Tan0001022 (gene) Snake gourd v1
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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.ATCAAGTGTCAGTGAGTGGGAACCTCACTGTCCCTCCTTAGCCGCCATTTTCTGCACCTCGAACATCCAATCAAGAACACCACCGTGAGAATGACAATTCCTACCCATTCCAATTCGCCCTGAACAAAGAGAGAGAGAGAAAAAAGAAGGTTCGGTCGGAATTCAACAGATAGAATCAGAATCAGAAGACAAAATCCATCTCCCGTTCGATATGCGGAGCTTCTCAGCACACTCCCATGGAGCGTCTCTTCTAATTCTCATCACCACTTCAAGTAAACCATCTCTTGTTTATCTCTATATCGTCATCATTTGATTCCTGATATAGCTTTGAAGAATGGCGATTGAAACTCATGTTTCGTAAGCCGAGAAATGCGTTCTCACGACTTAAGACCCCCCATTTTGCAATGCGGCGAATTGAAACTCATGTTACTGGAATTTCTTTCAGGTTTGCTTGGAGTTGCGTTTGGTGGAGAAGGGTATTGTTCAGCGCCCTCCATTATAGATTCGGATGCCGATTCGAAGCCTTTGTATTATAAAGTGACCAATCCCACTCTTTCTCCTTCTCATCTACAAGGTTGGTTAATTTATGTGATGGATTAAAGGGACCTTGTGTTCAAATGAACTTTTTCAAAAACGTGGTGAGAATCTGTACTTGTTATGAAGTGGGTTTTGAGGAATTTCCATATTTTCTTTTTTATTATATGGTTTGATCATGTACTTACTTCTGGGTGTCAAAATGAGTGTTCAACTAATCTTATGTGGAGTATGCTGTTGAAATTTTCCAGTAGGGTTGACCGAGTGGTCAATAAAGGCCATAGGAATAATAAAAAGCTTTGGGAAAACGAGTTGAATCCAATCATCATCTACCTAAGATTTAATATTCTACCTGTTTGCATAGCAAACAAATGTATTAGGGTCATGCGACTGTTCTATGAGATCAGTAGAGGTGAGCAAGCTAACTTCAACATTCATTGGCATAAAAAAAAAAGAAGAAGATTGTAGTTACTGTTTGAATGAGATGGAAACTGCTTGAAACTGAGTTACATTTTCTTAAAGTGAACCGAAATGTAGAAACTGATCCAGAGCTTTAGAGATGTCTTAAAACACTTAACGATGATTTGGTGATGACATTAAGAAATTAAGATTTATGTTTGATTGAAGCTCCTTTTTGTTTTAGTTTGGCTTGTATGTCCCTTATATTCTTTCATTTGTTCTCAATGGAAGTTTGGTTATTCATAAATTTAAAAAAGAAAAAGTAAAAGAAAAAATTAATATTCATGTTCGGCTATCACCAGATCATAATGTCTATTTTGGTAAAAAAATTCTTTATTTTTCAAGAATGTAAAATTAAAACAGTTCTTTTGGGGATTTGGTTTGAATAATTTAAAATCAAAACGTGATAACAACATATTACTATCTCGACTTCACTTGATTTGCATTTGCAGATTTACCTGGTTACACACGCAGTGTTTACAAAAGGGATCATGCCTTGATAACCCCGGAAAGTCAAGTGTTTAGTTCTCTACCCGAGTGGTAATTTTGGCCTTCATTTTACTTGATCATTCATGTTAATATTCTTTGTACGACCTGTAACTTTTTTTTCCCTTTGCAGGACTAAAACACTTGGCGCATATTTAATCACGCCAGCACTTGGTGCACATTTTGTGATGTATCTTGCGCAGATGCAAGGTTTAGTTAAACTTTGTCATGAAATCTTTACGTATTGCATATGTGAATACGCGAGGAGTCTTTTTCATAATATTTTATTTATATGTTCTTTTATTGCACGAGCTGCAGAGAAATCGAAATCAGGATTGCCTCCACGTGATGTTGAGAGGTGTATTTCCGTTTGCCTTCTCTATCTAGTCCCATTGCAGAGAAATTGATAATATTTGCCTAATATTTGTATCATGCAATTGACATTTCAAATTTTCATCTATGGTCTTCATACTAGGTTTTTATTTGTTATTCAAGGAGCAGTGAAACTTACAAATTCGTCCGGCATTAGTGAAAAACTCACGGTGAGACAGAGTGGTCTACTTGTATATATTTCTTCTCCATTGTCAGATGCATGTTTTGTTAGGCTTATTTTGTTAGTTAAGTTTCAACCATTTCCATGTCTAAAAAGTCATACTTCATACGTCAGGATTTCATTTGATCTTCTCAAGGCTGCAAATCAGTTCATACATGAAATGTTTATGCTGAATATGATTCCTATTCCTTCAGCATATTTCTTTATTGTCTTGTTTGAATGTTTGGGCATCAGGAAGGCTGGGGATTTGCTGTTAGTGAATAAGTTCACATACAAGTGCAGCACACTGAGTTTTATAGATTGTGTATAGATGGCTTCACTTTTATTTATGGGAAACAGTGATTTGTGCTCATGTAGATAGTTACCCGCACTCTGTTTTTTCTGATTGATAATTGGGTTGTTTGCTGAGTGAAGTTGCTCCTGGGATATGATAGCCAGTTAAGAAGTCTGATGATATTTATCAACATGTGAAATGCAGGTCGATTTGTTTGCTTATCTACCTCCAAATTTCGATCATTCCATCAAGTGCGACTCTTCTGCAACTCTTGTGGTGTTTGAGAGAAGGTTTTTTTCTACCTATTACCTATAATATGCATGAATGGCTTCACATTTGTGCAGAGTCATCCCTACCCCAGTTCATAAAGTATTTATGAATACTTATATGTATATGCAGTTTCACCCAAAACCAATGTTCTGGGAAATGATTACGAAACTGCTTTATCTGTTCACTATAGCTAATGTTACATATGTCATTTACATCAACAGTGTGGAAGTAGGAAATGCTTCAATTACATTGTGTTAGGAAAGGGTAATTGACTTAAAAGTTAGTTAGAGAAGGATTAGTGGGGAGTGAGCTCCGTACTGGGAGGGACCAGAGAGAGAGAAGAGAGAATTAGGAGGAGGGTCGAGTATTTTTTGTTGAGGCAGGGGTTTTTGCAGGGTTTATCGACTTTTTGGTGAAGTATTTTGTAATAGAAACAGTAGGAGAGACCAGACCCTCTCAAATTGGCTGGGTTTTACTGTGATTTTACTCGAAAGATAGTAATTGTAAGGAGAATCCTTACACATTTTGGCGGATAAACAGTTCCACCTCTCATGACTTGGACATTCTCATTGAATCAGGTATGCTTCTCTAGAGAATTATCACACCGAGCAGATCATTGGTTCAACAGAAAAGCAGCCCCTCCTTGAAACTCCTGGTGAGGTAAGCAAGGATTTTTCTCCTTGCTTCAGGAAGGTTAAAAGTTTCTTTTGGAAAAGGAAACCCAACTTTTCATTGATAATATGAAAAATTACGAGTAAAGATACAAGAACTCAGTAAGAACTGCTATAGATTTGAATTTTGAAATTTAATAAACTATCCTTGGAACAAATGGTTGTTCTGAACATCTTGTTAGATATGTTCTTGTATCAGCCTATAATATGTTTTAAAGTTCTTCCTTGTGTTGCATCACATTACCAGGTCTTTCAACTTAGGAAGCTCCTTCCCATGTCCATGCCGTATGACTTCAACGTCCATGTAAGTCATGAGTTGCAATTGGAAGATTAGTTCTTCTGTCTCTGTCACGAGCTTTCTCATCGTTCAATTTGTATATCTTGGCCCTCCAGATTATGGATTTCGAACCTGGAGAGTTTCTTAATGTGAAGGTAATTTCATAAAATTCAAATCTTGCATTTACTAGCTTTGGTTGGTTTGAAGCTTCCTATGTTATTCAATGGAAGAATACACTCCTTGTAAATTGATTTCTTGTTAAAAGAATACATTCTTTCATTAAAAAAAAAGTTAAAAATTCTAACATATAGAAGACATGGCTTTGGAAGTTATTCCAGTTTAAGTCTCTTAATTATATTTTTTTTGTTAAATGGTGACAGGAAGTTCATTATAATCAGCATGGTTTGTTGCTCTTAGAGGGCCAGGGCATTTATCGTCTGGGCGATGACTGGTAGATATTTCATTATTCTTAGTGTATTGTTGGAAGGCTTTCTTATATATAAGTTCGAAACTAGTTTCACATTACTGGGGACAGAGTTGAAAATTTTCTTAGAGTGGACAAAATTTTACATTTGAACTTTTCGTATATATTCATCTCTCAATTTTGCCAACTTGAATATTGCTCATCAGTTAAGATATATACCCTTGACCAAGAAGTCAAAAGTTCGAATCTCCCACTCTACATGTTGAATTCAAATAGAAAAGAAAAAAGCTTTTAGCTCTAAAATTTATCGAGGAAATTTAGAAGGCCGGCCCCTATCCTTCCTTATTCGCTCCACCCTCCTGGACATCATCCATTCATCACAAAGCTATTAGCTCACTATACAGCAAATGAATCTTTATAAGTACCAAGCAGATTGAAGGTAGCGATAAGAACCATGGATTTCAAATATACGATAGATATGGATTGCTTTTATCTTCTAAGCTGCACTGTAGGATTCTTATGACATGTGACGAAAATAAAAGAAAAACAATTCGTTTTCATTCTAAAAGACAGGAACAGAAAGTTCATATTCAAAATATTCCACATAGCCCTTTGTTCTTATTCTTGTTGCTGTTCTTGCAGGTATCCTGTTCAATCTGGTGATGTCATTTGGATGGCTCCCTTTGTACCACAATGGTCAGTGAAATCCATCTATGTTGGTATTTGTTCTTATGGACATTACAGTGTAGTGTAAACCAACTGGGTTCGGGTTTATATGATCTTTTCAGGTATGCTGCGCTCGGAAAAACACGAAGTCGCTATCTGTTGTACAAGGATATGAACCGAAACCCTCTCGATCACAAGTAATGTGTTGTTGCAACATTGTAAGATTACTATCATGTGAACTGGTAGGATTTCTTTTAGATTGTTCAAATGAAACAGTGCTTTTGACTCTGCAGATCCGTTTGATTTGAGTAAAGCTTTTAAGGTTAACCTTAATCAAGTGTCAGTGAGTGGGAACCTCACTGTCCCTCCTTAGCCGCCATTTTCTGCACCTCGAACATCCAATCAAGAACACCACCGTGAGAATGACAATTCCTACCCATTCCAATTCGCCCTGAACAAAGAGAGAGAGAGAAAAAAGAAGGTTCGGTCGGAATTCAACAGATAGAATCAGAATCAGAAGACAAAATCCATCTCCCGTTCGATATGCGGAGCTTCTCAGCACACTCCCATGGAGCGTCTCTTCTAATTCTCATCACCACTTCAAGTTTGCTTGGAGTTGCGTTTGGTGGAGAAGGGTATTGTTCAGCGCCCTCCATTATAGATTCGGATGCCGATTCGAAGCCTTTGTATTATAAAGTGACCAATCCCACTCTTTCTCCTTCTCATCTACAAGATTTACCTGGTTACACACGCAGTGTTTACAAAAGGGATCATGCCTTGATAACCCCGGAAAGTCAAGTGTTTAGTTCTCTACCCGAGTGGACTAAAACACTTGGCGCATATTTAATCACGCCAGCACTTGGTGCACATTTTGTGATGTATCTTGCGCAGATGCAAGAGAAATCGAAATCAGGATTGCCTCCACGTGATGTTGAGAGGTTTTTATTTGTTATTCAAGGAGCAGTGAAACTTACAAATTCGTCCGGCATTAGTGAAAAACTCACGGTCGATTTGTTTGCTTATCTACCTCCAAATTTCGATCATTCCATCAAGTGCGACTCTTCTGCAACTCTTGTGGTGTTTGAGAGAAGGTATGCTTCTCTAGAGAATTATCACACCGAGCAGATCATTGGTTCAACAGAAAAGCAGCCCCTCCTTGAAACTCCTGGTGAGGTCTTTCAACTTAGGAAGCTCCTTCCCATGTCCATGCCGTATGACTTCAACGTCCATATTATGGATTTCGAACCTGGAGAGTTTCTTAATGTGAAGGAAGTTCATTATAATCAGCATGGTTTGTTGCTCTTAGAGGGCCAGGGCATTTATCGTCTGGGCGATGACTGGTATCCTGTTCAATCTGGTGATGTCATTTGGATGGCTCCCTTTGTACCACAATGGTATGCTGCGCTCGGAAAAACACGAAGTCGCTATCTGTTGTACAAGGATATGAACCGAAACCCTCTCGATCACAAGTAATGTGTTGTTGCAACATTGTAAGATTACTATCATGTGAACTGGTAGGATTTCTTTTAGATTGTTCAAATGAAACAGTGCTTTTGACTCTGCAGATCCGTTTGATTTGAGTAAAGCTTTTAAGGTTAACCTTA ATGCGGAGCTTCTCAGCACACTCCCATGGAGCGTCTCTTCTAATTCTCATCACCACTTCAAGTTTGCTTGGAGTTGCGTTTGGTGGAGAAGGGTATTGTTCAGCGCCCTCCATTATAGATTCGGATGCCGATTCGAAGCCTTTGTATTATAAAGTGACCAATCCCACTCTTTCTCCTTCTCATCTACAAGATTTACCTGGTTACACACGCAGTGTTTACAAAAGGGATCATGCCTTGATAACCCCGGAAAGTCAAGTGTTTAGTTCTCTACCCGAGTGGACTAAAACACTTGGCGCATATTTAATCACGCCAGCACTTGGTGCACATTTTGTGATGTATCTTGCGCAGATGCAAGAGAAATCGAAATCAGGATTGCCTCCACGTGATGTTGAGAGGTTTTTATTTGTTATTCAAGGAGCAGTGAAACTTACAAATTCGTCCGGCATTAGTGAAAAACTCACGGTCGATTTGTTTGCTTATCTACCTCCAAATTTCGATCATTCCATCAAGTGCGACTCTTCTGCAACTCTTGTGGTGTTTGAGAGAAGGTATGCTTCTCTAGAGAATTATCACACCGAGCAGATCATTGGTTCAACAGAAAAGCAGCCCCTCCTTGAAACTCCTGGTGAGGTCTTTCAACTTAGGAAGCTCCTTCCCATGTCCATGCCGTATGACTTCAACGTCCATATTATGGATTTCGAACCTGGAGAGTTTCTTAATGTGAAGGAAGTTCATTATAATCAGCATGGTTTGTTGCTCTTAGAGGGCCAGGGCATTTATCGTCTGGGCGATGACTGGTATCCTGTTCAATCTGGTGATGTCATTTGGATGGCTCCCTTTGTACCACAATGGTATGCTGCGCTCGGAAAAACACGAAGTCGCTATCTGTTGTACAAGGATATGAACCGAAACCCTCTCGATCACAAGTAA MRSFSAHSHGASLLILITTSSLLGVAFGGEGYCSAPSIIDSDADSKPLYYKVTNPTLSPSHLQDLPGYTRSVYKRDHALITPESQVFSSLPEWTKTLGAYLITPALGAHFVMYLAQMQEKSKSGLPPRDVERFLFVIQGAVKLTNSSGISEKLTVDLFAYLPPNFDHSIKCDSSATLVVFERRYASLENYHTEQIIGSTEKQPLLETPGEVFQLRKLLPMSMPYDFNVHIMDFEPGEFLNVKEVHYNQHGLLLLEGQGIYRLGDDWYPVQSGDVIWMAPFVPQWYAALGKTRSRYLLYKDMNRNPLDHK Homology
BLAST of Tan0001022 vs. ExPASy Swiss-Prot
Match: Q8GXV5 ((S)-ureidoglycine aminohydrolase OS=Arabidopsis thaliana OX=3702 GN=UGLYAH PE=1 SV=1) HSP 1 Score: 481.5 bits (1238), Expect = 7.2e-135 Identity = 222/293 (75.77%), Postives = 258/293 (88.05%), Query Frame = 0
BLAST of Tan0001022 vs. ExPASy Swiss-Prot
Match: Q7F1K9 (Probable (S)-ureidoglycine aminohydrolase OS=Oryza sativa subsp. japonica OX=39947 GN=UGLYAH PE=1 SV=1) HSP 1 Score: 441.0 bits (1133), Expect = 1.1e-122 Identity = 207/301 (68.77%), Postives = 244/301 (81.06%), Query Frame = 0
BLAST of Tan0001022 vs. ExPASy Swiss-Prot
Match: P75713 ((S)-ureidoglycine aminohydrolase OS=Escherichia coli (strain K12) OX=83333 GN=allE PE=1 SV=1) HSP 1 Score: 118.6 bits (296), Expect = 1.2e-25 Identity = 77/259 (29.73%), Postives = 128/259 (49.42%), Query Frame = 0
BLAST of Tan0001022 vs. NCBI nr
Match: XP_023539711.1 ((S)-ureidoglycine aminohydrolase [Cucurbita pepo subsp. pepo]) HSP 1 Score: 604.4 bits (1557), Expect = 5.6e-169 Identity = 289/309 (93.53%), Postives = 300/309 (97.09%), Query Frame = 0
BLAST of Tan0001022 vs. NCBI nr
Match: KAG7030165.1 ((S)-ureidoglycine aminohydrolase [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 603.6 bits (1555), Expect = 9.6e-169 Identity = 288/309 (93.20%), Postives = 299/309 (96.76%), Query Frame = 0
BLAST of Tan0001022 vs. NCBI nr
Match: KAG6596889.1 ((S)-ureidoglycine aminohydrolase, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 602.1 bits (1551), Expect = 2.8e-168 Identity = 287/309 (92.88%), Postives = 299/309 (96.76%), Query Frame = 0
