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Overview
Sequences
The following sequences are available for this feature:
Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below.GCGAAAAATCAAACCAAATTCTGTAATTCTCGCAAACCATTTCTTCTTCGCTAAGCCGTAATTTCTTCAAATTATAATAATTAGTGTTCGGTTTTCCTTTTTGAGCTCACTTCAGATACAAATCACAACTCTTCCGAATCTGTGATTTTTGCGGTAATTGACAAGTTTCAAGTGGGTCATCATCAATGTCTTCTCCTGCAGAGTATACCTCATTTCTCATTCTTTACTGTTTTGAATTCGTTCTTTTATTTAGCGGGTGTATATCTTGATTAATTGTGATTTCTGAGTTTTATTTATTTATTTGGGCGAGAATGTTTGGTTTTGTATTGAAATGGGATTGGAATGAAATTGCTTGTTAAGGTATTGTATATGCTATTGAATTCCAATTGATGTTATTGATTCTGTAGTTCAATCACATTTTCAATGGTTTTACTGAGAATTTAGATGATCCCTTTCTGGGTTTAGTTCTCCCATTACTAGTTCGTACGGAGCTGCTATTATTCTATTAACGACTTAACGTGACTATTAATTTTCGGGTGGAGGGTATAATTATAATTCCCAAGTTCAGGTAGAAATTAGGTCAATTTAATTGGTTTTGAGCTGTTATACCGATGATAAAATTCTTTGGGGAACATTGTTGGAAATGCTTAAATGTTGAACTTGAACCTTTAAAACTTTGTAGTATGAGCATAAAGATTCTTTCATGTTCGGTGTTTTTGGTTTATACACTTGAATGCTGACATGTTTTTGTTGAGATCAAATCGAAATCGAACCTGTCTAGTAAGATTTTGTTCATATTTTTGACAAATTCCCCCCTTTGTGAAACCTTCGGGTGATCTTCAATCAAACATGATGGAAACGCCAATTTAACAGTTAATAATTAGCTTGGTGTATTGGAAACTCCACCCTAATATGCAATGTTATTCTTGTCACTCTAGGATATAGTAAAAAGAACCACTCTTCTCTTAAATTACCCACTTTGATCGCGCTCTCTATATTTCTCTTGCCTCCAACCTAGTAAAAATATTTGATGATGACTTATCAAATGCATGTAGCAGGGATTAGTGAATATCTATATGCATTTTTTGAGCTTCAACAGAAAGCCTAAAGTTTTGTTGGAAGGTTACAATCTGTATAGGAACTCATGACTGGCCCCGGTTTGTTCAGCAATTGGAGTGTTTTTGACTTATAGTTGACATTGCTGAGCTATTGAATATTGAACCTTGATCTATAAGGTGGAAGAGGGAGCATTAGTTTGGAAGCTCGTGTCTTTTGAAAAACCTAATTTTTATGGTTCTGACTACTTCTGTTCTGTTTTCAATTCATAACTAATGTCTAGCCATGATAAGTGATTTTCTCCCAAGAGAAAGGTAGAGTAAACGGTTAGCAGTGTCAAGCCCTAACACTTTCCATTGAGCTATTATATGTTGATGGCACCATAGAGTAACTTGAAAAATCACATGGCTAGGGCTCCTTACAACTTACAAAGAATATATTTGTAATTCTAGAATTCCCGTGCAAGGTATCATGGAAGTGGATTTGTTGCTTGCTATAAAGCCACGTCACAAAGATCATGATCGAAAAGTTAAATAGAAGGTCTTCATATTATTGATTCAATCTCAAGCCATTTGGAGATCTCCTATGATAATTTGGCTCTGGTTTTTCTTCTCTAAAAACAACAAGGGTTAAAGCCTAAGCAAACACATAGGCCTTGATTGTATGGTGGTTTACGACAAAGTCGGAAAGTACCACTTCTATCACTTTTAATCCTTTAATAAATGGTTTGCTGACTAAAGTTTGAAGGATCATGTTAATATTTCTGGAGCTGTTGGCCCTTTTTCTTCTTGAATTGTCTTTTGTTGTGATATTTGTAAGCTATGTCATATTAACATGACATGAATTGTTGTAATATATGCTTCCCCAATCCCCACCCCCACCCCCACCCGTAACCCCCAAATAAGTTTGCTCTGCACAACTTTTGCTTCAAGATTACCTTTTTTAACTCTTAACACGTATATTTCTTCCAAGATAAACTTTTCCATTTTAAGTTGAAAACTATTGCTTCAGAAAGCTTACTGACTTTTTGGTTTGAATTTGAGTTTGCATTTATTTTTTGAAGATCTTTACCTTTTTTCTTATAGTTTTGCACTGACTTCTAGCCAACATGTGGGTTTCCGTCACCCTGCTATTTGGCAAGTGTAGAACCTATTACAGTAGTTTCTGCCCACTAACTTACTTTGTATGTTTTTTTAAGGTGGTATCAGTCACTCCCTCCAATAAGCAAGGGTTACGGGACCCTATGTCTTCTGGTCACAACAGCATCTCAACTGGGTGTACTCAATCCTTACTATATTGCATTGCTCTATGGAAGAGTGTTCAAGAATTTTGAGGTACAGTTCACATTACCCTGTCATTTTGTACAGCATATAAATCTCTATCGGTCTAACATATGCCTGTTAAACGCTCAATTCTATATTGTGTTTCATTAATATGGAGTATTTCATATAAATTGTCTTGTCTAAGTTGTCTTCACAAATTGTTGCTCCCGACCCCTCTTATCAAATTTGTAACCCCAAACTTTGCTATAAAAAGTTCATTACAATTTGGGGTACCTTGGTTGATATGGGTTTTTTACCCAAATGAAATGGCACTGGGAGAGGCTTGGTAAGGTTGTCTTAGTTTTAGACAGCTGAAAAAGGGTAGCATATGTGGCCTTGCTCTGATAACTGGTAAGTGGGGATCTGACTACCATCAAGGGAAGGGGAAGATGATATGTGGGAGAAGGGTACTTGAGGCGTGATGAGGAGGGATTGGGTCCGGAAGGAAGATTGGGGGAACTTCACTAGAATTGAACTGTTGTTTGGGTAATTAGATACTCATATTTTCCTAGTAAGGTTATAACCAAGGAAAGTTTAGTTTCTAGCACATTGACATATGTTAAGGGAGAAGTTGTTAAGACAGCTTTCCTAGACTGATTTAATTCCGTTTACTGGTGTACAGATCAAAAGTTTACTTCATTATACCTTCTTTTCTTGTCTATAATTCCCTTTTCAAGGTTTTTCCAATTATTTTCTTACTCACAAAGTCGTAAGCAACTTATTTATGAGTCACTGGTCCCATCATACCTCATTTCTGGTTGGTCTTACCTGATTGTTTACCTCTAACTAATACCTTTTTTAACACTTGTGCATTGGTTACCAGGTGTGGCGGCTTTTTACAAACTTCTTTTTCCTTGGTGGTTTTTCTATCAACTTTGGAATTCGCCTGCTGATGATGTGAGTAGTTTGCCTGATCATAAATTTGAAGCGGAATTACTGCTTTTCTCTTTGTTTGTTCTTTTCATTTGGATGATTTGTCCCTTGTTTTTGGTTGGGGGTTATTATCAGCGATTGGAAAGTTACCATAAAAGCATGGGAATGGGAAACTCCCTCAGGTGCTAGTTTTGATTACCCATGTCATTTTATGCATAAAGACCTGGTATCGTTACAAATTTGTGAATGTTACAAATAAAAACGGTACCCAGTTATTGAGTGGGCTTCTTCTCCAGATTCTATCATATTCAACAACTCCTGAACACCATCCTTCTGATTGCACGCATTTCGACAGTCACTAGTTCTGATTATTCTTTTTCCTTGATATGTGGTATCAACATTTTGGATGACTTGAGAAGTTGAGAGGATGCTCATATGGAGTCCAGCCGCGCAGAACTGCAAATAGCTAGATACCACGAGGTGGATGACATGAACGGCATGACATATTTTCCGTCTTTCCTTTTTTGGACTAGAGAGGCTGTTTATGTCTTTATGAGCCCCTGAAAACAGGGCTCTTTGATTGATTTCATTATTGTCTAGATATAGAAGTGTTATTTCCCCCAAAAAACTCTGATGCATAATGAAATTATGAATATGTTGAAAGTATGTAGTTTGTGTGTTTGTGTCTATGATTTTTGCATTGCATATACAGAGGCCCATGAACTTTCTTTGCATTGTTATTCTTGGTCTATTTCCTCCTCCAAAATCATATGGTGGAGTAATTACAGTGCCTTTATCAATTATCATCTCTGTTAGTTTTATGCTTTTCTTTGTTTTCTCTCATTTTTCATGATAATCACCTTCTTAGATGTTAGAGCAAGGTACAGAGTTCTCTTTGAACACTCTCATATTCAATATTCCGTTTCCTTCTATAGTTAAAAAAAGCTTGGTTTTCTGTGGCCTGATGTATTGACTCCTTTTGTCTTTTATAAAAATTCTTGATGTAACAGAGCAAGATATGGAGTTCAATTGGAGCAGGGACCATTCCAGAGGCGGACAGCAGACTTCTTGTGGATGATGATATTTGGAGCATTCAGTTTGTTGGTAAAAGAATCATTGCATGTGTCAATTCTCTGCTCTATTGGCATGTCTGTTATCTTGTTTTCATTAAAAAGAAGTGTGCTGGGGTTACTATGATTAATAGCGCCCACATTTATGGTTTTTCTTGGACTTTTCCTTCTGAGTTACACAGAGGTAGCCATTTAAAAATAGAAATAAGAGTTGCTGTTGTAGATGCAAGATAAAATGAGCATTAACACATCTGAAAATAGATATTAGAGTTTCTCAGGTTGATGGATTTTGTTACCTTGAAGTTTGAGGGATTTTATTCCTATCCCCTGTCATTTACCCTCCTTTCCTCAATAGACATCAAATTTAGTTAATCAATACTCCAATTTAAATATTAATACAAATATGAAGACATGTTAAGTCCCCATTGTTTAGGGAGTGATTGACGCTATTTCTCCTTTGTTGAAATATCAAGTGTTAATTTGGACCAATAGTTAACCGAATTTAACGTCATTTACACTTAGTTTGGATAAGAAAACGAAGAGAAAAGAAAGGGAGGGGAACAAGATCCCTTGTTTGGATACACGGTTCGGGGAAGGAAGGGGAGGGAGAGTGAGGGATCAATTTCCCTCCCTCTTTAATAAACATCACCCTTTTAGAATTGGAAAGATTTGGAGGGAAATGGACCTCTTATTTCCTCTCCCTTCTTTTCCCTTCCACTTTACTATCCAAACACACTGTTAAGCATTTGGGATATATTTTCGATATGTGAGATGTTAGGGAGTGGAATGAAATAAAATGGAATCCCGTCAACCTTCAAGGTCATTCATTCATCATTATCATTACCCCATTGTCTCAAAGAGGCTCCCGCAAGAAGCGGGGTAAGGGGGGTCGGACGTACGCAACCTTACCCCTGCAATTGCAGAGAGGTTGTTTACAATTGACCCAGAAGCGATAACGGGTCGACAACGGGACGACCATCTTCTACTTCATGGAAAGGAAGCGAATAGGTTTTAAGAGCTATTTTGATTTAGTCCATTACATCCCACAGCCAAAAGAACAAATGAATCATTGGCTCCATCGGAAATGGACATGGACAAAACTTTCCTATATGAAGAAAAAAAACCTTTTGAGAAAAGTTATCAAAAATGACGATTGTTGCCATTTTTGATAACTCATCCAATGGGGGGCTGATATTTAGCAATACTCTCTCTTCTTTTGAGCCCCTACTTGAGGCCCCCATTGCAGATGATCATAGTCCTTTTTGCTAATGTCTTAATGCGATTTCCAGCTCCCTCCATTCCTCTTGAGACCAATTGTGTCCTTTTCTTTGTTCTCCCGTCAGCCTTTTGTTTCAACTGATTTCGTCTTAATGATTCTCAGGTATTATATGCCATCCCTTTCTTTGATTTACCATTTGGTGGAATATCCCTTGTCTTCATGCTTCTTTATGTATGGAGCAGAGAAATTCCGAACGCCAATATCAACTTGTATGGCCTTGTCACTCTAAAGGTAAGTTGAAAATGTACTGGTGTTATGTCCTTATTTCTATTTTCTCGAACTTCACAGCTGTGCAAGTTAAATATTTGCATATATTGATATCTGTCTTGACCTGCAGTCATTTTACTTGCCTTGGGCGATGCTGGCGTTAGATGTTATTTTTGGTTCATCTATATGGCCAGACCTTCTTGGAATTATTGCTGGACATCTGTTTTATTTCTTGACTGTACTTCACCCTCTTGCTGGTGGAAAGATGATTCTGAAGACTCCTGCATGGGTGTATCCTTTCCCTTAACCTTATTTAGAATTCAAGTTGTATTGCATTTTGTATCTAGCTGAAGCTGAATTTATTTTTTTGGGTGTTACAATCCGGTTCACATTTAGGGCTAATCCGGATTCGGGGTGAGTTCTGGGTGGATAGGTTCCAGTCCCCTCCCAATTGTTATTGTGGGGGATCAAACGGACAGTTCTCCCTACCAAGTTCAGTCCCAATCACCACTGAACCAACATGCAATTGGTGAAGCTGAATTTTAGTCTTAACTAGAAAGCTATGAAAGAGCAACCGGCCACTCTTGTTTTTTCTTTCTTTGGTTCCTGTTGTAGATAGTAGGGTATGGTAGGTAAGTGGTGGTCATAGGAACAAGTCCTTTAAGAATATTCTTCCGCATAGATTTGTGATTTGTCTTCTTTGCTGATATTTGAACTTGCTATATCCAAATGGACTTTCTAGCCAACCAAGATTTCTTATTAATGGACACCAAACTGAGGCTTTTTGCAGCAATATAAGCATGCTCTGTAACCATAGTGCATGCTAATTCACCAGTATCTTTGCTGGTTGTTCAGTAACCATAAGACGCGTGAGATAATCTTGAAAGTGTCTTATGGTGTGACCTAGATTTAGAGATGTAAAATATCACCAAGTTCTAAATAGGGAACTCTTCAGAGGTTTGAGTAACTTTTAGGCGTCATGGGCACGTTTTTGTAGACTAATAAGAATTAACTTTTTACATATTTTGTTAAACTTTTATGAAGTTTTTAGTGATGAATGAATATAACATCTTTTGCAAGTATCCAGATCTCATGGTGAAAGAGCCTCACCTAATGACAGAAGGCCCTACTGCATTAGTTTTTTCTTTAAAGAAAATATCCTTAACCGCCTTTCGTTACAGACATAAGATCGTGAGAAGGTGGAGACTTGGAGCCCCAGCACCCTCCCGTCCAGCAGCAGGTGCACCCCCTGCTCAGCCTGAGAGAAATGATGGAGTTTTCAGAGGGAGAGCTTATCGTCTTAGTGACTGAACACGGGCTTGCAGAAATGATCCGATGCAATACCATTCAAAACTTTGCCCAGATGAGAAACAATAGTTACATTCCAAGTAATTCAGCAATTTCTAAAGCAAATCTGTTAAATGGTATCGCTTTAAACAATCCTGGGAGGGAAGTGAACGTCATCTGTCTTAATATGTAGCCTCTGCTGACAGACTGGTTCTGAACTCAAATTTGATCTAGTACAGTTGATCAAGCTAACAGAATATTATATGATGAATGTATTTGGTATTTCATAGAAAGTTGTAGGGGAAGATTAAATGTCAAGCTCCTCCTTCCTTTGAGGCTTTGATTTGTCATGCGATTATACTTTTATGTTCTCAATTATAGTTTTACACGGCCGAGCTGATTTGAGCATATCGATTACTTTTCACTGCTGCAGGTGATTAGTGTTAATTATGCACTTAAGAAAACCAATGAAATTCGGACAGCTGCTCCGCGAAAAATCAAACCAAATTCTGTAATTCTCGCAAACCATTTCTTCTTCGCTAAGCCGTAATTTCTTCAAATTATAATAATTAGTGTTCGGTTTTCCTTTTTGAGCTCACTTCAGATACAAATCACAACTCTTCCGAATCTGTGATTTTTGCGGTAATTGACAAGTTTCAAGTGGGTCATCATCAATGTCTTCTCCTGCAGAGTGGTATCAGTCACTCCCTCCAATAAGCAAGGGTTACGGGACCCTATGTCTTCTGGTCACAACAGCATCTCAACTGGGTGTACTCAATCCTTACTATATTGCATTGCTCTATGGAAGAGTGTTCAAGAATTTTGAGGTGTGGCGGCTTTTTACAAACTTCTTTTTCCTTGGTGGTTTTTCTATCAACTTTGGAATTCGCCTGCTGATGATAGCAAGATATGGAGTTCAATTGGAGCAGGGACCATTCCAGAGGCGGACAGCAGACTTCTTGTGGATGATGATATTTGGAGCATTCAGTTTGTTGGTATTATATGCCATCCCTTTCTTTGATTTACCATTTGGTGGAATATCCCTTGTCTTCATGCTTCTTTATGTATGGAGCAGAGAAATTCCGAACGCCAATATCAACTTGTATGGCCTTGTCACTCTAAAGTCATTTTACTTGCCTTGGGCGATGCTGGCGTTAGATGTTATTTTTGGTTCATCTATATGGCCAGACCTTCTTGGAATTATTGCTGGACATCTGTTTTATTTCTTGACTGTACTTCACCCTCTTGCTGGTGGAAAGATGATTCTGAAGACTCCTGCATGGGTACATAAGATCGTGAGAAGGTGGAGACTTGGAGCCCCAGCACCCTCCCGTCCAGCAGCAGGTGCACCCCCTGCTCAGCCTGAGAGAAATGATGGAGTTTTCAGAGGGAGAGCTTATCGTCTTAGTGACTGAACACGGGCTTGCAGAAATGATCCGATGCAATACCATTCAAAACTTTGCCCAGATGAGAAACAATAGTTACATTCCAAGTAATTCAGCAATTTCTAAAGCAAATCTGTTAAATGGTATCGCTTTAAACAATCCTGGGAGGGAAGTGAACGTCATCTGTCTTAATATGTAGCCTCTGCTGACAGACTGGTTCTGAACTCAAATTTGATCTAGTACAGTTGATCAAGCTAACAGAATATTATATGATGAATGTATTTGGTATTTCATAGAAAGTTGTAGGGGAAGATTAAATGTCAAGCTCCTCCTTCCTTTGAGGCTTTGATTTGTCATGCGATTATACTTTTATGTTCTCAATTATAGTTTTACACGGCCGAGCTGATTTGAGCATATCGATTACTTTTCACTGCTGCAGGTGATTAGTGTTAATTATGCACTTAAGAAAACCAATGAAATTCGGACAGCTGCTCC ATGTCTTCTCCTGCAGAGTGGTATCAGTCACTCCCTCCAATAAGCAAGGGTTACGGGACCCTATGTCTTCTGGTCACAACAGCATCTCAACTGGGTGTACTCAATCCTTACTATATTGCATTGCTCTATGGAAGAGTGTTCAAGAATTTTGAGGTGTGGCGGCTTTTTACAAACTTCTTTTTCCTTGGTGGTTTTTCTATCAACTTTGGAATTCGCCTGCTGATGATAGCAAGATATGGAGTTCAATTGGAGCAGGGACCATTCCAGAGGCGGACAGCAGACTTCTTGTGGATGATGATATTTGGAGCATTCAGTTTGTTGGTATTATATGCCATCCCTTTCTTTGATTTACCATTTGGTGGAATATCCCTTGTCTTCATGCTTCTTTATGTATGGAGCAGAGAAATTCCGAACGCCAATATCAACTTGTATGGCCTTGTCACTCTAAAGTCATTTTACTTGCCTTGGGCGATGCTGGCGTTAGATGTTATTTTTGGTTCATCTATATGGCCAGACCTTCTTGGAATTATTGCTGGACATCTGTTTTATTTCTTGACTGTACTTCACCCTCTTGCTGGTGGAAAGATGATTCTGAAGACTCCTGCATGGGTACATAAGATCGTGAGAAGGTGGAGACTTGGAGCCCCAGCACCCTCCCGTCCAGCAGCAGGTGCACCCCCTGCTCAGCCTGAGAGAAATGATGGAGTTTTCAGAGGGAGAGCTTATCGTCTTAGTGACTGA MSSPAEWYQSLPPISKGYGTLCLLVTTASQLGVLNPYYIALLYGRVFKNFEVWRLFTNFFFLGGFSINFGIRLLMIARYGVQLEQGPFQRRTADFLWMMIFGAFSLLVLYAIPFFDLPFGGISLVFMLLYVWSREIPNANINLYGLVTLKSFYLPWAMLALDVIFGSSIWPDLLGIIAGHLFYFLTVLHPLAGGKMILKTPAWVHKIVRRWRLGAPAPSRPAAGAPPAQPERNDGVFRGRAYRLSD Relationships
The following mRNA feature(s) are a part of this gene:
Homology
BLAST of Spo26434.1 vs. NCBI nr
Match: gi|902153856|gb|KNA05753.1| (hypothetical protein SOVF_187530 [Spinacia oleracea]) HSP 1 Score: 500.0 bits (1286), Expect = 2.400e-138 Identity = 246/246 (100.00%), Postives = 246/246 (100.00%), Query Frame = 1
BLAST of Spo26434.1 vs. NCBI nr
Match: gi|731354024|ref|XP_010688360.1| (PREDICTED: derlin-1 [Beta vulgaris subsp. vulgaris]) HSP 1 Score: 424.5 bits (1090), Expect = 1.300e-115 Identity = 210/246 (85.37%), Postives = 220/246 (89.43%), Query Frame = 1
BLAST of Spo26434.1 vs. NCBI nr
