PI0017655 (gene) Melon (PI 482460) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: exonCDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGGCTGCCCAAACCCATGTTTTTACCGGTTTAGCTTTAGCTTCAACTCCTTCGTCTTCATTTCAACCCTCTTCTTCCAAGCCCGCTACCCTCTGTGTCGCCTCAAAGCTCTTAAGAACCTCCTTCCTTAATGGCGGAGGTATTGGTTTTACCTTTCTGTTTGCTTACCGCTTTTCATTTTGTTATTTTTATTTCCCGTTTGCTTGGTCTGAAGTGAGTGAGAAATTTGAATTGAATCACTCTATGTGAATAGTTTGTTTTGATTGTGTGTTCTTTGAGTTTAAGAGTGTTTGTGTAATGATTATTGGGCATCTGGGTGTCTGAGAAAAGTGGGTTTTACGCTTTGTACGGCATAGCATTGTTTTGTGGTCTAACTGTTAGCTGGTTGTTCTGCAATTTGGGTATTTTGAATTTGTGTTAGATCTGTTGTAATTACGCTTCTGGTTTTTCCCTATCATTTGTAGCTGCTTTTAGAGATTTGGACTTGTTCTTACTGCCTGCGTAATTTTCTTTTGTTAGTTTCCAATTTGTATTATTTGGTGGAAATGCCTGTTAGATTCTGAAATTTGTGTTTACTTTGTTGGATTTGTCTGGGTTCCGAGTCAGTGAAAAATTAGTTTTGAAAACCCAGTGATCAAATCAAATTCTGGAGACCAAAATGGATTTTATCCTACATCTTAATTACTCTTTAACAGGAAATATTAATTTTTCCTGCAGGGAACACCCTACAAATTACACGGATGAAGTCTTTACATTTAGATCGGTCTCATGGCTCCAGACGTGGAGGTGCTCTTGGTGCTCGCATGAACCTTTTTGACCGTGTTGCAAGGCTTGTAAAGGTAACTTGAATTGTTTCATCCCTTGGTCTAGAACTTCACGAACTTTGTGGATAACCATGACATTTGCTTTCTCATGGGTAGTCATATGCAAATGCACTTGTTAGTTCCTTTGAGGATCCTGAGAAAATCCTGGAGCAGACAGTGCTTGAAATGAATGATGATCTGACAAAGATGCGTCAAGCCACAGCACAGGTAGCTTCTGAACTGTGTATTCATCATTTTTCCCCTGCCTGCTCTACCTTTAGCGTTGTCCTTTAATTCTGAGCCAGTAGTGCTGTTTCTCCCCTTTAAACTTTCTTTTATAATTTATTCAAGATTCAGATAATCGATGGAAAATTAGTAGTTGGAAGTTGTTTGTTATTAGGAAATATGACACAAGGATGCCAAATAGTGAGGTGTTAACCACTTAATCTCATGAAAACAAAGAACATCATACCAAAGGGCAAGCAAATACAATGATTTTTAAAGCTCAAGGCGCAATCAAGTGCAATGGTCATCCAAGGCTTAAGTGCAAGGCACAAAACAATGCGCCTTTCTCTTTTCTTGAGGCACACTATATATAAAAGTACTACAAAAAGAAGAGAAAGCATATTAAAGTTGAAATATGAAAAAAAAAGCCTTAAACACGATATGTATTTAGGCTTAGTAAATTTGACTCTTTTAGTTAATATTGAAGGAAAAACCCTAATTATGACTATTTTTTAAAAATAATGAAAAAGCCCCAAGGCTAAGGGATTTGAGCCTTGGGGTTTCACAAAAGGCGTGCACTTGAGGCACACTTTTATCTTATGAGCCTTGCTTTGTGAGGGCGAGTCACCAGACTTGCACCTTGCACCCATGAAAGTTTTTTAACACTGAGTGAATATACTTTTTTTTTTCCTTTTAAGAAAAGGATACGAGACTTTTCATTAAGTAAATAAAAAGATAATAATGCTTTGAGATACAAAAGGATGCAAGGAACAAAACATTACAAAGATAATTAAAAAAACAAAACTTAAAGAACAGATAACTATAAAGAAAAATGGGCCCTCCTTGGGTCTTCCTTCTGGATGTGAATTGGGTGTGTGTACTTTGTGGGATATGTGGAACTTCACATTTGGCAATGGACAAACCTCAACACAACAAAATGCAATGCCTATCTGTAAAACTGATCATTTTTATTGAAGGTGCTAGCTTCTCAAAAGCGCTTGGAAAACAAGTATAAATCTGCACAGCAAGCTGCTGATGATTGGTAAAAGTTTATAACCATTTTCCATTTTCTTAGTAGAGTGTTTCCAATTGGAGATCTTTCATTGTAATACACCTTTTGGTGGTTGGAAGTCTATTAATTCTATTTCTTTCATTCAACAATAAAATTGTTTCTTTTCCAAATCTTAGTAGATTGATAAGCATAAACCTTTTGTTTTAAATTTGTATATAGGTACCGCAAGGCACAATTAGCTCTCCAAAAGGAGATGATGATCTTGCTCGGGAAGCTTTAAAGAGGCGCAAATCATATGCTGTAAGTTAGAATAGAACAAATTCTGTGACAAGTTTGATTTGTATGTTTCATGATAAACATTTGTTTTGGAACTTTTGCCAAAGTAAAGTTATTTTCACGTGAAGAGTTCATTCAACGTGATATTTACAGTTAATTTTCTTCATCTTCTAGCACATCTTTAACATGCTTGAGCTATGCTTGAGCTTTGAATTGTAGCACGTAGGTCCTATGAGGATTTGGCCATATCATGAAAAGTGACCTATGTGTATAATTTTCTTGTCCTTTAAACTTACCTCAAAAGGTGGACACACAATTATAAACTGATAGATTTGATGTCTCTATACTTTTTTTTTAATAAGAAATATCTTTCATTGATATATGAAAGTACATAGGGGGGCAAAAGCCCAAGACCGAAGGAGTTACAATAGATTTCTCCAATTGGTTATAAGAGAAATAAGATCAAATGCGTTAAAAAGAGAAGTACATTTACACCAAGTCATGGCTAGGTAGATAGCAAGTTCCCATATTGCGTCGTGTGACCTTTCTTTTTCTTTGAAAATACGATTGTTTCTTTCTTTCCGAATTGTCCAATTTGATGTCTCTATACTGGAAATGTATTTCTTTTTTATATTGACCAATCTTTTAGATGTATGAGTTTATGCTTCACACTCCTCACTCCTCACAGCCCTCTGTTAATCTTCCTTGAGGAATGCAGCAGAATGCCAATGGTACTGCAGTAGAGGTATTTAAAACGTGGGTGGGGAGTTCTAGAGGAAGGAGTAATCCAATTCATGAGAATACTTTCTAGTCTCTAGTCACCGTGCCTGTAGTTATATTATTATTACTGGTCAAGAACCCCCAGATTTCCTTTCTTATGGGTAGTTCTTCCTCTTTACTTTTTAGTTTCATTTGGCCCCTTGTAACTGCGAGTTCATGTTAACCTCCGTTCTCCGTGCTATCAGGAATCATTATTTTCCTTGAGCACTGGGATCGTCTGTGTTTGGTTCATCGATCCTTTCTAATGGGTAGTTCTTCCTCTTTATTTCTTAGTTTCATTTGGCCTCTTGTAACCGTGAGTTCATGTTAACCTCTCTTCTCCCTGCTATTAATGGAGTCATTATTGTCCTTGAGCATAGGGATCGTCTGTGTTTGGTTCATTGATCCTTTCTGGTGCCTTGCCTTCACTTGTAATTTATTGCACAAAAGCATTTGGTTTCTGCACAATTCTCGAATGCTCCCTTTCTCTAAGCTTTGGGAGCTAAATATCTTGAAGAATTAGAAACAGATCCATATTACTTTTGTGGTTTATCTGATAGAAAATAGAGATATTATAACATTCATTATGTTTCTCACATAAAATAAATAAATAAAAAATTGTTAAGATATCTCTATTTTCTGTGAGAGGTGGTAGATTTGAATCCTCACTCTGTATTTATGCAATGTTATATTCTAAAGTTAAACGAGAATTTATGAATGAATATTGGGTTTTTCATTTAAAAAATCTATTTTCAATAAGGTATTTTCCACATTGAAAAATCCTTTTTGATATTTTGTGCGACATGGAACTATTTTCATGTTATTTTCTCTCCTAGAGGTATGCTATTAGAAACTTTTTTGAACTTGAAAGTTAATTATGCATGGAAAGATTAATGATTTATTGTGCTTGATGATCACTTTGTTCTACTGGCAGGATAATGCAAATGCTCTGAAAGCTCAACTTGATCAACAAAAGAGTGTTGTGGAAAATCTTGTTTCTAATACACGGGTATGAAGTTCTTTTGCATTTTAAAATTATATACTATTAAAAAAGAATATAGCCAAGATTCTCTTGTATTTCTCTTGTAGGCAGTGTGAACATATATATAAGTCGTTAGTGTGAATCAATGAGGAGATCCATTTTTATTTTGGAGCTATGAAAGCATATTGTAAAGAGCATTTTTGTAATTGATGTAGTCAATAAATGTTGAGAAAATTGAGTATTCTTCTTTTTGTTGAGATAATGCAAATCCCTAGTACTTTTGTAGTTTATCTTTAGTTGCAAATATGGTTAGAATTAGAAACAGGTAGAAACAAGCTGTCATGTAATACATGATTGAATATTAGTATGATTCTGACTTTAAGCTTTTTAAACAAGGATAAGTAGCCCATATCATACTTTTTTACCATGGGAACTTTTCTTTGTAGCTTTTAGAGAGCAAAATACAAGAGGCGAGGTCAAAGAAAGACACACTGAAAGCGCGTGCTCAGTCTGCAAAGTTTGTGCTTTAATTGTAGATTGTTAAAATACATTTTTCATGAGTGTCTTCACATATTGATGCTCATAGCACCTTTCCTTGGCTTTAGGACCGCAACCAAAGTGAGCGAAATGTTGGGGAATGTTAACACAAGTAGTGCTCTCTCTGCTTTTGAGAAGATGGAAGAGAAAGGTAAGGAAACAAAATTTTGAAGTCAAACTTAGGTTTGGTTGTCACATCTGGAGCCAAGTCACTTTTTGTTTAGATTTTACTTTTCTTTTGATCAAATGTTCATGTTAAGAATTACTACGTTGAAATTTAGTCATTGATTTATTCACATGGAGATGAAGTTTGTTTTGTGGAAGCTAAAAGTTATATTCTTTACTGATATATACTTCTTTTCATTTTCTATCTTCTCCATCAAAATATAAGATACAACATTATTTTGCAGAATTTTCTATCAAGTCGTATGTTTAGATTTGAATGCTTTGACTTTTCCTGCTTAATTTTGTTGTAGTGTTCTAGTTGTGCTTGTTTTGTTTAATTTTTTAGTTTTGTTGTATTTTGAGCCTTAGTGTCTTTTTATTACTTCAATGGAATTTTTAATTCCTTTTTTATTTTCAATATAAGATATGAAAGTCTCATTTTTCCTTCACGGCCCGTCTTTTCCATCAGCAGGATCCCCACTACTTTCACCTTAGCCAGTCGCCACTGCCTTTTCCTCTCTATTCATTCCATGTTAGCCTCCAAATTTCACCTTATGAACTGTCCCTTTGTTTGGAAACTTGGAAATTGTTTCCCTTTTTCTTTTGTAGGACTTGGACGACGATTTTCAAAAGTCTAGTTGGATTGTGATTTCATTAACCATATGTTATTCTGATTTTTTTAGAACTGCCCTTATGATCAAATATTTACACCAATAACTCTATCTCCACTTTATTTTGTACAACATGAATCCATGACTTCTAACATCACTACACTGTTCATTGTGATATTAGCTCTTTGTTCGGCTGGGTGGCCAAGCAAGTCCCCATCCTTTACTTGATTCTAAGCTCCCTTCACACGAACATTTCAGTCTATTTCTTTTACGTATCTGGTTCCCTGATGTGGTGGTTATTGCTCACTACTGAGTCAAATCTTTGCTTCAGTTTTCTTATCACTGCTTGTTCTTTCCAACAGAAGATTTTTTAAACTAATATTACTTTATTTAGACAAGTTTTCATACCGAGATTCTTGTGTATATGTTATGGATTTGCGATGCCCCTGCTTTCATTTTGCTTACGTTCCTCAAAATCTTTGTAGTTTTGGCAATGGAGTCTCAAGCAGAAGCTCTTGGACAGTTAACAACTGATGATCTTGAAGGAAAGGTAACAGTTTCGTTTTTCCTCCAAATTTATTTTGTGCTTGATTTTATTGCTGGTCTATTGAGCTGGTGCCATTTCTCTTAAAGATTTTTAAGAGCGGCAAGTTTCTTGATTGGGTTCCTTCCCAAACTTTAGGTACTTCTTTAGTTAAGTTCCTCCCCCCTTGTACTAAAAAAATTTACTTCTTTGGTTAAGTATATTGTAAAGAATGACTCCAAAATAACATCTTTGCTCCTGTAAAACAACTAAATGATTTTCATTTCCCTCTGTTTCTTATTAAAGAAATTATTTGTTTATTTGTTCTTTTTGGTATAGCATATTTTGAATGCTGGTTAATTATGAAAATAGTTTGATCTTCTGAAGTGTGAAAAGAATATCTTTTTCCCTAGAAATATGTTTCCTAAGATAAAAAATGTTCACCTGGTTCTTTGGTAGAATGTAATCCTCAATCGTGGAAATTAGTTTCTGGATTTTGCTTTGTTGTTAATGCTCCAAGGCATTAGAACAATACTATCTGACTTGTGATCGAATGCTGGTTAGGCCTAATGTCCAGTGGTTTGCTAGGTTAGTATTTGGACCTCACATCTAAAGATATATTAGAGTTTTGTCAAGCTGAACAGCTAACGCCTCTTCTCCCTGGATTTTTTAGAACCATTACCTTTTAAGTTCACACATTTGGTATGAAGTGGTGTTCTCTTTCTAAGCTTTTTGCAAATTTTTCTATACAAGATATTTGCTTGAATTGGAGTGCTTTTATCGTTTCAGTCCAGACATTTATTTCTTTTGTACCTTTGTTTTAAGTGACATTGTATTTTGGTCTTTTCATTATATCAATGAAAATTATCGTTTTCTTAAAAAAAGAAAAAAGTTCACACATTTGGTATGAAGTGCAAGGTTTATTCTTTGCATTCATCCGCCGGTTTTAGAGATCAATAGTTATGATCTCTTGAGTTATGGTTTGAATCCCTTTCTGGTAAGTCTTTGTTTGTTCATTAAATTTCCCCAACACCCTTTTTATCTTGTTCTTTTTTCTCTTCCTTTTAGAAATTTAAAATTGGGAAGAAAGTTTGTTTCTGGTTGGTCACCTTGGGAAGGATCGACACCTTTGGAGAGCTTTTTTCCCATCCACAAGAGAATTGATGGAAAATTGGAGGGAAAATATAAATCGGTTGTTGGTTCTAGTTGGCAGAAACACTTTTGTAGATGAATCTGAGGACTTGAATCATTTCTAGTGGCCATACCCCTTTTCCACCAGGGGTTGTAGTCGTTCTTGCAGGTTTCAGTCTACCCTATGTGTAGAATTGAGAGGATGCTTGGGTAAGGACTAACCTAAGACTACAAATACTATTTTGTAATCCCCAATTAGCTATAGTCAATACTATTTCAAAACCTTAATTTGCTATATTATTTACTATTTACTATTTTACATTCATTCATTTTTTTATTATTTGCTGTTTACTATTTTCTTTTCAAACTAAAATAGTTTACAGTTCAAACACAGACTATTATAACCCAAATTAAAATAATCTACACCCCTATCACAAACTATTATAACCCAATGTTAATAACTTAGGACTATTATAATCAATTCCTTGTCCCAAACGCCCATTGAGTATCCGTGAGATGCTGGAGGAAGCTGTTTTAGACCCACTTTTCTGAGGGAAGGAGAAAGTTTCCTGTGAGGCCGATTCCCTTGCTGTTTTCTTCCTTAGAAAGGAATAGGATAGTGTTCCTTAGAAAGGATCGTTCTGGGGAAGACTATGGTATTGGATGCAGTTCTTTCAATGCATCTCTTGCTCAGATTAATTTTATTTTGCAACGTGATTTTTAAAAAAAAAAACTGGGATCATTTTTTGAAATGTTTCAATGTACGATTTTCGTAGATGTGTTGAGGTATGCTTCCCTGTGTTTGGTTGGGCCTATCTTTTTGGCCTTACTTTGTATTGTTTCTTTTATTTTCCTGAATGAAAGTAGGATTTTTTTTCCACACTTTTTTCTTTTGATAATAACAAATTGCATCTCTTGCTGGAATGCGGTGTATATAACTGTTGTAATATTGACTGTATCTGTGACAGGTTTCTTGCGGCTGCATTTTTATCTTATCTATGTGATGTTACCTGAGATATATCAATTATTCTTGTTCCTGCTTCCTATCATTAGTGAAGATAGGATTTTCTCTAGAATTCACAATTAATAGTTATACTGTATGGTTTAACATTTTACATCAAGTTCCAAAAAAAAACATGTTACATCTTTCAGGATTTTGCCTTCTTGACCTATATTGCATCATTTGATGTCTACTTTAAAATAGATCCTATTTTATTTGGCTCTGACCTATTTTCAATGTTGTAGTTTGCTCTGTTGGAAGGCTCATCCGTTGATGATGATCTAGCAAACTTGAAGAAAGAGTTATCTGGAAGCTCAAAGGTAAACCATAGGTTAAAATCATGTTTTTTTTGTTTTTTTTAATGATCTTATTCTTTGTTATGCAATTTACACTTGACAGTGGGAACTGCTATGAATTTATGAAGCTAGGTTTGGCATATTCTATTCTTCACGATCTCTTTTGTAATATCCAATCGTGGCTTCAGATAGATCAAGCTTCCTATTATTAAGTTGCATCATCGGCTAAGATCACCAAATGAAATTGTAGTGTTGGCTTGTTGGCTCCTAACACCCATGTAACTGATAGTAATTAATATTTCATACCTAGTCTAGGAGGGAGGTGAACTAAAGAGAGTTCTCATTCCTTGAACATTGCTTAAAAAGAACCCTTTCCAATGGGTTAAGACTTAGAGAGTTCTTTATTTCTTTTTCGATAAGAAATGAATACCGAACATACATAAAATATCCACTACTACAGCCACCCAGTTTCATGAGGTCTAGCTCTCGAATCTCCCATTGCTTGATTTATACTCTATTTAGAATCAACATCTGTGAATTTCATAGCTCCTGGATCTGCACGTTCATACTCTTTTTGCTCTTTTAATCTTTGAGTGATGGATCTTTTGATTCAAATATTTTAGTGTTACCTGTTATTTTTTAATTTTCCGAACATTTAGAACTTGAGGATGAAAAAGATTCAGTATCCTCTTTGTTGGCATCCTCATACCACATTCTTTTAGTATTTGAATCTAAAAATGGGATCCTCTCTCTCTACAGAAAGGAGAACTTCCACCTGGAAGAACAGTTTCTGGCAGCGCATTTCCGGTTCGTGATGCTGAGATCGAGTCGGAACTCAATGAACTGAGGCAAAGAGCAAGAGAATTGTAGATGGCTGCCCAAACCCATGTTTTTACCGGTTTAGCTTTAGCTTCAACTCCTTCGTCTTCATTTCAACCCTCTTCTTCCAAGCCCGCTACCCTCTGTGTCGCCTCAAAGCTCTTAAGAACCTCCTTCCTTAATGGCGGAGGGAACACCCTACAAATTACACGGATGAAGTCTTTACATTTAGATCGGTCTCATGGCTCCAGACGTGGAGGTGCTCTTGGTGCTCGCATGAACCTTTTTGACCGTGTTGCAAGGCTTGTAAAGTCATATGCAAATGCACTTGTTAGTTCCTTTGAGGATCCTGAGAAAATCCTGGAGCAGACAGTGCTTGAAATGAATGATGATCTGACAAAGATGCGTCAAGCCACAGCACAGGTGCTAGCTTCTCAAAAGCGCTTGGAAAACAAGTATAAATCTGCACAGCAAGCTGCTGATGATTGCTCTCCAAAAGGAGATGATGATCTTGCTCGGGAAGCTTTAAAGAGGCGCAAATCATATGCTGATAATGCAAATGCTCTGAAAGCTCAACTTGATCAACAAAAGAGTGTTGTGGAAAATCTTGTTTCTAATACACGGCTTTTAGAGAGCAAAATACAAGAGGCGAGGTCAAAGAAAGACACACTGAAAGCGCGTGCTCAGTCTGCAAAGACCGCAACCAAAGTGAGCGAAATGTTGGGGAATGTTAACACAAGTAGTGCTCTCTCTGCTTTTGAGAAGATGGAAGAGAAAGTTTTGGCAATGGAGTCTCAAGCAGAAGCTCTTGGACAGTTAACAACTGATGATCTTGAAGGAAAGTTTGCTCTGTTGGAAGGCTCATCCGTTGATGATGATCTAGCAAACTTGAAGAAAGAGTTATCTGGAAGCTCAAAGAAAGGAGAACTTCCACCTGGAAGAACAGTTTCTGGCAGCGCATTTCCGGTTCGTGATGCTGAGATCGAGTCGGAACTCAATGAACTGAGGCAAAGAGCAAGAGAATTGTAG