Spg002633 (gene) Sponge gourd (cylindrica) v1
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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.CGAGGCCAACCATTTGGCCCGCTTGCGCGGACCGAGCCCGGTGGCCTCTTTTCGGTCCCTGATGCCCCGAATCGCCCCGGTTCCGCCTGGTTCGCCCCGAAACACCTCCGGATTCCTAAAAACCCTAGGAGGGCAAACAGGTATAAAAACCCCTCTTCACCACGGAAGAAGGGTTCGAAAAACTCTACTCTTGACTGTACCCTTTACTATCTATAGCTTCTCCTCGGTTTTCTGACTTAGGCATCGGAGGCGGTGTGGCCTACACCACGCCGGTGTGCAGCGGTTTTTGCTGGTCTTGCAGGTCACGTCTTCCCCAGTTTCTACAAATTCACTGTTGGTGTCACGTGAAGGTCAGGTGAGACCTCTGTCCAGATTTTGGCATCAACAGTTGGCGCCGTCTGTGGGGAAGAGAGTGCTTGCCAGTCTAGACCGCGCATCGGTGGTGGTCTGCAGGATGGATCAAGTTCAGAAACCAAAAGGAAACCTCGGATATGAGCGGGAAACGACGAGCCCGACTGGGGCCGACCTCGGTAGGGAGAAGTCCGACCCTAACTTCAGAGGTTGTAGAAAGGATCCGTGTGTCCACAATGCTGTCGGACCTGACCCAAGAGGACAGCCAGCGGAAGAACTGGAGTCTGTGCCACTAACGTCTGAGGAAAGAAGAGTGAACATCGGCACCAGACTGGGGGCTGAGCAGAGGGATAGACTGGTCGATTTCTTGAGGGCAAATGCAGATTTGTTTGCATGGTCACACGAAGATATATCGGGAATTGACCCGGAAGTGATGGTTCACCGGTTAAACGTGGACAAGGATTTCAAGCCAATAAAGCAGAAACGAAGAGCATTTAATTCGGAGAGGAATGAGGTTGTCGCCAGTCAAGTGGATGAGTTGCTTAAGGCGGGGTTCATCCGAGAAGTTCATTACCCCCAGTGGTTGTCTAATGTGGTACTGGTAAAAAAGGCTAACGGGAAGTGGCGGATGTGCATCGACTTCACCGACCTAAATAAGGCATGTCCAAAGGACAGTTATCCTCTGCCCATGATCGACCAGTTGGTTGATGCCACAGTAGGGCACGAGATGCTGAGTTTTATGGATGCATACTCAGGATACAATCAGATTAGAATGCACGAGCCCGATCAGGAAAAGACTTCCTTTATCACCAGTCGGGGGTTGTATTGTTACAGGGTCATGTCGTTCGGTCTAAAGAACGCCGGAGCGACATACCAACGGATGGTGAACCACATGTTCACTCCGCTGTTGGGAAAGAACATGGAGGTATACGTGGATGATATGCTGGTGAAGAGCTTGAAGTCTCAATGCCATGAGTCTGATCTTAATGAAGCTTTCCAGATACTCCGAAAGTATCGAATGAAGCTAAACCCGAGTAAATGCGCTTTCGGAGTAACGTCTGGAAAGTTCCTAGGGTTCATGGTACATCAGAGGGGGATAGAAGCAAACCCAGACAAGATCAGAGCAATCATGCAAATGTCTTCCCCGACCAATCTCAAGCAGCTTCAAAGCTTGAATGGGAGGATTGCCGCCTTGAACAGGTTTGTTAGTAGATCAACTGACAGGTGCTTACCCTTCTTTAAAATTTTGAGACAGGGATCACGTTTCGAGTGGACTGGAGAGTGCGAAAAGGCTTTTCGAGAGCTGAAGGACTACCTGAGCTCGGCCCCGCTCTTGGCCAAGCCGCTCCCTGGAGACGAGCTACTGCTCTACGTCGCGGCCTCGGATACGGCTGTAAGTTCTGCACTGATCAAAGAAGAAGGGAAACTCCAGCGACCCGTGTATTATACCAGTAGGTCAATGGTTGGAGCATCAACATAGTTCTTAGTTTTAAAAAATATATATATACAAAATAGTTTTTAGAACTCCAAACAAAATAAAGTGCATGTTTGATAGTCATTTTGAAATTGTTAAAATCACACATTTTTAAACTACTCATTTTTTTTTTAGTACATCAATATTAGGAGTGGGAATATTCGAACCTCTGATCTCTTGATCGAGGGTAAATGTCAATTACCGCTGAGTTATGTACTCAATATTTGGGAGTGGGAGGATTCGAACATCTAACCTCATAGTTGAGGGTATATGCCAATTACCGTTGAGCTAAGTTCGCTTTGACAGTTATGCTCGCTTTGACCTAATGTAAAAGAGAAATTTGATACTATCAATTAATTTTAATATTTACTAATAAAAAATATAATTGAAAAGAATTAGGATGAAACTTTTTAAATATTAGAAACTAAATTAAAAGAAGACCACAAATTTAATGAAAATTAAAAATAATAATTTAAATATAATTTTAGTTTAAAAGAGAAACTGTTTTGAAAGCACACTACTTGGTTGTGAACAGTCAATCACCTATAAACTCATTTCTCGAAAATTCATGATTAGATTGAAAGAAACAGCCCTATTAATCATAAATCATAATACGTTTCAAATTTTTTTTTTTTTTTAAATCATATTATATAATATATATAAAAAACACAATTAATTAATAAAAAAAGTAAACAATTAATTTTGTAACATTCCATAAAGTTAGAAGAATTAACTTTTCTTCCGTCAGGCAGACGGCTGTAAGCCAACAGCGCTAACTCTCTTCCTGTCAGATAACTTTCCGACGTGTCAACGTTGAACCAGACACGTCACTATGGGTGTGCTGGTGAGCTAAAATAACGCCACGTATATACTCGTGGCAAAAATAAAAAGAAAAATCAAAATAAAAATGAAAAGTCCGGAAAGTTAAAAAACATTTTCGGTGAAAAAGCCTAGTAGAGGTGGGACCCATGTCTGTCGTTTCTGACAAGCCTGGCGTGGAAGTTTCTGATTGATCCACTTGTGTCGACCTCGCAAGCTGGGCCTCCACTTTTCGAGCACTTTTGACACGTGTCCTAGAGGGATAATTCTCGCGATACGAGAAATTGACTGGAAAGAGAAAGGAATTAGGGAAAGGGGATCGTCATGGGTACCACGTGTCCTCACAGCATGAAATGGAGGTCGGAGATAGACGGGTGGGGCAGGTTTTGCAGCTGCCCGTAGAATTAGAATTGCCCGAGAGCCTCTGTTTTTTCCTGCTCCACGAAGAACTGGGTCGGAAAAAGGGAAAAATAATATAATTTTTCCCAGAGAGGAAAAACACAGCGACACGTTTTCTTCTCAGCGAAATTCCGCACAGCATTCCGTTACTTCCTTATATTACACTTCGCCGATGATGATTTTCCTCACCGAGAGATTCTCGTCGGCGTGTTCCTGCTTCGGAAGAATCCGATGACGGACGTTTACTGTAGAATGCCAAGCGAAGATGATGGAGATTCGCCGGCCAAATGCCGAGAGCGCCGGCGCCGTAGAATAGAGATGAGGCGATTAGCAACAGTACCGTCGGCAAATCCCTCGTCCTCGACCAGTCACCACCGGAAGGACAATCAGACTGAGACTTCCGGTTTCGAGAAGAAGCTTGTTCGGAAGACGGACGGCGACGGTACTCCGGAGATTTCATCGTCTTCGTCATCGGGGGAGGACGTGAAGACTGTAGTGGCTTCACCGTCGGTACCTCAGCCGGTGTTCGGGATGATGTCGGTGTCCGGGAGGTCACGTGAGATGGAGGACGCAGTATCGGTGAGCACGTGGCTTCTTGGTCCAGAAAATTGCCGGCGGCTACCGGTGCATTTCTTCGCCGTCTACGATGGACATGGAGGCCCTCACGTAAAGCCCTAATAGTAAAGTTTAAAATTTAATTTTCCACAAATAAGTAAATAGAAAAAGAAAAAATTGGACGGCGGAAATTACCATTTTGATCACGCTAAATCATTCTCTATTATAGCGGAAAAGGGGGTTATTATCGTCATTGTGCTGCTATAATTTGCTTTGCTTTATTCGATGGGTACAGGTGGCAGCGCTATGTAGGGAGAAGATGCACGTGTTAGTACGGGAGGAATTTTCGCGCGTGGTAGGTACGCGCCAAGAAACTGAGAGTGGCGGCGGAGGAAGCAGCACGGCGGATGAGGTTAAGGTGGAGGAGGAGGCGGTTTGGAGAAGAGTGATGCGGCGGAGCTTTGAGAGAATGGATGAAGTGGCACTCAGTACTTGTGCCTGTGGGAGCGTCGGAGGTCAGTGTGGTTGCCATCCAATGGAGGTGGCTCTCGGCGGCTCCACCGCTGTCGTCGCCGTGCTCACGCCGGATCACATAATCGTCGCCAACTGCGGTGACTCACGCGCCGTCCTCTGCCGAGGAGGAAGGGCCATTCCGCTTTCCAATGATCACAAGGTTTACTCTCTCTCTCACTCTATCTTTCTCTCCCGAAACTGTTACTGTAATGATCTGTTTGCTCGACACGTGCTATACTGTCAATTTTTGACGAGATGATAACGATCAAGGGTTTGTTTGTCTAATCTTGCTGCTTTTGTGATGGGCTAATGGACCATTTTAGTCTAAAAGTGCTTAACTTATGCTTTGATTTTAGATTGATTAGATCTCCTTTAGTTTCTCATTCATTTGGCCATTTATTCTTCTTTTTTCCATTCTTTACTAATTTTGGGACAGAAGCATAATGCTTTGCAAATTCTGTCCCCTCCTTAACAGCTATTAATTCCTCGGAGTTATGTTATCTTATGGATAGTGATCCTGACGTGTCATAGTTATTTTCTTGACACTTGTTGTATGGCTGTGGCTAAATTCTTTTGGTCTTCGATCTGGGTTTAAATTTGTTAGCCCACTTGAATATATGCGAGAAAAAATGGTTGATGAAATTTTAGATATTTAAAAGTTTCTGAAAGTTTGTAATCGGGTATCATTTAGCAAGTTACCATTGACTATTCGTTATCATCTACTTTTCTGTGTGCGCGTTAGAAAGAGTTGTTTGATCATTGATGGGTCTAGCTATCTAATCTTATATGATAAAAAAAAGTTAAACGCTGTGGCCTTGCTGCTTAAATGTTTGAATATTTCCTTGGAACTTGGTTTTTGTTTTTGTTTTTTTGTCTAAATGTGTTTCAGATTCCTATGGGCATTCATCTCTCATACCTGTACCACAATTTTCCATAAGAAAAGTACATTTTAGATGGATAGAATGTTGGTGACAAGAACATATAATGATTATGTGTTCTAATAAGTAATTGTGTTGGTCTATTTAATTTCACTGTGTATTCTTGCACGATATCTTTTCCAATCAGTACGCGTTTCATGAAGAACATATAATATTCTCTAACTATTTTGCTTAACCTAATTCTCAGCCTGATAGAATTGATGAACTAGCAAGGATCGAAGCTGCTGGAGGACGGGTGATTTTTGTTAATGGAGCTCGGGTTGAAGGCATCCTTGCAATGTCCCGTGCAATAGGTAATAACTACTGCTTCTGTGAACTATGACCACGATATTATCTGCTTTTGTGAAGTTGCTTAAAGTTAAACATTCCAACGTAAATTATAATTCTTCCAGTGTGATTATTTCATAAGGCCATCTAAAGAAGTCGGATTTTGTTTTCAAGGAATTAAGAAAAGTGATCACTTTGACTCTGTCTAGGTAATTATGAAGTGGACCTTTCTTGTTAGGCACAAACCAATTGTGGTCATGTTTAGTTTCGGCACAGTTCTAGGTGATCAACTTTGCCAAATCCTGCATTCTTTTCTAAGAATTCAGATAATAAGTGGACAAGTTTTAAGGATTTCCCAAAAATTTGTTTGTCATACCCTGTCGCTAGTGCAATATATGTAAACACTCCATAGAAGGGAATGTATGAAACTTTAAATGATTAAAGGGATAGGTGAAGCGACTGTTGAATAACTACGGTTATGTAGTGGTGTTGATCAAACACAATTTCGTGTTATTAGGTTGAGTCCATGGATAATTCACAAATTGCTAAATGGAGCAGTTATGCACGTTTGGAATATACATTTAATTTGACAAAGGAGGTCTTTATGCTGTGAAGCTCACTGTGTTTGCATTCATTTATAACATTCTCTAATCTCCACAAGATGATTACTTCTTTGAATCTGAAGTAAACACTATTTGCTTTCTTCTCTCTCCCCGTCTTCTCTTGGAGCATTGAACTTGATGAAGCCTCATGATACTTCTGTGTAATTGGTTCCCTGACAACATTGCAGGGCAGAAATATGAAGTAATTTCTGAATGAATGCATTATGTTGCATTTACTCATCAACAGATTCTTGGCATGATTGAATGGTCGTGTGAATAAAGACTCTGAAATTTCTTAGTATCTTCGTAGAACACCTTTGAAAATTCGGAAGGTCTAGTGCAAAAAATTTTGACATAACAAAAACAGTGCGGGAATCTTCCTTCCCCTTTGTAAAGCCATAATTTTACTCAAGTAATTTGATTCGACAGGACAAGTTATTTTCTTTAAGGCAAATGATAAGTACTATGCAGATCATGACAGTTTGTCAAGAAAAAAAAAAAAAAAAATAAACATGGTGATATAAGTTAGGTGCATATAGTAACAAAATAATTGAGACTTTAAACCCTCACAGATTTCCTTTGTCCTAGAACTAAAATACTTTGGGGTTCTATACTAACACTGCAATGTAAATGCGACTTTGACCTGCTGAAAGTAGACAACACTCCACAAATAAGTCATAAGTGTAAGGATCAAGAATGTGTGATTTTTCTTTGTCAGAATCTCAATGAAAATATGTCATGTAATTTAGACAAGTTTTCTTTTTTGTTTGAGGAACGATTTCAAGAGTTTGAAGCCTTCGGGTCCTTCAATATGGATTCTCACTTCTTGCAACTAGAATGACCTTATTAAAAGTACAAGGTGAGGTATCTCTTCCTCTTGTGATGAGAGAGACATACAGCAGAGTAGAGATTATGAAAATCAATTTGTTGGTGGCAGAAATCTGCAGAATCATGTCATGTTGGCAAGTATCCTATTGGATGGTCACTCACTTTACTTGACAATGTATAATCTGTTTCGAATATGATTGTGCTTGGTAATCAGATTTCTTATTTTTTTTTGGTTGTGCGATGGCTTCTGTTAAGTTACTTGTGTATCATATTGCAACTTAAACTAATTATTAATCTAGTTTTAACTATAAGAGAGGGACTGGAA CGAGGCCAACCATTTGGCCCGCTTGCGCGGACCGAGCCCGGTGGCCTCTTTTCGGTCCCTGATGCCCCGAATCGCCCCGGTTCCGCCTGGTTCGCCCCGAAACACCTCCGGATTCCTAAAAACCCTAGGAGGGCAAACAGGCATCGGAGGCGGTGTGGCCTACACCACGCCGGTGTGCAGCGGTTTTTGCTGGTCTTGCAGGTCACGTCTTCCCCAGTTTCTACAAATTCACTGTTGGTGTCACGTGAAGGTCAGGTGAGACCTCTGTCCAGATTTTGGCATCAACAGTTGGCGCCGTCTGTGGGGAAGAGAGTGCTTGCCAGTCTAGACCGCGCATCGGTGGTGGTCTGCAGGATGGATCAAGTTCAGAAACCAAAAGGAAACCTCGGATATGAGCGGGAAACGACGAGCCCGACTGGGGCCGACCTCGGTAGGGAGAAGTCCGACCCTAACTTCAGAGCATTCCGTTACTTCCTTATATTACACTTCGCCGATGATGATTTTCCTCACCGAGAGATTCTCGTCGGCGTGTTCCTGCTTCGGAAGAATCCGATGACGGACGTTTACTGTAGAATGCCAAGCGAAGATGATGGAGATTCGCCGGCCAAATGCCGAGAGCGCCGGCGCCGTAGAATAGAGATGAGGCGATTAGCAACAGTACCGTCGGCAAATCCCTCGTCCTCGACCAGTCACCACCGGAAGGACAATCAGACTGAGACTTCCGGTTTCGAGAAGAAGCTTGTTCGGAAGACGGACGGCGACGGTACTCCGGAGATTTCATCGTCTTCGTCATCGGGGGAGGACGTGAAGACTGTAGTGGCTTCACCGTCGGTACCTCAGCCGGTGTTCGGGATGATGTCGGTGTCCGGGAGGTCACGTGAGATGGAGGACGCAGTATCGGTGAGCACGTGGCTTCTTGGTCCAGAAAATTGCCGGCGGCTACCGGTGCATTTCTTCGCCGTCTACGATGGACATGGAGGCCCTCACGTGGCAGCGCTATGTAGGGAGAAGATGCACGTGTTAGTACGGGAGGAATTTTCGCGCGTGGTAGGTACGCGCCAAGAAACTGAGAGTGGCGGCGGAGGAAGCAGCACGGCGGATGAGGTTAAGGTGGAGGAGGAGGCGGTTTGGAGAAGAGTGATGCGGCGGAGCTTTGAGAGAATGGATGAAGTGGCACTCAGTACTTGTGCCTGTGGGAGCGTCGGAGGTCAGTGTGGTTGCCATCCAATGGAGGTGGCTCTCGGCGGCTCCACCGCTGTCGTCGCCGTGCTCACGCCGGATCACATAATCGTCGCCAACTGCGGTGACTCACGCGCCGTCCTCTGCCGAGGAGGAAGGGCCATTCCGCTTTCCAATGATCACAAGCCTGATAGAATTGATGAACTAGCAAGGATCGAAGCTGCTGGAGGACGGGTGATTTTTGTTAATGGAGCTCGGGTTGAAGGCATCCTTGCAATGTCCCGTGCAATAGGTAATAACTACTGCTTCTGTGAACTATGA CGAGGCCAACCATTTGGCCCGCTTGCGCGGACCGAGCCCGGTGGCCTCTTTTCGGTCCCTGATGCCCCGAATCGCCCCGGTTCCGCCTGGTTCGCCCCGAAACACCTCCGGATTCCTAAAAACCCTAGGAGGGCAAACAGGCATCGGAGGCGGTGTGGCCTACACCACGCCGGTGTGCAGCGGTTTTTGCTGGTCTTGCAGGTCACGTCTTCCCCAGTTTCTACAAATTCACTGTTGGTGTCACGTGAAGGTCAGGTGAGACCTCTGTCCAGATTTTGGCATCAACAGTTGGCGCCGTCTGTGGGGAAGAGAGTGCTTGCCAGTCTAGACCGCGCATCGGTGGTGGTCTGCAGGATGGATCAAGTTCAGAAACCAAAAGGAAACCTCGGATATGAGCGGGAAACGACGAGCCCGACTGGGGCCGACCTCGGTAGGGAGAAGTCCGACCCTAACTTCAGAGCATTCCGTTACTTCCTTATATTACACTTCGCCGATGATGATTTTCCTCACCGAGAGATTCTCGTCGGCGTGTTCCTGCTTCGGAAGAATCCGATGACGGACGTTTACTGTAGAATGCCAAGCGAAGATGATGGAGATTCGCCGGCCAAATGCCGAGAGCGCCGGCGCCGTAGAATAGAGATGAGGCGATTAGCAACAGTACCGTCGGCAAATCCCTCGTCCTCGACCAGTCACCACCGGAAGGACAATCAGACTGAGACTTCCGGTTTCGAGAAGAAGCTTGTTCGGAAGACGGACGGCGACGGTACTCCGGAGATTTCATCGTCTTCGTCATCGGGGGAGGACGTGAAGACTGTAGTGGCTTCACCGTCGGTACCTCAGCCGGTGTTCGGGATGATGTCGGTGTCCGGGAGGTCACGTGAGATGGAGGACGCAGTATCGGTGAGCACGTGGCTTCTTGGTCCAGAAAATTGCCGGCGGCTACCGGTGCATTTCTTCGCCGTCTACGATGGACATGGAGGCCCTCACGTGGCAGCGCTATGTAGGGAGAAGATGCACGTGTTAGTACGGGAGGAATTTTCGCGCGTGGTAGGTACGCGCCAAGAAACTGAGAGTGGCGGCGGAGGAAGCAGCACGGCGGATGAGGTTAAGGTGGAGGAGGAGGCGGTTTGGAGAAGAGTGATGCGGCGGAGCTTTGAGAGAATGGATGAAGTGGCACTCAGTACTTGTGCCTGTGGGAGCGTCGGAGGTCAGTGTGGTTGCCATCCAATGGAGGTGGCTCTCGGCGGCTCCACCGCTGTCGTCGCCGTGCTCACGCCGGATCACATAATCGTCGCCAACTGCGGTGACTCACGCGCCGTCCTCTGCCGAGGAGGAAGGGCCATTCCGCTTTCCAATGATCACAAGCCTGATAGAATTGATGAACTAGCAAGGATCGAAGCTGCTGGAGGACGGGTGATTTTTGTTAATGGAGCTCGGGTTGAAGGCATCCTTGCAATGTCCCGTGCAATAGGTAATAACTACTGCTTCTGTGAACTATGA RGQPFGPLARTEPGGLFSVPDAPNRPGSAWFAPKHLRIPKNPRRANRHRRRCGLHHAGVQRFLLVLQVTSSPVSTNSLLVSREGQVRPLSRFWHQQLAPSVGKRVLASLDRASVVVCRMDQVQKPKGNLGYERETTSPTGADLGREKSDPNFRAFRYFLILHFADDDFPHREILVGVFLLRKNPMTDVYCRMPSEDDGDSPAKCRERRRRRIEMRRLATVPSANPSSSTSHHRKDNQTETSGFEKKLVRKTDGDGTPEISSSSSSGEDVKTVVASPSVPQPVFGMMSVSGRSREMEDAVSVSTWLLGPENCRRLPVHFFAVYDGHGGPHVAALCREKMHVLVREEFSRVVGTRQETESGGGGSSTADEVKVEEEAVWRRVMRRSFERMDEVALSTCACGSVGGQCGCHPMEVALGGSTAVVAVLTPDHIIVANCGDSRAVLCRGGRAIPLSNDHKPDRIDELARIEAAGGRVIFVNGARVEGILAMSRAIGNNYCFCEL Homology
BLAST of Spg002633 vs. NCBI nr
Match: XP_008439132.1 (PREDICTED: probable protein phosphatase 2C 75 isoform X1 [Cucumis melo]) HSP 1 Score: 537.7 bits (1384), Expect = 1.0e-148 Identity = 272/310 (87.74%), Postives = 286/310 (92.26%), Query Frame = 0
BLAST of Spg002633 vs. NCBI nr
Match: XP_008439133.1 (PREDICTED: probable protein phosphatase 2C 75 isoform X2 [Cucumis melo]) HSP 1 Score: 535.0 bits (1377), Expect = 6.8e-148 Identity = 273/315 (86.67%), Postives = 286/315 (90.79%), Query Frame = 0
BLAST of Spg002633 vs. NCBI nr
Match: KAA0033587.1 (putative protein phosphatase 2C 75 isoform X1 [Cucumis melo var. makuwa] >TYK22253.1 putative protein phosphatase 2C 75 isoform X1 [Cucumis melo var. makuwa]) HSP 1 Score: 533.5 bits (1373), Expect = 2.0e-147 Identity = 271/306 (88.56%), Postives = 283/306 (92.48%), Query Frame = 0
