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Overview
Sequences
The following sequences are available for this feature:
Legend: polypeptideCDSexonthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.ATGTCTGCAATTTCAGAACTCAAATTCCTGACACCAATCTTCAACAATCCAAATTCACAAACTCAACAAACCCAGTATTGTTATTATTATCATCATCATCATCCTCAAACCCTCAAATTCCAGAATGAAAATCTCCGCTCAAAAACCCAAAATTTCAGATGCTCAAATCTTGCTTTAAAACCCCAGCAATTGCGGCCATGTTTGGCCGCAGAAGTTGTTGATTTCCCACCGTCTTCTTCTAATGATGATTCTGAACAAAACCCAGAAAAGATTATTTCTTCTTCTGCAGCAGCTGCTGCTGCTGTTGCTGCTGAAGAGAGGAAAGATAGAAGAAGGGTAGTGAGGATTGCGTGGGAGAAACTAGTTCGTTGGTCTCGTTCTTTGCGTTCTAAGTCCAGGCCTGATGTTCTTCAACGCACTCAAAAGGTTGTCTTTTATCTATTATTTTAGTGAATTTCTGATTGTTGCCCTGAAATTTATTACTATTTATTCGGGTTTTCTTGTGATTGTGTTTATAGCGTTGGTACTTGGTAGTTCGTTCGTATTGGAAATGTTCTATTTATGATTCGGATTGAGGCTCGTAGTGTAGCAGTTTGAGGGTATGATTTGATGGAACGAATTGAAAAGAAGACAAATGTAGTTGTTTATCAAACTTGGTTGAGTTTATGATGATTTTATAGGGGAAGGAGGAGCGACAAAGAGCGGTGATGTTGATGGGATTTACTCAGACGTATTGAGTATAGGTTATGAGTCTGACTTTAACCAACTAAGCTAGTTTATTGTACAATGTTATCTTAAGCAAAAACAATGAAGATCATAACTTTGGAGAGTTATTATTCTCCTCACAATTCAGCGTTGTTGCTTAAAGTTGATTGTTTCGTTGATAGGGGACTCGTACCGTTATGGACCATTTAATGAAAGCGAATCCATAGTAAGATGGTGAAAGGGCATAGAAGTAGAGTCTCAGCTGTTTCCTTCAGTAAGATTCATAAGGGAGGTATACTGTCCTATAGATATCCTGGTGTGTATCTTCTTAATGTCATGTGTTGCAATTTTAATTTCCGTGTCTTTGATAGTCGTGGAACCTCTGATTATATGCCATTTTGATCTCTCTTCTGTTATTGTAACGTATTCAGCAGCGGCTAATTTTCTCTTAAACCATTACTATGTAAAGTAAAACCGGGAAAAGTCCTATTAACTAGAAGTCTTGAACAATATACGGAGTATGATAGAAGTATGGAACTTTTAGGTCGAGGCAGGACTTGGTGTTATTTTATCATAGCGTTATAAGGGTAGGAAATAACTTCCCCCCTGCATCATAGCATGGGCAAATAGGCTTCTTGGTTGCTTGGTTGAGTCAAGAAAGCTAAGGAATAATTATACTTCCTCCATTCTAATGTAGGTATGTTTTAAGGTTATGGATGTAGATTAGGAGTTCTTACTCTTCTTAGATATTTGATTGGTAAAAAATACCTACGAGCAATATCACATTGCTATTTTACAACTAAATTTGGCCCCGTGCATGCACGGATATTCTAAATTTATTATTTGACCATTTTTTTAATAAAATATTTAACTGGAATCTTTCTCCCCCTAAAACTACTGCATAATTAGTAAATATTGAACAACATACCCATTTTATAATCTAATATGTAATTTCCGTCCTACTATAGTACTATGTATTACATATTTTATATGACCAAAATGCTATTTGACCAAAATATTCAATATGTTTAATATGTTAATTTGACTAAAATATTCGGTAAATATATTTTCCATTATTAATATACCAAGTTACTAAATATTACTCCCTCTGTTCTTGAATGTTAATCCTATTTCCGTATTGAATTGTTTTTTTGTTAGCCCCTTTTAGAATATGTCCTTATTTGTCCAACATTTATTCCCATTATACCTTTATAAATACGGAGTATCCCTTAATTATTTCTCTCCTCTACCCACTTGAGTTAGATTCTATTGAGATTTACGTGATAAGTATACTTACGTTGGATTTTCTTAGATTCCAAAAGGGACTATCATTTTTAAGAACCGAGGGAGTACCAAAAATCTTTTTTAGCAAATTATTATTACGTGGTATTTATTATCGCCATAATCTACAAACTATTTTTTTCTTCTTCTCATACATAGTCAATTTACATAAAAGGATAGTAAAAAGAAAGATAATTTTTTAGGAAAAAAGTGTTTGGAGGGAATATTCTGCACCAGGAAGTGACGGGTCATGGTATTTATTTTAGCAGAAAGTTATAGATTGATCATTAATATTTGAGACGACAAATAATAAGTTAGTTAAGGGGATTGATATCATGCACTGGAAGTACTTAATTTCAACAAACTCGTGCTTGATGTATTCTTATGCAGTTCTGCCTTATACCTCTCCATTAAAGGGATCTAATAGAGATACTCAGGAAAAGACTTGGAAACACAATTTAATCTTTTGATCAGTTTAGATTTTAGGCACACTGCTTAGTATTTGGAGAGTTTGGTCTCTTATCTACCTAGAGAAGGTCTCCCTTACGTTGATATTAACCCCCCTCTTTGGCTCAACGTCTTATGGTGATGTTTGGTTGCAAGTAAATAGAGGGGGAGTTGTGACTTTCTAGGAAGTGCACATTTTCCATGTTGTTTGGTTGACATCAAATAGGTAAAATGGGGGAAGTAGAACTTTCTTGGGAATTTGGACTTCCCATGGACATGGGAAGTGGCTTACCCACCCTCCCCTTGTGAGTCACAATTCCCATGTGAATTCCTAAGAAGAGTGAATATCTTGTGCCAACCAAACAAGTGTAAGCAACATTCCTAAGAATTTTACAAGGGAAGTAACTTCCCAAGAAAATAAACTTCCCATGGGAATTCAATTCCTATAGTCATAGGAGCCGTTTGGTTGATCTTGGGAATGAGAATTTCCTAGGAAGAAGCTTTTTCCATGTATAAGCATTTTTTAAGAAGTAGATGATATTGTTTGGTTAAACATGGGAAGTAAATTCCCATATGAAGTTTCACTTACCTAAGGAAGTGTGACTTTCCATGTTTTTGTCAACCAAACAACCCTACAATCTTCCACTTCCTATATTGACTTACTTCCCATTGTATTTCATGTCAACCAAACATCACCTAAGAATAGAAAAAAAAAACAGAACTTGTCACTTTTTCCGTTCTCCAAATATGGCTACGTTGTTGGAAACCCATGCAGAAAATTGTTTGCTGTATTGTTCCTGCAAACAATTACGTTCATGACAATGCCTTTTAATGGGAATTTTCTATTTTTGAGACTTGTATTGAGCTTCTCTCTGCAGTTTGACTCGCATTATTATCATTCATCTCGGCTTTTGTGCATACCCAATGCAAACTCCATGAATATTTCTTTCGTCAATGCAATCTGTTTGATGATAGAAGTTCCAAGTTAGATTTATAGGGTGAGTAGAGGTGCATTGCAGAAGCTGGTTCGTCTTATCAGCTTATATAGCCTAAGAATTTGGATCTGTGAGTTTATGTGTCTTTAGCTTTTCTTAATTTGTTAAGCTTAGGGGGCATGCTTGGATTGAGGGTAATGCAAAAGGAAATCATAGGAGGCAATTTGAAAATAAATGTACGTGTGAGGTGGTAGAGGGGATGAACAACTGGTATTGTGGTGGGTTCCAACTTCCAAGTCAACTAACACAAAATGGAGACTAACAATTCCCCCATCCCTCCTCTCATCACTGCTATCTCATCCTCTTTACCACTACCTTAATTTACCTTCATTTTCCCTAGTTTGTATTTCCTAATCTAAGCATACCCTTAAGGAGTTGGAAGGACCTTAATAAGAATTATGAAGAGGTAAAAGTGCAAACTGTGATGATTTTTCTCATAGAATGTACGAGGAACTTTATTCCCTTAGTTCATTTCCGTGAGCCAAAATTGTTATCTTGGAAGTAAAAAATTGTCTTCTCCTAGTTTCAATAACTCTAAATGACTGCTTTTTTTCTTGTCGCTTGACTTGTAGTACCTCTTATTTACTTAAAGTGCTAAGCTGTACGGGTTTGTTATTACGTCTTTTGCTAGGGCCCGGAGCTCCTGAATTGCAGTTGTGATTGATTGGTATCTTCTTTTCTGCAAAATTTGAAGGCTGCATTTCCTTCTAATCTATATTCAAGTATTTTCCTTCTTTTGAATGTGTAGGTAGTGGTGCTTGGGGGTGGCTCTTTTGGTACAGCAATGGCAGCCCATGTTGCAGGTAGAAAAGCAGAAATGGAAGTCAATATGCTTGTACGTGATCCTCAAGTTTGTGAATCTATTAATGAAAACCATTTCAATTGGTAAAACCTTGACTTGATTCACTCAAAGCCTTGGCTTTTTCTCAGGGAAATTTGTTGCATTCAACCTTTTCATATTTTCATGGCAGTAAATATTTTCCAAATCATAAGCTACCAGAAAATCTTATTGCCACAACTGACGCCAAGTCTGCTCTGCAAGGTGCTGATTTCTGCCTTCATGCTGTGCCAGTGCAGGTTTCCAATTTATTAACCATTAGTTTGTCAACTCATGACCTCTTTTTCTCAGTAAACTATTGTGCTGTGTGTATATGTTTGATTGAAGAGCGAGCACACTTGGTTCTATTTCTGTTATGTGAAATCTGTTGTACCCACGTGGTTTATTGTTCATTATGTTTCTGTATTTTGCAGTTTACGGCTTCTTTTCTTGAAAGCATTGTGGATTATGTTGACCCTGGCTTGCCATTCATTTCACTTAGCAAAGGTTTGGAGCTTAATACACTGCGGATGATGTCTCAAATTATTCCACAGGCGCTTAAAAATCCTCGTCAACCTTTTGTTGCTTTATCAGGGCCTTCATTTGCATCAGAATTGATGAACAAACTGCCAACAGGTCCCTTGTGTTGCTGGTTAAAAGTGTTAGCACTTAGTTGCTTCAGTTGCGTCATGTTTTCCCCTATACTTGTCCATTTATGCTTGACTTTGATCTTTACAGCCATGGTTGTTGCTTCAAGGGACAAGAAATTGGTGAATCAAGTTCAGCAACTTCTAGCTTCTGAAAGGCTAAGAATCAATACTTCAAGGTAAATTTCTCCCAAAAGTAAGAAAATGCAGTTACTGCACAATAAGAATCCTATCTTGTTTCTAGTGATAATTTTCAGTTTTCGTCCCCCTCTCTCGAGTCTCTTCTAAAGTTAGATCGAGATAAAATATAGTCTGTAGCATTCTAGTGTAGAGTTCCATGGGCTAAAACAAATATGAATTTGTTAAAATTTTCGATACAAGAGTGATACTGAATAGACCCTTATTCTGCCCTCCTGAGATTTTGACATGTTTATTTCATTTTGCTCATCCTGCTGTTGATTAAGCTGTTTTTCTGCAAATTAACTTTTCATTTCGCCGAAGTGCTTTTTGGCTCGAACTATTCTATTTGTTTGTTTTTCTTGTGGGGAATGGGAGTTACATCTATTATCCTCTGTGAGATGGTTTTTCTTTTGACATATCTTCTGAATGATTTTCATACTTTAATATCTACTCACTCGGTCAGAAACTTTTGTTCCCTTTGGAATTTAACAACAAAATGTATTTGCTAACTTCAACGAAGTTTTTCTCATTTAAATTTATTTTGTTCCCTTGGAATTTGTGTCTCATATTGTAGAGTCACGGATTACATGGGGAAAATATTTGTAACTGAGGAAGTATGATGAATGTAATGGTGATGTGGAACTTGGCTTATCATAGATCTGTGGTCCTGGAAACATTATATTTTATTGTTGCCTGCTGCCTTGCTCATCTCATAAGCTCTGATGCTTCAGTGACGTTACAGGGGTTGAAATAGCTGGCGCCCTGAAAAATGTTTTGGCTATAGCAGCTGGAATTGTGGTTGGGATGGAATTGGGCAATAATTCCATGGCTGCTCTTGTTGCACAAGGTTGTTCGGAAATTCGTTGGTTGGCGAAAAAGGTATACAGAGAGTTTCACTTTTTATTTTCATCATTGTTGTATATATATAACTTGTCCATGTTGCTTTGTTGAAATAGTTTTAAGCCAACAAATATAGAAAGTTCCAGCACTAGCTTTTATGAAAACATAAAGCACATTCTTGTTCACCCATAAGTTGTGCCAGGCTGCTCTGTTCCTTCCTCATATCCCACCCTCCATTGGCTGCCTTTTCTCCGTCTTTTGGATAACTTGGATGGTAATTTGTAACCAAAAAGAAATTGACATTTTAGCACTCCTAACCCGGCACATAATGTAGATGGGAGCCAATTCTGCGACACTTACAGGGCTATCAGGAACCGGAGACATTATGCTTACATGCTTTGTTAATCTATCAAGAAATAGAACTGTTGGAGTTCGTCTTGGGTCAGGTGAGAAACTAGAAGATATACTGAGCTCAATGAATCAGGTGCGATACCCATTATTCTTCTTCTGTTAAAGTATAAAGTCTTTTCAAGGATTTTATGTATTCTTGTTTTCATGGTCTTTCATTATTATTCAGGTTGCTGAAGGAGTTACTACAGCTGGAGCTGTGATATCCTTGGCCCAAAAATATAATGTGAAGATGCCAGTTTTGACCGCAGTAGCTAGAATAATTGACAATGAGTTGACTCCTCAAGCAGCTGTTCTTGAATTGATGAGCTTGCCTCAGGTAATTCACCAGTTTTTCAATATTATCATTTTCTTCCTTTGCACACTCACGTTGTTAACCTATTTTTCTATTCGTAGTTGTTGTTTTAGGGTGTTTTAATTTATTCATGCTTTGTAAGAACACCTGAACCTGCCTACTTAGACTTGTTTAGAGTCTGTTGCTTATCTGAAATGTCAGTTGTCTTTAACTACCGAATCTATTGCAGGTCGAGGAAGTTTGAAGCCTGTGAACCGAGTTTTTGTTACAGCTTGTTTTCCTCTTGGGGTAAAACAATTGTAGATCTGCTCCAGGGATTTTGCTAGTGAACATATTGATACATCTGCCAGCTTAATTAGAGAGAAACTCAGGAAGAAACCTAATAACCAAGTTTCAAGTAGAGGACATTGCAGAGGTCATATAATGTTAAATTATTCAATTATTTACTCCATTATGTAATCTGATACTTCATCATTTAAACCAGAAATTCTTGAATATTAGTTGCAATGCAATGGTTAATCTTTCTGATTTATAATGTCTGCAATTTCAGAACTCAAATTCCTGACACCAATCTTCAACAATCCAAATTCACAAACTCAACAAACCCAGTATTGTTATTATTATCATCATCATCATCCTCAAACCCTCAAATTCCAGAATGAAAATCTCCGCTCAAAAACCCAAAATTTCAGATGCTCAAATCTTGCTTTAAAACCCCAGCAATTGCGGCCATGTTTGGCCGCAGAAGTTGTTGATTTCCCACCGTCTTCTTCTAATGATGATTCTGAACAAAACCCAGAAAAGATTATTTCTTCTTCTGCAGCAGCTGCTGCTGCTGTTGCTGCTGAAGAGAGGAAAGATAGAAGAAGGGTAGTGAGGATTGCGTGGGAGAAACTAGTTCGTTGGTCTCGTTCTTTGCGTTCTAAGTCCAGGCCTGATGTTCTTCAACGCACTCAAAAGGTAGTGGTGCTTGGGGGTGGCTCTTTTGGTACAGCAATGGCAGCCCATGTTGCAGGTAGAAAAGCAGAAATGGAAGTCAATATGCTTGTACGTGATCCTCAAGTTTGTGAATCTATTAATGAAAACCATTTCAATTGTAAATATTTTCCAAATCATAAGCTACCAGAAAATCTTATTGCCACAACTGACGCCAAGTCTGCTCTGCAAGGTGCTGATTTCTGCCTTCATGCTGTGCCAGTGCAGTTTACGGCTTCTTTTCTTGAAAGCATTGTGGATTATGTTGACCCTGGCTTGCCATTCATTTCACTTAGCAAAGGGCCTTCATTTGCATCAGAATTGATGAACAAACTGCCAACAGCCATGGTTGTTGCTTCAAGGGACAAGAAATTGGTGAATCAAGTTCAGCAACTTCTAGCTTCTGAAAGGCTAAGAATCAATACTTCAAGTGACGTTACAGGGGTTGAAATAGCTGGCGCCCTGAAAAATGTTTTGGCTATAGCAGCTGGAATTGTGGTTGGGATGGAATTGGGCAATAATTCCATGGCTGCTCTTGTTGCACAAGGTTGTTCGGAAATTCGTTGGTTGGCGAAAAAGATGGGAGCCAATTCTGCGACACTTACAGGGCTATCAGGAACCGGAGACATTATGCTTACATGCTTTGTTAATCTATCAAGAAATAGAACTGTTGGAGTTCGTCTTGGGTCAGGTGAGAAACTAGAAGATATACTGAGCTCAATGAATCAGGTTGCTGAAGGAGTTACTACAGCTGGAGCTGTGATATCCTTGGCCCAAAAATATAATGTGAAGATGCCAGTTTTGACCGCAGTAGCTAGAATAATTGACAATGAGTTGACTCCTCAAGCAGCTGTTCTTGAATTGATGAGCTTGCCTCAGGTCGAGGAAGTTTGAAGCCTGTGAACCGAGTTTTTGTTACAGCTTGTTTTCCTCTTGGGGTAAAACAATTGTAGATCTGCTCCAGGGATTTTGCTAGTGAACATATTGATACATCTGCCAGCTTAATTAGAGAGAAACTCAGGAAGAAACCTAATAACCAAGTTTCAAGTAGAGGACATTGCAGAGGTCATATAATGTTAAATTATTCAATTATTTACTCCATTATGTAATCTGATACTTCATCATTTAAACCAGAAATTCTTGAATATTAGTTGCAATGCAATGGTTAATCTTTCTGATTTATA