Spg037277 (gene) Sponge gourd (cylindrica) v1
Overview
Sequences
The following sequences are available for this feature:
Legend: CDSpolypeptide Hold the cursor over a type above to highlight its positions in the sequence below.ATGCGTGCGGCTCTTGAAGAAGAAGCAAGAAGGCGTGATGAAGAAGAAGCCGCCCAAGCTGGAGAGAGCTCTCGACACGAAGAGTCTCTAACAGGTAAAGTCTCTAAACCTTCTACTAACCCTTCTTCGTTTTGCAGGGACAAGCCTTTCGTTACTTACAGTGCAAGGAAGAAGAGTCCCAAGAAGGTTGCACCTGAGCAGCTGCTTTTTATTGAACCCCTCAAAGTAGCTAGAATGCCTCCGGATGTATTCGAGGACATGATCTGCCAAGCTGTGGCACAAGCCCTCCTTAATGCTGAAGGATATAGGGTTGAGCAAGATGCATTGAGGGAGATCCAGGCTGAAAAAGAGATGGAAAACCAGAGTAGGAGGGAAGAGGATGAATTTGCAAGATAAAGAGACTTTGAAGAAGAAAAAAATTTGAAAGAAAAAAGGAAGAGGAAAGGAAAGAGGCCAAGAGGGCCATTGAAGCTGAAAAAGAAAGAAAGCAAGATGAAGAACTCAAGAGAGCAGTCGTTGAATTGCAACTCATTGAGGAAGAAAAAGAAAGAAGAGAAATTTTGAAAGAAGAAGAGAAAAGAAGAAAAGAGGCTGAAGACTTCCTTTTAGCCTTTGAGCCACTACACAAGGCTCAAAGTGAGGCTGATTTGTTGCAAGGAAGAGAAGAAGAGGCCCTTGAGGGGACAAGTGAAGAGAATAGAGAAAAAAAAAGAAAAAAAAAGAAAGGGAGAATGAAGGACAGAATGCGACCGCATTTGGGTCGCATTCTGAAGAAGGCCAAGAAAAGGCCAATGAAGAACAACCAGCTGATGAGACCTTGGATCCTCCATTTGAGTATGATGTGAGAGGACCTCCACCAGCAGCAGAGAGCACCTCTACGGGATAGAAGAGGGATGAAAAGCTTGAAAACAAGGAGGTCGAGACCTCCAGTGATTGAGAGACAGAATCTGATTCAGATATCAAGGAATTGGATGACGACCAAATTCCTATCTCTGCAGCATTGAGAAAGAAGAGAAGAAGAGAGATTAGGGCCGAGAGGAGAACTAAGAACAAAAATGACTCCATATTTACCAAGAGGCCGAGGACAAGGTCCACGGATGCTTCTCCTGCAGCTCCTCCAACCGTCTCACTTGCCAATCCGAAAGCCAAATCCCCTAAGGCTGCTTCTCCTAAAAATCCATTCCCAAAAGCCTTTAAAGATGTCAATTTTCAGGAACGGATGGAGATCATGAGAAAAAGAGATTTCCTCAATGAGAAGGGATTCTCTAACAGAGTTGGGACACTACCAGAGCTCGTAACCAGAGTTATCTCACAGTACAAGTGGCAAGAGTTTTGTGCTCACCCTCAGGAGGCCATGGTGCCTTTAGTTCGAGAATTTTACGTCGGACTGAGGGAGGAAAGCAAGAGTACGACAGTAGTGAGAGTCAAGATGGTCAGCTTCTCTTTGGTTGACATCAACAGGGTGTACAGAATCAAGGCACCCTTGCATCCAAGAGGGAACGATGCCATTAAGAACCCCTCGACTAAACAAATTAAAGAAGCACTGAAAATGGTGGCCAACAAGGGAGTTCAATGGAAGGAGTCCCAGACTAAGGTGAAGACATTAGTGCCAAGCAACCTCAAGCCAGAATCGGCAGTGTGGCTTCACTTTATAAAGAACAGATTGATGCCAACAGCCCATGATAACACTATTTCAGTAGAGAGAGTCATGCTCCTCTACAGTATTATGAAGGGTTTAGAAATCAACATAGGGAGCATTATCAGTTAGGAAATCCTTTCATGTGGAAGGAAGAAAGCAGGGAAGCTTTTCTTCGGGTCGCTCATTACCCAACTTTATCAGAGGGTGAAAATAGTCACTGGTAAGGATGTGGAGCGTCACTTCTTCAGGCCTACCATCGACCTATCCTTGATCGGGAAGCTTCAACAGAAAAACGCCCAAAGAAAAGACAAAGCTTCCACATCTCAAGCCATTCCTCCATCAGGGATGAATCCGACTTCACCACCTCAACACACTCCTTTTTCAGGGCCCTCACCTGTTGGGCTTTATGCCATAAAACTTGTAGATAGTAAATGAAACAAATTAATAGATCTCAATAAAGCGTTAAATGAAACTTGGATTAGTATGTCGGGACATACGAGGATCAGTGTCCAAGTAACAACCTAAAAGGTCTATATTATAGGGATAAGGCTGGGTTCCTATCCTAATGACACTATGTGATATGGCCCACCTTGTATTCGATACAGATGCAATGATCCAAAGCATCCATGTAGGAGACATGCGGATGGGGGTATCCTATGCAATGAGTTTGCATAAGACCGGACCGCGAAATAGTAACCACTAGATGTAACGTCGTTAACTAGTTTAGGTTTCTATTTCAATAGGATGACGTAGCTAACTCAATCTCAATCCTGAGTCTGTTATGAACCCCTTTCAGGAGGGATTATCCTTAGATTTGTATGGGGTGAGAGTGGTCAGTTCGCCGACTCAATAATCCTACCATTTCAGGGGCAAGACCGAATGAGGGTTGGGAACATAACAGTACAAGATGGAATTCACTCCTTCCCTTATTGTGGTAAGTAGATGTGTGTTCCCTTAAGGGCTAATTCCGGGGCTTGAACAAAGGCACGTCGTCCTCTCCTGGCCCGAGAGGAACTCCTGTTTAGTGGTTGGACCCTAAACAACATGTTCATTAGAGGGATCTGTGGTACTTAAGGAACCAGAGGTAACCTAGGGGTAAAACGGTAATTTGACCCAGTTGGTGTTACGAACACACGTAAAAGATTGACTTACTACTTGTTCGATATCCGTGGACACAGAAATATTCTACAGTGAGAAGAGTGCAGCTGTGGGTCTTTAGTGGAGTGATCCACAGTTAACGAATGTTGACTAACTTGGTTAATGAGTTTAGCCAATTAGTCTCCTATCGTTGGAGCTTCTGATATGTAGGTCCATTAGGTCCCATTGGTAGCTCGTAAAGAGACTTGAGGCAATTAAGTATAAATTGTAAATTGACAGTGTTCAATTTATTTAGGGGAATCATATAATGTATATTGATACATTATAATATAAAGTTTATGAAACTTTATAATATAATTTTTGAATTAATTTCAAAAATTAATTCTTGATAGAAAATATTTGAAATAGTTCAAATGAATTTAATATGAATTTGATTCATATTAATTTTAATTTTAATAAAATCCCTAAGATTAAATATATGATATTTAATTGGGTAATTAATTAATTATGGAATTAATTAATTATTTATTAAAATTAGAGATATTTTCCTATAAGGAAAAGGTCTTGGCCTTTACTATATATGGGACCCCTGGGGTGGTGTGAAAGGCATCCCATTCATTCTCCTACTCTCAGAGAATTCCCCTGAAGGCTCCCTTTAGACTCCCACCAGTCTCCTGCCTCTAGAAGTCTCAGAGTCATACTGGTGTAGCCATAGTGGTGGTGTTCGCAGTAGTTCGTGATTGTTTCACAAGCAGTTGGTGAATTTAATTTGAGTCATCAATGAGAGTAAGTAATTTGTTACTACATATATCAGATTTAGATCTAATATTTTTGTATGCTTAGCTTTAATATAAATTTAGAATAGTTATAATATTATTGCCAATGTATTGGTATTTTAGATTAAACAAAATTAATTACGAATCGGTCCCAATCACGCATCCGCTTTACGAAATTACGAAATTCCAATCCTTCAATTGGTATCAGAGCCGATCGTAGATCTAATTTTGTTTCTCTAAAATTTGCATTGGCTATTGGTGGGATTGATTAATGAATAATGTATGTATGGTTTGCTTTGAACTGTTTATGTTAATTTTATGGCCATAGATTTTACTGTTTTTATGTGATTTGATCATGTAAGGGTCCGGTGTTTTGGGTATTTTATGTAAAATCGAGTCCTATGTAAGTCTGGGTCTAGAATAGTTTTTTATGAGATAAAAATCAGAGAAATCGCGACAAAAATCAAGGCCAAAAGACGAGAAACAGCTACTGTTTTTCTGCCCAGAAAGTGCTCCAGACGCAACAGCGTCGCGACGCTGTCTCGATTTGCGAATGCAGATGGTGCGTCGTCAGCTGAATAGATGGATGTGAGTTAAGATGATAAAGAAATAATAAAGAATAATTCAGCTAACACTTAAGTGCAAGTATACACTGTCGCACATAGTAATAAAAAAACCTTAGAAGTGTTCCAAGGGTATCGATCCCACGAGGACTAAATTGGAAATTCAGATTTGATGAAGAAACTGCTCAAATGATTGCTTTTGAAAAGGTAACTGAAGAAAATAAGTTGATTGATTGGGTTTTTTGAAAAGATAAATAAAACAAGCAAATAAATGATAAAGAATAACAATAATAAACAACCGAGGTATTCAACATGGATTCGTCCCTAAGGTAACAACCATACTCATGCAATATCTAACTTGAGCGTATTCAATGCATTGGGTTAGATTTAACTTCTATTTGGCCCTTGTTCCCAAAAACCGATAGAAGGCTAAGCGAGTACCGTTATGCACATTTCAGTGACTCGACTCCGACAAAGATAAATCACGAATGCAACCTATAACCCTATAGTCGATATAGGGTGCCTTAGGCAGCTTGGCCTATACCGCCGAACAATCTCTTTCGAGCTTTTTCTCCTATATCACCTTTATGAGAACCGATATCGTTTGTCCCTTTCAATATCAAACTCACATAGCATGCAAAGTCTAAGTGATCAAGTTAAACTCACCAAGATTAGAGTGATAATGAATAAAGAATGACATGCATAAAACACAACTTAAGCAAATAATACACTTTCAAGCCATCAAACCATAAGGGAATTCACCACATTGAACCCCTCAACGGGATTTAGCTACTCATGATGGGATAAAAAGCAAATGACCACATTTTCATTGAAATAATGATGTAAAGAATACAAAATAATGAAAAGATTCAAGAGCTGGAAATAAAGGAGATAGCTAAATATTATGGGTTTTTCTGTTTACTCAATCCTTCTAGAGTTCGCTAAGACACTCCACTCTCTCGCTTTTACAAGTGGGAATGGGTGAAACTCTCTACAAACCACAAGGTTTGATGTCTAACTCTCTCAGGTTAGAATTTGGTCATCTAAGAAGGATCTCGGCATCCTTACTCATTGGCGTCGAGCCAGGGTTCTGTCACCACCATTTTCTTCCAAGTGAGTTATGCTTGAATTTGACTTCGAATCCCGAGCTTATATAGTGTAGAAATTGGTTGAGGAGTTGCGAAATAGGTGCTGGAAGGTTTCCCAATCAGTTTCGGGGTCAAAACAACCGGTTAGGTGCAAAGAAGACTCGTCAACAACGACCCGCGGACGACTCGAAACGGCTTCAGATTTTTTCAGAAATGCGGTTGCATTTCATTTTTGCCTTCCCAGAAATGCGATCACATTTCTGGGGAATTCCAGCTTTTCCTCTGTTTTTTTGCACAACAACAAACTAAGTCAAATTTTCTTAAAATCAAGTCTTTTTAATCACAAATGAGTGAAATTTGACAAAAGTGATTCTCAACACCCTAAACACTCAATTAACATATTTTGAGCTCGGAAATAGTAAAATTGACCTAAACACTCAATATTTGACCAAGAAATGAGCTAAATATAAGGGTAAAATAGGTATATTTTTTACCCTTATCATACCCCCAAACTTAACTCATTGTTTGTCCTCAAGCAATTGCCAATCAAAATGTTAGAGATCAACTTTTTCATTGCCAACCAGAACGTGAGAGCTCAATATTAATTTCGAATCAAAATGTTAGAGATCATGTATAGTAATGAACCATGGTACTAGTATCAACTTTTCATTTCAAATCAAGTGACATGGAATCAAGTAAACATGTTTTTCAATATCATTTTCTAAAATGTTTGCCTTTCAGGAGAGGGTTCTACTCTAGTGCCAGTCACAACGTCTGAGTTTCCTAGGCATGAAGATTTCTATTGTTCTTTTTTCAAAGCAAAACTCTCTCTAATCCATCCTAACCAACATGCTTAAACTACCTAACTTCTACTCATAGAGCCTAGTGTAGTCCTTTTAGTTTAAGAAAACAATCTTTAGGAAAACAAAAGCATATATGAATTACTAGACCTTTTCCATCTCCCCTAAACTTATTTGACTTCTGGTGCTCTTTTTATTCAACTTCTTTTCCTCCCAAGAGCATCCTTGCTGTCATCTTTACCTTCGTTCTAGCTTATCGACACTTTGTGGTGAAGATATCTAGCTACGAGCAAACTTCACGAGCTCGGAATGATACTCACTTCCCTAGGTAGACCTTTCATGCAGTGGCAAACCATAGGTGTCATGAATGCCCCTGGTTACTCAGTAAACCCTAGGAAGGAGGAGTAA ATGCGTGCGGCTCTTGAAGAAGAAGCAAGAAGGCGTGATGAAGAAGAAGCCGCCCAAGCTGGAGAGAGCTCTCGACACGAAGAGTCTCTAACAGGTAAAGTCTCTAAACCTTCTACTAACCCTTCTTCGTTTTGCAGGGACAAGCCTTTCGTTACTTACAGTGCAAGGAAGAAGAGTCCCAAGAAGGTTGCACCTGAGCAGCTGCTTTTTATTGAACCCCTCAAAGTAGCTAGAATGCCTCCGGATGTATTCGAGGACATGATCTGCCAAGCTGTGGCACAAGCCCTCCTTAATGCTGAAGGATATAGGGTTGAGCAAGATGCATTGAGGGAGATCCAGGCTGAAAAAGAGATGGAAAACCAGAAGGAAAGGAAAGAGGCCAAGAGGGCCATTGAAGCTGAAAAAGAAAGAAAGCAAGATGAAGAACTCAAGAGAGCAGTCGTTGAATTGCAACTCATTGAGGAAGAAAAAGAAAGAAGAGAAATTTTGAAAGAAGAAGAGAAAAGAAGAAAAGAGGCTGAAGACTTCCTTTTAGCCTTTGAGCCACTACACAAGGCTCAAAGTGAGGCTGATTTGTTGCAAGGAAGAGAAGAAGAGGCCCTTGAGGGGACAAATATCAAGGAATTGGATGACGACCAAATTCCTATCTCTGCAGCATTGAGAAAGAAGAGAAGAAGAGAGATTAGGGCCGAGAGGAGAACTAAGAACAAAAATGACTCCATATTTACCAAGAGGCCGAGGACAAGGTCCACGGATGCTTCTCCTGCAGCTCCTCCAACCGTCTCACTTGCCAATCCGAAAGCCAAATCCCCTAAGGCTGCTTCTCCTAAAAATCCATTCCCAAAAGCCTTTAAAGATGTCAATTTTCAGGAACGGATGGAGATCATGAGAAAAAGAGATTTCCTCAATGAGAAGGGATTCTCTAACAGAGTTGGGACACTACCAGAGCTCGTAACCAGAGTTATCTCACAGTACAAGTGGCAAGAGTTTTGTGCTCACCCTCAGGAGGCCATGGTGCCTTTAGTTCGAGAATTTTACGTCGGACTGAGGGAGGAAAGCAAGAGTACGACAGTAGTGAGAGTCAAGATGGTCAGCTTCTCTTTGGTTGACATCAACAGGGTGTACAGAATCAAGGCACCCTTGCATCCAAGAGGGAACGATGCCATTAAGAACCCCTCGACTAAACAAATTAAAGAAGCACTGAAAATGGTGGCCAACAAGGGAGTTCAATGGAAGGAGTCCCAGACTAAGAGGGTGAAAATAGTCACTGGTAAGGATGTGGAGCGTCACTTCTTCAGGCCTACCATCGACCTATCCTTGATCGGGAAGCTTCAACAGAAAAACGCCCAAAGAAAAGACAAAGCTTCCACATCTCAAGCCATTCCTCCATCAGGGATGAATCCGACTTCACCACCTCAACACACTCCTTTTTCAGGGCCCTCACCTGTTGGGCTTTATGCCATAAAACTTGTAGATAGAGGGATTATCCTTAGATTTGTATGGGGTGAGAGTGGTCAGTTCGCCGACTCAATAATCCTACCATTTCAGGGGCAAGACCGAATGAGGGTTGGGAACATAACAGTACAAGATGGAATTCACTCCTTCCCTTATTGTGAAAGTGCTCCAGACGCAACAGCGTCGCGACGCTGTCTCGATTTGCGAATGCAGATGGTGCGTCGTCAGCTGAATAGATGGATATTTGATGAAGAAACTGCTCAAATGATTGCTTTTGAAAAGAGTTCGCTAAGACACTCCACTCTCTCGCTTTTACAAGTGGGAATGGGTGAAACTCTCTACAAACCACAAGGTTTGATGTCTAACTCTCTCAGGTTAGAATTTGGTCATCTAAGAAGGATCTCGGCATCCTTACTCATTGGCGTCGAGCCAGGGTTCTGTCACCACCATTTTCTTCCAAGTGCTGGAAGGTTTCCCAATCAGTTTCGGGGTCAAAACAACCGGTTAGGTGCAAAGAAGACTCGTCAACAACGACCCGCGGACGACTCGAAACGGCTTCAGATTTTTTCAGAAATGCGGTTGCATTTCATTTTTGCCTTCCCAGAAATGCGATCACATTTCTGGGGAATTCCAGCTTTTCCTCTATATCTAGCTACGAGCAAACTTCACGAGCTCGGAATGATACTCACTTCCCTAGGTAGACCTTTCATGCAGTGGCAAACCATAGGTGTCATGAATGCCCCTGGTTACTCAGTAAACCCTAGGAAGGAGGAGTAA ATGCGTGCGGCTCTTGAAGAAGAAGCAAGAAGGCGTGATGAAGAAGAAGCCGCCCAAGCTGGAGAGAGCTCTCGACACGAAGAGTCTCTAACAGGTAAAGTCTCTAAACCTTCTACTAACCCTTCTTCGTTTTGCAGGGACAAGCCTTTCGTTACTTACAGTGCAAGGAAGAAGAGTCCCAAGAAGGTTGCACCTGAGCAGCTGCTTTTTATTGAACCCCTCAAAGTAGCTAGAATGCCTCCGGATGTATTCGAGGACATGATCTGCCAAGCTGTGGCACAAGCCCTCCTTAATGCTGAAGGATATAGGGTTGAGCAAGATGCATTGAGGGAGATCCAGGCTGAAAAAGAGATGGAAAACCAGAAGGAAAGGAAAGAGGCCAAGAGGGCCATTGAAGCTGAAAAAGAAAGAAAGCAAGATGAAGAACTCAAGAGAGCAGTCGTTGAATTGCAACTCATTGAGGAAGAAAAAGAAAGAAGAGAAATTTTGAAAGAAGAAGAGAAAAGAAGAAAAGAGGCTGAAGACTTCCTTTTAGCCTTTGAGCCACTACACAAGGCTCAAAGTGAGGCTGATTTGTTGCAAGGAAGAGAAGAAGAGGCCCTTGAGGGGACAAATATCAAGGAATTGGATGACGACCAAATTCCTATCTCTGCAGCATTGAGAAAGAAGAGAAGAAGAGAGATTAGGGCCGAGAGGAGAACTAAGAACAAAAATGACTCCATATTTACCAAGAGGCCGAGGACAAGGTCCACGGATGCTTCTCCTGCAGCTCCTCCAACCGTCTCACTTGCCAATCCGAAAGCCAAATCCCCTAAGGCTGCTTCTCCTAAAAATCCATTCCCAAAAGCCTTTAAAGATGTCAATTTTCAGGAACGGATGGAGATCATGAGAAAAAGAGATTTCCTCAATGAGAAGGGATTCTCTAACAGAGTTGGGACACTACCAGAGCTCGTAACCAGAGTTATCTCACAGTACAAGTGGCAAGAGTTTTGTGCTCACCCTCAGGAGGCCATGGTGCCTTTAGTTCGAGAATTTTACGTCGGACTGAGGGAGGAAAGCAAGAGTACGACAGTAGTGAGAGTCAAGATGGTCAGCTTCTCTTTGGTTGACATCAACAGGGTGTACAGAATCAAGGCACCCTTGCATCCAAGAGGGAACGATGCCATTAAGAACCCCTCGACTAAACAAATTAAAGAAGCACTGAAAATGGTGGCCAACAAGGGAGTTCAATGGAAGGAGTCCCAGACTAAGAGGGTGAAAATAGTCACTGGTAAGGATGTGGAGCGTCACTTCTTCAGGCCTACCATCGACCTATCCTTGATCGGGAAGCTTCAACAGAAAAACGCCCAAAGAAAAGACAAAGCTTCCACATCTCAAGCCATTCCTCCATCAGGGATGAATCCGACTTCACCACCTCAACACACTCCTTTTTCAGGGCCCTCACCTGTTGGGCTTTATGCCATAAAACTTGTAGATAGAGGGATTATCCTTAGATTTGTATGGGGTGAGAGTGGTCAGTTCGCCGACTCAATAATCCTACCATTTCAGGGGCAAGACCGAATGAGGGTTGGGAACATAACAGTACAAGATGGAATTCACTCCTTCCCTTATTGTGAAAGTGCTCCAGACGCAACAGCGTCGCGACGCTGTCTCGATTTGCGAATGCAGATGGTGCGTCGTCAGCTGAATAGATGGATATTTGATGAAGAAACTGCTCAAATGATTGCTTTTGAAAAGAGTTCGCTAAGACACTCCACTCTCTCGCTTTTACAAGTGGGAATGGGTGAAACTCTCTACAAACCACAAGGTTTGATGTCTAACTCTCTCAGGTTAGAATTTGGTCATCTAAGAAGGATCTCGGCATCCTTACTCATTGGCGTCGAGCCAGGGTTCTGTCACCACCATTTTCTTCCAAGTGCTGGAAGGTTTCCCAATCAGTTTCGGGGTCAAAACAACCGGTTAGGTGCAAAGAAGACTCGTCAACAACGACCCGCGGACGACTCGAAACGGCTTCAGATTTTTTCAGAAATGCGGTTGCATTTCATTTTTGCCTTCCCAGAAATGCGATCACATTTCTGGGGAATTCCAGCTTTTCCTCTATATCTAGCTACGAGCAAACTTCACGAGCTCGGAATGATACTCACTTCCCTAGGTAGACCTTTCATGCAGTGGCAAACCATAGGTGTCATGAATGCCCCTGGTTACTCAGTAAACCCTAGGAAGGAGGAGTAA MRAALEEEARRRDEEEAAQAGESSRHEESLTGKVSKPSTNPSSFCRDKPFVTYSARKKSPKKVAPEQLLFIEPLKVARMPPDVFEDMICQAVAQALLNAEGYRVEQDALREIQAEKEMENQKERKEAKRAIEAEKERKQDEELKRAVVELQLIEEEKERREILKEEEKRRKEAEDFLLAFEPLHKAQSEADLLQGREEEALEGTNIKELDDDQIPISAALRKKRRREIRAERRTKNKNDSIFTKRPRTRSTDASPAAPPTVSLANPKAKSPKAASPKNPFPKAFKDVNFQERMEIMRKRDFLNEKGFSNRVGTLPELVTRVISQYKWQEFCAHPQEAMVPLVREFYVGLREESKSTTVVRVKMVSFSLVDINRVYRIKAPLHPRGNDAIKNPSTKQIKEALKMVANKGVQWKESQTKRVKIVTGKDVERHFFRPTIDLSLIGKLQQKNAQRKDKASTSQAIPPSGMNPTSPPQHTPFSGPSPVGLYAIKLVDRGIILRFVWGESGQFADSIILPFQGQDRMRVGNITVQDGIHSFPYCESAPDATASRRCLDLRMQMVRRQLNRWIFDEETAQMIAFEKSSLRHSTLSLLQVGMGETLYKPQGLMSNSLRLEFGHLRRISASLLIGVEPGFCHHHFLPSAGRFPNQFRGQNNRLGAKKTRQQRPADDSKRLQIFSEMRLHFIFAFPEMRSHFWGIPAFPLYLATSKLHELGMILTSLGRPFMQWQTIGVMNAPGYSVNPRKEE Homology
BLAST of Spg037277 vs. NCBI nr
Match: PON46472.1 (hypothetical protein PanWU01x14_251180, partial [Parasponia andersonii]) HSP 1 Score: 79.7 bits (195), Expect = 1.2e-10 Identity = 51/143 (35.66%), Postives = 77/143 (53.85%), Query Frame = 0
BLAST of Spg037277 vs. NCBI nr
Match: PON35554.1 (hypothetical protein PanWU01x14_335450, partial [Parasponia andersonii]) HSP 1 Score: 77.8 bits (190), Expect = 4.4e-10 Identity = 52/143 (36.36%), Postives = 79/143 (55.24%), Query Frame = 0
BLAST of Spg037277 vs. NCBI nr
