Cp4.1LG20g00550 (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.CGTGGCTAAATGGTATAAATTTAACCATAGTTAAGTGGGGGAGATAAGAAATGGTAGAAGAATCCGAATTTTGGTGGAAAAGGGGGGAAAAAAGAAAGAAAAAGAGGAAAAAGCAACGAAAAAAAGAGAGAAAAAGGGTTAGAATTAGATGCATTGTGGAAGGTAGAACAGGCAGTGGCCACACACATGACATACCTCCGACTTTCCAGTATATGCCAAACCAAGAAAATACAAAATCGAGAGAGATATATATAGAGGGGGAGAGAGAGACAGAGGTTGCTCGTCTTCGAGTTCCGATCTCCACATTCAAGTTAGCGAGCAGCAACTGTATGTTAATGGAGGGGTTGACGTCTTCTTCTGATGAACTGAAGAAGAAGAAGAAGAAGGAGGAGGATATGGAGCATGAGAAGGAGGAGAAGAAGAACAGCAAAAAGGGGGCGTTGGGCTGGATTGAATGGTTGAGAGGTTGGATGTACGTCATTCATGAGATGCTATTTCAGAGAATCCTGGCCAGCCATCTGCAGAATCCTATGCCTCTCCCTCCTGTTAACGACCTTACTTGCATTGTCACCGGATCCACCAGCGGTATTGGCCGCGAGATTGCCAGGTTTTCATTTCTCTCATTTCCTCCGCCTGCTTAACTCAGCCTCTTTCCCAACGAATTTCAATTTTATGGAACCAGTTACTTCCTACTATTCTCGAATTCTTATTGTGTATAGTTCGTTGTGATTGGAGCCACTTATTTGGGTCCAATTCTTTTGCGGCTCATTCGGAATGGGGTTTCCGTTCCTTGATCTTCGTGAATCAGTAGACATTTATGCAGTTCCTTACTTGGTAACTATTTGTTCCTTTTCTCTTTAATTTTCGATGGAGCAGGCAACTGGCAGAATCAGGAGCACATGTTGTCATGGCAGTGAGGAACCCAAAGGCTGCTCTTGACTTGATTCAGAAGTGGCAAAATGAATGGTCTGGCATGGGCCTTCCTCTTAATATTGAGGTGTCTAAAATCCACAGTTGTTTACTTCCTCTTAGAAGAGCAATCGTATTGAACTCTGTAGCTTTGCATCAAACGAATTCTGAACTTCAAATGATATTCTACAACTCCTATCCAAAAAACATTATACTCTACATTTTTTCTTTTTTTGTTTTGTTTTTTTTTTTATTATTTTTTATTTTTATTTTTTTTATTTTTTATAATAGAACAAGTAGCTAATTATGTTTAATGAGTGGTATGTGTTGGTTTTTCTAGGTAATGGAACTTGATCTTCTATCTCTAGATTCTGTTGTGAAATTTGCTGAAGCATATAATGCTCGTATGGGACCATTACATGTTCTTATCAATAACGCAGGAATATTTTCCATAGGAGGTTAGTAATTTTTAACTCATTTGTATTATTTTCCATTTCCTTATTGGCACGTATGAATTATCTAAGTTATCTACAAATGTCAGTTACTTTTCGTAGTAAAACTTTCTTCAGTTGAGGAGATGGTAACAGGAACTATATTGATGATGATGAGAGTACTTTTGTCATTGAAATAGTTTGTTATCGCCATTATATGTGCTTGTTATTCTCTATTTTGAGAACATAATGCCTTTTGTTGAAGTTTCTAGTGATATGGAACATTCATCTGGCTCATTGATTACTATTTCTATACTAGTTTCCAGCTCTTGTGCACCTTTTTCTGTTATAAACATTCATGCAGACTATTCCTAGGAGTATAAATGCTTTTTATGATCCTAAAACTCCGATTTCAGAAAATAAAATAACTCTGAATATTCATTTCTTTTCATTCATCTTATTGTAGTTGTGGGGCAATTGCATTCTTTTGATTATAATAGTATTTGTTATTTGGTGAAGAAATATGTGCCAATGTCTTGGCTTAATTTGAGTTTGTTGTCTCTAGAGCCACAAAAATTTTCTAAAGATGGTTATGAAGAGCACCTGCAAGTGAATCATTTGGCACCTGCATTGCTTTCAATATTACTCTTGCCATCCCTTATCAGAGGTTCCCCAAGCCGAATAATTAATGTGAACTCNGCAGTTCCTTACTTGGTAACTATTTGTTCCTTTTCTCTTTAATTTTCGATGGAGCAGGCAACTGGCAGAATCAGGAGCACATGTTGTCATGGCAGTGAGGAACCCAAAGGCTGCTCTTGACTTGATTCAGAAGTGGCAAAATGAATGGTCTGGCATGGGCCTTCCTCTTAATATTGAGGTGTCTAAAATCCACAGTTGTTTACTTCCTCTTAGAAGAGCAATCGTATTGAACTCTGTAGCTTTGCATCAAACGAATTCTGAACTTCAAATGATATTCTACAACTCCTATCCAAAAAACATTATACTCTACATTTTTTCTTTTTTTGTTTTGTTTTTTTTTTTATTATTTTTTATTTTTATTTTTTTTATTTTTTATAATAGAACAAGTAGCTAATTATGTTTAATGAGTGGTATGTGTTGGTTTTTCTAGGTAATGGAACTTGATCTTCTATCTCTAGATTCTGTTGTGAAATTTGCTGAAGCATATAATGCTCGTATGGGACCATTACATGTTCTTATCAATAACGCAGGAATATTTTCCATAGGAGGTTAGTAATTTTTAACTCATTTGTATTATTTTCCATTTCCTTATTGGCACGTATGAATTATCTAAGTTATCTACAAATGTCAGTTACTTTTCGTAGTAAAACTTTCTTCAGTTGAGGAGATGGTAACAGGAACTATATTGATGATGATGAGAGTACTTTTGTCATTGAAATAGTTTGTTATCGCCATTATATGTGCTTGTTATTCTCTATTTTGAGAACATAATGCCTTTTGTTGAAGTTTCTAGTGATATGGAACATTCATCTGGCTCATTGATTACTATTTCTATACTAGTTTCCAGCTCTTGTGCACCTTTTTCTGTTATAAACATTCATGCAGACTATTCCTAGGAGTATAAATGCTTTTTATGATCCTAAAACTCCGATTTCAGAAAATAAAATAACTCTGAATATTCATTTCTTTTCATTCATCTTATTGTAGTTGTGGGGCAATTGCATTCTTTTGATTATAATAGTATTTGTTATTTGGTGAAGAAATATGTGCCAATGTCTTGGCTTAATTTGAGTTTGTTGTCTCTAGAGCCACAAAAATTTTCTAAAGATGGTTATGAAGAGCACCTGCAAGTGAATCATTTGGCACCTGCATTGCTTTCAATATTACTCTTGCCATCCCTTATCAGAGGTTCCCCAAGCCGAATAATTAATGTGAACTCCGTTGTAAGTTTCGCGGGCACTATACAAAAGTATAGAACACATGTTTTTTGCATCATATAATGTGTATACATGTGCATATATTGAAATGGTAATCTGTTTCAAGCCATATCTGTATGCATTATGTGCTTAGCTAATAAATTTTATTTTACTCATTTTATCTTAACTGTTTGTTAGTGTTTTTTTCGTGTATAAGAAGTGATTGACACTTGTGAATGCTAAGTAATGAAAATTGGTAGCTCTATATGAGTGATAACCGATAATAAGCTGTAAATAGCACAATTAAGGGCATACATTGTCTGTGTAATAAAGATATAGCCTAGGAAAAATATGGTATGATTTAGCTTCCAGATCTCTGTAAATTATACACATCAGTTGCATGGAGAATCCAGGATCGGATTGTCAACATTGACATGTTTCAATTCCTACAGCTCTATGTCCACTAATAACTTGGAAGCAAAACTTAGTTAGTTATTCCTAGAGATCATGTATTCATGGTGACAACATAGATATTTTGTATTGATCACTTTGATGCTTGTTTCTGTCATTGTAATCATCATTACATGCTTAATATGTAGATGCATTATGTTGGCTTTGTTGACACGGAAGACATGAATATCATTTCATCGAAAAGGAAATTCACAAGCTTAGTTGGATATTCGAGCAGTAAGCTGGCACAGGTATACTTATGTTACTCGGCAATTACGCATTTCCTCCCACAATTTCTTCTTTCTTGGAAAATTTTATCATTTATTAACATGTAAAACAACGGTCTTATTCTGTCTAGTTGTTGTTTTCACCCCTTCTAAAATGTCAATCCATGGCGAAGCACCTCTCTTTGGGAGCGTGAATTTGTTAAAATCTTTAGCCTAATTCAACAAATCAAGGATGCTTCAGTAACCTTGAAATTTCTGTCTCTTCTATATAAGATTTTCCTTGTTCCTAGTATCTGTGTGATTTTTGTTTCACATTTTGCTTCTTCCTGTACATCCTATTCTTTCAGGAAGGAGTCTTGAACTTGTCAATCATATTAAATGAACATTAATAATATCCCCGTTTTGTTTATTCAATTACTTTTGCTAATAACTCACCGGGCAAGTTGTTGATTCTTAGATGATGTATTCACTGTGCGTTAATATCTTACCTTTTGATTTTCTGACTTGATCTTAACTACTGATTTGTAAAAGCTGTGTAAATACTTCTCATGGGTGCCAACATTACATAGCTTGGTCTGATGGTTTCCGGATTACAGGTTATGTTTAGCAGTGTTCTTCATAAGAAGCTGCCTGTTGAATCTGGCATCAATGTAGTGTGTGTATCACCTGGGATTGTTCATACAAATGTGGTAAGTTTTTAGCCTTTTATAGCCGAAACAAGACTTTAGATATAGAATCTTGTTCCCTTGGTATGATATAAGATTGAAGTAATCACATATATAATGTTATCCCATCATTATCTTTCAGAAGTGTTAACGATACTTGACTATTTGTTAACTGAAACTGTGTATGTTACTGAAGTATTTGAATGACATCTTAATAAGTGGATTGGGTTTCTACTAGAATTGTCAGCTACTTCTAAAACTTTTTAGAAAATGTTCACTTACTGAAATGCCCTTTATCTGTATGCAATTCACTCTGAGAGCTGTAACTTACACTGTTGTTAATTTGTCTGCAGTCTGTTCTTGTGTTTAGCTCGCATTCCACTCCAAAACATAGTATAATTTACATGATTATTGCTAAGCCTTATGTTGATGATGACTGTTCAAAACCCACATTCATGTTACCAAAAATTATAAGCCATTGTCTGGAATATTATATTTGCTGTACCTTATAGCTTATTGTAATATCATTAACTATAGAATTGTGCTGAGCGGTTTCACTATAAGTTAGGTATTAGAATTATATCTTCTGAATGTAGTCAATATGAATTGCGACAAGTTTAATTTTGTCTATCGATGCAGGCAAGAGATCTTTCAAAATTTGTTCAAGCTGCTTATGGCCTAATTCCTTATTTTATCTTTAGTCCTCAAGAAGGTTAGTCGTTTCAAGCGGTGACATTCTTTATTGTCTCAAGTAAATACGATACATGTCAATCTTTTTGGGGGTATTAGTGCGTGCTGCTCGACATGTGGGTTAACCTAAGTACTATAACTGTGTAACATCCAGATGCATGCTTTGGGCCTTTGCTGCCTATGAGCCACATAGAGACCATTTTCATAATTTTTTTGTTCTTTGTTCTTAACTTCAACTTATCCTAAAATGAAAGAAAGTAGTAACATCAGATAACAAATTTTAGTTTTAATCTTGATGAAAAATGTAAGAGTATGCTATTATTTAGCAGCATTAATGAAAATCCTACGAAGATGGTTTGAAGTTGATCAATTTCAAATATGTCTTGGCTGAGCCCGGATGCATGTTTTATATTTTCTTTCCCGTCTTTCTCTATGCTTCTTGATATTCGAAATGAAACATGCATCATTATTCTTCGGCAATTGCAGGTTCCAGAAGCACTCTCTTTGCAGCCACGGATCCTCAAGTTCCAGAGTACTGTGAACTACTTAAAGCAGATCAGTGGCCTGTTTGTGCATTTCTTTCCCAAGAGTGCCGTCCAACAAATCCTTCAGAAGAGGCACACAACGTCGAGACTTCTTACCAAGTCTGGGAGAAAACAATGGAGATGGTTGGGTTAACTTCGGATGTGGTAGAGAGGCTATTAGAAGGGGAACAAGTTGGTTGTCGCTATGGAGGAACTGATTTGGCTGACTAATGGTAATTGATTAGTTTTCAGCTTTAGCCTTATAAATCAATGATGAAGCACTAATTCACTGAATTTAATTTCGAAATGAAGATTTTGTTGTACTATTCAGTTCATTTGCTATTTCAATGGATTTACAGTGGGAGTAGGGCTGGTTTCTACCTATTTTGTAGTAAGTAATTGAATTTCCTTGGTTTCTGTCGAGAGATCTTCACAATGCACCCTCGTTCGGGTCCAATATTTTCGCTGACACTCATTTCTTTCTTCAATCGATGTGGTAGCTCTC CGTGGCTAAATGGTATAAATTTAACCATAGTTAAGTGGGGGAGATAAGAAATGGTAGAAGAATCCGAATTTTGGTGGAAAAGGGGGGAAAAAAGAAAGAAAAAGAGGAAAAAGCAACGAAAAAAAGAGAGAAAAAGGGTTAGAATTAGATGCATTGTGGAAGGTAGAACAGGCAGTGGCCACACACATGACATACCTCCGACTTTCCAGTATATGCCAAACCAAGAAAATACAAAATCGAGAGAGATATATATAGAGGGGGAGAGAGAGACAGAGGTTGCTCGTCTTCGAGTTCCGATCTCCACATTCAAGTTAGCGAGCAGCAACTGTATGTTAATGGAGGGGTTGACGTCTTCTTCTGATGAACTGAAGAAGAAGAAGAAGAAGGAGGAGGATATGGAGCATGAGAAGGAGGAGAAGAAGAACAGCAAAAAGGGGGCGTTGGGCTGGATTGAATGGTTGAGAGGTTGGATGTACGTCATTCATGAGATGCTATTTCAGAGAATCCTGGCCAGCCATCTGCAGAATCCTATGCCTCTCCCTCCTGTTAACGACCTTACTTGCATTGTCACCGGATCCACCAGCGGTATTGGCCGCGAGATTGCCAGGCAACTGGCAGAATCAGGAGCACATGTTGTCATGGCAGTGAGGAACCCAAAGGCTGCTCTTGACTTGATTCAGAAGTGGCAAAATGAATGGTCTGGCATGGGCCTTCCTCTTAATATTGAGGTAATGGAACTTGATCTTCTATCTCTAGATTCTGTTGTGAAATTTGCTGAAGCATATAATGCTCGTATGGGACCATTACATGTTCTTATCAATAACGCAGGAATATTTTCCATAGGAGAGCCACAAAAATTTTCTAAAGATGGTTATGAAGAGCACCTGCAAGTGAATCATTTGGCACCTGCATTGCTTTCAATATTACTCTTGCCATCCCTTATCAGAGAATCAGGAGCACATGTTGTCATGGCAGTGAGGAACCCAAAGGCTGCTCTTGACTTGATTCAGAAGTGGCAAAATGAATGGTCTGGCATGGGCCTTCCTCTTAATATTGAGGTAATGGAACTTGATCTTCTATCTCTAGATTCTGTTGTGAAATTTGCTGAAGCATATAATGCTCGTATGGGACCATTACATGTTCTTATCAATAACGCAGGAATATTTTCCATAGGAGAGCCACAAAAATTTTCTAAAGATGGTTATGAAGAGCACCTGCAAGTGAATCATTTGGCACCTGCATTGCTTTCAATATTACTCTTGCCATCCCTTATCAGAGGTTCCCCAAGCCGAATAATTAATGTGAACTCCGTTATGCATTATGTTGGCTTTGTTGACACGGAAGACATGAATATCATTTCATCGAAAAGGAAATTCACAAGCTTAGTTGGATATTCGAGCAGTAAGCTGGCACAGGTTATGTTTAGCAGTGTTCTTCATAAGAAGCTGCCTGTTGAATCTGGCATCAATGTAGTGTGTGTATCACCTGGGATTGTTCATACAAATGTGGCAAGAGATCTTTCAAAATTTGTTCAAGCTGCTTATGGCCTAATTCCTTATTTTATCTTTAGTCCTCAAGAAGGTTCCAGAAGCACTCTCTTTGCAGCCACGGATCCTCAAGTTCCAGAGTACTGTGAACTACTTAAAGCAGATCAGTGGCCTGTTTGTGCATTTCTTTCCCAAGAGTGCCGTCCAACAAATCCTTCAGAAGAGGCACACAACGTCGAGACTTCTTACCAAGTCTGGGAGAAAACAATGGAGATGGTTGGGTTAACTTCGGATGTGGTAGAGAGGCTATTAGAAGGGGAACAAGTTGGTTGTCGCTATGGAGGAACTGATTTGGCTGACTAATGGTAATTGATTAGTTTTCAGCTTTAGCCTTATAAATCAATGATGAAGCACTAATTCACTGAATTTAATTTCGAAATGAAGATTTTGTTGTACTATTCAGTTCATTTGCTATTTCAATGGATTTACAGTGGGAGTAGGGCTGGTTTCTACCTATTTTGTAGTAAGTAATTGAATTTCCTTGGTTTCTGTCGAGAGATCTTCACAATGCACCCTCGTTCGGGTCCAATATTTTCGCTGACACTCATTTCTTTCTTCAATCGATGTGGTAGCTCTC ATGGTAGAAGAATCCGAATTTTGGTGGAAAAGGGGGGAAAAAAGAAAGAAAAAGAGGAAAAAGCAACGAAAAAAAGAGAGAAAAAGGGTTAGAATTAGATGCATTGTGGAAGGTAGAACAGGCAGTGGCCACACACATGACATACCTCCGACTTTCCAGTATATGCCAAACCAAGAAAATACAAAATCGAGAGAGATATATATAGAGGGGGAGAGAGAGACAGAGGTTGCTCGTCTTCGAGTTCCGATCTCCACATTCAAGTTAGCGAGCAGCAACTGTATGTTAATGGAGGGGTTGACGTCTTCTTCTGATGAACTGAAGAAGAAGAAGAAGAAGGAGGAGGATATGGAGCATGAGAAGGAGGAGAAGAAGAACAGCAAAAAGGGGGCGTTGGGCTGGATTGAATGGTTGAGAGGTTGGATGTACGTCATTCATGAGATGCTATTTCAGAGAATCCTGGCCAGCCATCTGCAGAATCCTATGCCTCTCCCTCCTGTTAACGACCTTACTTGCATTGTCACCGGATCCACCAGCGGTATTGGCCGCGAGATTGCCAGGCAACTGGCAGAATCAGGAGCACATGTTGTCATGGCAGTGAGGAACCCAAAGGCTGCTCTTGACTTGATTCAGAAGTGGCAAAATGAATGGTCTGGCATGGGCCTTCCTCTTAATATTGAGGTAATGGAACTTGATCTTCTATCTCTAGATTCTGTTGTGAAATTTGCTGAAGCATATAATGCTCGTATGGGACCATTACATGTTCTTATCAATAACGCAGGAATATTTTCCATAGGAGAGCCACAAAAATTTTCTAAAGATGGTTATGAAGAGCACCTGCAAGTGAATCATTTGGCACCTGCATTGCTTTCAATATTACTCTTGCCATCCCTTATCAGAGAATCAGGAGCACATGTTGTCATGGCAGTGAGGAACCCAAAGGCTGCTCTTGACTTGATTCAGAAGTGGCAAAATGAATGGTCTGGCATGGGCCTTCCTCTTAATATTGAGGTAATGGAACTTGATCTTCTATCTCTAGATTCTGTTGTGAAATTTGCTGAAGCATATAATGCTCGTATGGGACCATTACATGTTCTTATCAATAACGCAGGAATATTTTCCATAGGAGAGCCACAAAAATTTTCTAAAGATGGTTATGAAGAGCACCTGCAAGTGAATCATTTGGCACCTGCATTGCTTTCAATATTACTCTTGCCATCCCTTATCAGAGGTTCCCCAAGCCGAATAATTAATGTGAACTCCGTTATGCATTATGTTGGCTTTGTTGACACGGAAGACATGAATATCATTTCATCGAAAAGGAAATTCACAAGCTTAGTTGGATATTCGAGCAGTAAGCTGGCACAGGTTATGTTTAGCAGTGTTCTTCATAAGAAGCTGCCTGTTGAATCTGGCATCAATGTAGTGTGTGTATCACCTGGGATTGTTCATACAAATGTGGCAAGAGATCTTTCAAAATTTGTTCAAGCTGCTTATGGCCTAATTCCTTATTTTATCTTTAGTCCTCAAGAAGGTTCCAGAAGCACTCTCTTTGCAGCCACGGATCCTCAAGTTCCAGAGTACTGTGAACTACTTAAAGCAGATCAGTGGCCTGTTTGTGCATTTCTTTCCCAAGAGTGCCGTCCAACAAATCCTTCAGAAGAGGCACACAACGTCGAGACTTCTTACCAAGTCTGGGAGAAAACAATGGAGATGGTTGGGTTAACTTCGGATGTGGTAGAGAGGCTATTAGAAGGGGAACAAGTTGGTTGTCGCTATGGAGGAACTGATTTGGCTGACTAA MVEESEFWWKRGEKRKKKRKKQRKKERKRVRIRCIVEGRTGSGHTHDIPPTFQYMPNQENTKSREIYIEGERETEVARLRVPISTFKLASSNCMLMEGLTSSSDELKKKKKKEEDMEHEKEEKKNSKKGALGWIEWLRGWMYVIHEMLFQRILASHLQNPMPLPPVNDLTCIVTGSTSGIGREIARQLAESGAHVVMAVRNPKAALDLIQKWQNEWSGMGLPLNIEVMELDLLSLDSVVKFAEAYNARMGPLHVLINNAGIFSIGEPQKFSKDGYEEHLQVNHLAPALLSILLLPSLIRESGAHVVMAVRNPKAALDLIQKWQNEWSGMGLPLNIEVMELDLLSLDSVVKFAEAYNARMGPLHVLINNAGIFSIGEPQKFSKDGYEEHLQVNHLAPALLSILLLPSLIRGSPSRIINVNSVMHYVGFVDTEDMNIISSKRKFTSLVGYSSSKLAQVMFSSVLHKKLPVESGINVVCVSPGIVHTNVARDLSKFVQAAYGLIPYFIFSPQEGSRSTLFAATDPQVPEYCELLKADQWPVCAFLSQECRPTNPSEEAHNVETSYQVWEKTMEMVGLTSDVVERLLEGEQVGCRYGGTDLAD
BLAST of Cp4.1LG20g00550 vs. Swiss-Prot
Match: DHRSX_HUMAN (Dehydrogenase/reductase SDR family member on chromosome X OS=Homo sapiens GN=DHRSX PE=2 SV=2) HSP 1 Score: 125.9 bits (315), Expect = 1.4e-27 Identity = 86/279 (30.82%), Postives = 147/279 (52.69%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. Swiss-Prot
Match: RDH11_HUMAN (Retinol dehydrogenase 11 OS=Homo sapiens GN=RDH11 PE=1 SV=2) HSP 1 Score: 123.6 bits (309), Expect = 7.2e-27 Identity = 86/280 (30.71%), Postives = 149/280 (53.21%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. Swiss-Prot
