Spg021815 (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.ATGGTGAGTAGTCTCTCTTAGTCTCACTTCGATCATCTTTTCCCTGACTACCTCAATCTGTTTTCGATCTGCTTGCTTTCCTCAATATCTGTTGATTTTTCTTCTTGTTGCTTCCATTTCCTGGTGAATTCCCTAGGCTTTGCCGGACCAGAAGACTGTTGATTATCCGAGTTTCAAGCTTGTAATTGTTGGCGATGGTGGCACTGGTATGTTCTGTTTTCTGAGTTTTCTTTTACAAGTAATAGCCTGTTGTCATCTCTGTATCATATCTTATGGTGATAGCAATATATCCTTTTAGGAGGAAAAATGGTCTTTTCTAGGTAGTGGTACTAGTTTGAGCTTGGAGTGAGAATAAGTGAGCTTAAGACTTGAAACTATGTCAATTGCGTGTGATCTGAACGAATATTGCCTGGGGATTGGATTCTTGTTCTGAGAGGAAAACTTGTCTTTTATGTATTAGGGTCTTGAATTTCGGTTAGCACGTGAAACTCGAAAGGGTATTCAAGATAAATTCTTTTAACTGTATAAACCGCATAATATAACCAGGAACCTCATTATTAGCTATAAGAACTTGAAAATCCATGTCATTGCCTTCTAATTATTGTTGTTAAATATAACTTGCAAATTAGTTGAAGAAATGAAGAAAGAAAGAAAAAAGATTCACGAATTATAGAATACTGGATTTTGTTAATCCAGGTAGATGTCATTTGCTTGTATTACTTCTACTAGAAGAATCTTCCCTAGTCAAGATGGATCCGTCTAATACTTGACAAGGCTTGAAATAACGAATCTAACTGAATGGATTATGTTTTGTTGTTCAGGGAAAACAACTTTTGTGAAAAGACATCTCACGGGGGAGTTTGAAAAGAAATACGAACGTAAGCATTTTTGCAATTTGTTTTTCAATTTTGTGGTCTTTTCTATAAAATAATCAAACAACTTATACTGAAGAATTTATCCTTTTATTGTTTCTAATGAACGTAGCAACCATTGGCGTGGAGGTGCACCCATTGGACTTCTTCACAAACTGTGGAAAAATTAGATTTTACTGCTGGGACACTGCTGGGCAGGAGAAGTTTGGTGGTTTACGGGATGGCTACTAGTAAGTTAAAGAATGGGGGCCTTTTATTCTTTCGGATGTAATTTATATGGTCCCAAGTCCTATATTCTCAGCTATACTCTGCCGAACAATTTCCTCCTGTTTAGTCTGGACATGAACTGAAACCTACTAAACTTATGGCATCTTATTCCTGTTGTTAAATATTGTTGAATTTTCTTTATTCTCTTGTACATTTGATTTTGACGACCTTTTGGGTCTGCTTTGATTTTAATTAAGGGGGGGAATTATTTTTCATGTTGGACTTTCGTTTCCCTTCATTTGTGTTCTGATTTCAATTTCCTCCTATGGTTGAAAGTCCTAATTTTGCTCCTTTATCCACGATTGCAGCATCCATGGGCAGTGTGCAATCATCATGTTTGATGTTACTGCCAGATTGACATACAAAAATGTTCCTACATGGCACCGTGATCTCTGCAGGTGATTTTACAGTTGTTTGTACCGAACTCTGTATGTGAATGAATGTTACATTGTCATGGCACCCTCCTGGAAGTTGCTTACCATTTGACCACTTATCTTGCAGGGTGTGTGAGAACATTCCAATTGTTCTTTGTGGAAACAAGGTCGATGTGAAAAACAGGCAGGTTAAGGCGAAGCAAGTCACGTTCCACAGGAAGAAAAACCTACAGTACTATGAAATTTCTGCAAAGAGTAACTACAACTTTGAAAAACCATTCCTGTACTTGGCCAGGAAGTTAGCTGGGTAAATCCAGTTCCATGCTTGAATTTCTTCTTTCTTTAATATGGGAGCTTTCATGACAATTGACCTCTTTATCTTATGGCGATCCAGGGATGCGAACATTCATTTCGTGGAGTCTCCAGCTCTTGCTCCTCCGGAAGTACAAATTGACTTGGCCGTTCAGCAACAGTAAGAGTTTCTCATCCTAAGTCATAACTAATGAAACCCCTTCACGTTCTTTGGAGTAATCCAAATCCATATGTCGCTTATTTTCTGCAGGCACGAAGCTGAATTGGCAGCAGCTGCCAGTCAACCTCTTCCCGATGACGATGATGATGCTTTCGAGTAAAAATGTTCAATCATCTGGTGAATGATACTCTTTGCATATCTATTTTTCTCCTGTTCGCCCCGAGAGAGATTTATCTCCTTGCTAGGATTTACAGAAGGGAGTAGTGGGCAGGGTGTGACTGAGGATGGAGACTTGAAATTTTGAAAACGTTAGTTTTCCCCAGGGTTAAAAAAAATTTGTGGTGTAGGTGGTTGGTGAGTTTCTCTATCGATTAATAGAGCCACATGGCCTCCGATGAAAGTTCATTACGCAGAATTTTGTCTATTGATTGTTCCACTATTTGATTTGCGTTCATTGTTCTCCACTTTTCATCTCTTGGGTTATCTACGAAACAACGTCCATTTGGTAAATATGGACATGGCCTTGCATTTTGGGAAATATGGTTCAGGTAATGACTTCATTTTTCTTCACAAGCTACCTAAAAGTGAATGATTTTCTAATCGAATGTGTGAGCCTTGAAAATTTCCTAACCCCAACCTATTCCTTCATTCATGTCTTAAAAGATTTGAACTTCTAACTTCTCGATATAGGTAATGAAGTGAAAACAATGATTATTATGACTATTATGAGTTGATTGATGGCGAGCTTTGCATTCAATGATAAAACAATATGGGGGTTGATATAAAATTTTGATCAAGTTTACATAAAAAAAGAAAAAACAATATGGGTGGTGATGATAAATTTAAGTCGGGAGGAAAAAAAATTGAAAATGAAAGGTTGAAACTATATCGAGTGATTATTAGGATATTCAAATTTTAAACTTGTATCCTAGATACCTAAGGATTAAACGACGACAAGATTTTAAATTTTGAATGGGATTTATTTTAGTGACAGATATAAACAATTTTTTTTTGAAATCATTTCTAATTTTAAAATGGCGATTTCTAGAATTCCAAATGGAGGGTCAGTGTCCTCTAGAATAGAAATAAAGAGATGCCCTGAACCTGAACCATAAATTATGGAGCTCAAATGTTTAATTTTAAAATGCATAGCCATTTCCGGAACTCGGTTATGGTTTTTTTTTTTTTTTTTTTTTTTTTAAAAACAAAAAAAACTCGGTTATGGTAAAATAATATTTTTCTCATGCTTTTTCAAAAAAAATATATATATATATATTTTTCTCTGGAGAGAGAAAAAAGTCCAAATTGTTAAAACTAAATTAAAAAAAGTAAAAAAAAAATAAAATAAAATGATAGGTAACTATTGACTTGTATTATGAGAGGTTACGTTCGAGTTCTCTCATCCTCAAATGTCGTAGAACTAAAAAAGAAAATAGAAAAATGTCATAGAAGGAAAAAGGGATGTAAGAAGCATGAGTTAAAGCCACTTCTAAATCTCCAAATTGGTCTAATCTAAATGGTGGATACATACATTTTTTTCATTGTTTATGTCTCAGTGAATGCATTTCAATGGTGATTGTGCCTAAATGTATGTGCACAAAGTCCAAGTTGTTCCTCTCAAATTAAATCACTTCATTCAGGTCAATTTCTTTCAGCTCTCAAAACTTGCTTCATCATTCCTTCAAATTTAATCTCAAAATACCGCCACAGAGTTTTTCTTATAATGACTAGTGTACAAACACTACACTGAATTAATTCTCTTCAAATATGTTCACAACTTCATTATTTTTTTTTTGTTTTGTTTTTTTTGAAAAATATGAGTTTTGTTTTTTTAATACATATATTAAATAAATATGTTGAAAGTATAGCCAAAAGTATAGATTTTTTTTTTTTTTTGGTTAAACAATAATTCAAACCTCTCACTTTTAGTTAGAATTACAATGCTTTAATCAATGAAGCTATAATCAATTTCGAAAATACCATTAAAAAATTCCTTTTATCCATATCCTCTAACATTGTAAAATTTTAATAATAATAATTATTATTTTGTGATGTAAAATTGAATTAAAAATATATACTTTTTTTATTTGTTAAAAAAGAAAGAAAAGAAATCAACTTATACTCCTAATATCAATTAAAACTCCAAACTAATAATTGTATTAATTTAAATCATAAATTTTGACGAATAGATCAATATAGACATGTTAATGATTTATAACTATTTTCACTTGATTCCATTTAAAATCAACTTAAACTCTCATAAATAAAACTATGGTTCCTACAATTTGAGACCGGTTACATTTTAGTCAATATACTTTCAATATATCTTAAATTAGTCCTCATTATTTTATTTTATTTTAAAAAATTGTCCTCATTGTTAATTTGAAGTTAACATTTTCGGAAATTAATAAAATAGTAATAATAAAGTTAAGTATTTTTTCTTATAAATTATTAAGATTTTTTTTTTTTTTTTAAATGAACTGAAACAACCGTTTAGAAATTAATAAGAAAATGGATATATATTTTTCTCGTGGGGTCAGAAAAGAGTAAAACAGCGCACCAAAATTAAAAAAACACAAATCCAACGGTGGAGCATGATTCGACTGCAAATCCAACGGTGAAGAAAATTGCGTCAGTTGAAAGCCAGTAGTCGCTTACTCTATAAACCCTCGTCCTCAGCGCTCAACCCATTTTAACCTAAATCGGCGATTCCTTCCTCTCCTTTCGCTTTTCCATTCGACGCATTTCAATGGTGAGTAGTTTCTCTTACTCTCACTTCGATTATCTTTTCTTTGACTACTTTAATCTCTTTTCGATCTGCTTCTTTTTCTTCTGAATATCTGTTGATTTTTCTTCTTGTTGCTTCCATTTCATGGTGAATTACCTAGGCTTTACCCGACCAGAAGACTGTTGATTATCCGAGTTTCAAGCTTGTGATTGTTGGCGATGGTGGCACTGGTATATTCTATTTTCTGAGTTTTCTTTTACAAGTAATAGCCTGTTGCGATCGCTCTATCTTATCTTATGGTGATCGCAGTATATTATTTTGGGAGGAAAAATCGTCATTGCTACGTAGTAGTACTAGGTTGAGCTTGGAGTGAGAACAAGAGAGCTTAAGACTTGAAACTATGTTAATGGCGTGTGATTTGAACGAAGATTGTCTGGGGATTGTGTTCTTGTTCTGAGAAGAAAACTTGTCTTTTATGTATTAGGGTTTTGAACTTCGGTTAGCAATCGAAACTCGAAAGGGTATTCAAGATGAATTCTTTTAACTGTATAAACCGCATAAACCTCTTTTCCTTTCTGGCTGTGATAGTTTAACCAGGAAATTCATTATTGTTTGATGGTTAGCTATATAAACTTGAAAATTCATGACATTGCCTTGTAATTGAGGGTGTTAAAACAGAAACTTGCACATTAGTAGAAGAAATGAAGAAAGAAAGAAAAGAGATTCACAAATTAGAATACTGGATTTTGTTAATCCAGGTAGATGTTACTTGCTTGTATTGGTTCTGTCTGAAAGCTCTTCTTTAATCAAGATGGATCCGGCTAATACTTGATGAGACTTGAAATAACGAATATGACTGAATTGATTACGTTTTGTTGCTCAGGAAAAACAACTTTCGTGAAAAGACATCTCACGGGGGAGTTTGAAAAGAAATACGAACGTAAGCATTTTTGTATTTTGTTTTTACCATTTTGTGGTTTATTCATTGAACCACCTAGGGTTTTCTTTTAAATAATCAAACAATTTATAATAAAAAATTTATCCTTCTATTGTTTCTTATGAACTTAGCAACCATTGGCGTGGAGGTGCACCCATTGGACTTCTTCACAAACTGTGGAAAAATTAGATTTTACTGCTGGGACACTGCTGGGCAGGAGAAGTTTGGTGGTCTACGGGATGGCTACTAGTAAGTTAAAGAATGGGGCCTTTTTATTCCCAGTTATACTCTGTTAAACAATTTCCTCCTTGCTTAGTCTGAACAAGAACTGAAACCTACAAAACTAATTGGGTCTTATTCCTCTTGTAAATATTGTTGAATTTTCGTTATTCTCTTGTGCATTTTATCTGATACATTATTTTATCTTGGCGACCTTATTGGGTCTTCTTTGATTTTCGTTTTAGTGTGGTATTATTTTTCATGATGGACTTTCATTTCCCTTCATTTCTGTTCTGATTTCAATTTCCTCCTAAGGTTGAAAATCCTAATTCCTTTTTTCTTTATCCATGATTGCAGCATCCATGGGCAGTGTGCAATCATCATGTTTGATGTTACTGCCAGATTGACGTACAAAAATGTTCCTACATGGCACCGTGATCTCTGCAGGTGATTTAACAGTTGTTTGTACAGAACTTTGTATGTGAATGATATGTTACATTGTCATGGCAACTTCCTTGAAGTTGCTTACCATTTGACCACTTAATAACTTGCAGGGTGTGTGAGAACATTCCAATCGTTCTTTGTGGAAACAAGGTCGATGTGAAAAACAGGCAGGTTAAGGCGAAGCAAGTCACGTTCCACAGGAAGAAGAACCTACAGTACTATGAAATTTCTGCGAAGAGTAACTACAACTTTGAAAAACCATTCCTGTACTTGGCCAGGAAGTTAGCTGGGTAAATCCAGTCCCATGCTTGAATTACTTCTTTCTTTAATATGGGAGCTTTCATGAAAATTGACTTCTTTATCTGATGGCAATCCAGGGATGCGAACATTCATTTCGTGGAGTCTCCAGCCCTTGCTCCTCCCGAAGTACAAATTGACTTGGCCGTTCAGCAACAGTGAGACTTTCTCATCCTAAGTCATTACTCATGAAACCCCTCACGTTCTTTGGAGTAATCCATATCCATATGTTGCTTATTTTCTGCAGGCATGAAGCTGAATTGGCAGCAGCCGCCAGTCAACCTCTACCTGACGATGATGATGATGCTTTCGAGTAAAAATGGTAAATCATCTGGTGATGATACTCTTTGCATATCTATTTTCTCCTGTTCCCTCGGAGTGAGATCTATCTCCATCTCCTTGCTAGGATTAACAGAAGGGAATAGGTGGGCAGGGTGTGGCTGAGGATTGAGACTTGAATTTTTGAAAACGTTAGTTTACCCCCGGGATTAAAAAAAAGATTTGTGGTTGTAGATGGTTGGTTTCTGTTAGTGAGTTTCTCTATCGATTAATAGAGCCACATGGCCTCCGATGAAAGTTCATTATGCAGAATTTCTCTATTGTGTGTTCCACTATTTGATTTGTGCTCATCTTTGTTCCCTTTATTCATCTCTTGGGTTATGTTCTGCCCGCGAAGACATTTGTACGAACAACGTCCATTGGACTTGGACGTGGCATTGCATTTTCGTAATATTTGGTTC ATGGCTTTGCCGGACCAGAAGACTGTTGATTATCCGAGTTTCAAGCTTGTAATTGTTGGCGATGGTGGCACTGGGAAAACAACTTTTGTGAAAAGACATCTCACGGGGGAGTTTGAAAAGAAATACGAACCAACCATTGGCGTGGAGGTGCACCCATTGGACTTCTTCACAAACTGTGGAAAAATTAGATTTTACTGCTGGGACACTGCTGGGCAGGAGAAGTTTGGTGGTTTACGGGATGGCTACTACATCCATGGGCAGTGTGCAATCATCATGTTTGATGTTACTGCCAGATTGACATACAAAAATGTTCCTACATGGCACCGTGATCTCTGCAGGGTGTGTGAGAACATTCCAATTGTTCTTTGTGGAAACAAGGTCGATGTGAAAAACAGGCAGGTTAAGGCGAAGCAAGTCACGTTCCACAGGAAGAAAAACCTACAGTACTATGAAATTTCTGCAAAGAGTAACTACAACTTTGAAAAACCATTCCTGTACTTGGCCAGGAAGTTAGCTGGGGATGCGAACATTCATTTCGTGGAGTCTCCAGCTCTTGCTCCTCCGGAAGTACAAATTGACTTGGCCGTTCAGCAACAGCACGAAGCTGAATTGGCAGCAGCTGCCAGTCAACCTCTTCCCGATGACGATGATGATGCTTTCGAGTGGTTGGCTTTACCCGACCAGAAGACTGTTGATTATCCGAGTTTCAAGCTTGTGATTGTTGGCGATGGTGGCACTGGAAAAACAACTTTCGTGAAAAGACATCTCACGGGGGAGTTTGAAAAGAAATACGAACCAACCATTGGCGTGGAGGTGCACCCATTGGACTTCTTCACAAACTGTGGAAAAATTAGATTTTACTGCTGGGACACTGCTGGGCAGGAGAAGTTTGGTGGTCTACGGGATGGCTACTACATCCATGGGCAGTGTGCAATCATCATGTTTGATGTTACTGCCAGATTGACGTACAAAAATGTTCCTACATGGCACCGTGATCTCTGCAGGGTGTGTGAGAACATTCCAATCGTTCTTTGTGGAAACAAGGTCGATGTGAAAAACAGGCAGGTTAAGGCGAAGCAAGTCACGTTCCACAGGAAGAAGAACCTACAGTACTATGAAATTTCTGCGAAGAGTAACTACAACTTTGAAAAACCATTCCTGTACTTGGCCAGGAAGTTAGCTGGGGATGCGAACATTCATTTCGTGGAGTCTCCAGCCCTTGCTCCTCCCGAAGTACAAATTGACTTGGCCGTTCAGCAACAGCATGAAGCTGAATTGGCAGCAGCCGCCAGTCAACCTCTACCTGACGATGATGATGATGCTTTCGAGTAA