ATGGCTGCCCAAACCCATGTTTTTACCGGTTTAGCTTTAGCTTCAACTCCTTCGTCTTCATTTCAACCCTCTTCTTCCAAGCCCGCTACCCTCTGTGTCGCCTCAAAGCTCTTAAGAACCTCCTTCCTTAATGGCGGAGGGAACACCCTACAAATTACACGGATGAAGTCTTTACATTTAGATCGGTCTCATGGCTCCAGACGTGGAGGTGCTCTTGGTGCTCGCATGAACCTTTTTGACCGTGTTGCAAGGCTTGTAAAGTCATATGCAAATGCACTTGTTAGTTCCTTTGAGGATCCTGAGAAAATCCTGGAGCAGACAGTGCTTGAAATGAATGATGATCTGACAAAGATGCGTCAAGCCACAGCACAGGTGCTAGCTTCTCAAAAGCGCTTGGAAAACAAGTATAAATCTGCACAGCAAGCTGCTGATGATTGCTCTCCAAAAGGAGATGATGATCTTGCTCGGGAAGCTTTAAAGAGGCGCAAATCATATGCTGATAATGCAAATGCTCTGAAAGCTCAACTTGATCAACAAAAGAGTGTTGTGGAAAATCTTGTTTCTAATACACGGCTTTTAGAGAGCAAAATACAAGAGGCGAGGTCAAAGAAAGACACACTGAAAGCGCGTGCTCAGTCTGCAAAGACCGCAACCAAAGTGAGCGAAATGTTGGGGAATGTTAACACAAGTAGTGCTCTCTCTGCTTTTGAGAAGATGGAAGAGAAAGTTTTGGCAATGGAGTCTCAAGCAGAAGCTCTTGGACAGTTAACAACTGATGATCTTGAAGGAAAGTTTGCTCTGTTGGAAGGCTCATCCGTTGATGATGATCTAGCAAACTTGAAGAAAGAGTTATCTGGAAGCTCAAAGAAAGGAGAACTTCCACCTGGAAGAACAGTTTCTGGCAGCGCATTTCCGGTTCGTGATGCTGAGATCGAGTCGGAACTCAATGAACTGAGGCAAAGAGCAAGAGAATTGTAG MAAQTHVFTGLALASTPSSSFQPSSSKPATLCVASKLLRTSFLNGGGNTLQITRMKSLHLDRSHGSRRGGALGARMNLFDRVARLVKSYANALVSSFEDPEKILEQTVLEMNDDLTKMRQATAQVLASQKRLENKYKSAQQAADDCSPKGDDDLAREALKRRKSYADNANALKAQLDQQKSVVENLVSNTRLLESKIQEARSKKDTLKARAQSAKTATKVSEMLGNVNTSSALSAFEKMEEKVLAMESQAEALGQLTTDDLEGKFALLEGSSVDDDLANLKKELSGSSKKGELPPGRTVSGSAFPVRDAEIESELNELRQRAREL Homology
BLAST of PI0017655 vs. ExPASy Swiss-Prot
Match: Q03943 (Membrane-associated 30 kDa protein, chloroplastic OS=Pisum sativum OX=3888 GN=IM30 PE=2 SV=1) HSP 1 Score: 391.3 bits (1004), Expect = 1.0e-107 Identity = 236/338 (69.82%), Postives = 269/338 (79.59%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy Swiss-Prot
Match: Q8S0J7 (Probable membrane-associated 30 kDa protein, chloroplastic OS=Oryza sativa subsp. japonica OX=39947 GN=Os01g0895100 PE=1 SV=1) HSP 1 Score: 381.3 bits (978), Expect = 1.1e-104 Identity = 224/318 (70.44%), Postives = 259/318 (81.45%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy Swiss-Prot
Match: O80796 (Membrane-associated protein VIPP1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=VIPP1 PE=1 SV=1) HSP 1 Score: 364.0 bits (933), Expect = 1.8e-99 Identity = 224/335 (66.87%), Postives = 265/335 (79.10%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy Swiss-Prot
Match: Q55707 (Protein sll0617 OS=Synechocystis sp. (strain PCC 6803 / Kazusa) OX=1111708 GN=sll0617 PE=1 SV=1) HSP 1 Score: 173.7 bits (439), Expect = 3.4e-42 Identity = 114/267 (42.70%), Postives = 166/267 (62.17%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy Swiss-Prot
Match: Q9RUB7 (Phage shock protein A homolog OS=Deinococcus radiodurans (strain ATCC 13939 / DSM 20539 / JCM 16871 / LMG 4051 / NBRC 15346 / NCIMB 9279 / R1 / VKM B-1422) OX=243230 GN=DR_1473 PE=1 SV=1) HSP 1 Score: 104.4 bits (259), Expect = 2.5e-21 Identity = 75/223 (33.63%), Postives = 121/223 (54.26%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy TrEMBL
Match: A0A1S3BX93 (membrane-associated 30 kDa protein, chloroplastic OS=Cucumis melo OX=3656 GN=LOC103494597 PE=3 SV=1) HSP 1 Score: 571.6 bits (1472), Expect = 2.1e-159 Identity = 320/332 (96.39%), Postives = 321/332 (96.69%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy TrEMBL
Match: A0A0A0KXA3 (Uncharacterized protein OS=Cucumis sativus OX=3659 GN=Csa_4G011060 PE=3 SV=1) HSP 1 Score: 569.7 bits (1467), Expect = 7.8e-159 Identity = 319/332 (96.08%), Postives = 320/332 (96.39%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy TrEMBL
Match: A0A5D3D1E0 (Membrane-associated 30 kDa protein OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold130G001930 PE=3 SV=1) HSP 1 Score: 559.7 bits (1441), Expect = 8.1e-156 Identity = 319/346 (92.20%), Postives = 320/346 (92.49%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy TrEMBL
Match: A0A5A7TTJ2 (Membrane-associated 30 kDa protein OS=Cucumis melo var. makuwa OX=1194695 GN=E6C27_scaffold46G002860 PE=3 SV=1) HSP 1 Score: 557.0 bits (1434), Expect = 5.2e-155 Identity = 320/348 (91.95%), Postives = 321/348 (92.24%), Query Frame = 0
BLAST of PI0017655 vs. ExPASy TrEMBL
