Lsi05G013490.1 (mRNA) Bottle gourd (USVL1VR-Ls)
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.AAAACTCCTTTTCTTTCTCCTTCTTCGACTCTCTTATAATTTATTTCCTGACATTCGTGTCTGGGATGAACTGATGGGCAATTTTCTTTTCTGGAGGGAAACGGGAAGTGTGCTTCGTACGCCATGAGCGGGAGCAACGTAAACAAGGTCTTCTACGCCGATAACTACCATCCCATTCAAGCCGGCAGCATCGACGGCACCGATATTCTTCCCCACGACAACGCCGTCTACCGAGCTTTGCTCTGTTCCTCTGCTGGCCTCTGTAATTCTCTCCCTTCTAATTTTTCAACGCCCATTTTGCATTTGTTGATGTTCTTCACCGTCTTCTTTTCTAATCTACTGCTGTGGTCTGTTTTTGGCAGATGACCCTCTTGGCGATCCCAAGGTCTTCGGTGACCCTTATTGCACCCTCTTCGTTGGTCGCCTTTCACATCTGACTAACGAAGACACTCTTCGCAGGGTATTCTCCCATTTATTAATCCCTTTTTTTTGTTGTTTATTGATTTCTGATGAGAACTGAGGTGGAGATCCTTCGGAACTTGGGTGTTGGTCTATGTGGCTTGATGTGAGAATTTCATGGTGGGTGTTAGTGGCCATTAGGTTTTACTTTGTCTCAGATGATTCGTATATTAGTTTAAGCAGCCCTAGGAAGACGGATACTGAGGAGAAGAGGATTATCAGTTATATAGGTCAACTGGCAGCACGATTTGTTGGAGATGCAGCTAGAACTATAATTGAAACTAGAGGAGAGAGCTAGGGTTTTTTGTTCTTTGGATGCGATCGAAGTTAAAGAAAAAGGGAGCTCTTCAACTGGATTTTCATAGGCTCAGGATTGCTGCAATGTAGAATTGATTGCTGATAATATTTCGCCAGAAGGAAAATGTTGTGAGCGTAACTCCTAGGTGGGAATATGGACAGGTCTGGTTGGTTACTTGAAGCATTTGGGATTTTTTGTCCAACTCACATTAAAAGACCAGTGGGAATGGAGAAAGTAGAGGGGGAAAGAAAATATAAAGGAAGGAGGGAGTATTTCCTCGATAAAGTTTGATAGAGATGAGACTTTAGTGGCCCTGATAGGGCAATTTTTCCCTTACAACAAAAGTTGTTTGTTGGAACGAACATTTGAGGGTTGCTGGTGGTTGCCTGATGGCTGGACAGTCAGCAACCAATGGTCATGTGTATGGCCACGGTCACTATAAAGGTCCCATCTCGAGGTTAAGTGTACTTTGTCAACTTCGAGGTTTGGCTTCAAAATAAGAGAGTTACGTCTGAGTTACACTTGGAGATTGAAGTGTTCTTAGAAGAGAGGTGGTGTAAACCAAGTGACTTATTGCTTGATAAAAACATGCCTGTTATAGCCTAAAGCTAGCCATTTAAACTAAGGATAACTGAAAACCGTAACTGTCTTATCAAATAAATTAAATAAATTTCTTTTTTTCAAAAAAAAAGAAAAAAAAAGGAGGAAACAAAAGAATTTATCAAAGTAAACAACCAACCTTTTAAAGCTTAACAAATCTACCTTTTACAGCCTAAATCTAAAGCTAGCTACTTAAACTAAAAGCATAACTCAAAACCAGAACTGACTTATCAAATAAACAGCAAATTGCTTGTAGCTTCATTAACTAAGCTCTAACAGCTATTTCCTAAAACTGTAAATAATAGAGATTACATCACGAGGACTGTGGAGAAAAGCATCTATTGTCTACACCTTTTTAAATTTTGACTAGAAAAGAATTGAGCTGAGCGTACAAGAAGCTTTCTCAAGCTCTGGATTCTCAAGAGCTTGCTTGCCTTATTTATTTACTTGCACCGTTGCATTTGATATTTCATTTATAATTTACAGCTTTTCTTTTTATTTCCCTTTGTACATCTCATCAGCTGAAAAAGGAATTTCATCTCTCAGGCTATGAGCAAGTATGGTCAGGTTAAGAATCTACGCTTAGTCAGACACATTGGTGATTTCCTTATCTAGTTCTCATTTTATCTTTTATTTGGCTTGAAGGATTTCCTGATTAGTGATTAGGGTGCCCAAAAATTCTAGTTATATTTCCAATATTTGGGATATTAATACTATAAAACATGTTTTACGTTTAAGAGACTACTCTGTTCATAGAAGTTTAACGGATGGAAGAGACAACGATGTTTCTTACCAAATCTGCATGATATTTTACAGTAACGGGTTCTTCACGTGGTTATGCCTTTGTTGAATATGGAACTGAAAAAGAGATGCGACGTGCATATAAGGTAGTACAACTTCTTGAAGCTTTTAATTTCACCTGAGCTTATACTTGTGTTCTTGTTTTTGGTTTAAATATTTATTTATATATTTTGCTGTACGGTTCCTAATAGTAAACAAATTTGTGTGGGATGTGATGTTATTTTGCATTCTCCTTCTAGGTTACTAGGTTTCTTAATTAGCTATTGATTCTTTGGAAGCTCTTGGTAGAGCGATTCTTGTTGCTTGTCCTACCTTTACATTATCTCTTATCATTCATGGAATTTCTCGGTTCTTATGATTAATTTGTTAAAAAAAGGCATCCAATCATTTCATTTTTGAGTGAGAGTACATTAATAAGTTTGTTTTGATGGTGAATTATATTGATTGATATTAAGTTCCTTTATTCATCAGGATGCTCATCATTCGATGATAGATGATTGCGAAATTATAGTTGATTACAATCGACAACGGCTAATGTCTGGATGGATTCCACGGAGATTAGGTAAGTGGAAGTCTTGTAGTTTCACATATAGTACCCCCTACTTAAGTCTATTTGATTTTATCTGTGCTGATTGTAATAGGAGGGGGTCTTGGGGGTAAGAAGGAATCTGGACAACTTCGATTTGGAGGAAGAGAAAGACCATTTCGAGCTCCATTGTATGCTGTACTTCCCTCATTATGTATGCTGGTTGGTTATGATTGGGTGGTTATTAGATTCCTACTTTCCTTTTGCATGGATTTTAGTTCTGCTTCCTGGGTTCTCTTTTGTTGTGCCAAAGAATGTTTTGTTGGCATATAACTATGGTTTGGTCTGAACGAACTTCATACTCATCCTCACCCAACTTGTCGTTACTTAATTGTATTTCCATTAGGAGGAAGTAGTACACCTTGAACTTGGATACACTATGGTTGAAAGTTTTCATCTTATGTTTTAACCCTGCCCCTCAAATATTTTTTTCCTTTTGAGCTAAGTTACCTGTTGAATCATAGTTCTTGATAATGTGATCACTCCATGCGTTCTTCCAAAATCTTGTTTCTTTGCTTCCTTTTTTTTTATTATTTTATTATTTTTTATCTTGCTTTAAAGAATTGCTGCAGATCTTCAGAAATAAAGTTATAGGGGACGTATAATTACTCTTTTCAGTCTAACCATTCCTTTCATTGTGTTAAAGACTATAGCCCTCGCGGGAAACAGTTATAGCATTTCCAGTCCAAAGAGATTCAATTTCTACATGGAATTGTTACAAGTCTTTTTTTCAAGTAATTTCAAATTCTTCCGTTGCATAGTTTTTAACACCTAACTCCCAATTTCTTTGACATTAGACAATGGTCATTGTTATCAGCGAGTTTCGTGGAAATCAGAAGTTATCTTGATAAATACTGCCAAAACTCACCATTGAGGAGCTAGTTAAGTACTGCTTCCAACGGTTGCTCCTAAAGTAGCTAGGTCAGAAATTAAAAGTAATCCCTGTTCACTTGACTTTGAGCTACAATTCCTCTCTATAATTTCCCAGCCCAATTATTAATCTGCGAATTCCTGTTATTCTCCAAGCTTATAGCGAGTACTTCAATGATAAATGTGGCTTCTTTTATTTTTTATGCTTTTGTTTGCTTATTCAGGGCAGGTGTTTGATCTGGATTTCTTAATCAGATTATTCCATTGTCCTTTTGCGTGCATTTATGTCATTCATTGACTCAACTTCTCTAATTCATACCCTTTTGAGCAGACGGCCGATCCCTTATGACGATTTGAAAAGGCTTGGCGTTACTCCTCCTCCCGAAGGAAGATACATGCCCCGGTTTCAGGTATTTTTTCACAAATATTATTGATCTAACTGATAAAACTAGAAGCTTTATAATCTTTGTCTCAATTTAATAGTAGGAACGTCTTTGATGTACATACATGATATATCTAGAACCTCAAAGGGTGTTTGGTCCACTGACTTCATAAGTTGGTGTTAAATAATTCAACTTCAATAGTGTTTACTACTGAAGTTTGTAAATTTATCGCGTAACTTCATATTCCCTTCTTTCTCTATTTTGCACATTTATCGAGGAATACCATTTTACAACTCTGCAACCCAAACATAGACTTCTTAACTCCAATATATTAACTCCAAATTTCATAACTCAGCTCAGCGCCCCAAACACTTCTTTTAATGTGATCTCATAATGTCATTCTTCTGCTCTTCCACTTGGTATTTTGTAATGCAATTTAGTAGTAGGAACGTCTATGATTTTCATACATATTGTAGAACCTTAGTGTGTTTTTGCAGTGCATTCTTCTGCTCTTCCACTTGATATTTTATAATACAATGGACGATCACTTGACTTGAACTGAGGTCTGTATACTGTTACACAAGAAGTAATATTCTTTTTTGTTGGTTTTAGGTACCTTCTCCTCCCAGAAGAGAAACAGATTCTGTACTTAGGGAAGAAGGGTCCACTAAGAATGATTCTACGGATAAGGATGGATACAGTCAAAGAAATAGTTCTATAGATGAAGATGATTGGTCTCATACGAGGGGCTCCAATGACTACAGAGGGGGGCCCTCGCACAAGGGAAGCTACGAAAAGATGAAACATGAATCTAGGAGGGCCTCAAACGACAGGGATGATTATTCCTCCCACATGAGATTTTCTGAGAAGGAAGATTATTATCAGAGGAGATCTGCTGAGAAGGAAGATCTTTATCAGAGGAGCTCTTCAGACAAGGATCGATCTTGCAGAAGAGATTCCAATGATAGAGATGATCGCTCACGGAAGCGTCACAAATCTCATAGATAGGGACTCTATTCATTACCCATCTTGATATGAATGGAGCCATCTTATTCATGTGTCTAAAATCACAACAAAATGGAACGGCATCAAAGACACTCAACTATTGAGCTTCATTGATGCCACTCAACTATTGAGCTTCATTTATGACGAACAAAAGTTAAACCCAAGTTAAATTAAATGAAGGCAAGTAACATTGTAATAAAAGACTTCAATCTCATATTTATGATTCATCTGTGTTTTTTAGGTTTGGAGTAAGTGCGTATTATGGCATTCATGTACTTGGAACTTGGAAGTGATGTTACGACTCTTCAGTTGATATTAGGTTACTTTTAGGATCTCTTTGGAGGTTATATATAGTTAATTCCCATGTAAATTGAGACTTGGAAAAGGTAGTAAAATGAAACCAACCTATGAGCTTTCTAGAGCTAGGTTTTTTTTTTTA AAAACTCCTTTTCTTTCTCCTTCTTCGACTCTCTTATAATTTATTTCCTGACATTCGTGTCTGGGATGAACTGATGGGCAATTTTCTTTTCTGGAGGGAAACGGGAAGTGTGCTTCGTACGCCATGAGCGGGAGCAACGTAAACAAGGTCTTCTACGCCGATAACTACCATCCCATTCAAGCCGGCAGCATCGACGGCACCGATATTCTTCCCCACGACAACGCCGTCTACCGAGCTTTGCTCTGTTCCTCTGCTGGCCTCTATGACCCTCTTGGCGATCCCAAGGTCTTCGGTGACCCTTATTGCACCCTCTTCGTTGGTCGCCTTTCACATCTGACTAACGAAGACACTCTTCGCAGGTCAGCAACCAATGGTCATGTGTATGGCCACGGTCACTATAAAGGTCCCATCTCGAGGTTAAGTGTACTTTGTCAACTTCGAGTAACGGGTTCTTCACGTGGTTATGCCTTTGTTGAATATGGAACTGAAAAAGAGATGCGACGTGCATATAAGGATGCTCATCATTCGATGATAGATGATTGCGAAATTATAGTTGATTACAATCGACAACGGCTAATGTCTGGATGGATTCCACGGAGATTAGGAGGGGGTCTTGGGGGTAAGAAGGAATCTGGACAACTTCGATTTGGAGGAAGAGAAAGACCATTTCGAGCTCCATTACGGCCGATCCCTTATGACGATTTGAAAAGGCTTGGCGTTACTCCTCCTCCCGAAGGAAGATACATGCCCCGGTTTCAGGTACCTTCTCCTCCCAGAAGAGAAACAGATTCTGTACTTAGGGAAGAAGGGTCCACTAAGAATGATTCTACGGATAAGGATGGATACAGTCAAAGAAATAGTTCTATAGATGAAGATGATTGGTCTCATACGAGGGGCTCCAATGACTACAGAGGGGGGCCCTCGCACAAGGGAAGCTACGAAAAGATGAAACATGAATCTAGGAGGGCCTCAAACGACAGGGATGATTATTCCTCCCACATGAGATTTTCTGAGAAGGAAGATTATTATCAGAGGAGATCTGCTGAGAAGGAAGATCTTTATCAGAGGAGCTCTTCAGACAAGGATCGATCTTGCAGAAGAGATTCCAATGATAGAGATGATCGCTCACGGAAGCGTCACAAATCTCATAGATAGGGACTCTATTCATTACCCATCTTGATATGAATGGAGCCATCTTATTCATGTGTCTAAAATCACAACAAAATGGAACGGCATCAAAGACACTCAACTATTGAGCTTCATTGATGCCACTCAACTATTGAGCTTCATTTATGACGAACAAAAGTTAAACCCAAGTTAAATTAAATGAAGGCAAGTAACATTGTAATAAAAGACTTCAATCTCATATTTATGATTCATCTGTGTTTTTTAGGTTTGGAGTAAGTGCGTATTATGGCATTCATGTACTTGGAACTTGGAAGTGATGTTACGACTCTTCAGTTGATATTAGGTTACTTTTAGGATCTCTTTGGAGGTTATATATAGTTAATTCCCATGTAAATTGAGACTTGGAAAAGGTAGTAAAATGAAACCAACCTATGAGCTTTCTAGAGCTAGGTTTTTTTTTTTA ATGAGCGGGAGCAACGTAAACAAGGTCTTCTACGCCGATAACTACCATCCCATTCAAGCCGGCAGCATCGACGGCACCGATATTCTTCCCCACGACAACGCCGTCTACCGAGCTTTGCTCTGTTCCTCTGCTGGCCTCTATGACCCTCTTGGCGATCCCAAGGTCTTCGGTGACCCTTATTGCACCCTCTTCGTTGGTCGCCTTTCACATCTGACTAACGAAGACACTCTTCGCAGGTCAGCAACCAATGGTCATGTGTATGGCCACGGTCACTATAAAGGTCCCATCTCGAGGTTAAGTGTACTTTGTCAACTTCGAGTAACGGGTTCTTCACGTGGTTATGCCTTTGTTGAATATGGAACTGAAAAAGAGATGCGACGTGCATATAAGGATGCTCATCATTCGATGATAGATGATTGCGAAATTATAGTTGATTACAATCGACAACGGCTAATGTCTGGATGGATTCCACGGAGATTAGGAGGGGGTCTTGGGGGTAAGAAGGAATCTGGACAACTTCGATTTGGAGGAAGAGAAAGACCATTTCGAGCTCCATTACGGCCGATCCCTTATGACGATTTGAAAAGGCTTGGCGTTACTCCTCCTCCCGAAGGAAGATACATGCCCCGGTTTCAGGTACCTTCTCCTCCCAGAAGAGAAACAGATTCTGTACTTAGGGAAGAAGGGTCCACTAAGAATGATTCTACGGATAAGGATGGATACAGTCAAAGAAATAGTTCTATAGATGAAGATGATTGGTCTCATACGAGGGGCTCCAATGACTACAGAGGGGGGCCCTCGCACAAGGGAAGCTACGAAAAGATGAAACATGAATCTAGGAGGGCCTCAAACGACAGGGATGATTATTCCTCCCACATGAGATTTTCTGAGAAGGAAGATTATTATCAGAGGAGATCTGCTGAGAAGGAAGATCTTTATCAGAGGAGCTCTTCAGACAAGGATCGATCTTGCAGAAGAGATTCCAATGATAGAGATGATCGCTCACGGAAGCGTCACAAATCTCATAGATAG MSGSNVNKVFYADNYHPIQAGSIDGTDILPHDNAVYRALLCSSAGLYDPLGDPKVFGDPYCTLFVGRLSHLTNEDTLRRSATNGHVYGHGHYKGPISRLSVLCQLRVTGSSRGYAFVEYGTEKEMRRAYKDAHHSMIDDCEIIVDYNRQRLMSGWIPRRLGGGLGGKKESGQLRFGGRERPFRAPLRPIPYDDLKRLGVTPPPEGRYMPRFQVPSPPRRETDSVLREEGSTKNDSTDKDGYSQRNSSIDEDDWSHTRGSNDYRGGPSHKGSYEKMKHESRRASNDRDDYSSHMRFSEKEDYYQRRSAEKEDLYQRSSSDKDRSCRRDSNDRDDRSRKRHKSHR
BLAST of Lsi05G013490.1 vs. Swiss-Prot
Match: U1135_ARATH (U11/U12 small nuclear ribonucleoprotein 35 kDa protein OS=Arabidopsis thaliana GN=SNRNP35 PE=1 SV=1) HSP 1 Score: 320.5 bits (820), Expect = 2.3e-86 Identity = 191/340 (56.18%), Postives = 228/340 (67.06%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. Swiss-Prot
Match: U1SBP_HUMAN (U11/U12 small nuclear ribonucleoprotein 35 kDa protein OS=Homo sapiens GN=SNRNP35 PE=1 SV=1) HSP 1 Score: 174.5 bits (441), Expect = 2.0e-42 Identity = 98/188 (52.13%), Postives = 121/188 (64.36%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. Swiss-Prot
