Cp4.1LG05g06010 (gene) Cucurbita pepo (Zucchini)
The following sequences are available for this feature:
Legend: five_prime_UTRCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GAAAATATATAAGACCGAGCACGAAGCAAAGAGAAGAAGGAAATTTGTTCGAAGCCTAAATCTTTTTCCTCGACTTGATAAAGAGCCGTGGTCGAGATTAGGGTGGGGCTTTAAATGGTGCATACGTCATACATGCCCTTGCAGTAATTTCGCTCAGCTCGATTTGATTATTTTTGTAGAGGTAACATGAAAGTACTAAATTATTTCTCGTATAAATATATTTATTTTTTTTTGCAAAGAATAATCGAATTAAAATAACAATAAATCATAACATTGCATTTTCGAAATTATTTTTAATTTAATTCCTTAGTTCTTCCTCTATATTAATTATTTAATCGTTGATTGAATTTTTTTAATTAACATTTAATATTTTTATTATTTGTAGAACTTATTTTGAAAAAGAAATTTAAATAACAATAATTTAGATATTATTAATTATTGTTACCTAAAAGTTATGGCGAAATGTTAATGTCCAAATTTTGTGTGACATGAAAGGTCTGGAATGGAGGAGTTTTGTGGCTCGAGAATCTTTGAGATGGGGTCCTGACTTTCAATTTTTTCAACATTGATCGCGTGCAAAATACAGGTTCGTCCTCGTCGGGTCGCGGCACGATTTCTGATCCGCCCACCTAATCGAGATTCATGATCTTTCTTTCAATTTTCTATATATAAATGTAATGCCCCAAATCCCAATTTTCATCATACTTCAACGAGAATCGGAAACCAGAGCATACAGAGAGAGAGAGAGAGAGAGAGAGAGAGGAGTGAAACGAAGAGATTGAGTGTGTTTGTGTACGAGAGAATTCTTTTTGCGTCTCTTTCTTGTTTGTTTGCGTCTTTCCCAGAAGTTGGAAGTTCCCATTTCCAGAAATTAACGCCTGGTAATCTCTCTGTCGTTAACCCTTTTTGACTCTGCTTTGATTGTTCTTGCTCTGTAATCCATGGCTTCGCTCTGAGTTTGGTTTGATTGTTGCTTAAATGCATTTTTCTTTTGTTTTGATGGATTCTGTTTGTTTTCTCGGATTTTGTTTGTCTTTTGATTACGGATACATATTGTGGGTATTCATCCCTTCTCTCTCTCTCTCTCTCTCTGTCTTCTTGTTCTTCCGATTGTTGAGTTTAATGTTGTGTTCGTGCTCAAATACTGCTATCATTTCCACTTTCGTCCTCCTTGCCCTTCAATCTCCCGGACTCAAACTGGAAATTTCGGGCTATAGAATGATTTATCCTTAGTCTTACGATTTTCCCGTTCGTTTTTTCGTTTTTGAATCATCGAGCCATCTTGTTTGAGAAATTGTTGGTTAATATTGTTCTGTTTTGATCGAAGCGTTGGAGATATATGTATCGCATTAAATATAGTTTTTCTTTTCAACGTTTGGGGCCCAAGGGACTGCGAATTAGCGAGGGAAGGGTGTTCCATGTCCAATTCCTTACACAGTGTCCTAATATACAGGGTTCAATATACTTGACATATTTGGCTATTTCCGACATTGAATCTGAAGGAAGCTAATAAGGGATTTTGGAGAATCAAATTTTCTTATGATATGATTCATCAAAACGGTCTTAATTACCGTTTATTGACCTGATCCCATGATCTACGTGTTATTATTATTTGTTTCCATTCAGAGAAAATTCATTGAAGTTACCTTTTTCCAACAATAGGTTGATTTGTATAAACTATGACCTTTAGCTTTGGTTTTGGCTTGGGTTTATTATCAGCTGGTAAATTTTCTCATCCTCTGGGCCTACTTTTTGATCAATCTTTTTCTTCGTTCTTTGTTGCTATTAGTACAGTGATTTTGTAGAATTAGTTGGTTGCTGGAAACTATTGTAGTGTGTCAAATCTTTCATACAAAGTTCGTATGTCGTTTCTTTCTCATGTATGAATTTGAATCTATAGAGACTGGAGCTCGAGAAGAAAAGGATCATTTATGGAGGCCGACGCAGGAAGAGGTTTGGGATGCCAGAAGACTATGGATGGGAAGGCGAGTAATGGGATTGTTCCAAAGAAGGAGATCCCTTCTTGTTGTTTAAAGGCCATGGCTTCAGCCCCTGAGCTTGATGCCAAGTGCCATTCCACTGTTGTTTCTGGCTGGTTCTCGGAACATCAGTCTGCTTCTGGTAATTAACTATGCTTGTTTCCTTCTATTTTGGTTCTACCATTCACGTGTTCTGATCAGATCCTTCATTGACATGTTTTTGTTTCAATATCTTCCAAATTCAGATAAGGGAAACAAAATGGTCTACTTCAACAATCCCATGTGGCCTGGTACCCTTCTCTACTTTTTTCTTTATCTTTTGATAGCTTATATTATTGCCCATCTGATGAACATCATTCTCTACTTTCATATTTATTCTGCGTTGGTTCTTAAACTTTTAGGCGTTCTTCTTTGGCCGATGAACTTTGCATGAAAACTATTTTGGCCATTGTTCATTTTATGTAAAACATTTGAGGAAAGATCTGTGTTATAGGTGAGAAGTATTTGAAGCTTCTTATGGCAAGCCTAGTTTCACGCTACGAAACGATTAGATAATTAATGAAAAACTAACGACAAAGATTCAGAGAGTTTTTGTTATTCAAATATTAAGGATTGATATCTATTTATGTTAAGTTGATCCTTGCTTGAGTGTTCTAACCGACGATAATATGAGTTTAGCATTCCTACCTCAAGCACGACAATTATGGCCTTTATAATTCTGTTTGTTTTTAGGAGAAGCACATTCCCTGCAAGTAGAGTCTATATTATTTCAAGGGAGGTCAGAGTACCAAGAAGTAGTTGTTTTCGAGGTATGTTTTCTGTTTCGTATTGACCCTTTTCGCTTAACATTCTGTGATTTCCTAAATGAAATATAAATTTGAGGTAGCTAATACCACGATTTTTCATTGACAGTCCACTTCATATGGGAAAGTGCTTGTTCTAGATGGTATTGTCCAGTTAACTGAGAAAGATGAGTGTGCCTACCAGGAGATGATAACTCACCTGCCCCTCTGTTCAATTCCATCTCCCAAAACGGTGACTTCATATATTCAAACCATCGTGCTTTCGTCTTTACAGTTGTAGTCTTCCATTTTCTCGTGCAATCAGTATGAGGAATGATGGAATGATTTCTTTGTTGTTAAGAGTTTTGATTTTAAAACAAGCAACTGGAATTGTGGTTTGGTAACTATGAGTTAACTTACTTTTGGCATCTGATTGGTTCCGATCTTGACTTGCTTGCCAATGTGAAACTTATATAGTTGCACTTGATATGGGATCGATTAACTATCCAGTTTGATCTGTTTTGATCATTTTGTTCTCCGAGTTCGTTGATATCTTGGGTTTGCATAAAATAGTTAGCTTGACGAGGTCATGGGTTTTTATATCTGTTTCAAAATCATTTTACACTAAGATTACGTCTTTGTGTTTAGCCGTATGGATTTCTTTCAGCTGTTGAAGATTAAGTTATGTATGTTCAATCAAATCCGTTGCAGGTTCTTGTTGTTGGTGGTGGCGATGGTGGAGTTCTAAGGGAAGTCGCTCGCCACAACTCTGTAGAGCATATCGATATATGTGAGATAGATAAGATGGTCATTGATGTATGATATGTAACATCCGCTTTTGTGATAAACTCACTATGTTTTCTCTCAAGTTGATCACCTTGTTGTCCTGGTTTCTTTACCTATAGGTATCCAAGGAGTTCTTTCCCGAGTTAGCTAAAGGATTTGAGGATCCCCGTGTCCACCTTCACGTTGGAGATGGTATGTCCTGATGTAGTTTATCTTTCCTTTTATATATTTTTTTATATCAATTAATTGGATCGCCATGGAGATTATTATGCTATATGTCCAATGTTATCTCTCTGCGTCGTGATTTTTACAGCTGTTGATTTCCTACGGCGTGCACCGAAAGAGAAATACGATGCTGTCATAGTTGATTCCTCGGACCCTGTTGGTATGTTCGTAGTTTATATGATATCGAGTTCATGTAACTCATTTATAACAAGTGCATGTCACTGTATGCTCACAAAAGCCATTTCCTGTGGTATCTCTAGTTTAAATAAGGTTGTTGCTATTTTAGGACCTGCTCAGGAGCTAGTTGAGAAGCCATTCTTTGAGACGATAGCAAAAGCATTGAAACCTGGTGGTGTTCTCTGTAACATGGCAGAAAGTATGTGGCTACATACACATCTTATTCAAGATATGATCTCTATTTGCCGTAAAATTTTCAAAGGGTCTGTTCATTATGCATGGGGCAGCGTTCCAACTTATCCAAGGTCACCATAACTTGTAGCACACTGCTTTTAAAGGATTCATCTTGATATTGCCATTTTCAGATGATTATTGCTCTTTCTCAATTCTGGGTTTTGTATTCTTCAGTGGTGTGATAGGTTTTCTGCTATGCTCAACTGAAGGGCCACCTGTTGATTTTAAGAATCCTATCAATCCCATCGAGAAGCTAGAAAGTTCAGCCGAGTATGAAAGAGAGCTCAAGTTCTACAATTCAGAGGTACATTTATACTCTGCTCCAGCCAGTCCCTTGTAGCATAGATCATGTGGATAAGTTCCTTCAAAGAAATAGAACTGATATGAACTGTTGTTGAAAATGGCAGATACACTCTGCTGCTTTTGCTTTGCCATCGTTTCTGAGGAGGGAGGTGAAGGCGCTTGGGCACAGGACTGATTCCGGTAGAGGAGGCGACGTCCAGGTCTAGCCATTTCCTGTTTGGTTGGTATTTACAAATAATGAAAGTGATTGAACATTGATTCTGAAAACATTTATATTATTGACTTGTAATGGTAGTAGCTATATCTTCTGTGAGATCAAACTTGTTGATGACATCTCATTGAATTTCTTCTTGCTTATGAGTGATTTGAAGCAGTGCTTTTATAATATGTGATTTGTGCACTTCTTTGGTGAATGGATGGAACTACTTTAGAACTTTGGGTATTCGATTAGGAGGCAGACGTGATATCATTTACAACTACGTAAAAGATTAAGATTATTATTATTACCTAAAAAGTGAACATGAACGCATCTCGGAGCAGCTATCGGGGCAGAGGAGAGAGTAGGCTGGGAGGTTCTTGACTCCGTTGGATGTTCCATCCGTTCGGGCTATCGGATTAAGAGCTTTGAAGCAAATGCAATTATAGAAGGGCTAAGGACTTCAATAACATTTTTGTTTTGACAGATATATATATACAATAATTTGGAAAGCCATTAATTTTGGTTTGCTCATGTTTCCAATTAACTGCGAAGTTCTTTAAAAATTTAAAACATGATACATTAATTCTAAAAGAAAAAAAGACTTGTCGTACTAATAACAACATCGACCTATAAGACACGAATGATTATACAGTTCAATATATTCACAAATCCAGTTCGACGAACTCATCTGCACGAGATCGATAGATAGGCACGAGGGTTCCAGATGAACTTATAGTTGAGGCAATGACCATTGCTTGGATTCTGCCCAACTGACCTGAGGTCGAAATCTTTTGCTATCAATCGAGCTATTAATGACACAATGGCGTTTAGGCAAAACACCATGGCAGAAACATTCTCTCATTCCCATATTACGGAATATAAGAACCAATGCATAGAATAGACATCACTTTTGTATACAAAGAATACCTTTGCTCTATCAACTATTCTCTTCAGAGGTAAAGTCGGGCTCTGCTGGTTTCTGAAGCAACATGGGCGGTATTCTCTCGGGAATCCTGGCCTTGCGTGAGCTTGTGCGTCGAATCGTTCTTAGGATGTTAGCTGCAAATCTGGATGCATAGATGGTAGCACCTAAACTAGGAGAACTCCCACCTGTCTTGGCCAATGCATCTTTTAACCTGTTCTCTTCTTCCAACAGAGCCTGTTCGTGTTTCTTTCTTCTGTATCGACGCCACGCTGCTTGTATAAAACACGCTGCCCATGTCCTCCATTGCTGTGAATAAAACCTGAAAGTGTGCCGCAGCTGCTTGCTGTGAAGTCTACGGAACTGTGAGGCTACAAACTTTAGGTCATCTGCCTTCAAAGCAAATGCTTCAACTTCTGAAAGAGTTCGAACAGTTCTTGTTGAAATTGGTAGATTGGATGAGGAATGTGGATCCAGAGCCCATGTCAGTAGCTCTTCTCCACAGAAATCCCCTGCCTTGAGGTGTTCAGAATTAAAGAAACCAGTTCTTCCACCATTTGTAGTTACAGACAATAACTTGCCACGCATTATGAAGATCATCTCATCGACTGGGTCTCCTTCCCGAACGATATAACTTTCCTCTGTGTATAGTACTGGCTTGAGACGGTCACACATAGCATCCAGCAGTTGTTCGTCCATTTTTTCAAATATCGGTACCTGAAACGTTAAAGAAAAAGAATTTT GAAAATATATAAGACCGAGCACGAAGCAAAGAGAAGAAGGAAATTTGTTCGAAGCCTAAATCTTTTTCCTCGACTTGATAAAGAGCCGTGGTCGAGATTAGGGTGGGGCTTTAAATGGTGCATACGTCATACATGCCCTTGCAGTAATTTCGCTCAGCTCGATTTGATTATTTTTGTAGAGGTCTGGAATGGAGGAGTTTTGTGGCTCGAGAATCTTTGAGATGGGGTCCTGACTTTCAATTTTTTCAACATTGATCGCGTGCAAAATACAGGTTCGTCCTCGTCGGGTCGCGGCACGATTTCTGATCCGCCCACCTAATCGAGATTCATGATCTTTCTTTCAATTTTCTATATATAAATGTAATGCCCCAAATCCCAATTTTCATCATACTTCAACGAGAATCGGAAACCAGAGCATACAGAGAGAGAGAGAGAGAGAGAGAGAGAGGAGTGAAACGAAGAGATTGAGTGTGTTTGTGTACGAGAGAATTCTTTTTGCGTCTCTTTCTTGTTTGTTTGCGTCTTTCCCAGAAGTTGGAAGTTCCCATTTCCAGAAATTAACGCCTGAGACTGGAGCTCGAGAAGAAAAGGATCATTTATGGAGGCCGACGCAGGAAGAGGTTTGGGATGCCAGAAGACTATGGATGGGAAGGCGAGTAATGGGATTGTTCCAAAGAAGGAGATCCCTTCTTGTTGTTTAAAGGCCATGGCTTCAGCCCCTGAGCTTGATGCCAAGTGCCATTCCACTGTTGTTTCTGGCTGGTTCTCGGAACATCAGTCTGCTTCTGATAAGGGAAACAAAATGGTCTACTTCAACAATCCCATGTGGCCTGGAGAAGCACATTCCCTGCAAGTAGAGTCTATATTATTTCAAGGGAGGTCAGAGTACCAAGAAGTAGTTGTTTTCGAGTCCACTTCATATGGGAAAGTGCTTGTTCTAGATGGTATTGTCCAGTTAACTGAGAAAGATGAGTGTGCCTACCAGGAGATGATAACTCACCTGCCCCTCTGTTCAATTCCATCTCCCAAAACGGTTCTTGTTGTTGGTGGTGGCGATGGTGGAGTTCTAAGGGAAGTCGCTCGCCACAACTCTGTAGAGCATATCGATATATGTGAGATAGATAAGATGGTCATTGATGTATCCAAGGAGTTCTTTCCCGAGTTAGCTAAAGGATTTGAGGATCCCCGTGTCCACCTTCACGTTGGAGATGCTGTTGATTTCCTACGGCGTGCACCGAAAGAGAAATACGATGCTGTCATAGTTGATTCCTCGGACCCTGTTGGACCTGCTCAGGAGCTAGTTGAGAAGCCATTCTTTGAGACGATAGCAAAAGCATTGAAACCTGGTGGTGTTCTCTGTAACATGGCAGAAAGTATGTGGCTACATACACATCTTATTCAAGATATGATCTCTATTTGCCGTAAAATTTTCAAAGGGTCTGTTCATTATGCATGGGGCAGCGTTCCAACTTATCCAAGTGGTGTGATAGGTTTTCTGCTATGCTCAACTGAAGGGCCACCTGTTGATTTTAAGAATCCTATCAATCCCATCGAGAAGCTAGAAAGTTCAGCCGAGTATGAAAGAGAGCTCAAGTTCTACAATTCAGAGATACACTCTGCTGCTTTTGCTTTGCCATCGTTTCTGAGGAGGGAGGTGAAGGCGCTTGGGCACAGGACTGATTCCGGTAGAGGAGGCGACGTCCAGGTCTAGCCATTTCCTGTTTGGTTGGTATTTACAAATAATGAAAGTGATTGAACATTGATTCTGAAAACATTTATATTATTGACTTGTAATGGTAGTAGCTATATCTTCTGTGAGATCAAACTTGTTGATGACATCTCATTGAATTTCTTCTTGCTTATGAGTGATTTGAAGCAGTGCTTTTATAATATGTGATTTGTGCACTTCTTTGGTGAATGGATGGAACTACTTTAGAACTTTGGGTATTCGATTAGGAGGCAGACGTGATATCATTTACAACTACGTAAAAGATTAAGATTATTATTATTACCTAAAAAGTGAACATGAACGCATCTCGGAGCAGCTATCGGGGCAGAGGAGAGAGTAGGCTGGGAGGTTCTTGACTCCGTTGGATGTTCCATCCGTTCGGGCTATCGGATTAAGAGCTTTGAAGCAAATGCAATTATAGAAGGGCTAAGGACTTCAATAACATTTTTGTTTTGACAGATATATATATACAATAATTTGGAAAGCCATTAATTTTGGTTTGCTCATGTTTCCAATTAACTGCGAAGTTCTTTAAAAATTTAAAACATGATACATTAATTCTAAAAGAAAAAAAGACTTGTCGTACTAATAACAACATCGACCTATAAGACACGAATGATTATACAGTTCAATATATTCACAAATCCAGTTCGACGAACTCATCTGCACGAGATCGATAGATAGGCACGAGGGTTCCAGATGAACTTATAGTTGAGGCAATGACCATTGCTTGGATTCTGCCCAACTGACCTGAGGTCGAAATCTTTTGCTATCAATCGAGCTATTAATGACACAATGGCGTTTAGGCAAAACACCATGGCAGAAACATTCTCTCATTCCCATATTACGGAATATAAGAACCAATGCATAGAATAGACATCACTTTTGTATACAAAGAATACCTTTGCTCTATCAACTATTCTCTTCAGAGGTAAAGTCGGGCTCTGCTGGTTTCTGAAGCAACATGGGCGGTATTCTCTCGGGAATCCTGGCCTTGCGTGAGCTTGTGCGTCGAATCGTTCTTAGGATGTTAGCTGCAAATCTGGATGCATAGATGGTAGCACCTAAACTAGGAGAACTCCCACCTGTCTTGGCCAATGCATCTTTTAACCTGTTCTCTTCTTCCAACAGAGCCTGTTCGTGTTTCTTTCTTCTGTATCGACGCCACGCTGCTTGTATAAAACACGCTGCCCATGTCCTCCATTGCTGTGAATAAAACCTGAAAGTGTGCCGCAGCTGCTTGCTGTGAAGTCTACGGAACTGTGAGGCTACAAACTTTAGGTCATCTGCCTTCAAAGCAAATGCTTCAACTTCTGAAAGAGTTCGAACAGTTCTTGTTGAAATTGGTAGATTGGATGAGGAATGTGGATCCAGAGCCCATGTCAGTAGCTCTTCTCCACAGAAATCCCCTGCCTTGAGGTGTTCAGAATTAAAGAAACCAGTTCTTCCACCATTTGTAGTTACAGACAATAACTTGCCACGCATTATGAAGATCATCTCATCGACTGGGTCTCCTTCCCGAACGATATAACTTTCCTCTGTGTATAGTACTGGCTTGAGACGGTCACACATAGCATCCAGCAGTTGTTCGTCCATTTTTTCAAATATCGGTACCTGAAACGTTAAAGAAAAAGAATTTT ATGGAGGCCGACGCAGGAAGAGGTTTGGGATGCCAGAAGACTATGGATGGGAAGGCGAGTAATGGGATTGTTCCAAAGAAGGAGATCCCTTCTTGTTGTTTAAAGGCCATGGCTTCAGCCCCTGAGCTTGATGCCAAGTGCCATTCCACTGTTGTTTCTGGCTGGTTCTCGGAACATCAGTCTGCTTCTGATAAGGGAAACAAAATGGTCTACTTCAACAATCCCATGTGGCCTGGAGAAGCACATTCCCTGCAAGTAGAGTCTATATTATTTCAAGGGAGGTCAGAGTACCAAGAAGTAGTTGTTTTCGAGTCCACTTCATATGGGAAAGTGCTTGTTCTAGATGGTATTGTCCAGTTAACTGAGAAAGATGAGTGTGCCTACCAGGAGATGATAACTCACCTGCCCCTCTGTTCAATTCCATCTCCCAAAACGGTTCTTGTTGTTGGTGGTGGCGATGGTGGAGTTCTAAGGGAAGTCGCTCGCCACAACTCTGTAGAGCATATCGATATATGTGAGATAGATAAGATGGTCATTGATGTATCCAAGGAGTTCTTTCCCGAGTTAGCTAAAGGATTTGAGGATCCCCGTGTCCACCTTCACGTTGGAGATGCTGTTGATTTCCTACGGCGTGCACCGAAAGAGAAATACGATGCTGTCATAGTTGATTCCTCGGACCCTGTTGGACCTGCTCAGGAGCTAGTTGAGAAGCCATTCTTTGAGACGATAGCAAAAGCATTGAAACCTGGTGGTGTTCTCTGTAACATGGCAGAAAGTATGTGGCTACATACACATCTTATTCAAGATATGATCTCTATTTGCCGTAAAATTTTCAAAGGGTCTGTTCATTATGCATGGGGCAGCGTTCCAACTTATCCAAGTGGTGTGATAGGTTTTCTGCTATGCTCAACTGAAGGGCCACCTGTTGATTTTAAGAATCCTATCAATCCCATCGAGAAGCTAGAAAGTTCAGCCGAGTATGAAAGAGAGCTCAAGTTCTACAATTCAGAGATACACTCTGCTGCTTTTGCTTTGCCATCGTTTCTGAGGAGGGAGGTGAAGGCGCTTGGGCACAGGACTGATTCCGGTAGAGGAGGCGACGTCCAGGTCTAG MEADAGRGLGCQKTMDGKASNGIVPKKEIPSCCLKAMASAPELDAKCHSTVVSGWFSEHQSASDKGNKMVYFNNPMWPGEAHSLQVESILFQGRSEYQEVVVFESTSYGKVLVLDGIVQLTEKDECAYQEMITHLPLCSIPSPKTVLVVGGGDGGVLREVARHNSVEHIDICEIDKMVIDVSKEFFPELAKGFEDPRVHLHVGDAVDFLRRAPKEKYDAVIVDSSDPVGPAQELVEKPFFETIAKALKPGGVLCNMAESMWLHTHLIQDMISICRKIFKGSVHYAWGSVPTYPSGVIGFLLCSTEGPPVDFKNPINPIEKLESSAEYERELKFYNSEIHSAAFALPSFLRREVKALGHRTDSGRGGDVQV
BLAST of Cp4.1LG05g06010 vs. Swiss-Prot
Match: SPSY_ARATH (Spermine synthase OS=Arabidopsis thaliana GN=SPMS PE=1 SV=1) HSP 1 Score: 587.0 bits (1512), Expect = 1.4e-166 Identity = 281/357 (78.71%), Postives = 316/357 (88.52%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. Swiss-Prot