BLAST of Spg002633 vs. NCBI nr
Match: XP_038883683.1 (probable protein phosphatase 2C 75 isoform X1 [Benincasa hispida]) HSP 1 Score: 532.3 bits (1370), Expect = 4.4e-147 Identity = 274/312 (87.82%), Postives = 288/312 (92.31%), Query Frame = 0
BLAST of Spg002633 vs. NCBI nr
Match: XP_004148120.2 (probable protein phosphatase 2C 75 [Cucumis sativus] >KGN57314.1 hypothetical protein Csa_009492 [Cucumis sativus]) HSP 1 Score: 530.0 bits (1364), Expect = 2.2e-146 Identity = 270/310 (87.10%), Postives = 282/310 (90.97%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy Swiss-Prot
Match: Q9FLI3 (Probable protein phosphatase 2C 75 OS=Arabidopsis thaliana OX=3702 GN=AHG1 PE=1 SV=1) HSP 1 Score: 279.3 bits (713), Expect = 8.8e-74 Identity = 172/323 (53.25%), Postives = 207/323 (64.09%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy Swiss-Prot
Match: Q9ZW21 (Probable protein phosphatase 2C 24 OS=Arabidopsis thaliana OX=3702 GN=At2g29380 PE=1 SV=1) HSP 1 Score: 198.7 bits (504), Expect = 1.5e-49 Identity = 128/280 (45.71%), Postives = 160/280 (57.14%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy Swiss-Prot
Match: Q84JI0 (Probable protein phosphatase 2C 30 OS=Oryza sativa subsp. japonica OX=39947 GN=PP2C30 PE=1 SV=1) HSP 1 Score: 195.7 bits (496), Expect = 1.3e-48 Identity = 139/320 (43.44%), Postives = 171/320 (53.44%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy Swiss-Prot
Match: Q9LNW3 (Protein phosphatase 2C 3 OS=Arabidopsis thaliana OX=3702 GN=AIP1 PE=1 SV=1) HSP 1 Score: 191.8 bits (486), Expect = 1.8e-47 Identity = 137/329 (41.64%), Postives = 181/329 (55.02%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy Swiss-Prot
Match: Q9FIF5 (Probable protein phosphatase 2C 78 OS=Arabidopsis thaliana OX=3702 GN=SAG113 PE=1 SV=1) HSP 1 Score: 191.8 bits (486), Expect = 1.8e-47 Identity = 130/300 (43.33%), Postives = 162/300 (54.00%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy TrEMBL
Match: A0A1S3AYN8 (Protein-serine/threonine phosphatase OS=Cucumis melo OX=3656 GN=LOC103484021 PE=3 SV=1) HSP 1 Score: 537.7 bits (1384), Expect = 5.1e-149 Identity = 272/310 (87.74%), Postives = 286/310 (92.26%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy TrEMBL