ATGTCTGCAATTTCAGAACTCAAATTCCTGACACCAATCTTCAACAATCCAAATTCACAAACTCAACAAACCCAGTATTGTTATTATTATCATCATCATCATCCTCAAACCCTCAAATTCCAGAATGAAAATCTCCGCTCAAAAACCCAAAATTTCAGATGCTCAAATCTTGCTTTAAAACCCCAGCAATTGCGGCCATGTTTGGCCGCAGAAGTTGTTGATTTCCCACCGTCTTCTTCTAATGATGATTCTGAACAAAACCCAGAAAAGATTATTTCTTCTTCTGCAGCAGCTGCTGCTGCTGTTGCTGCTGAAGAGAGGAAAGATAGAAGAAGGGTAGTGAGGATTGCGTGGGAGAAACTAGTTCGTTGGTCTCGTTCTTTGCGTTCTAAGTCCAGGCCTGATGTTCTTCAACGCACTCAAAAGGTAGTGGTGCTTGGGGGTGGCTCTTTTGGTACAGCAATGGCAGCCCATGTTGCAGGTAGAAAAGCAGAAATGGAAGTCAATATGCTTGTACGTGATCCTCAAGTTTGTGAATCTATTAATGAAAACCATTTCAATTGTAAATATTTTCCAAATCATAAGCTACCAGAAAATCTTATTGCCACAACTGACGCCAAGTCTGCTCTGCAAGGTGCTGATTTCTGCCTTCATGCTGTGCCAGTGCAGTTTACGGCTTCTTTTCTTGAAAGCATTGTGGATTATGTTGACCCTGGCTTGCCATTCATTTCACTTAGCAAAGGGCCTTCATTTGCATCAGAATTGATGAACAAACTGCCAACAGCCATGGTTGTTGCTTCAAGGGACAAGAAATTGGTGAATCAAGTTCAGCAACTTCTAGCTTCTGAAAGGCTAAGAATCAATACTTCAAGTGACGTTACAGGGGTTGAAATAGCTGGCGCCCTGAAAAATGTTTTGGCTATAGCAGCTGGAATTGTGGTTGGGATGGAATTGGGCAATAATTCCATGGCTGCTCTTGTTGCACAAGGTTGTTCGGAAATTCGTTGGTTGGCGAAAAAGATGGGAGCCAATTCTGCGACACTTACAGGGCTATCAGGAACCGGAGACATTATGCTTACATGCTTTGTTAATCTATCAAGAAATAGAACTGTTGGAGTTCGTCTTGGGTCAGGTGAGAAACTAGAAGATATACTGAGCTCAATGAATCAGGTTGCTGAAGGAGTTACTACAGCTGGAGCTGTGATATCCTTGGCCCAAAAATATAATGTGAAGATGCCAGTTTTGACCGCAGTAGCTAGAATAATTGACAATGAGTTGACTCCTCAAGCAGCTGTTCTTGAATTGATGAGCTTGCCTCAGGTCGAGGAAGTTTGA MSAISELKFLTPIFNNPNSQTQQTQYCYYYHHHHPQTLKFQNENLRSKTQNFRCSNLALKPQQLRPCLAAEVVDFPPSSSNDDSEQNPEKIISSSAAAAAAVAAEERKDRRRVVRIAWEKLVRWSRSLRSKSRPDVLQRTQKVVVLGGGSFGTAMAAHVAGRKAEMEVNMLVRDPQVCESINENHFNCKYFPNHKLPENLIATTDAKSALQGADFCLHAVPVQFTASFLESIVDYVDPGLPFISLSKGPSFASELMNKLPTAMVVASRDKKLVNQVQQLLASERLRINTSSDVTGVEIAGALKNVLAIAAGIVVGMELGNNSMAALVAQGCSEIRWLAKKMGANSATLTGLSGTGDIMLTCFVNLSRNRTVGVRLGSGEKLEDILSSMNQVAEGVTTAGAVISLAQKYNVKMPVLTAVARIIDNELTPQAAVLELMSLPQVEEV Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Homology
BLAST of Spo10491.1 vs. NCBI nr
Match: gi|902101524|gb|KNA03537.1| (hypothetical protein SOVF_208100 [Spinacia oleracea]) HSP 1 Score: 817.8 bits (2111), Expect = 9.400e-234 Identity = 441/474 (93.04%), Postives = 443/474 (93.46%), Query Frame = 1
BLAST of Spo10491.1 vs. NCBI nr
Match: gi|731319080|ref|XP_010670064.1| (PREDICTED: glycerol-3-phosphate dehydrogenase [NAD(+)]) HSP 1 Score: 671.8 bits (1732), Expect = 8.300e-190 Identity = 371/448 (82.81%), Postives = 389/448 (86.83%), Query Frame = 1
BLAST of Spo10491.1 vs. NCBI nr
Match: gi|731319078|ref|XP_010670063.1| (PREDICTED: glycerol-3-phosphate dehydrogenase [NAD(+)]) HSP 1 Score: 645.6 bits (1664), Expect = 6.400e-182 Identity = 369/478 (77.20%), Postives = 389/478 (81.38%), Query Frame = 1
