>AT1G71360.1 | FUNCTIONS IN molecular_function unknown INVOLVED IN biological_process unknown LOCATED IN mitochondrion CONTAINS InterPro DOMAIN/s Sad1/UNC-like C-terminal (InterProIPR012919) Galactose-binding like (InterProIPR008979) BEST Arabidopsis thaliana protein match is unknown protein (TAIRAT1G228821) Has 9785 Blast hits to 6992 proteins in 496 species Archae - 108 Bacteria - 691 Metazoa - 4011 Fungi - 621 Plants - 261 Viruses - 70 Other Eukaryotes - 4023 (source NCBI BLink)
ATCTCTGTGTCCATTGTCTTGTCTTTCGCGGATCAGTTCTGTCGACTCTACAGATTCTTC
CGCGTTTTTTTCAATTTTCGAAAGTCTCTCTCTTTTTGACTCTTCACCTTTTTTTTTAAC
ACCACAACGGTTAAAAACCCTCGGCTTCTATAAATCCCGTGAAAAAAGTGGGATAGATTG
AGGTGCGTTTCATTGATTGTGATGCAGAGACGAGGTAGATCGTCGGAATTTCATCGACCG
GGTTTCATTAGATCGGATACTCATCGGAGACGTCGCCGTTGAAAAGGGTTTTGTTACGAA
GAAGCCTTCCTTTTCGGTTTGTCTTCCTCAATCACCGATTCGCTTCTCAGGTAAATTCTT
ACTCCGGCTACTTTCTCCTCAATTCTTCGTCTTTCTACAATTGGATCTGAAAATCATTTG
CTGGGTCGTTATCGTTTTTCGATTTCATTGTAAAATTTTGCAGCTTTGACTCAAGTGCTC
TGTTGTTATTGCTTGTATTTATGAGATCTTTGTTTCTGTTGTTTAGTTTATACAATTTTG
CTTTTAGTTGTGAATCTGATGTGTGTCGTTATGAACAGGTGTGAACAGTATATTAAGTTT
TTGTTTGGTGATCTGATCTTATTGGTTGGATGTGAAATGCAAAGATCACGGAGAGCTCTT
CTGGTTAGAAGAAGAGTTTCTGAGACTACTTCTAATGGAAGGAATCGCTTCTACAAAGTT
TCATTGTCTTTGGTTTTTCTCATATGGGGGCTTGTCTTCTTATCTACATTGTGGATCAGT
CATGTTGATGGTGACAAAGGTAACTTTTTGAGTTCCTTATTTGGACAGAATGCAAAACAG
TTATTAGAATATGGTTAGAGAACTGAACTTAAGTAATATACGCTCTTAGAGATATGACAA
TCATGAAGATGTATAGACCATATCTTAAGTGTATCTAAGGCTTACTCTTGGGCATTTGCA
GGTAGATCTTTAGTGGATTCAGTTGAAAAAGGTGAACCGGATGATGAAAGGGCAGATGAG
ACAGCTGAGTCTGTTGATGCAACATCACTAGAGTCTACCTCTGTTCATTCTAATCCTGGA
TTGAGTTCGGATGTTGATATAGCTGCAGCCGGAGAAAGTAAAGGCTCAGAAACCATCTTG
AAGCAATTAGAAGTCGATAACACAATCGTTATCGTAGGAAATGTTACAGAAAGCAAAGAC
AACGTGCCTATGAAGCAAAGTGAGATAAATAATAACACAGTTCCAGGGAATGATACAGAG
ACCACTGGTTCAAAGCTTGATCAGCTATCTCGTGCTGTTCCGCTTGGCCTTGATGAGTTC
AAGAGCAGAGCGTCCAATTCTAGAGACAAATCTTTGTCAGGCCAAGTAACTGGCGTTATT
CATAGGATGGAGCCTGGTGGGAAAGAGTACAATTATGCAGCTGCTTCAAAAGGTGCAAAG
GTCTTATCTTCTAACAAGGAAGCAAAAGGAGCTTCAAGCATCATATGCCGGGACAAAGAC
AAGTATCTCCGAAACCCGTGTTCTACTGAAGGGAAGTTCGTTGTCATAGAACTTTCAGAA
GAAACGTTGGTGAACACAATCAAGATTGCAAATTTCGAGCATTACTCTTCCAATCTGAAG
