Sequences
The following sequences are available for this feature:
Gene sequence (with intron)
Legend: exonCDSpolypeptide
Hold the cursor over a type above to highlight its positions in the sequence below.
GAGAGCATATCTAATCCTCTCCCCCATGCTAATGAACATCTTTTTGCACCAACTCGATATGAAAATCAATTCTTTTATGCAAATCGAAAAGGGCATAGGCTACATTCGGTATGCTGATGACATGATTTTTGCTATTAAAAGGGGAGGAAATTCTGAGGCAGTATATTACAGGGTTAAACAGCTCCTCAAAAAGACTCTGGAAAACCTAAAACAGGTCGAAACTTCTATAGAACTAATTCGAGGAAGACCCCGCAAAATCCTAGTTTGTCGCTTATTGGGACCTACAAGAAGCTGAGTTTCTTTGCTTTCTTTTGTCACAGTAGTTGGAAAAAGAAAAAGTCAAAGCAGCAGACCAATAGTCCCATTATCCACCTTTAGAGACATTTTTTTAAGAAGGTTCCGTTTAACACATCTTGGCCAAGCAGGAAAAGCTGGAAATAAATGCTTTTTCGGTTGAAGGTGCTCTCTTCTCTACTCCTAGACATAGGAGAGAGGTTCACTCTTCATCCATAGTATCCTCTGCATCTTATGCATCTTCTGTCTCCTCTCTTGGTTTCAGGGAGCCTGTGAGCAGGAGTCCCCCCCCCCTCCCCCCGAAAGTGGCTTTGACGGGAGGAAGTGGGCTTCATTCAATGGAATGCTCTGTTGGTTCAGCTCAAGGGGTCCGATTTTTCGGTTTAGTGTGGAGGGAGGCGCTCTTTGTTGACCTTTTAGGAGACATGTTGTGACATCTTAGCCAGAGAAGAGCAACAGGAGCTATATTCAAGGAAGCTATGGACTGGAATCAGAGATTGGATGGACATCCAAAACGGAGAGGAAAAAAGGAAGCAACTACGCTATATATTTGATATTGCAACTGTGCTAATAAGGGCACATCTGCTTTCTCTGTCTGTGGATTTTGGAGTCGCACTGATCGACAGGAGGAGCTCAAATTAGTAAACAGAAAAGAAGATGCGAAAGCTTTCGCACTTACTCACATACACTCTTTTTATCAGTATTTGGTAGTTGTACTCTATATCAGTCTCATTAGAAAATAATACAGCTCAGCTGGACTAAGCGAGGCTGCCATATCCGAGACCATTATCATTAGTTCCCCTCTCACCAAAGCTTCCGAACTTGCCAAGAAGTGGCCTATTCCTACAGTACAGGTCTCTATCAACTAACTCAAGCCCTAAAGAGAGGTGGGGCAGGACATCGATAGACAATAGACCAAGGAGCGAAAGTCACTCAGTTGCTTGCTAAATCGAAGAGAGCAGAAGGCACCTTGCCTAACATTATAGGAGAAGGGGCTTCGTCGCGTAGCACAGTAGATTGGTTTTGGAACAATACCGAGAAAATCATTGAAAATGCCCTATTATCAACACTCATCTTTTTGCAAAAAGCCGCTCCACAGTGGTAAAGTCTCATCTTGTGTGTTGGCCAAAGTGACAATAGTCACATTGAACACTAGAATATGTTCGAAGATCTCGAAATGATCTTCCAATTCAGGGGAGAATTCGCAAAACTCCGTTTCCATCGAGAATTGAATGGAGTTTTCCCGTATTTCGACCGGAGAATCTAAGAGAGACATTACTGTCGATTGCTATTTTAGGTTTAGCCAGCCTTGTAAGTTATATTCCAGTGGTGTAAGCGGGTGAGCAAGTAAGTTCAAGAAAAGGAAAAGCGTTCTTTTTACTAACTTCCGTTAAACCAAGATATATTGTTCAAGCTTTTTTTGAAACTAGTTCCAATTTTTCCTTTTGCCTTAAGACCTCTCCGCTATTTACAACGAGCCAAGGCAAGGAGCGAACGAACTACTGGATTTAGTATTATTAGAGCATAACTTAGCATAGAAGAGTCAAAGCTTGTTACTCACGGCACACATTCTATATCCACTAAGAACTAAATGCTAGGGGAAGGAGCAAAGCACCACCATTTGTGGCATTCTTGCCTTGGTTGCAATAAAAAAGTTGCCCTTATTTCAATCAACTTGACGTGAAGAATGCCTTTCAACAACATAAGGGAAGCGGGGATCCGTAAGAATCTATTTCTATTCAGCCTCCTCTAACTCCAGGCTGATCTTCCCCTAGGAATCCTAACTTGGTATGCAAGCTCAAGAAAGCGATTTATGGATCTATATGCTTCGATTGGCTAAAGCAGGCACCAAGAGCTAAGAAGGGGGCTTACTTGAAGAAATTTAGCTCGTTTCTCACTGCTTGATTTTGGATAAAGGGTTTCGACTACAGTGGAACCGTGCGGATTCTGACATTTTGTTTGTCGACGTCGTGGTCGTTGCCTCATCCTTCTTTTATAAGTTGATGACAACATTCTCACCGGGAATGATTCTTCTCTTTTATTCGATTTCATCAAGGAGCTTGACAACCAATTTTTCTCTTTCAACCGCTGTATTACTTTCTCGGCATGGAGGTATCTCGCTCCACCTCTGAACTTTGCCTAACCCAAACAAAGTATACTAAAAAATGGAATTCTTATCTCGTTGAGACTGCCCTGCACTACGCCTATATCTCCAGGTGCCAAGCTATCCGCCCCTACTCTTATAAAAAAAAAAAAAAGAAAAGGCAGGCTGCCCTAACGACTGACACTCTACCTCGGGCTTTTGTTCTTGGTCGAAATCTCATTTCCTGGAACGCTAAGAAGTTGCCCCTTACTCACCTCTCTTCAACATCTATAAAAAAGCCTTTCCCCTTTGAATAATAATAAGGTCAAGTCAAGCTTTTTGAAGCAAGCCGGATCGGTTTTTTTATGTCGAAAGCCCTAAAACTAGCTATCTTATTGCAGACAACTAATGCAAGCCTACTCAACAAATCTCATAAGTAAACGCCTGTTCGCATCGCAACTAATAGAAAAAACCACTACGTCACTCAACGACTAGTCTAGTCTAGTAGTGGTTCGGATCTTGACCGGGTCCGAGCTTCCCAAGCTCCATGCTACTGGGGAATTCCGCTTCAGTTTGACCACCTTCTTGATTGACTATATTTAGGTCTTTGGAGTACTTTGGGATTATATTCCTCGCCGACAATTTGTGCTTGTGGGCTAGGGTGAATATTGCAGACCAGCGGATTTGGTGGTCGACAATCGTTCGGACTTGGTAAAGGTTGTCGCAGCACTTGTAGTAGGACATAAGACTTATTGCAATGCCCGCGGACCAATTTACGATGTCTCCGTCGCTGATGTTCGTCAAGCAGGCCACGTGGATTGGCTAGGGTCTTCTTCGGCTAATGATACCTCGATACCAAAGTCTTCGGAGTATTTTTTTGATAGGCGCCTCGAGATGTATGGGAATTCGCTGCTGATAGATCCCGCCCAGTGTCCTCCTCCTTCCCCCGCCGCCTTCCGACCCGCGGGAGTATACAATGACAACTTCCCGGCACTCATACCCGATCGTGAAACTGCCTGTTGAACGTCCGATGGCGCGTTGCTACGACCTGAGCTATGCAACAATGAAATCCCCCTTGATCCTTGCCGGATGTGCTTGACGGTCCCTCATAATACGCTCACTTGCAGACTTCTTACTCCAGCAGTTCCAAGAGTCTCCACTAGTTGAACCCTCGATCAAACTTGCGTTCCCCAGGTGCTATGAAATGGGGGTCTTTCCTTTGCCTATCGTATGTATTGGCTTGGCTTCATGCAGAACCAAGGGGGCATTCTAG
mRNA sequence
GAGAGCATATCTAATCCTCTCCCCCATGCTAATGAACATCTTTTTGCACCAACTCGATATGAAAATCAATTCTTTTATGCAAATCGAAAAGGGCATAGGCTACATTCGGAAAAGCTGGAAATAAATGCTTTTTCGGTTGAAGGTGCTCTCTTCTCTACTCCTAGACATAGGAGAGAGGTTCACTCTTCATCCATAGTATCCTCTGCATCTTATGCATCTTCTGTCTCCTCTCTTGGTTTCAGGGAGCCTGAGACATGTTGTGACATCTTAGCCAGAGAAGAGCAACAGGAGCTATATTCAAGGAAGCTATGGACTGGAATCAGAGATTGGATGGACATCCAAAACGGAGAGGAAAAAAGGAAGCAACTACGCTATATATTTGATATTGCAACTGTGCTAATAAGGGCACATCTGCTTTCTCTGTCTGTGGATTTTGGAGTCGCACTGATCGACAGGAGGAGCTCAAATTACTCAGCTGGACTAAGCGAGGCTGCCATATCCGAGACCATTATCATTAGTTCCCCTCTCACCAAAGCTTCCGAACTTGCCAAGAAGTGGCCTATTCCTACAGTACAGAATATGTTCGAAGATCTCGAAATGATCTTCCAATTCAGGGGAGAATTCGCAAAACTCCGTTTCCATCGAGAATTGAATGGAGTTTTCCCACCAGCGGATTTGGTGGTCGACAATCGTTCGGACTTGGTAAAGGTTGTCGCAGCACTTGTAGTAGGACATAAGACTTATTGCAATGCCCGCGGACCAATTTACGATGTCTCCGTCGCTGATGTTCGTCAAGCAGGCCACGTGGATTGGCTAGGGTCTTCTTCGGCTAATGATACCTCGATACCAAAGTCTTCGGAGTATTTTTTTGATAGGCGCCTCGAGATGTATGGGAATTCGCTGCTGATAGATCCCGCCCAGTGTCCTCCTCCTTCCCCCGCCGCCTTCCGACCCGCGGGAGTATACAATGACAACTTCCCGGCACTCATACCCGATCACTTCTTACTCCAGCAGTTCCAAGAGTCTCCACTAGTTGAACCCTCGATCAAACTTGCGTTCCCCAGGTGCTATGAAATGGGGGTCTTTCCTTTGCCTATCGTATGTATTGGCTTGGCTTCATGCAGAACCAAGGGGGCATTCTAG
Coding sequence (CDS)
GAGAGCATATCTAATCCTCTCCCCCATGCTAATGAACATCTTTTTGCACCAACTCGATATGAAAATCAATTCTTTTATGCAAATCGAAAAGGGCATAGGCTACATTCGGAAAAGCTGGAAATAAATGCTTTTTCGGTTGAAGGTGCTCTCTTCTCTACTCCTAGACATAGGAGAGAGGTTCACTCTTCATCCATAGTATCCTCTGCATCTTATGCATCTTCTGTCTCCTCTCTTGGTTTCAGGGAGCCTGAGACATGTTGTGACATCTTAGCCAGAGAAGAGCAACAGGAGCTATATTCAAGGAAGCTATGGACTGGAATCAGAGATTGGATGGACATCCAAAACGGAGAGGAAAAAAGGAAGCAACTACGCTATATATTTGATATTGCAACTGTGCTAATAAGGGCACATCTGCTTTCTCTGTCTGTGGATTTTGGAGTCGCACTGATCGACAGGAGGAGCTCAAATTACTCAGCTGGACTAAGCGAGGCTGCCATATCCGAGACCATTATCATTAGTTCCCCTCTCACCAAAGCTTCCGAACTTGCCAAGAAGTGGCCTATTCCTACAGTACAGAATATGTTCGAAGATCTCGAAATGATCTTCCAATTCAGGGGAGAATTCGCAAAACTCCGTTTCCATCGAGAATTGAATGGAGTTTTCCCACCAGCGGATTTGGTGGTCGACAATCGTTCGGACTTGGTAAAGGTTGTCGCAGCACTTGTAGTAGGACATAAGACTTATTGCAATGCCCGCGGACCAATTTACGATGTCTCCGTCGCTGATGTTCGTCAAGCAGGCCACGTGGATTGGCTAGGGTCTTCTTCGGCTAATGATACCTCGATACCAAAGTCTTCGGAGTATTTTTTTGATAGGCGCCTCGAGATGTATGGGAATTCGCTGCTGATAGATCCCGCCCAGTGTCCTCCTCCTTCCCCCGCCGCCTTCCGACCCGCGGGAGTATACAATGACAACTTCCCGGCACTCATACCCGATCACTTCTTACTCCAGCAGTTCCAAGAGTCTCCACTAGTTGAACCCTCGATCAAACTTGCGTTCCCCAGGTGCTATGAAATGGGGGTCTTTCCTTTGCCTATCGTATGTATTGGCTTGGCTTCATGCAGAACCAAGGGGGCATTCTAG
Protein sequence
ESISNPLPHANEHLFAPTRYENQFFYANRKGHRLHSEKLEINAFSVEGALFSTPRHRREVHSSSIVSSASYASSVSSLGFREPETCCDILAREEQQELYSRKLWTGIRDWMDIQNGEEKRKQLRYIFDIATVLIRAHLLSLSVDFGVALIDRRSSNYSAGLSEAAISETIIISSPLTKASELAKKWPIPTVQNMFEDLEMIFQFRGEFAKLRFHRELNGVFPPADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSIPKSSEYFFDRRLEMYGNSLLIDPAQCPPPSPAAFRPAGVYNDNFPALIPDHFLLQQFQESPLVEPSIKLAFPRCYEMGVFPLPIVCIGLASCRTKGAF
Homology
BLAST of CcUC02G038160 vs. NCBI nr
Match:
GFB03630.1 (hypothetical protein [Tanacetum cinerariifolium])
HSP 1 Score: 142.5 bits (358), Expect = 7.4e-30
Identity = 75/110 (68.18%), Postives = 79/110 (71.82%), Query Frame = 0
