Lsi02G008670 (gene) 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.TTTTACTCGACGCGCCTCCTTGCGCGTGGAAGTTAGTAGTTTTGTGAATTTGCTGCTAGCTACCATGGCTTGCATAGGATCCTCCAAAATTGTTTGAATTCAAGCCACCACCGTGGCCTTGTTCTTTTCGCTTACCTTTTCAATTCGCAGATCTGATGCTTCGTCTCATCGCCTTTCTCGTTTGTAACGATGCTCTCTTATTCTCAGGCTTTGAATCTCTGTCTCTACGATCACCACCGTCGTTCAAAGCTCTTCCGATGGCCGCCGCGGTTCGCCAAACCCGTTCATACAAGGAATTTTACCAATTCTTCGACGATGTGTTTCTATGCAGATTTGTATTACGGTGTCAAGGTGAGTTTTGCACTTTTGATCATTTCCTGCTAGTTATAATCTGTTTGCTATTTGATCAATACGTGTTCGGTGAATCAGACGGCTCTATTGAGTTATTAGAGGCAGAAGGGGGAGGGAAATGAGAGGAAATAATATGTGTTAAATTAACCATCAACCAAAAGCTTAGGAACTGAGAAGCGCAATTGCGAATATAAGGAAACAATCAACCAAGAAGCTTAAGCTGATACTGATAGGTTATCGTAAATTTAATTATATCGGGATTTTAACAATAAATAATCAAGTCAAGCAAAACAGAGAGTTTTCTTAAGCCTGATTGCGATTATAAGAAAGCCGTTATTTTCAACATTGGTGTGGGTGTATAGTCGTTTTCTAATGCTTTTGTTGTTTCTAAATGCAAATTCTCATTTCTTACAAAAGAATGTTGTTGTTCTCAACACCAGTTAGTTTGAGCAAAGGTTTGACCGGATACTTAGATTTTTAATTTTGTTTCTTGTGCAGCAAAGAATGTCAAAGGTTCATAAAACTCGATACCATCGCCCACGTAGCGTTACTGAAGTTAGAGCCTTTGATCAGGTATGTTCATCTGTCATCGTGTTTGATTAAACTTCATCAGGATGATTAATTGTTGTGCATGTTGATATGAGGTTCTAGGGTCAACACAATAGCGGTAACTTATAACTTATTGGACATCATTTGTGAAAGCCATGCTGGTTATTATGTTTTTTTAGAGAAGAAAAAAGGAATGAATATAAGATCCTTCCTCCTTGAAACTGCAAATTGTTGGGCGAATAATCAAACTCTCAGATTGAAAATGAGATGAAGGAATCGGTTGATGGATTGTTCTATGCCCGCAATAGAACAACAGTCATTTTATCTTTAGCGCTCTGTTATCTTAGAGGAATTAGATACCTGCTGTTTAAGTAAAGCTCCCTGTGCTGTTCGTCAGAAATAAATATTTTGAAAATGTTGTCCAAGCAGTGCCAGACTAGTCCCACTCGTGTATGGATGGCCAGGCTTCTATAAAGAAAGGAAAATAGGAAAATTGCCAATATTTTGAAAATGTTGGCTTGGCTTCTATATAGTAGTGGTTAATTAAACTCAAATCATATAGAAGTGGTTAGCTTTGGATTGATGACATTGAAAATTTGAGAAGGAAAATGGTTTTTTTTGTAATCGGAAAAGATTTAACAACATTATACTAATATAGTTATATGCACGTAACTTTCTTTAGGATTCATTTGATTTTGGCATACCCTCGCTTGACCACTTCAGTGACAATGAAGGGACTACTACTGGATTTGGGCTTCCATCCAGTGATGGTGAAGACAGCGACCCAGAGATCATACTAAATCCAGTTTCAGATGTTGATTTGCCTACTGTGTCAGTGCAACACAATGATGCGTTGACAGTGACTGCTCATCGGATGGCAATGCTTAGTAGAGGACGTCATAAACACAGGTGATGAATTATTAGTTGTTTACTTTGATGGAAATGGTTTGAGAGATTTACTCTTCATGTATTTGTTTATACTTTTATTAGTTTATAATTAATGAAAAAACAGCGAAACATGCTCATTTGTGAAATTCTCCTTTCTAGTACACTCCATTTCAACTACTGATCTTATTTTCCTACATGAGCAATGAATTAGTTTGCTATTCATTTGTCTTTAATTCTAGGTGCTTGACAAAGTAGTTAAGGGTTTTTATTTAAGTCCCATAATTTTGTCTTTAATTCAAGGAGCTTTTTTTATCTTGTCTTATCCATCGAGTGTCAAGTTGCTCCTCTGGTGTCATAATCGCAATCTACATGTAATTGCTAATTAAGACTAATTGTTGTAGGACAATATAATCACTTTGTGCTTTCTCCGTCGGCTTTGGTTGTTCTTTTTGGTTTTGGTTGGTCGGTTATCAGTATAAGACATCACTAAATAGTTGTTTTCTTCTTTGTTCTTTTATCTATTGTTCTTATAACAATTATTTCACTTTTGATGATTTAACATTATTTCCTTCAAATTTTGATTCTCTTTCTTGGGTCTAAATCATAATGGCCATCTATCAATTGCCAATTGCCATAAGGTATCCAAAAAACCATATACTGTTGATATCTTAAGGACTTCAAGGCTTCAACTAAGGAATAATTTTTAAGTATGCATATATACATCTTGTGATCCATTGCATTAGGAGTGTGCAAGTGTGTTGGATGATTAAGGTGGTCAGATGCTTCAATTTGATAAAAAAATTAAATAGTATGGACTTGACCCTCCTTATGGATTAGGTGATAGATTCTAGCTTTTCCAGTTCCTCGGGATGCTTGAAATTGGTTGTTGGAAAAACCTTGGAGGTTTGCATGCAAATCTGTCTGATTATTGGTTGCCAAGAATGAGATTATCCCCCAAATTTTGCAATATGTTGTGGAAGGCCTACGATTGGAAAAGGTCAAAATTCTGATCTAGATTCACTCTTGGGGTTGCAGTACTTATGAAGTTAAAGAGAATAATGCCTGACCTATATCTTTAATACTTTATATGTTTGGTTGTATAATGTTTTAGCTGTTTTTAGCATCTATTCTATTTCTCTGTGCTCACTCTCCTATTTCAGTTTATTCGCACGATTTATCAATAATTTCTATCTAAATGATTACAATCTGTGGATAGCATATTTTGTGAATAACATGCTCGTTTTCTGGTTTGACCGTGGTCTTATTGTGGTTGTGTTCAGGATCAGGCACGGACTTTTTACAAATACGGGGTTGATAGCTTTCTTGATGATCCTTCTTCTCTATGTGGACTGGTGTGCATGGCGAACTGTTCGACTTCCTTTAGGACCATTTCACATGACTGGCCCTTTTTTGATATCGGCCTGTTTAGCTTCATGTGCAGGCTATATTTGTGTTCCACTACTCTATCAGCTCAAGGCTTACCATATTACGAGGCAAGAAAGACCTGTTAGACACGCATTAAAGAGAAAGACGCCTACTATGGGTGGATTGTTTTTTGTGCCAGTTGGTATAGCTGTTGCTAAACACTTCGCTGGTTTTTCTTCCGCTGAAGTTTCTGGAGCATCAGTGGCAACTTTAGCATTTTTTGCTATTGGACTGGTAGATGATATCTTAAGCCTAATCAAGAGTCACAAGTATGGTTTGTCTGCTTCGATCAAAATTTTGTTGCAGGTGAGACTTGTAACCTCCCTGAAACTATGTGGGTTTTTACAGCCTGAATAAGTTCTCTTTTGTTGTTATTTTACAGGTAGCTGTTGGAATCTGGTTTTCTTTTTGGCTTCAAGATGCTAGTATATCATCTCCTTACAGCATGTATACTTTCTTGTATTAATCTGACCACCATTTTCTGATGGTAACTCACATATCTATACCTTTAAGAGAAAATAACTCGGTGTATAAAAAATGTACCTGATCTTGGAAAATGACCAGAAAAATTTGCATTTTCGAGGAACCAATCCAGAGTAGAGACACATACACGTACTGATGTTAATAGTCATTATCAAATAAAGCATATGTTATGTGGATGTAGCGTGTAGAATATCTTAAAATGGAAGCCTTTCAACTGAAGAGTCTTCAGGCAATATTAACTACCTAATAAATGGTCATGGAACAATAGATTAGAGAAGAACTGTAATTGTTTAGTTTTGTAGTTAACTTTGTTTAATTTGGCATTCTCCGTTCTACCAAAACAGAATGTGGCACTTTTAGTGAACAAAACCTTTGATTTCAAATGCAGGAAAATGTTGATTCCTATGCCTGCACCTCTTGGCCTTGTATTCCTTGGAAAATGCTATATGTGGTTGACATCATTTTGTTTCGTCTCCATGGGAAATGGAATAAATCAGACGGATGGTCTTGATGGACTAGCTGGCGGGACTGCGGCCTTGGCTTTCATTGGGATGGCTATTGCGGTGCTTCCAATATCTTCTGGTTAGTACTACAGTCTTGAGCTCTTTTTCGTTTTTCGCTTTTCTTTTCTTCATTCTTTCTCTCCTTTTCTTTCTTTCTTTCCTCGTTTCTTTTTCTTTTTTGGTGGAAAGAAACTATATTTTACATGATGAGATGTTTTCAACATTATTTGTGTATTTGGGACATAGAATGCTGTGATAAAATTATGAAAATTGAAAATTAATTGAATCTTCCTTGCATCTTATTTGACCACAATATTATGCTAGGAGTTTATTAGCGTGCATGAGTGAGCGAGAGAGATTAGTTATGAGTAAAAAAATTCTGCAACTGGTAAATGGATATTCTTCGACTTTTTTTTCTTTTTCTTTTTTAAGCTGGAGAGAGAGACTAGCTATAAGTGCACGATTCTGTTATATTATAAACTTATGCAGTCTAGTAATATTTTCCAACATCGTTTTTAAGCAAGAAACTGAATTTAAGCTTGCAATCGGTCCTAGACATTCATCATTTTGCAATATGACTGAATACTGATGTATGGAAATTTCCAACCAGACCTTTCCATATTTGGAGCATCAATGTCTGGAGCCTGTGTTGGTTTTCTTTTGCACAACCGTTTTAAGGCCTCTGTATTTATGGGTGATACTGGATCCTTTGCTCTCGGTGGAGCATTAGCTGCAATGGCTGCCTGCAGTGGAATGTTTCTACCACTGTTCATTTCTTCACTAGTTTTTGTATTAGAAACATCATCCGTTATCTTGCAGGTATGGTTCTTATTCTAACTTTTTGTTCCATTTTCTATTCTGTATGCTTGTTCGAAAAGATAAATAAGCTATTCTTTTCCTTAAATAAGAAAGAAAAGTTTTCATTGGCAACATATGAAAAGTAGACAAAAGGGAGAACAAGAAAATCACACCCGTAGGCCAATGAGCTGACAGAAAACTGCTACAAGAAAGATCATCAAGGGGAGTGTTAATTCAATAAATCATTGGTGAGGCTGCCACACAAATAAGCCAGAAATTTATTTAGCCCCCCTCCCACAATTTTTCTATTATTTCGCTCTAACCATACGAAGTTCTACTTTTACCAATTCTTCCTCTTTCTGATCTTTTTTCTTGTCCCGAATTCTGAAATGAGTCACTATAGGGAAACTGAGCTGTTTTGTGAATGACAATACACGAGTACAAAGAATAGCAGTTAAGAGTTCAGATTCTATATCAAAATCATACAAACATAAATCTAATTTACTCGTATAAGCTATTAAGTCGCTGTTTGTTATACACACACATATATTTATTTGTGCCAAGAACTGTATTGGCCCAACAAGCGCACTGTTCCTGGAAACTTACATTTGACATCTAATAGTACTTAATTTTAGGCAGTGTACTTCAAGATGACAAAAAAGTTTCAGGGAGCTGGGCGTCGCATTTTTCAAATGGTGCCATTTCATCATCACCTGGAGTTATGTGGCATCAAAGAACCATTCATTGTTGCTGGGGCCTATACTGTATCGTCCATATTGGCACTGGTTGCAGGTTATGTTGGCCTTATTTCAGCATAGTTGTCTCCCTCTCTTTCTCGACAACATGTGGAGTGGAAGAACCGAACCTCAATTCTTCGTCGAGGGCGTATGTCTTAACCAGTTGAACATCGAACGGTGCTATTAACACCCAATTTTGTAGTTAGGCTACAAGATGTTTCCTTTATGGTTAAATTGCAATTTTGGTCCTTTTGTAGTCAGTAGAAAGTTACAATTTAGTCCGTATGATTTATAATTAGAATGTAGTCTCTATGGATTGATAAAATTCTCATAAATAGTCACTACAATAGGAATTACTTATGAGAATTTGATCAAACTATAAGGACTATTTATGAGTTCTCATGAAACTATCGGGACTTAATTTTAACTTTAAAACCATAAGGACTAAATTATAACTTTCTTCAAATTGTGAAGACCAAATTTGTAATTTAACATTTCCTTTATTTATTTGTTTTTTGGGGTTGCTGACATATATTTAAAGATAATAGGATAGTTTTGTCAATGTCTGATAAGTATTGCTGAAATTGCTTGATTAAGAGAATGTTCAAATTATATGCACATTTTTTTAAAATAAGTGAAATCGTTTGCTTAACAGGAGTTGGGTTATATGTATGTATGTATATCTGCAATATTTGTTGAATAGATTCATTTGATTTTAA TTTTACTCGACGCGCCTCCTTGCGCGTGGAAGTTAGTAGTTTTGTGAATTTGCTGCTAGCTACCATGGCTTGCATAGGATCCTCCAAAATTGTTTGAATTCAAGCCACCACCGTGGCCTTGTTCTTTTCGCTTACCTTTTCAATTCGCAGATCTGATGCTTCGTCTCATCGCCTTTCTCGTTTGTAACGATGCTCTCTTATTCTCAGGCTTTGAATCTCTGTCTCTACGATCACCACCGTCGTTCAAAGCTCTTCCGATGGCCGCCGCGGTTCGCCAAACCCGTTCATACAAGGAATTTTACCAATTCTTCGACGATGTGTTTCTATGCAGATTTGTATTACGGTGTCAAGCAAAGAATGTCAAAGGTTCATAAAACTCGATACCATCGCCCACGTAGCGTTACTGAAGTTAGAGCCTTTGATCAGGATTCATTTGATTTTGGCATACCCTCGCTTGACCACTTCAGTGACAATGAAGGGACTACTACTGGATTTGGGCTTCCATCCAGTGATGGTGAAGACAGCGACCCAGAGATCATACTAAATCCAGTTTCAGATGTTGATTTGCCTACTGTGTCAGTGCAACACAATGATGCGTTGACAGTGACTGCTCATCGGATGGCAATGCTTAGTAGAGGACGTCATAAACACAGGATCAGGCACGGACTTTTTACAAATACGGGGTTGATAGCTTTCTTGATGATCCTTCTTCTCTATGTGGACTGGTGTGCATGGCGAACTGTTCGACTTCCTTTAGGACCATTTCACATGACTGGCCCTTTTTTGATATCGGCCTGTTTAGCTTCATGTGCAGGCTATATTTGTGTTCCACTACTCTATCAGCTCAAGGCTTACCATATTACGAGGCAAGAAAGACCTGTTAGACACGCATTAAAGAGAAAGACGCCTACTATGGGTGGATTGTTTTTTGTGCCAGTTGGTATAGCTGTTGCTAAACACTTCGCTGGTTTTTCTTCCGCTGAAGTTTCTGGAGCATCAGTGGCAACTTTAGCATTTTTTGCTATTGGACTGGTAGATGATATCTTAAGCCTAATCAAGAGTCACAAGTATGGTTTGTCTGCTTCGATCAAAATTTTGTTGCAGGTAGCTGTTGGAATCTGGTTTTCTTTTTGGCTTCAAGATGCTAGTATATCATCTCCTTACAGCATGAAAATGTTGATTCCTATGCCTGCACCTCTTGGCCTTGTATTCCTTGGAAAATGCTATATGTGGTTGACATCATTTTGTTTCGTCTCCATGGGAAATGGAATAAATCAGACGGATGGTCTTGATGGACTAGCTGGCGGGACTGCGGCCTTGGCTTTCATTGGGATGGCTATTGCGGTGCTTCCAATATCTTCTGCGTGCATGAGTGAGCGAGAGAGATTAGTTATGAGTAAAAAAATTCTGCAACTGCTGGAGAGAGAGACTAGCTATAAGTGCACGATTCTGTTATATTATAAACTTATGCAGTCTAGTAATATTTTCCAACATCACCTTTCCATATTTGGAGCATCAATGTCTGGAGCCTGTGTTGGTTTTCTTTTGCACAACCGTTTTAAGGCCTCTGTATTTATGGGTGATACTGGATCCTTTGCTCTCGGTGGAGCATTAGCTGCAATGGCTGCCTGCAGTGGAATGTTTCTACCACTGTTCATTTCTTCACTAGTTTTTGTATTAGAAACATCATCCGTTATCTTGCAGGCAGTGTACTTCAAGATGACAAAAAAGTTTCAGGGAGCTGGGCGTCGCATTTTTCAAATGGTGCCATTTCATCATCACCTGGAGTTATGTGGCATCAAAGAACCATTCATTGTTGCTGGGGCCTATACTGTATCGTCCATATTGGCACTGGTTGCAGGTTATGTTGGCCTTATTTCAGCATAGTTGTCTCCCTCTCTTTCTCGACAACATGTGGAGTGGAAGAACCGAACCTCAATTCTTCGTCGAGGGCGTATGTCTTAACCAGTTGAACATCGAACGGTGCTATTAACACCCAATTTTGTAGTTAGGCTACAAGATGTTTCCTTTATGGTTAAATTGCAATTTTGGTCCTTTTGTAGTCAGTAGAAAGTTACAATTTAGTCCGTATGATTTATAATTAGAATGTAGTCTCTATGGATTGATAAAATTCTCATAAATAGTCACTACAATAGGAATTACTTATGAGAATTTGATCAAACTATAAGGACTATTTATGAGTTCTCATGAAACTATCGGGACTTAATTTTAACTTTAAAACCATAAGGACTAAATTATAACTTTCTTCAAATTGTGAAGACCAAATTTGTAATTTAACATTTCCTTTATTTATTTGTTTTTTGGGGTTGCTGACATATATTTAAAGATAATAGGATAGTTTTGTCAATGTCTGATAAGTATTGCTGAAATTGCTTGATTAAGAGAATGTTCAAATTATATGCACATTTTTTTAAAATAAGTGAAATCGTTTGCTTAACAGGAGTTGGGTTATATGTATGTATGTATATCTGCAATATTTGTTGAATAGATTCATTTGATTTTAA ATGCTCTCTTATTCTCAGGCTTTGAATCTCTGTCTCTACGATCACCACCGTCGTTCAAAGCTCTTCCGATGGCCGCCGCGGTTCGCCAAACCCGTTCATACAAGGAATTTTACCAATTCTTCGACGATGTGTTTCTATGCAGATTTGTATTACGGTGTCAAGCAAAGAATGTCAAAGGTTCATAAAACTCGATACCATCGCCCACGTAGCGTTACTGAAGTTAGAGCCTTTGATCAGGATTCATTTGATTTTGGCATACCCTCGCTTGACCACTTCAGTGACAATGAAGGGACTACTACTGGATTTGGGCTTCCATCCAGTGATGGTGAAGACAGCGACCCAGAGATCATACTAAATCCAGTTTCAGATGTTGATTTGCCTACTGTGTCAGTGCAACACAATGATGCGTTGACAGTGACTGCTCATCGGATGGCAATGCTTAGTAGAGGACGTCATAAACACAGGATCAGGCACGGACTTTTTACAAATACGGGGTTGATAGCTTTCTTGATGATCCTTCTTCTCTATGTGGACTGGTGTGCATGGCGAACTGTTCGACTTCCTTTAGGACCATTTCACATGACTGGCCCTTTTTTGATATCGGCCTGTTTAGCTTCATGTGCAGGCTATATTTGTGTTCCACTACTCTATCAGCTCAAGGCTTACCATATTACGAGGCAAGAAAGACCTGTTAGACACGCATTAAAGAGAAAGACGCCTACTATGGGTGGATTGTTTTTTGTGCCAGTTGGTATAGCTGTTGCTAAACACTTCGCTGGTTTTTCTTCCGCTGAAGTTTCTGGAGCATCAGTGGCAACTTTAGCATTTTTTGCTATTGGACTGGTAGATGATATCTTAAGCCTAATCAAGAGTCACAAGTATGGTTTGTCTGCTTCGATCAAAATTTTGTTGCAGGTAGCTGTTGGAATCTGGTTTTCTTTTTGGCTTCAAGATGCTAGTATATCATCTCCTTACAGCATGAAAATGTTGATTCCTATGCCTGCACCTCTTGGCCTTGTATTCCTTGGAAAATGCTATATGTGGTTGACATCATTTTGTTTCGTCTCCATGGGAAATGGAATAAATCAGACGGATGGTCTTGATGGACTAGCTGGCGGGACTGCGGCCTTGGCTTTCATTGGGATGGCTATTGCGGTGCTTCCAATATCTTCTGCGTGCATGAGTGAGCGAGAGAGATTAGTTATGAGTAAAAAAATTCTGCAACTGCTGGAGAGAGAGACTAGCTATAAGTGCACGATTCTGTTATATTATAAACTTATGCAGTCTAGTAATATTTTCCAACATCACCTTTCCATATTTGGAGCATCAATGTCTGGAGCCTGTGTTGGTTTTCTTTTGCACAACCGTTTTAAGGCCTCTGTATTTATGGGTGATACTGGATCCTTTGCTCTCGGTGGAGCATTAGCTGCAATGGCTGCCTGCAGTGGAATGTTTCTACCACTGTTCATTTCTTCACTAGTTTTTGTATTAGAAACATCATCCGTTATCTTGCAGGCAGTGTACTTCAAGATGACAAAAAAGTTTCAGGGAGCTGGGCGTCGCATTTTTCAAATGGTGCCATTTCATCATCACCTGGAGTTATGTGGCATCAAAGAACCATTCATTGTTGCTGGGGCCTATACTGTATCGTCCATATTGGCACTGGTTGCAGGTTATGTTGGCCTTATTTCAGCATAG MLSYSQALNLCLYDHHRRSKLFRWPPRFAKPVHTRNFTNSSTMCFYADLYYGVKQRMSKVHKTRYHRPRSVTEVRAFDQDSFDFGIPSLDHFSDNEGTTTGFGLPSSDGEDSDPEIILNPVSDVDLPTVSVQHNDALTVTAHRMAMLSRGRHKHRIRHGLFTNTGLIAFLMILLLYVDWCAWRTVRLPLGPFHMTGPFLISACLASCAGYICVPLLYQLKAYHITRQERPVRHALKRKTPTMGGLFFVPVGIAVAKHFAGFSSAEVSGASVATLAFFAIGLVDDILSLIKSHKYGLSASIKILLQVAVGIWFSFWLQDASISSPYSMKMLIPMPAPLGLVFLGKCYMWLTSFCFVSMGNGINQTDGLDGLAGGTAALAFIGMAIAVLPISSACMSERERLVMSKKILQLLERETSYKCTILLYYKLMQSSNIFQHHLSIFGASMSGACVGFLLHNRFKASVFMGDTGSFALGGALAAMAACSGMFLPLFISSLVFVLETSSVILQAVYFKMTKKFQGAGRRIFQMVPFHHHLELCGIKEPFIVAGAYTVSSILALVAGYVGLISA
BLAST of Lsi02G008670 vs. Swiss-Prot
Match: MRAY_ARATH (Phospho-N-acetylmuramoyl-pentapeptide-transferase homolog OS=Arabidopsis thaliana GN=ATTRANS 11 PE=2 SV=3) HSP 1 Score: 308.5 bits (789), Expect = 1.5e-82 Identity = 211/496 (42.54%), Postives = 278/496 (56.05%), Query Frame = 1
BLAST of Lsi02G008670 vs. Swiss-Prot
Match: MRAY_THEEB (Phospho-N-acetylmuramoyl-pentapeptide-transferase OS=Thermosynechococcus elongatus (strain BP-1) GN=mraY PE=3 SV=1) HSP 1 Score: 161.0 bits (406), Expect = 3.8e-38 Identity = 129/368 (35.05%), Postives = 178/368 (48.37%), Query Frame = 1
BLAST of Lsi02G008670 vs. Swiss-Prot