BLAST of Tan0001022 vs. NCBI nr
Match: XP_022951741.1 ((S)-ureidoglycine aminohydrolase [Cucurbita moschata]) HSP 1 Score: 601.3 bits (1549), Expect = 4.8e-168 Identity = 286/308 (92.86%), Postives = 298/308 (96.75%), Query Frame = 0
BLAST of Tan0001022 vs. NCBI nr
Match: XP_038903289.1 ((S)-ureidoglycine aminohydrolase [Benincasa hispida]) HSP 1 Score: 595.5 bits (1534), Expect = 2.6e-166 Identity = 285/309 (92.23%), Postives = 297/309 (96.12%), Query Frame = 0
BLAST of Tan0001022 vs. ExPASy TrEMBL
Match: A0A6J1GIC7 ((S)-ureidoglycine aminohydrolase OS=Cucurbita moschata OX=3662 GN=LOC111454479 PE=4 SV=1) HSP 1 Score: 601.3 bits (1549), Expect = 2.3e-168 Identity = 286/308 (92.86%), Postives = 298/308 (96.75%), Query Frame = 0
BLAST of Tan0001022 vs. ExPASy TrEMBL
Match: A0A6J1KV30 ((S)-ureidoglycine aminohydrolase OS=Cucurbita maxima OX=3661 GN=LOC111498454 PE=4 SV=1) HSP 1 Score: 593.6 bits (1529), Expect = 4.8e-166 Identity = 286/309 (92.56%), Postives = 297/309 (96.12%), Query Frame = 0
BLAST of Tan0001022 vs. ExPASy TrEMBL
Match: A0A6J1DN38 ((S)-ureidoglycine aminohydrolase OS=Momordica charantia OX=3673 GN=LOC111022624 PE=4 SV=1) HSP 1 Score: 586.6 bits (1511), Expect = 5.9e-164 Identity = 279/309 (90.29%), Postives = 296/309 (95.79%), Query Frame = 0
BLAST of Tan0001022 vs. ExPASy TrEMBL
Match: A0A0A0L7K1 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_3G073830 PE=4 SV=1) HSP 1 Score: 584.3 bits (1505), Expect = 2.9e-163 Identity = 280/309 (90.61%), Postives = 293/309 (94.82%), Query Frame = 0
BLAST of Tan0001022 vs. ExPASy TrEMBL
Match: A0A5D3DKE8 ((S)-ureidoglycine aminohydrolase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold943G00370 PE=4 SV=1) HSP 1 Score: 582.0 bits (1499), Expect = 1.4e-162 Identity = 278/309 (89.97%), Postives = 293/309 (94.82%), Query Frame = 0
BLAST of Tan0001022 vs. TAIR 10
Match: AT4G17050.1 (ureidoglycine aminohydrolase ) HSP 1 Score: 481.5 bits (1238), Expect = 5.1e-136 Identity = 222/293 (75.77%), Postives = 258/293 (88.05%), 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 Position : 0 Zoom : x 1
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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