Match: A0A1S3AYP6 (Protein-serine/threonine phosphatase OS=Cucumis melo OX=3656 GN=LOC103484021 PE=3 SV=1) HSP 1 Score: 535.0 bits (1377), Expect = 3.3e-148 Identity = 273/315 (86.67%), Postives = 286/315 (90.79%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy TrEMBL
Match: A0A5A7SWG2 (Protein-serine/threonine phosphatase OS=Cucumis melo var. makuwa OX=1194695 GN=E5676_scaffold440G00050 PE=3 SV=1) HSP 1 Score: 533.5 bits (1373), Expect = 9.5e-148 Identity = 271/306 (88.56%), Postives = 283/306 (92.48%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy TrEMBL
Match: A0A0A0L8I0 (Protein-serine/threonine phosphatase OS=Cucumis sativus OX=3659 GN=Csa_3G178550 PE=3 SV=1) HSP 1 Score: 530.0 bits (1364), Expect = 1.1e-146 Identity = 270/310 (87.10%), Postives = 282/310 (90.97%), Query Frame = 0
BLAST of Spg002633 vs. ExPASy TrEMBL
Match: A0A6J1CJV4 (Protein-serine/threonine phosphatase OS=Momordica charantia OX=3673 GN=LOC111011675 PE=3 SV=1) HSP 1 Score: 511.5 bits (1316), Expect = 3.9e-141 Identity = 274/358 (76.54%), Postives = 285/358 (79.61%), Query Frame = 0
BLAST of Spg002633 vs. TAIR 10
Match: AT5G51760.1 (Protein phosphatase 2C family protein ) HSP 1 Score: 279.3 bits (713), Expect = 6.2e-75 Identity = 172/323 (53.25%), Postives = 207/323 (64.09%), Query Frame = 0
BLAST of Spg002633 vs. TAIR 10
Match: AT2G29380.1 (highly ABA-induced PP2C gene 3 ) HSP 1 Score: 198.7 bits (504), Expect = 1.1e-50 Identity = 128/280 (45.71%), Postives = 160/280 (57.14%), Query Frame = 0
BLAST of Spg002633 vs. TAIR 10
Match: AT1G07430.1 (highly ABA-induced PP2C gene 2 ) HSP 1 Score: 191.8 bits (486), Expect = 1.3e-48 Identity = 137/329 (41.64%), Postives = 181/329 (55.02%), Query Frame = 0
BLAST of Spg002633 vs. TAIR 10
Match: AT5G59220.1 (highly ABA-induced PP2C gene 1 ) HSP 1 Score: 191.8 bits (486), Expect = 1.3e-48 Identity = 130/300 (43.33%), Postives = 162/300 (54.00%), Query Frame = 0
BLAST of Spg002633 vs. TAIR 10
Match: AT3G11410.1 (protein phosphatase 2CA ) HSP 1 Score: 170.2 bits (430), Expect = 4.1e-42 Identity = 124/325 (38.15%), Postives = 168/325 (51.69%), 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 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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