Match: MRAY_ANAVT (Phospho-N-acetylmuramoyl-pentapeptide-transferase OS=Anabaena variabilis (strain ATCC 29413 / PCC 7937) GN=mraY PE=3 SV=1) HSP 1 Score: 156.0 bits (393), Expect = 1.2e-36 Identity = 131/405 (32.35%), Postives = 187/405 (46.17%), Query Frame = 1
BLAST of Lsi02G008670 vs. Swiss-Prot
Match: MRAY_NOSS1 (Phospho-N-acetylmuramoyl-pentapeptide-transferase OS=Nostoc sp. (strain PCC 7120 / UTEX 2576) GN=mraY PE=3 SV=1) HSP 1 Score: 155.2 bits (391), Expect = 2.1e-36 Identity = 131/405 (32.35%), Postives = 186/405 (45.93%), Query Frame = 1
BLAST of Lsi02G008670 vs. Swiss-Prot
Match: MRAY_SYNP2 (Phospho-N-acetylmuramoyl-pentapeptide-transferase OS=Synechococcus sp. (strain ATCC 27264 / PCC 7002 / PR-6) GN=mraY PE=3 SV=1) HSP 1 Score: 152.5 bits (384), Expect = 1.4e-35 Identity = 130/364 (35.71%), Postives = 176/364 (48.35%), Query Frame = 1
BLAST of Lsi02G008670 vs. TrEMBL
Match: A0A0A0LX31_CUCSA (Uncharacterized protein OS=Cucumis sativus GN=Csa_1G448950 PE=4 SV=1) HSP 1 Score: 876.3 bits (2263), Expect = 2.0e-251 Identity = 465/565 (82.30%), Postives = 476/565 (84.25%), Query Frame = 1
BLAST of Lsi02G008670 vs. TrEMBL
Match: A0A067GHL3_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g010483mg PE=3 SV=1) HSP 1 Score: 523.1 bits (1346), Expect = 4.3e-145 Identity = 291/514 (56.61%), Postives = 356/514 (69.26%), Query Frame = 1
BLAST of Lsi02G008670 vs. TrEMBL
Match: B9T2R7_RICCO (Phospho-n-acetylmuramoyl-pentapeptide-transferase, putative OS=Ricinus communis GN=RCOM_0593760 PE=4 SV=1) HSP 1 Score: 520.4 bits (1339), Expect = 2.8e-144 Identity = 290/539 (53.80%), Postives = 361/539 (66.98%), Query Frame = 1
BLAST of Lsi02G008670 vs. TrEMBL
Match: A0A067GEV9_CITSI (Uncharacterized protein OS=Citrus sinensis GN=CISIN_1g010483mg PE=3 SV=1) HSP 1 Score: 518.5 bits (1334), Expect = 1.0e-143 Identity = 283/483 (58.59%), Postives = 343/483 (71.01%), Query Frame = 1
BLAST of Lsi02G008670 vs. TrEMBL
Match: M5WI37_PRUPE (Uncharacterized protein OS=Prunus persica GN=PRUPE_ppa006314mg PE=3 SV=1) HSP 1 Score: 508.8 bits (1309), Expect = 8.3e-141 Identity = 277/460 (60.22%), Postives = 331/460 (71.96%), Query Frame = 1