Match: gi|357520809|ref|XP_003630693.1| (derlin-2 protein [Medicago truncatula]) HSP 1 Score: 370.9 bits (951), Expect = 1.700e-99 Identity = 189/247 (76.52%), Postives = 207/247 (83.81%), Query Frame = 1
BLAST of Spo26434.1 vs. NCBI nr
Match: gi|698527883|ref|XP_009760788.1| (PREDICTED: derlin-1-like [Nicotiana sylvestris]) HSP 1 Score: 369.0 bits (946), Expect = 6.400e-99 Identity = 187/245 (76.33%), Postives = 208/245 (84.90%), Query Frame = 1
BLAST of Spo26434.1 vs. NCBI nr
Match: gi|697118843|ref|XP_009613361.1| (PREDICTED: derlin-1-like [Nicotiana tomentosiformis]) HSP 1 Score: 368.6 bits (945), Expect = 8.400e-99 Identity = 186/245 (75.92%), Postives = 208/245 (84.90%), Query Frame = 1
BLAST of Spo26434.1 vs. UniProtKB/TrEMBL
Match: A0A0K9QGG3_SPIOL (Derlin OS=Spinacia oleracea GN=SOVF_187530 PE=3 SV=1) HSP 1 Score: 500.0 bits (1286), Expect = 1.700e-138 Identity = 246/246 (100.00%), Postives = 246/246 (100.00%), Query Frame = 1
BLAST of Spo26434.1 vs. UniProtKB/TrEMBL
Match: A0A0J8BPP3_BETVU (Derlin OS=Beta vulgaris subsp. vulgaris GN=BVRB_8g197750 PE=3 SV=1) HSP 1 Score: 424.5 bits (1090), Expect = 9.000e-116 Identity = 210/246 (85.37%), Postives = 220/246 (89.43%), Query Frame = 1
BLAST of Spo26434.1 vs. UniProtKB/TrEMBL
Match: G7L7D6_MEDTR (Derlin OS=Medicago truncatula GN=MTR_8g102300 PE=2 SV=1) HSP 1 Score: 370.9 bits (951), Expect = 1.200e-99 Identity = 189/247 (76.52%), Postives = 207/247 (83.81%), Query Frame = 1
BLAST of Spo26434.1 vs. UniProtKB/TrEMBL
Match: I3SV13_LOTJA (Derlin OS=Lotus japonicus PE=2 SV=1) HSP 1 Score: 365.9 bits (938), Expect = 3.800e-98 Identity = 184/246 (74.80%), Postives = 203/246 (82.52%), Query Frame = 1
BLAST of Spo26434.1 vs. UniProtKB/TrEMBL
Match: A0A0D2PJJ4_GOSRA (Derlin OS=Gossypium raimondii GN=B456_004G282600 PE=3 SV=1) HSP 1 Score: 365.9 bits (938), Expect = 3.800e-98 Identity = 186/245 (75.92%), Postives = 208/245 (84.90%), Query Frame = 1
BLAST of Spo26434.1 vs. ExPASy Swiss-Prot
Match: DERL1_ARATH (Derlin-1 OS=Arabidopsis thaliana GN=DER1 PE=2 SV=1) HSP 1 Score: 352.8 bits (904), Expect = 3.000e-96 Identity = 182/266 (68.42%), Postives = 207/266 (77.82%), Query Frame = 1
BLAST of Spo26434.1 vs. ExPASy Swiss-Prot