ATGGCTTTGCCGGACCAGAAGACTGTTGATTATCCGAGTTTCAAGCTTGTAATTGTTGGCGATGGTGGCACTGGGAAAACAACTTTTGTGAAAAGACATCTCACGGGGGAGTTTGAAAAGAAATACGAACCAACCATTGGCGTGGAGGTGCACCCATTGGACTTCTTCACAAACTGTGGAAAAATTAGATTTTACTGCTGGGACACTGCTGGGCAGGAGAAGTTTGGTGGTTTACGGGATGGCTACTACATCCATGGGCAGTGTGCAATCATCATGTTTGATGTTACTGCCAGATTGACATACAAAAATGTTCCTACATGGCACCGTGATCTCTGCAGGGTGTGTGAGAACATTCCAATTGTTCTTTGTGGAAACAAGGTCGATGTGAAAAACAGGCAGGTTAAGGCGAAGCAAGTCACGTTCCACAGGAAGAAAAACCTACAGTACTATGAAATTTCTGCAAAGAGTAACTACAACTTTGAAAAACCATTCCTGTACTTGGCCAGGAAGTTAGCTGGGGATGCGAACATTCATTTCGTGGAGTCTCCAGCTCTTGCTCCTCCGGAAGTACAAATTGACTTGGCCGTTCAGCAACAGCACGAAGCTGAATTGGCAGCAGCTGCCAGTCAACCTCTTCCCGATGACGATGATGATGCTTTCGAGTGGTTGGCTTTACCCGACCAGAAGACTGTTGATTATCCGAGTTTCAAGCTTGTGATTGTTGGCGATGGTGGCACTGGAAAAACAACTTTCGTGAAAAGACATCTCACGGGGGAGTTTGAAAAGAAATACGAACCAACCATTGGCGTGGAGGTGCACCCATTGGACTTCTTCACAAACTGTGGAAAAATTAGATTTTACTGCTGGGACACTGCTGGGCAGGAGAAGTTTGGTGGTCTACGGGATGGCTACTACATCCATGGGCAGTGTGCAATCATCATGTTTGATGTTACTGCCAGATTGACGTACAAAAATGTTCCTACATGGCACCGTGATCTCTGCAGGGTGTGTGAGAACATTCCAATCGTTCTTTGTGGAAACAAGGTCGATGTGAAAAACAGGCAGGTTAAGGCGAAGCAAGTCACGTTCCACAGGAAGAAGAACCTACAGTACTATGAAATTTCTGCGAAGAGTAACTACAACTTTGAAAAACCATTCCTGTACTTGGCCAGGAAGTTAGCTGGGGATGCGAACATTCATTTCGTGGAGTCTCCAGCCCTTGCTCCTCCCGAAGTACAAATTGACTTGGCCGTTCAGCAACAGCATGAAGCTGAATTGGCAGCAGCCGCCAGTCAACCTCTACCTGACGATGATGATGATGCTTTCGAGTAA MALPDQKTVDYPSFKLVIVGDGGTGKTTFVKRHLTGEFEKKYEPTIGVEVHPLDFFTNCGKIRFYCWDTAGQEKFGGLRDGYYIHGQCAIIMFDVTARLTYKNVPTWHRDLCRVCENIPIVLCGNKVDVKNRQVKAKQVTFHRKKNLQYYEISAKSNYNFEKPFLYLARKLAGDANIHFVESPALAPPEVQIDLAVQQQHEAELAAAASQPLPDDDDDAFEWLALPDQKTVDYPSFKLVIVGDGGTGKTTFVKRHLTGEFEKKYEPTIGVEVHPLDFFTNCGKIRFYCWDTAGQEKFGGLRDGYYIHGQCAIIMFDVTARLTYKNVPTWHRDLCRVCENIPIVLCGNKVDVKNRQVKAKQVTFHRKKNLQYYEISAKSNYNFEKPFLYLARKLAGDANIHFVESPALAPPEVQIDLAVQQQHEAELAAAASQPLPDDDDDAFE Homology
BLAST of Spg021815 vs. NCBI nr
Match: XP_021596701.1 (GTP-binding nuclear protein Ran-3-like [Manihot esculenta]) HSP 1 Score: 896.7 bits (2316), Expect = 7.9e-257 Identity = 429/443 (96.84%), Postives = 435/443 (98.19%), Query Frame = 0
BLAST of Spg021815 vs. NCBI nr
Match: XP_029130741.1 (uncharacterized protein LOC109815993 [Cajanus cajan]) HSP 1 Score: 889.0 bits (2296), Expect = 1.6e-254 Identity = 427/458 (93.23%), Postives = 436/458 (95.20%), Query Frame = 0
BLAST of Spg021815 vs. NCBI nr