Query: 223 PADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSI 282
PADLVVDNRSDLVKVVAA VVG +TY +AR PIYDV VADVRQAGHVDW SSSAN+T
Sbjct: 1 PADLVVDNRSDLVKVVAAPVVGQRTYRDARRPIYDVFVADVRQAGHVDWPWSSSANETRS 60
Query: 283 PKSSEYFFDRRLEMYGNSLLIDPAQCPPPSPAAFRPAGVYNDNFPALIPD 333
F GNSLL D AQ P PSP AFRP GVYNDNF L+PD
Sbjct: 61 RSLRSIFLIVASICMGNSLLTDLAQSPSPSPTAFRPTGVYNDNFRTLMPD 110
BLAST of CcUC02G038160 vs. NCBI nr
Match:
KAC9261796.1 (hypothetical protein E3N88_46076 [Mikania micrantha])
HSP 1 Score: 130.2 bits (326), Expect = 3.8e-26
Identity = 64/75 (85.33%), Postives = 68/75 (90.67%), Query Frame = 0
Query: 224 ADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSIP 283
ADLVVDNRSDLVKVVAA VVG +TY +ARGPIYDVSVADVRQAGHVDW GSSSAN+TSIP
Sbjct: 49 ADLVVDNRSDLVKVVAAPVVGQRTYRDARGPIYDVSVADVRQAGHVDWPGSSSANETSIP 108
Query: 284 KSSEYFFDRRLEMYG 299
K SEY FDRRL +YG
Sbjct: 109 KPSEYLFDRRLYLYG 123
BLAST of CcUC02G038160 vs. NCBI nr
Match:
GEW95827.1 (maturase, mitochondrial [Tanacetum cinerariifolium])
HSP 1 Score: 126.3 bits (316), Expect = 5.5e-25
Identity = 65/96 (67.71%), Postives = 72/96 (75.00%), Query Frame = 0
Query: 223 PADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSI 282
PADLVVDNRSDLVKVV ALVVG +TY +AR PIYDVS+ADV QAGHVDW GSSSAN+TSI
Sbjct: 518 PADLVVDNRSDLVKVVTALVVGQRTYHDARRPIYDVSIADVHQAGHVDWPGSSSANETSI 577
Query: 283 PKSSEYFFDRRLEMYGNSLLIDPAQCPPPSPAAFRP 319
PK SEY FDR L +YG P+ P+P P
Sbjct: 578 PKPSEYLFDRPLYLYGEF----PSDRSRPTPVLLIP 609
BLAST of CcUC02G038160 vs. NCBI nr
Match:
KAF3666783.1 (hypothetical protein FXO38_08920 [Capsicum annuum] >KAF3674099.1 hypothetical protein FXO37_06577 [Capsicum annuum])
HSP 1 Score: 125.2 bits (313), Expect = 1.2e-24
Identity = 61/76 (80.26%), Postives = 66/76 (86.84%), Query Frame = 0
Query: 223 PADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSI 282
P DLVVDNRSDLVKVVAA VVG + Y +ARGPIYDVSVADVRQAGHVDW GSSSAN+TSI
Sbjct: 67 PTDLVVDNRSDLVKVVAAPVVGQRIYSDARGPIYDVSVADVRQAGHVDWPGSSSANETSI 126
Query: 283 PKSSEYFFDRRLEMYG 299
PK S+Y FDR L +YG
Sbjct: 127 PKPSKYLFDRCLYLYG 142
BLAST of CcUC02G038160 vs. NCBI nr
Match:
KAF3772037.1 (hypothetical protein EJ110_NYTH58929 [Nymphaea thermarum])
HSP 1 Score: 121.3 bits (303), Expect = 1.8e-23
Identity = 61/76 (80.26%), Postives = 65/76 (85.53%), Query Frame = 0
Query: 223 PADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSI 282