BLAST of Lsi02G008670 vs. TAIR10
Match: AT4G18270.1 (AT4G18270.1 translocase 11) HSP 1 Score: 308.5 bits (789), Expect = 8.3e-84 Identity = 211/496 (42.54%), Postives = 278/496 (56.05%), Query Frame = 1
BLAST of Lsi02G008670 vs. NCBI nr
Match: gi|659068360|ref|XP_008444042.1| (PREDICTED: phospho-N-acetylmuramoyl-pentapeptide-transferase homolog isoform X1 [Cucumis melo]) HSP 1 Score: 880.9 bits (2275), Expect = 1.2e-252 Identity = 467/565 (82.65%), Postives = 478/565 (84.60%), Query Frame = 1
BLAST of Lsi02G008670 vs. NCBI nr
Match: gi|449459352|ref|XP_004147410.1| (PREDICTED: phospho-N-acetylmuramoyl-pentapeptide-transferase homolog isoform X1 [Cucumis sativus]) HSP 1 Score: 876.3 bits (2263), Expect = 2.8e-251 Identity = 465/565 (82.30%), Postives = 476/565 (84.25%), Query Frame = 1
BLAST of Lsi02G008670 vs. NCBI nr
Match: gi|659068364|ref|XP_008444052.1| (PREDICTED: phospho-N-acetylmuramoyl-pentapeptide-transferase homolog isoform X3 [Cucumis melo]) HSP 1 Score: 775.8 bits (2002), Expect = 5.2e-221 Identity = 414/510 (81.18%), Postives = 424/510 (83.14%), Query Frame = 1
BLAST of Lsi02G008670 vs. NCBI nr
Match: gi|659068362|ref|XP_008444047.1| (PREDICTED: phospho-N-acetylmuramoyl-pentapeptide-transferase homolog isoform X2 [Cucumis melo]) HSP 1 Score: 774.2 bits (1998), Expect = 1.5e-220 Identity = 413/505 (81.78%), Postives = 421/505 (83.37%), Query Frame = 1
BLAST of Lsi02G008670 vs. NCBI nr
Match: gi|659068366|ref|XP_008444056.1| (PREDICTED: phospho-N-acetylmuramoyl-pentapeptide-transferase homolog isoform X4 [Cucumis melo]) HSP 1 Score: 740.3 bits (1910), Expect = 2.4e-210 Identity = 403/513 (78.56%), Postives = 420/513 (81.87%), 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 Lagenaria siceraria
Date Performed: 2017-09-18
The following gene(s) are orthologous to this gene:
The following gene(s) are paralogous to this gene: None The following block(s) are covering this gene: |