Match: KAG5034243.1 (hypothetical protein JHK87_009153 [Glycine soja]) HSP 1 Score: 886.3 bits (2289), Expect = 1.1e-253 Identity = 426/457 (93.22%), Postives = 435/457 (95.19%), Query Frame = 0
BLAST of Spg021815 vs. NCBI nr
Match: KAG7023545.1 (GTP-binding nuclear protein Ran-3, partial [Cucurbita argyrosperma subsp. argyrosperma]) HSP 1 Score: 885.2 bits (2286), Expect = 2.4e-253 Identity = 436/500 (87.20%), Postives = 438/500 (87.60%), Query Frame = 0
BLAST of Spg021815 vs. NCBI nr
Match: KAF4358094.1 (hypothetical protein F8388_009377 [Cannabis sativa] >KAF4387151.1 hypothetical protein G4B88_024723 [Cannabis sativa]) HSP 1 Score: 872.8 bits (2254), Expect = 1.2e-249 Identity = 419/449 (93.32%), Postives = 430/449 (95.77%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy Swiss-Prot
Match: Q8H156 (GTP-binding nuclear protein Ran-3 OS=Arabidopsis thaliana OX=3702 GN=RAN3 PE=1 SV=2) HSP 1 Score: 456.4 bits (1173), Expect = 3.6e-127 Identity = 216/221 (97.74%), Postives = 219/221 (99.10%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy Swiss-Prot
Match: P41918 (GTP-binding nuclear protein Ran-A1 OS=Nicotiana tabacum OX=4097 GN=RAN-A1 PE=2 SV=1) HSP 1 Score: 449.1 bits (1154), Expect = 5.7e-125 Identity = 212/221 (95.93%), Postives = 216/221 (97.74%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy Swiss-Prot
Match: P38548 (GTP-binding nuclear protein Ran/TC4 OS=Vicia faba OX=3906 PE=2 SV=1) HSP 1 Score: 448.0 bits (1151), Expect = 1.3e-124 Identity = 210/221 (95.02%), Postives = 218/221 (98.64%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy Swiss-Prot
Match: P41917 (GTP-binding nuclear protein Ran-2 OS=Arabidopsis thaliana OX=3702 GN=RAN2 PE=1 SV=3) HSP 1 Score: 447.6 bits (1150), Expect = 1.7e-124 Identity = 210/221 (95.02%), Postives = 218/221 (98.64%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy Swiss-Prot
Match: A2WSI7 (GTP-binding nuclear protein Ran-1 OS=Oryza sativa subsp. indica OX=39946 GN=RAN1 PE=2 SV=2) HSP 1 Score: 444.9 bits (1143), Expect = 1.1e-123 Identity = 208/221 (94.12%), Postives = 216/221 (97.74%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy TrEMBL
Match: A0A7J6GWH9 (GTP-binding nuclear protein OS=Cannabis sativa OX=3483 GN=F8388_009377 PE=3 SV=1) HSP 1 Score: 872.8 bits (2254), Expect = 5.9e-250 Identity = 419/449 (93.32%), Postives = 430/449 (95.77%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy TrEMBL