Match: WWOX_MOUSE (WW domain-containing oxidoreductase OS=Mus musculus GN=Wwox PE=1 SV=1) HSP 1 Score: 123.6 bits (309), Expect = 7.2e-27 Identity = 89/276 (32.25%), Postives = 138/276 (50.00%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. Swiss-Prot
Match: RDH12_HUMAN (Retinol dehydrogenase 12 OS=Homo sapiens GN=RDH12 PE=1 SV=3) HSP 1 Score: 121.3 bits (303), Expect = 3.5e-26 Identity = 77/238 (32.35%), Postives = 130/238 (54.62%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. Swiss-Prot
Match: WWOX_HUMAN (WW domain-containing oxidoreductase OS=Homo sapiens GN=WWOX PE=1 SV=1) HSP 1 Score: 120.6 bits (301), Expect = 6.1e-26 Identity = 87/279 (31.18%), Postives = 137/279 (49.10%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TrEMBL
Match: A0A0A0LVD1_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G031820 PE=3 SV=1) HSP 1 Score: 577.8 bits (1488), Expect = 1.5e-161 Identity = 285/302 (94.37%), Postives = 294/302 (97.35%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TrEMBL
Match: M5W9N5_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa007218mg PE=3 SV=1) HSP 1 Score: 531.2 bits (1367), Expect = 1.7e-147 Identity = 256/297 (86.20%), Postives = 277/297 (93.27%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TrEMBL
Match: A0A059ATB5_EUCGR (Uncharacterized protein OS=Eucalyptus grandis GN=EUGRSUZ_I02747 PE=3 SV=1) HSP 1 Score: 530.4 bits (1365), Expect = 2.8e-147 Identity = 250/297 (84.18%), Postives = 281/297 (94.61%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TrEMBL
Match: B9S0Q9_RICCO (Short-chain dehydrogenase, putative OS=Ricinus communis GN=RCOM_1221570 PE=3 SV=1) HSP 1 Score: 521.5 bits (1342), Expect = 1.3e-144 Identity = 244/295 (82.71%), Postives = 280/295 (94.92%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TrEMBL
Match: W9SE04_9ROSA (Retinol dehydrogenase 11 OS=Morus notabilis GN=L484_021428 PE=3 SV=1) HSP 1 Score: 521.2 bits (1341), Expect = 1.7e-144 Identity = 249/296 (84.12%), Postives = 275/296 (92.91%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TAIR10
Match: AT4G27760.1 (AT4G27760.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 474.6 bits (1220), Expect = 9.3e-134 Identity = 219/296 (73.99%), Postives = 266/296 (89.86%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TAIR10