Match: DERL1_ORYSJ (Derlin-1 OS=Oryza sativa subsp. japonica GN=DER1 PE=2 SV=2) HSP 1 Score: 332.8 bits (852), Expect = 3.200e-90 Identity = 170/247 (68.83%), Postives = 193/247 (78.14%), Query Frame = 1
BLAST of Spo26434.1 vs. ExPASy Swiss-Prot
Match: DER11_MAIZE (Derlin-1.1 OS=Zea mays GN=DER1.1 PE=2 SV=2) HSP 1 Score: 318.2 bits (814), Expect = 8.100e-86 Identity = 164/245 (66.94%), Postives = 186/245 (75.92%), Query Frame = 1
BLAST of Spo26434.1 vs. ExPASy Swiss-Prot
Match: DER12_MAIZE (Derlin-1.2 OS=Zea mays GN=DER1.2 PE=2 SV=1) HSP 1 Score: 312.0 bits (798), Expect = 5.800e-84 Identity = 160/247 (64.78%), Postives = 186/247 (75.30%), Query Frame = 1
BLAST of Spo26434.1 vs. ExPASy Swiss-Prot
Match: DERL2_DICDI (Probable derlin-2 homolog OS=Dictyostelium discoideum GN=derl2 PE=3 SV=1) HSP 1 Score: 160.6 bits (405), Expect = 2.200e-38 Identity = 83/214 (38.79%), Postives = 130/214 (60.75%), Query Frame = 1
BLAST of Spo26434.1 vs. TAIR (Arabidopsis)
Match: AT4G29330.1 (DERLIN-1) HSP 1 Score: 352.8 bits (904), Expect = 1.700e-97 Identity = 182/266 (68.42%), Postives = 207/266 (77.82%), Query Frame = 1
BLAST of Spo26434.1 vs. TAIR (Arabidopsis)
Match: AT4G04860.1 (DERLIN-2.2) HSP 1 Score: 151.8 bits (382), Expect = 5.700e-37 Identity = 78/208 (37.50%), Postives = 123/208 (59.13%), Query Frame = 1
BLAST of Spo26434.1 vs. TAIR (Arabidopsis)
Match: AT4G21810.1 (DERLIN-2.1) HSP 1 Score: 149.8 bits (377), Expect = 2.200e-36 Identity = 77/208 (37.02%), Postives = 123/208 (59.13%), Query Frame = 1
The following BLAST results are available for this feature:
BLAST of Spo26434.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr) Total hits: 5
BLAST of Spo26434.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL) Total hits: 5
BLAST of Spo26434.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt) Total hits: 5
BLAST of Spo26434.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR) Total hits: 3
InterPro
Analysis Name: InterPro Annotations of S. oleracea
Date Performed: 2018-06-29
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
RNA-Seq Expression
Co-expression
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