Match: SPDE_COFAR (Spermidine synthase OS=Coffea arabica PE=2 SV=1) HSP 1 Score: 462.6 bits (1189), Expect = 4.0e-129 Identity = 213/305 (69.84%), Postives = 259/305 (84.92%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. Swiss-Prot
Match: SPD2_HYONI (Spermidine synthase 2 OS=Hyoscyamus niger PE=2 SV=1) HSP 1 Score: 460.3 bits (1183), Expect = 2.0e-128 Identity = 214/307 (69.71%), Postives = 259/307 (84.36%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. Swiss-Prot
Match: SPD1_DATST (Spermidine synthase 1 OS=Datura stramonium PE=2 SV=1) HSP 1 Score: 456.4 bits (1173), Expect = 2.9e-127 Identity = 212/321 (66.04%), Postives = 264/321 (82.24%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. Swiss-Prot
Match: SPD2_DATST (Spermidine synthase 2 OS=Datura stramonium PE=2 SV=1) HSP 1 Score: 455.3 bits (1170), Expect = 6.4e-127 Identity = 211/314 (67.20%), Postives = 263/314 (83.76%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TrEMBL
Match: A0A0A0KN88_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_5G139500 PE=3 SV=1) HSP 1 Score: 663.7 bits (1711), Expect = 1.3e-187 Identity = 313/356 (87.92%), Postives = 340/356 (95.51%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TrEMBL
Match: B9I569_POPTR (Uncharacterized protein OS=Populus trichocarpa GN=POPTR_0012s01730g PE=3 SV=2) HSP 1 Score: 623.2 bits (1606), Expect = 2.0e-175 Identity = 294/364 (80.77%), Postives = 330/364 (90.66%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TrEMBL
Match: A0A0B0MDX1_GOSAR (Spermine synthase OS=Gossypium arboreum GN=F383_17674 PE=3 SV=1) HSP 1 Score: 620.2 bits (1598), Expect = 1.7e-174 Identity = 295/356 (82.87%), Postives = 327/356 (91.85%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TrEMBL
Match: A0A061G8X2_THECC (Spermidine synthase 3 isoform 3 OS=Theobroma cacao GN=TCM_015367 PE=3 SV=1) HSP 1 Score: 619.4 bits (1596), Expect = 2.9e-174 Identity = 295/365 (80.82%), Postives = 329/365 (90.14%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TrEMBL
Match: Q4ADY5_9ROSA (Spermine synthase OS=Malus sylvestris GN=SPMS PE=2 SV=1) HSP 1 Score: 618.6 bits (1594), Expect = 4.9e-174 Identity = 295/364 (81.04%), Postives = 327/364 (89.84%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TAIR10
Match: AT5G53120.6 (AT5G53120.6 spermidine synthase 3) HSP 1 Score: 572.4 bits (1474), Expect = 2.0e-163 Identity = 281/384 (73.18%), Postives = 316/384 (82.29%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TAIR10