Match: AT5G53090.1 (AT5G53090.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 462.6 bits (1189), Expect = 3.7e-130 Identity = 222/296 (75.00%), Postives = 259/296 (87.50%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TAIR10
Match: AT5G53100.1 (AT5G53100.1 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 417.9 bits (1073), Expect = 1.0e-116 Identity = 206/298 (69.13%), Postives = 250/298 (83.89%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TAIR10
Match: AT4G23430.2 (AT4G23430.2 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 119.0 bits (297), Expect = 9.9e-27 Identity = 81/231 (35.06%), Postives = 123/231 (53.25%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. TAIR10
Match: AT4G23420.3 (AT4G23420.3 NAD(P)-binding Rossmann-fold superfamily protein) HSP 1 Score: 116.3 bits (290), Expect = 6.4e-26 Identity = 80/231 (34.63%), Postives = 123/231 (53.25%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. NCBI nr
Match: gi|778656740|ref|XP_011649591.1| (PREDICTED: retinol dehydrogenase 11-like [Cucumis sativus]) HSP 1 Score: 577.8 bits (1488), Expect = 2.2e-161 Identity = 285/302 (94.37%), Postives = 294/302 (97.35%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. NCBI nr
Match: gi|659066297|ref|XP_008437485.1| (PREDICTED: retinol dehydrogenase 11-like [Cucumis melo]) HSP 1 Score: 576.2 bits (1484), Expect = 6.4e-161 Identity = 281/296 (94.93%), Postives = 291/296 (98.31%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. NCBI nr
Match: gi|645270203|ref|XP_008240351.1| (PREDICTED: retinol dehydrogenase 11-like [Prunus mume]) HSP 1 Score: 533.9 bits (1374), Expect = 3.7e-148 Identity = 257/297 (86.53%), Postives = 278/297 (93.60%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. NCBI nr
Match: gi|595847065|ref|XP_007209250.1| (hypothetical protein PRUPE_ppa007218mg [Prunus persica]) HSP 1 Score: 531.2 bits (1367), Expect = 2.4e-147 Identity = 256/297 (86.20%), Postives = 277/297 (93.27%), Query Frame = 1
BLAST of Cp4.1LG20g00550 vs. NCBI nr
Match: gi|702469007|ref|XP_010030131.1| (PREDICTED: retinol dehydrogenase 11-like [Eucalyptus grandis]) HSP 1 Score: 530.4 bits (1365), Expect = 4.1e-147 Identity = 250/297 (84.18%), Postives = 281/297 (94.61%), Query Frame = 1
The following BLAST results are available for this feature:
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:
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