Match: U1SBP_MOUSE (U11/U12 small nuclear ribonucleoprotein 35 kDa protein OS=Mus musculus GN=Snrnp35 PE=2 SV=1) HSP 1 Score: 166.0 bits (419), Expect = 7.2e-40 Identity = 110/254 (43.31%), Postives = 141/254 (55.51%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. Swiss-Prot
Match: U1SBP_RAT (U11/U12 small nuclear ribonucleoprotein 35 kDa protein OS=Rattus norvegicus GN=Snrnp35 PE=2 SV=1) HSP 1 Score: 165.2 bits (417), Expect = 1.2e-39 Identity = 113/265 (42.64%), Postives = 142/265 (53.58%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. Swiss-Prot
Match: U1SBP_BOVIN (U11/U12 small nuclear ribonucleoprotein 35 kDa protein OS=Bos taurus GN=SNRNP35 PE=2 SV=1) HSP 1 Score: 164.9 bits (416), Expect = 1.6e-39 Identity = 110/253 (43.48%), Postives = 142/253 (56.13%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. TrEMBL
Match: A0A061EQ81_THECC (RNA-binding family protein OS=Theobroma cacao GN=TCM_021554 PE=4 SV=1) HSP 1 Score: 370.2 bits (949), Expect = 2.8e-99 Identity = 208/346 (60.12%), Postives = 255/346 (73.70%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. TrEMBL
Match: D7U1M3_VITVI (Putative uncharacterized protein OS=Vitis vinifera GN=VIT_05s0102g00080 PE=4 SV=1) HSP 1 Score: 363.2 bits (931), Expect = 3.4e-97 Identity = 202/356 (56.74%), Postives = 246/356 (69.10%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. TrEMBL
Match: A0A0B0MVP6_GOSAR (U11/U12 small nuclear ribonucleoprotein 35 kDa OS=Gossypium arboreum GN=F383_29002 PE=4 SV=1) HSP 1 Score: 362.8 bits (930), Expect = 4.5e-97 Identity = 197/341 (57.77%), Postives = 252/341 (73.90%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. TrEMBL
Match: A0A067L2Z0_JATCU (Uncharacterized protein OS=Jatropha curcas GN=JCGZ_23763 PE=4 SV=1) HSP 1 Score: 362.8 bits (930), Expect = 4.5e-97 Identity = 200/341 (58.65%), Postives = 244/341 (71.55%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. TrEMBL
Match: M5XPC0_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa024322mg PE=4 SV=1) HSP 1 Score: 361.3 bits (926), Expect = 1.3e-96 Identity = 204/346 (58.96%), Postives = 240/346 (69.36%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. TAIR10
Match: AT2G43370.1 (AT2G43370.1 RNA-binding (RRM/RBD/RNP motifs) family protein) HSP 1 Score: 320.5 bits (820), Expect = 1.3e-87 Identity = 191/340 (56.18%), Postives = 228/340 (67.06%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. TAIR10
Match: AT3G50670.1 (AT3G50670.1 U1 small nuclear ribonucleoprotein-70K) HSP 1 Score: 88.2 bits (217), Expect = 1.1e-17 Identity = 87/297 (29.29%), Postives = 128/297 (43.10%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. NCBI nr
Match: gi|659077142|ref|XP_008439055.1| (PREDICTED: U11/U12 small nuclear ribonucleoprotein 35 kDa protein [Cucumis melo]) HSP 1 Score: 570.9 bits (1470), Expect = 1.5e-159 Identity = 291/343 (84.84%), Postives = 305/343 (88.92%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. NCBI nr
Match: gi|778679244|ref|XP_004147652.2| (PREDICTED: U11/U12 small nuclear ribonucleoprotein 35 kDa protein [Cucumis sativus]) HSP 1 Score: 564.3 bits (1453), Expect = 1.4e-157 Identity = 288/343 (83.97%), Postives = 303/343 (88.34%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. NCBI nr
Match: gi|1009119161|ref|XP_015876230.1| (PREDICTED: U11/U12 small nuclear ribonucleoprotein 35 kDa protein [Ziziphus jujuba]) HSP 1 Score: 390.2 bits (1001), Expect = 3.7e-105 Identity = 213/344 (61.92%), Postives = 255/344 (74.13%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. NCBI nr
Match: gi|702510612|ref|XP_010040668.1| (PREDICTED: U11/U12 small nuclear ribonucleoprotein 35 kDa protein-like [Eucalyptus grandis]) HSP 1 Score: 371.3 bits (952), Expect = 1.8e-99 Identity = 205/341 (60.12%), Postives = 249/341 (73.02%), Query Frame = 1
BLAST of Lsi05G013490.1 vs. NCBI nr
Match: gi|590627704|ref|XP_007026514.1| (RNA-binding family protein [Theobroma cacao]) HSP 1 Score: 370.2 bits (949), Expect = 4.0e-99 Identity = 208/346 (60.12%), Postives = 255/346 (73.70%), Query Frame = 1
The following BLAST results are available for this feature:
The following terms have been associated with this mRNA:
GO Assignments
This mRNA is annotated with the following GO terms.
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
Analysis Name: InterPro Annotations of Lagenaria siceraria
Date Performed: 2017-09-18
|