BLAST of Spo10491.1 vs. NCBI nr
Match: gi|1021037015|gb|KZM94798.1| (hypothetical protein DCAR_018040 [Daucus carota subsp. sativus]) HSP 1 Score: 555.8 bits (1431), Expect = 6.700e-155 Identity = 293/366 (80.05%), Postives = 321/366 (87.70%), Query Frame = 1
BLAST of Spo10491.1 vs. NCBI nr
Match: gi|356500797|ref|XP_003519217.1| (PREDICTED: glycerol-3-phosphate dehydrogenase [NAD(+)]) HSP 1 Score: 539.7 bits (1389), Expect = 4.900e-150 Identity = 288/366 (78.69%), Postives = 312/366 (85.25%), Query Frame = 1
BLAST of Spo10491.1 vs. UniProtKB/TrEMBL
Match: A0A0K9Q8D2_SPIOL (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Spinacia oleracea GN=SOVF_208100 PE=3 SV=1) HSP 1 Score: 817.8 bits (2111), Expect = 6.600e-234 Identity = 441/474 (93.04%), Postives = 443/474 (93.46%), Query Frame = 1
BLAST of Spo10491.1 vs. UniProtKB/TrEMBL
Match: A0A0J8CZ82_BETVU (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Beta vulgaris subsp. vulgaris GN=BVRB_2g038910 PE=3 SV=1) HSP 1 Score: 645.6 bits (1664), Expect = 4.500e-182 Identity = 369/478 (77.20%), Postives = 389/478 (81.38%), Query Frame = 1
BLAST of Spo10491.1 vs. UniProtKB/TrEMBL
Match: A0A164YP57_DAUCA (Uncharacterized protein OS=Daucus carota subsp. sativus GN=DCAR_018040 PE=4 SV=1) HSP 1 Score: 555.8 bits (1431), Expect = 4.700e-155 Identity = 293/366 (80.05%), Postives = 321/366 (87.70%), Query Frame = 1
BLAST of Spo10491.1 vs. UniProtKB/TrEMBL
Match: I1JH49_SOYBN (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Glycine max GN=GLYMA_02G218700 PE=3 SV=1) HSP 1 Score: 539.7 bits (1389), Expect = 3.400e-150 Identity = 288/366 (78.69%), Postives = 312/366 (85.25%), Query Frame = 1
BLAST of Spo10491.1 vs. UniProtKB/TrEMBL
Match: V7B6W0_PHAVU (Glycerol-3-phosphate dehydrogenase [NAD(+)] OS=Phaseolus vulgaris GN=PHAVU_008G185600g PE=3 SV=1) HSP 1 Score: 535.4 bits (1378), Expect = 6.500e-149 Identity = 288/378 (76.19%), Postives = 317/378 (83.86%), Query Frame = 1
BLAST of Spo10491.1 vs. ExPASy Swiss-Prot
Match: GPDA2_ARATH (Glycerol-3-phosphate dehydrogenase [NAD(+)] 2, chloroplastic OS=Arabidopsis thaliana GN=GLY1 PE=1 SV=1) HSP 1 Score: 527.7 bits (1358), Expect = 1.200e-148 Identity = 286/387 (73.90%), Postives = 315/387 (81.40%), Query Frame = 1