Match: A0A6J1GWI0 (membrane-associated 30 kDa protein, chloroplastic OS=Cucurbita moschata OX=3662 GN=LOC111457520 PE=3 SV=1) HSP 1 Score: 553.5 bits (1425), Expect = 5.8e-154 Identity = 308/332 (92.77%), Postives = 316/332 (95.18%), Query Frame = 0
BLAST of PI0017655 vs. NCBI nr
Match: XP_008454073.1 (PREDICTED: membrane-associated 30 kDa protein, chloroplastic [Cucumis melo]) HSP 1 Score: 571.6 bits (1472), Expect = 4.2e-159 Identity = 320/332 (96.39%), Postives = 321/332 (96.69%), Query Frame = 0
BLAST of PI0017655 vs. NCBI nr
Match: XP_004152136.1 (membrane-associated 30 kDa protein, chloroplastic [Cucumis sativus] >XP_011653030.1 membrane-associated 30 kDa protein, chloroplastic [Cucumis sativus] >KGN53007.1 hypothetical protein Csa_015406 [Cucumis sativus]) HSP 1 Score: 569.7 bits (1467), Expect = 1.6e-158 Identity = 319/332 (96.08%), Postives = 320/332 (96.39%), Query Frame = 0
BLAST of PI0017655 vs. NCBI nr
Match: TYK17044.1 (membrane-associated 30 kDa protein [Cucumis melo var. makuwa]) HSP 1 Score: 559.7 bits (1441), Expect = 1.7e-155 Identity = 319/346 (92.20%), Postives = 320/346 (92.49%), Query Frame = 0
BLAST of PI0017655 vs. NCBI nr
Match: KAA0044539.1 (membrane-associated 30 kDa protein [Cucumis melo var. makuwa]) HSP 1 Score: 557.0 bits (1434), Expect = 1.1e-154 Identity = 320/348 (91.95%), Postives = 321/348 (92.24%), Query Frame = 0
BLAST of PI0017655 vs. NCBI nr
Match: XP_022955518.1 (membrane-associated 30 kDa protein, chloroplastic [Cucurbita moschata] >XP_022955519.1 membrane-associated 30 kDa protein, chloroplastic [Cucurbita moschata]) HSP 1 Score: 553.5 bits (1425), Expect = 1.2e-153 Identity = 308/332 (92.77%), Postives = 316/332 (95.18%), Query Frame = 0
BLAST of PI0017655 vs. TAIR 10
Match: AT1G65260.1 (plastid transcriptionally active 4 ) HSP 1 Score: 364.0 bits (933), Expect = 1.3e-100 Identity = 224/335 (66.87%), Postives = 265/335 (79.10%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Melon (PI 482460) 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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