Match: A0A498HLT5 (Uncharacterized protein OS=Malus domestica OX=3750 GN=DVH24_012152 PE=3 SV=1) HSP 1 Score: 845.9 bits (2184), Expect = 7.7e-242 Identity = 416/502 (82.87%), Postives = 429/502 (85.46%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy TrEMBL
Match: A0A4Y1QUG8 (GTP-binding nuclear protein OS=Prunus dulcis OX=3755 GN=Prudu_004014 PE=3 SV=1) HSP 1 Score: 790.8 bits (2041), Expect = 2.9e-225 Identity = 391/446 (87.67%), Postives = 402/446 (90.13%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy TrEMBL
Match: A0A4D6NUN1 (GTP-binding nuclear protein OS=Vigna unguiculata OX=3917 GN=DEO72_LG11g3232 PE=3 SV=1) HSP 1 Score: 658.3 bits (1697), Expect = 2.3e-185 Identity = 333/451 (73.84%), Postives = 358/451 (79.38%), Query Frame = 0
BLAST of Spg021815 vs. ExPASy TrEMBL
Match: A0A4Y7J1N1 (GTP-binding nuclear protein OS=Papaver somniferum OX=3469 GN=C5167_012521 PE=3 SV=1) HSP 1 Score: 609.8 bits (1571), Expect = 9.3e-171 Identity = 299/344 (86.92%), Postives = 306/344 (88.95%), Query Frame = 0
BLAST of Spg021815 vs. TAIR 10
Match: AT5G55190.1 (RAN GTPase 3 ) HSP 1 Score: 456.4 bits (1173), Expect = 2.5e-128 Identity = 216/221 (97.74%), Postives = 219/221 (99.10%), Query Frame = 0
BLAST of Spg021815 vs. TAIR 10
Match: AT5G20020.1 (RAS-related GTP-binding nuclear protein 2 ) HSP 1 Score: 447.6 bits (1150), Expect = 1.2e-125 Identity = 210/221 (95.02%), Postives = 218/221 (98.64%), Query Frame = 0
BLAST of Spg021815 vs. TAIR 10
Match: AT5G20010.1 (RAS-related nuclear protein-1 ) HSP 1 Score: 439.9 bits (1130), Expect = 2.4e-123 Identity = 207/221 (93.67%), Postives = 215/221 (97.29%), Query Frame = 0
BLAST of Spg021815 vs. TAIR 10
Match: AT5G55080.1 (ras-related nuclear protein 4 ) HSP 1 Score: 309.3 bits (791), Expect = 5.0e-84 Identity = 147/212 (69.34%), Postives = 173/212 (81.60%), Query Frame = 0
BLAST of Spg021815 vs. TAIR 10
Match: AT4G39890.1 (RAB GTPase homolog H1C ) HSP 1 Score: 105.1 bits (261), Expect = 1.4e-22 Identity = 60/164 (36.59%), Postives = 87/164 (53.05%), 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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