PADLVVDNRSDLVKVVAA VVG +T +ARGPIYDVSVADVRQAGHV W GSS AN+TSI
Sbjct: 56 PADLVVDNRSDLVKVVAAPVVGQRTDRDARGPIYDVSVADVRQAGHVGWPGSSPANETSI 115
Query: 283 PKSSEYFFDRRLEMYG 299
PK SEY F+RRL YG
Sbjct: 116 PKPSEYLFERRLYPYG 131
BLAST of CcUC02G038160 vs. ExPASy TrEMBL
Match:
A0A5N6L7I5 (Uncharacterized protein OS=Mikania micrantha OX=192012 GN=E3N88_46076 PE=4 SV=1)
HSP 1 Score: 130.2 bits (326), Expect = 1.9e-26
Identity = 64/75 (85.33%), Postives = 68/75 (90.67%), Query Frame = 0
Query: 224 ADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSIP 283
ADLVVDNRSDLVKVVAA VVG +TY +ARGPIYDVSVADVRQAGHVDW GSSSAN+TSIP
Sbjct: 49 ADLVVDNRSDLVKVVAAPVVGQRTYRDARGPIYDVSVADVRQAGHVDWPGSSSANETSIP 108
Query: 284 KSSEYFFDRRLEMYG 299
K SEY FDRRL +YG
Sbjct: 109 KPSEYLFDRRLYLYG 123
BLAST of CcUC02G038160 vs. ExPASy TrEMBL
Match:
A0A6L2KSK9 (Ribonuclease H-like domain-containing protein OS=Tanacetum cinerariifolium OX=118510 GN=Tci_022983 PE=4 SV=1)
HSP 1 Score: 113.2 bits (282), Expect = 2.3e-21
Identity = 57/90 (63.33%), Postives = 67/90 (74.44%), Query Frame = 0
Query: 223 PADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSI 282
PADLVVDNRSDLVKVVAA +VG +TY +ARGPIYDVS+ADVRQAGH+DWLGSSSAN+T I
Sbjct: 91 PADLVVDNRSDLVKVVAAPIVGQRTYRDARGPIYDVSIADVRQAGHMDWLGSSSANETLI 150
Query: 283 PKSSEYFFDRRLEMYGNSLLIDPAQCPPPS 313
K + D E N ++I P P+
Sbjct: 151 MKPLYFGVDAAEEFKKNMIIILNGDSPAPT 180
BLAST of CcUC02G038160 vs. ExPASy TrEMBL
Match:
A0A2G3ABQ7 (Putative cytochrome c biosynthesis protein OS=Capsicum annuum OX=4072 GN=T459_06805 PE=3 SV=1)
HSP 1 Score: 113.2 bits (282), Expect = 2.3e-21
Identity = 56/75 (74.67%), Postives = 61/75 (81.33%), Query Frame = 0
Query: 223 PADLVVDNRSDLVKVVAALVVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSI 282
PADLVVDNRSDLVKVV VVG +TY +A GPIYDVSVADVRQA HVDW GSSS N+TSI
Sbjct: 376 PADLVVDNRSDLVKVVVTPVVGQRTYRDAHGPIYDVSVADVRQASHVDWPGSSSDNETSI 435
Query: 283 PKSSEYFFDRRLEMY 298
K S+Y FDR L +Y
Sbjct: 436 SKPSKYLFDRCLYLY 450
BLAST of CcUC02G038160 vs. ExPASy TrEMBL
Match:
A0A5C7I6W9 (Uncharacterized protein OS=Acer yangbiense OX=1000413 GN=EZV62_006578 PE=4 SV=1)
HSP 1 Score: 111.7 bits (278), Expect = 6.8e-21
Identity = 58/91 (63.74%), Postives = 66/91 (72.53%), Query Frame = 0