Match: PON65868.1 (hypothetical protein PanWU01x14_113570 [Parasponia andersonii]) HSP 1 Score: 72.4 bits (176), Expect = 1.8e-08 Identity = 49/144 (34.03%), Postives = 70/144 (48.61%), Query Frame = 0
BLAST of Spg037277 vs. NCBI nr
Match: PON32444.1 (hypothetical protein PanWU01x14_361130 [Parasponia andersonii]) HSP 1 Score: 68.2 bits (165), Expect = 3.5e-07 Identity = 35/97 (36.08%), Postives = 57/97 (58.76%), Query Frame = 0
BLAST of Spg037277 vs. NCBI nr
Match: PON85987.1 (hypothetical protein TorRG33x02_181920, partial [Trema orientale]) HSP 1 Score: 67.4 bits (163), Expect = 5.9e-07 Identity = 44/139 (31.65%), Postives = 75/139 (53.96%), Query Frame = 0
BLAST of Spg037277 vs. ExPASy TrEMBL
Match: A0A2P5BCG4 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_251180 PE=4 SV=1) HSP 1 Score: 79.7 bits (195), Expect = 5.6e-11 Identity = 51/143 (35.66%), Postives = 77/143 (53.85%), Query Frame = 0
BLAST of Spg037277 vs. ExPASy TrEMBL
Match: A0A2P5AGA5 (Uncharacterized protein (Fragment) OS=Parasponia andersonii OX=3476 GN=PanWU01x14_335450 PE=4 SV=1) HSP 1 Score: 77.8 bits (190), Expect = 2.1e-10 Identity = 52/143 (36.36%), Postives = 79/143 (55.24%), Query Frame = 0
BLAST of Spg037277 vs. ExPASy TrEMBL
Match: A0A2P5CXV1 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_113570 PE=4 SV=1) HSP 1 Score: 72.4 bits (176), Expect = 9.0e-09 Identity = 49/144 (34.03%), Postives = 70/144 (48.61%), Query Frame = 0
BLAST of Spg037277 vs. ExPASy TrEMBL
Match: A0A2P5A7C9 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_361130 PE=4 SV=1) HSP 1 Score: 68.2 bits (165), Expect = 1.7e-07 Identity = 35/97 (36.08%), Postives = 57/97 (58.76%), Query Frame = 0
BLAST of Spg037277 vs. ExPASy TrEMBL
Match: A0A2P5DAQ2 (Uncharacterized protein OS=Parasponia andersonii OX=3476 GN=PanWU01x14_080440 PE=4 SV=1) HSP 1 Score: 63.9 bits (154), Expect = 3.2e-06 Identity = 40/144 (27.78%), Postives = 71/144 (49.31%), 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
Relationships
The following mRNA feature(s) are a part of this gene:
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