GATTTTGAGATTTTGGGGACCTTGGTTTACCCAACTGATACGTGGGTTCATCTAGGGAAT
TTCACGGCTTTAAACATGAAGCACGAGCAGAACTTTACATTTGCAGATCCCAAATGGGTG
AGATATCTAAAGCTAAACTTGCTAAGCCATTACGGTTCAGAATTCTACTGCACCTTGAGT
TTACTAGAAGTCTATGGAGTGGACGCTGTGGAGCGAATGCTGGAGGATTTGATATCTATC
CAAGACAAGAACATATTGAAACTCCAAGAAGGAGACACTGAGCAGAAAGAGAAGAAGACA
ATGCAAGCAAAAGAGTCCTTCGAAAGCGATGAAGACAAGAGTAAACAGAAGGAGAAGGAA
CAAGAAGCCTCACCAGAGAATGCGGTTGTGAAAGATGAAGTATCACTTGAGAAAAGAAAG
CTGCCAGATCCGGTGGAAGAGATAAAACATCAACCAGGAAGCAGAATGCCGGGGGACACT
GTCTTGAAGATACTGATGCAGAAGATAAGGTCGCTGGACGTGAGCTTATCAGTTCTTGAG
AGTTACTTGGAGGAACGGAGCTTGAAATACGGGATGATATTCAAGGAGATGGACCTGGAG
GCGAGCAAGAGAGAGAAGGAGGTGGAGACTATGAGACTAGAGGTAGAAGGAATGAAGGAG
AGGGAAGAGAATACGAAGAAAGAGGCGATGGAGATGAGAAAGTGGCGGATGAGAGTGGAG
ACAGAGCTTGAGAAGGCTGAGAATGAGAAAGAGAAAGTGAAGGAGAGGTTAGAGCAAGTG
TTGGAAAGACTGGAGTGGATGGAGAAGAAAGGTGTGGTTGTGTTCACAATCTGTGTCGGG
TTTGGGACTATAGCAGTTGTAGCCGTGGTTTTTGGTATGGGGATAGTTCGAGCAGAGAAG
CAAGGTGGCTTGGCTTGGCTTCTGTTATTGATAAGCTCCACATTCGTTATGTTCATTTTG
TCACTTTGATGAGAGAAGAGTTCTCAGTTTTGGTCTTTCTTTTTGTTTTCTAGTTTTTTT
CTTACTGTAGAGTTAGCTGAGTCTTCTTTATACCCAATAAAACTATAGAAGTTACCTAGA
TAA
>AT1G67960.1 | EXPRESSED IN 22 plant structures EXPRESSED DURING 15 growth stages CONTAINS InterPro DOMAIN/s Membrane proteinTapt1/CMV receptor (InterProIPR008010) Has 243 Blast hits to 229 proteins in 123 species Archae - 0 Bacteria - 0 Metazoa - 79 Fungi - 87 Plants - 18 Viruses - 0 Other Eukaryotes - 59 (source NCBI BLink)
GGTTTTCGATTTCGTGAATCCAATTTTTGTGTGTATGTATTCGCTTCGTCTCTCCATTTT
TCTTCGTCTTACGTTTACGTAATCCAATGGCGATTAGATCCTCGGGAAGAAAACTATCAT
TTGAGATTCTCAGCCAAAACAGCTCCTTTGAGAATGATGATACATCAATTCGCCGATCCA
GCTCAGATCCAATTACCGGAAACGTAGCTTCAGAATCACCTAGAGACTACGGGAAACGAA
AGAGATCGAAGAAGAAGAAGAAGAAAGTGAACCAAGTCGAGACTATTCTAGAGAATGGAG
ATTCTCATTCAACGATCATCACCGGTTCAAGTGGTGATTTTGGAGAGACTACAACGATGT
TTGAGAACAGATTGAATTACTATGGTGGTGGTGGTAGTGGTAGTAGTGGTGGTGGTTGTG
TCGTGACTCTATTAGATGGGCAAACTGTTCATCATAATGGGTTCAATTTTGGTGAGTTAA
GGCAGAGGAATGTTAATGGTAGTGTTGATGGGAGTAATGATGAGCGGTGGTCTGATACTT
TGAGTTCTGATAAGAAGTTATATATGGAGGAGACTAGTGTGGAGCTAAGCCCTTCTGAGA
ATCCACCGTTTCAAGAAGTGCAGCATCAGTTTCCAAGAAGTGAGATTAATGGGAATGTGG
TTAGGAGATTAGATACAGAAGCTTCTTTGGATTGGAAACAGCTTGTGGCTGATGACCCTG