Query: 242 VVGHKTYCNARGPIYDVSVADVRQAGHVDWLGSSSANDTSIPKSSEYFFDRRLEMYGNSL 301
VVG KTY +ARGPIYDVSVA+V QAGHVDW GS S N+TSIPK EY FDR L +YG
Sbjct: 579 VVGQKTYRDARGPIYDVSVANVCQAGHVDWPGSFSTNETSIPKPLEYLFDRCLYLYG-KF 638
Query: 302 LIDPAQCPPPSPAAFRPAGVYNDNFPALIPD 333
+ D ++ P S A FRP GVYNDNF L+ D
Sbjct: 639 IADKSR--PVSSATFRPTGVYNDNFRTLMTD 666
BLAST of CcUC02G038160 vs. ExPASy TrEMBL
Match:
A0A2K3PLX9 (Uncharacterized protein OS=Trifolium pratense OX=57577 GN=L195_g013008 PE=4 SV=1)
HSP 1 Score: 100.9 bits (250), Expect = 1.2e-17
Identity = 50/76 (65.79%), Postives = 54/76 (71.05%), Query Frame = 0
Query: 258 VSVADVRQAGHVDWLGSSSANDTSIPKSSEYFFDRRLEMYGNSLLIDPAQCPPPSPAAFR 317
V V DVRQAGH+DW GSSS NDTSI K SEY + GNSL IDPA CPPPSPA FR
Sbjct: 4 VFVTDVRQAGHMDWPGSSSTNDTSILKPSEYLYIGASICMGNSLSIDPAMCPPPSPATFR 63
Query: 318 PAGVYNDNFPALIPDH 334
A VY DNF L+P+H
Sbjct: 64 TARVYIDNFWILMPNH 79
The following BLAST results are available for this feature:
| Match Name | E-value | Identity | Description | |
|---|
| GFB03630.1 | 7.4e-30 | 68.18 | hypothetical protein [Tanacetum cinerariifolium] | [more] |
| KAC9261796.1 | 3.8e-26 | 85.33 | hypothetical protein E3N88_46076 [Mikania micrantha] | [more] |
| GEW95827.1 | 5.5e-25 | 67.71 | maturase, mitochondrial [Tanacetum cinerariifolium] | [more] |
| KAF3666783.1 | 1.2e-24 | 80.26 | hypothetical protein FXO38_08920 [Capsicum annuum] >KAF3674099.1 hypothetical pr... | [more] |
| KAF3772037.1 | 1.8e-23 | 80.26 | hypothetical protein EJ110_NYTH58929 [Nymphaea thermarum] | [more] |
| Match Name | E-value | Identity | Description | |
|---|
| Match Name | E-value | Identity | Description | |
|---|
| A0A5N6L7I5 | 1.9e-26 | 85.33 | Uncharacterized protein OS=Mikania micrantha OX=192012 GN=E3N88_46076 PE=4 SV=1 | [more] |
| A0A6L2KSK9 | 2.3e-21 | 63.33 | Ribonuclease H-like domain-containing protein OS=Tanacetum cinerariifolium OX=11... | [more] |
| A0A2G3ABQ7 | 2.3e-21 | 74.67 | Putative cytochrome c biosynthesis protein OS=Capsicum annuum OX=4072 GN=T459_06... | [more] |
| A0A5C7I6W9 | 6.8e-21 | 63.74 | Uncharacterized protein OS=Acer yangbiense OX=1000413 GN=EZV62_006578 PE=4 SV=1 | [more] |
| A0A2K3PLX9 | 1.2e-17 | 65.79 | Uncharacterized protein OS=Trifolium pratense OX=57577 GN=L195_g013008 PE=4 SV=1 | [more] |
| Match Name | E-value | Identity | Description | |
|---|
