCTCATTTCAAGTACTTCAAGTTCAAGCTTTCATCGCTTCAAGTACTCTAAGTTCAAGTTCGGGGCTTCACTCGTTTCAAGTTCAAGTTCGAGCATTCCTCACTGCAAGTACTTCAAGTTCCAGTTCAATCTTCGCTCATTTCAAGTTCAAGTTCGAGCTTTCCTCACTTCAAGTACTCTAA MSVMMANIGTGEERMAELERKVNMLMKARGSLIQFGTFDPIIVWSQPEALGNDFPERALYNEDVQEKIRQIEDVDGGWTLVTRRKNRKQNWVQKESRLFQEHKRKGKSRRKNGKKYMRRLKPILEENEEHIQPPHPITLKEFFPRTFLAGINQIVTCHVVDVTEDDNATSTTSEAIMKLEDLPSFNIDDLLKELNEKAETSQKSKKKLQKEGYAIPISRAGLGYKSPEQVRITRKGKAKVADTLHITVEEIDDSEQAKENIDHRTSAFDRIGPSVTRSSVFQKLSTAAIEDESQHPTHGSTRPSTFQRLSMASEEKENVHSTPTTRLSAFQRLNIFISHDRGTLNIGDLFTDFGNLESLLLQSLLLHHKSNWKASHARLTLSQVWPLIPLSPRMIVQAVVRGFARFKFKFELSSFQVLQVQAFIASSTLSSSSGLHSFQVQVRAFLTASTSSSSSIFAHFKFKFELSSLQVL Homology
BLAST of Spg035481 vs. NCBI nr
Match: KAA0034814.1 (ty3-gypsy retrotransposon protein [Cucumis melo var. makuwa]) HSP 1 Score: 145.6 bits (366), Expect = 1.1e-30 Identity = 157/613 (25.61%), Postives = 225/613 (36.70%), Query Frame = 0
BLAST of Spg035481 vs. NCBI nr
Match: KAA0052361.1 (uncharacterized protein E6C27_scaffold207G002040 [Cucumis melo var. makuwa]) HSP 1 Score: 142.9 bits (359), Expect = 7.1e-30 Identity = 80/151 (52.98%), Postives = 112/151 (74.17%), Query Frame = 0
BLAST of Spg035481 vs. NCBI nr
Match: TYJ98225.1 (uncharacterized protein E5676_scaffold180G001270 [Cucumis melo var. makuwa]) HSP 1 Score: 141.0 bits (354), Expect = 2.7e-29 Identity = 79/151 (52.32%), Postives = 110/151 (72.85%), Query Frame = 0
BLAST of Spg035481 vs. NCBI nr
Match: TYJ98225.1 (uncharacterized protein E5676_scaffold180G001270 [Cucumis melo var. makuwa]) HSP 1 Score: 130.6 bits (327), Expect = 3.6e-26 Identity = 78/176 (44.32%), Postives = 113/176 (64.20%), Query Frame = 0
HSP 2 Score: 141.0 bits (354), Expect = 2.7e-29 Identity = 79/151 (52.32%), Postives = 110/151 (72.85%), Query Frame = 0
BLAST of Spg035481 vs. NCBI nr
Match: KAA0047477.1 (uncharacterized protein E6C27_scaffold498G00940 [Cucumis melo var. makuwa]) HSP 1 Score: 130.6 bits (327), Expect = 3.6e-26 Identity = 78/176 (44.32%), Postives = 113/176 (64.20%), Query Frame = 0
HSP 2 Score: 141.0 bits (354), Expect = 2.7e-29 Identity = 82/176 (46.59%), Postives = 112/176 (63.64%), Query Frame = 0
BLAST of Spg035481 vs. ExPASy TrEMBL
Match: A0A5A7SUA1 (Ty3-gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold213G00480 PE=4 SV=1) HSP 1 Score: 145.6 bits (366), Expect = 5.3e-31 Identity = 157/613 (25.61%), Postives = 225/613 (36.70%), Query Frame = 0
BLAST of Spg035481 vs. ExPASy TrEMBL
Match: A0A5A7UFR3 (RNase H domain-containing protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold207G002040 PE=4 SV=1) HSP 1 Score: 142.9 bits (359), Expect = 3.4e-30 Identity = 80/151 (52.98%), Postives = 112/151 (74.17%), Query Frame = 0
BLAST of Spg035481 vs. ExPASy TrEMBL
Match: A0A5A7TPD2 (Ty3-gypsy retrotransposon protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold129G00470 PE=4 SV=1) HSP 1 Score: 141.0 bits (354), Expect = 1.3e-29 Identity = 82/176 (46.59%), Postives = 112/176 (63.64%), Query Frame = 0
BLAST of Spg035481 vs. ExPASy TrEMBL
Match: A0A5A7TZU9 (Ribonuclease H OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold498G00940 PE=4 SV=1) HSP 1 Score: 141.0 bits (354), Expect = 1.3e-29 Identity = 79/151 (52.32%), Postives = 110/151 (72.85%), Query Frame = 0
BLAST of Spg035481 vs. ExPASy TrEMBL
Match: A0A5A7TZU9 (Ribonuclease H OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold498G00940 PE=4 SV=1) HSP 1 Score: 130.6 bits (327), Expect = 1.8e-26 Identity = 78/176 (44.32%), Postives = 113/176 (64.20%), Query Frame = 0
HSP 2 Score: 141.0 bits (354), Expect = 1.3e-29 Identity = 79/151 (52.32%), Postives = 110/151 (72.85%), Query Frame = 0
The following BLAST results are available for this feature:
Pages
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.
|