ATTGTAAGTTTCAAACTTTTCTACTTTGGATTGGTTTTTGTGGTGGTCTGAGGCTTGGAT
AATGAATGTTTATGTACAATGATGTTTTGTTATCAGTTCTTTCTGCTGAGACGAGGTCAC
CTATGAAATACTTTATGGAGGAAATTTATGGTGGGATCTCATTACGGAGCACAACGACTC
CTGGGAATGATATCGAGCGCGAAAGAATATATGATACAATCTTCCGTTTGCCATGGCGAT
GTGAAGTGGTAAAACTGGCTTTCCTCTTCTTTGACAGAATGAACATTTGTTGTTTAGCTA
GGTGTGTTATTTGTGTACCTCTGCTGATAAGTTTGTATGGATGGCGATGGAAATCTACCT
GTTATGTGATTGTGAAGGGCTACCTAAATGAGAGTTCAATGTATATATATGTATGCTTCT
GTTTTGTGATTTACACAGAGGTTTTTCACATTGTAAAGAATTTTAATGCAGCTTATAGAT
ACTGGCTTTTTTGTCTGCGTCAACTCATTTCTGTCATTGTTGACAGTCATGCCAATAAGA
GTCCTGCTGATATTTATGGATGCATTTAAGAACAGGTGAGTCTTTTTTAGATTCTTCGTT
GATAATAACACACTTAATATATTGCTATAAACTGGACTTTCACACCAAATTGTGCATCTT
TGAAGCAAGTGTAACATGCCTTGATCATACTATTCGCTATACACATGATCCTGCTATTCC
CTTTGTTAGAAAGTATCTTAATAATATTTGTGGCAGGCAGTTCAGGAGGCCCTCTGCATC
GGAGCTGTCTGATCTGGCTTGTTTTCTAGTTTTGGCCACTGGTACCATTCTTCTCGGGAG
AACAGGTGTGGTAAAAAGCTCCTCATTTGCTTAAGCTAGTAATATATGTCATGTCTACTC
TATCAAAATCTCTGCAGTGGTACATGGGTTGCATAGGGCATTACTTAATCTGTTTATTAT
TATATGGACAAGCTTAGCACTTCTGTTAAAAAAATGGATTTGTCTTTTCAGCTCATCAAA
GTGATGGGAAAATGGATTCTCAAACAGTTCCCTTGTGTGTTTTTGTTTGTTTCCACAGAT
ATCAGCCTAATTTACCACATGATTCGTGGTCAAAGTACCATAAAACTCTATGTGGTTTAT
AATATCTTAGAGGTAAAGTAAACCCTTTTTAGATAATTTATTTCTGCTATGAATTTTCAT
GTTCATTTCGCTTTTTCCCTTGTATTTCTTACATGGTTTAGTTGGTTTGTATTTGTCTTT
TCGCTGCACACTTTTCTGTCCAGTTTACCTTATTCTCTATTCAACTGGTATTGACACATA
TATAAATATTATATTCCAGATATTTGATAGACTCTGTCAAAGTTTTTGTGGAGATGTATT
TGGAGCCCTATTCAGTTCTGCAAAGGGACTGTCGATTTCTCCTCCTGAGAAACTGAGATT
TTCGACTTGGAGATTTGTTTCTGACCTAGCATTAACTATGGCTGCCTCAAATATCCTTAC
AGCGTGATTGCTAGTTTGATTTCTGATAACTACTTCCAACATCTTTATTCTGTTGTGTCC
TTAACTGTCTTCACTTCTCCATTCATTCATTTTATTAGCTCAGGCAATTACGTTGTCAAC
TTGTATTGTTGCTCACAACAATGCCTTGTTGGCCCTTCTGGTGTCAAATAACTTTGCTGA
GATCAAGAGCAGTGTCTTTAAGCGTTTCAGCAAGGACAACATTCATGGTCTAGTATATGC
GGGTAAGCTTTTACTCCGTGCCCTTTGTAGAATCTTGTGCCTTGAATACTAGGCCTCCTA
TGGCTCTGATCATTAGCTTAGTACTTCAAACATTTTCAATCACCTGTCAAAATGGGATCT
GAGTTAGACTGTAATTCCAGCTGTTAGCTTTGGTTTTTGATTGGTATGTTTTGTTTCCCT
TACTATTTCTCTACCAGATTCAATAGAGAGATTCCACATATCGGCCTTCTTGGTGTCAGT
TTTGGCTCAAAATATTCTCGAGTCTGAAGGTGCATGGTTTGGAAATTTCATCTACGTAAG
TGTACATAATTCTCTGGTAGATATAAAATTTTGTACAAGCCTCTTTCCAGGTTGCCTAAA