Match: AT1G23820.1 (AT1G23820.1 spermidine synthase 1) HSP 1 Score: 454.5 bits (1168), Expect = 6.2e-128 Identity = 209/309 (67.64%), Postives = 262/309 (84.79%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TAIR10
Match: AT1G70310.1 (AT1G70310.1 spermidine synthase 2) HSP 1 Score: 439.9 bits (1130), Expect = 1.6e-123 Identity = 203/310 (65.48%), Postives = 255/310 (82.26%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. TAIR10
Match: AT5G19530.1 (AT5G19530.1 S-adenosyl-L-methionine-dependent methyltransferases superfamily protein) HSP 1 Score: 139.8 bits (351), Expect = 3.4e-33 Identity = 70/202 (34.65%), Postives = 118/202 (58.42%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. NCBI nr
Match: gi|449456381|ref|XP_004145928.1| (PREDICTED: spermine synthase [Cucumis sativus]) HSP 1 Score: 663.7 bits (1711), Expect = 1.9e-187 Identity = 313/356 (87.92%), Postives = 340/356 (95.51%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. NCBI nr
Match: gi|659074406|ref|XP_008437587.1| (PREDICTED: spermine synthase [Cucumis melo]) HSP 1 Score: 659.8 bits (1701), Expect = 2.7e-186 Identity = 311/356 (87.36%), Postives = 338/356 (94.94%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. NCBI nr
Match: gi|645258093|ref|XP_008234722.1| (PREDICTED: spermine synthase isoform X1 [Prunus mume]) HSP 1 Score: 629.8 bits (1623), Expect = 3.0e-177 Identity = 297/362 (82.04%), Postives = 331/362 (91.44%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. NCBI nr
Match: gi|566196289|ref|XP_002318386.2| (hypothetical protein POPTR_0012s01730g [Populus trichocarpa]) HSP 1 Score: 623.2 bits (1606), Expect = 2.8e-175 Identity = 294/364 (80.77%), Postives = 330/364 (90.66%), Query Frame = 1
BLAST of Cp4.1LG05g06010 vs. NCBI nr
Match: gi|728811605|gb|KHG00313.1| (Spermine synthase [Gossypium arboreum]) HSP 1 Score: 620.2 bits (1598), Expect = 2.4e-174 Identity = 295/356 (82.87%), Postives = 327/356 (91.85%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this gene:
GO Assignments
This gene is annotated with the following GO terms.
The following mRNA feature(s) are a part of this gene:
Analysis Name: InterPro Annotations of Cucurbita pepo
Date Performed: 2017-12-02
The following gene(s) are orthologous to this gene: The following gene(s) are paralogous to this gene:
The following block(s) are covering this gene: |