BLAST of Spo10491.1 vs. ExPASy Swiss-Prot
Match: GPDA_ORYSJ (Glycerol-3-phosphate dehydrogenase [NAD(+)], chloroplastic OS=Oryza sativa subsp. japonica GN=Os07g0229800 PE=2 SV=3) HSP 1 Score: 488.8 bits (1257), Expect = 6.300e-137 Identity = 271/391 (69.31%), Postives = 308/391 (78.77%), Query Frame = 1
BLAST of Spo10491.1 vs. ExPASy Swiss-Prot
Match: GPDA_LEPIC (Glycerol-3-phosphate dehydrogenase [NAD(P)+] OS=Leptospira interrogans serogroup Icterohaemorrhagiae serovar copenhageni (strain Fiocruz L1-130) GN=gpsA PE=3 SV=1) HSP 1 Score: 210.3 bits (534), Expect = 4.300e-53 Identity = 124/325 (38.15%), Postives = 183/325 (56.31%), Query Frame = 1
BLAST of Spo10491.1 vs. ExPASy Swiss-Prot
Match: GPDA_LEPIN (Glycerol-3-phosphate dehydrogenase [NAD(P)+] OS=Leptospira interrogans serogroup Icterohaemorrhagiae serovar Lai (strain 56601) GN=gpsA PE=3 SV=1) HSP 1 Score: 209.1 bits (531), Expect = 9.600e-53 Identity = 124/325 (38.15%), Postives = 183/325 (56.31%), Query Frame = 1
BLAST of Spo10491.1 vs. ExPASy Swiss-Prot
Match: GPDA_LEPBA (Glycerol-3-phosphate dehydrogenase [NAD(P)+] OS=Leptospira biflexa serovar Patoc (strain Patoc 1 / Ames) GN=gpsA PE=3 SV=1) HSP 1 Score: 209.1 bits (531), Expect = 9.600e-53 Identity = 124/326 (38.04%), Postives = 184/326 (56.44%), Query Frame = 1
BLAST of Spo10491.1 vs. TAIR (Arabidopsis)
Match: AT2G40690.1 (NAD-dependent glycerol-3-phosphate dehydrogenase family protein) HSP 1 Score: 527.7 bits (1358), Expect = 6.900e-150 Identity = 286/387 (73.90%), Postives = 315/387 (81.40%), Query Frame = 1
BLAST of Spo10491.1 vs. TAIR (Arabidopsis)
Match: AT5G40610.1 (NAD-dependent glycerol-3-phosphate dehydrogenase family protein) HSP 1 Score: 70.1 bits (170), Expect = 3.900e-12 Identity = 57/193 (29.53%), Postives = 95/193 (49.22%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo10491.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5
BLAST of Spo10491.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5
BLAST of Spo10491.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5
BLAST of Spo10491.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 2
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
GO Annotation
GO Assignments
This mRNA is annotated with the following GO terms.
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