AGTAAATATACTTGGACTCTGCAGAATGCTACTACGGTCTTCTTCTGTGAGATGATGATA
GACATCATCAAGCATTCATTTCTTGCCAAGTTCAATGACATCAAACCTATAGCGTACTCT
GAGTTTCTTCAAGCCCTCTGCGAGCAGGTATGGATCATACAGCCTTTCTCTCTCTCTCTT
GTGCTGTTACATTGGCCCTATAAAATGCCATTGCTGCGTCATCTTACATCCATATATCTT
TCTCTGGTATTGTCAGACTTTGAACATTCGTCCGGAAGATAGAAAGACAAATCTCACCTT
TGTTCCCCTTGCACCTGCTTGTGTGGTATATTCCTCCTCTTCCCTTTTGACCTAAAAACT
CAATTGTGATAAGTAAAAAAAGAAGAAGCTTGGAATGATTTTGAGTGTATATTTTGGGAC
CTCAGGTGATCCGAGTACTGACACCAGTATACGCAGCACACTTGCCATACAGTCCACTCC
CATGGAGAATGTTGTGGATGGTCATCTTATTCGTCATAACATATATAATGCTCACAAGCC
TCAAAGTTCTCATCGGCATGGGACTGAGAAAACATGCAACTTGGTATATTAATCGATGCC
GAAGAAGAAACTCCTCCCATCTCCACAATGATTAGGCTGAAGATCATCTTTTGTGATCTT
ATTATACGTGTTTAAATATTCGATGAAGCGATTTTTGTTGTGGTTAGGCATATATACATA
TGTACAAAGAAAGAGACCTCATGGATCATTTGGCAAAAAGCCATCACAAGACAAAGAATA
GCTATTACTCT
>AT2G15790.1 | SQN (SQUINT) peptidyl-prolyl cis-trans isomerase
TTTGTCTCTTCCTCTGATTCTTTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTC
TCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTGTCTCGTCTTTGTTTCGGT
TTCAAGAAAGCAAGAGGAAGAAGAAGAAGAAGAAGATGGGTAGGTCAAAGTGTTTCATGG
ACATTAGCATTGGAGGTGAGCTTGAAGGAAGGATTGTTATTGAGCTTTACGATGATGTTG
TTCCCAAAACCGCTGAGAATTTTCGATTACTCTGTACCGGTGAGAAGGGTTTAGGTCCAA
ATACTGGTGTACCTCTCCATTACAAGGTTCTCTCTTTCTCTCTATATCTTTGTTTATACT
CTCTTATGTATGAAATGTAGAAATGGGTATTTGTTGTTTCTGTGATTTAGGGTTTGTGGT
TTAATGGGTCATTCGTCATTGGGGTTTATAAAGATCAAAACTTGGTTAAATTTGCAATTA
GTTGTGAAAGAAAGATCAAAACTTTAGGATGCAATTGTACTATAGAATGGTTCTGAATGC
TTATGATTTGAGGTTTAATGGGTTTTTGCTCGTATTGCTGAATAGCTTCTGACTTTGTTT
CAGTATTGCAATTAGGTTACTGTAGTTTGTAGTGGTGAGGTAAAGATCAAAACTTTAGGT
TGAAATTGTACTATAGGATGATGTACTTATGGTATTTGGTGTATTTGTTTACAGGGGAAT
CGATTTCATCGTGTTATCAAGGGGTTTATGATACAAGGTGGGGATATATCAGCTAATGAT
GGTACTGGTGGTGAGTCTATCTATGGCTTGAAGTTTGACGATGAGAATTTTGAGCTGAAA
CATGAGAGGAAAGGGATGCTCTCTATGGCTAACTCTGGTCCCAACACTAATGGCTCTCAG
TTTTTCATTACGACAACTCGCACTTCTCATTTAGATGGGAAACATGTTGTGTTTGGAAGG
GTTACGAAAGGAATGGGTGTTGTTCGGTCGATTGAGCATGTTAGCATAGAGGAACAGTCT
TGTCCTTCTCAGGATGTTGTGATCCATGACTGTGGAGAAATCCCTGAGGGTGCAGATGAT
GGGATTTGTGACTTTTTCAAGGATGGTGATGTGTACCCTGACTGGCCTATTGATCTGAAT
GAAAGCCCAGCTGAGTTATCTTGGTGGATGGAGACTGTTGATTTTGTCAAGGCTCATGGG
AATGAGCACTTTAAGGTGCTTTTTCCATTGTTTTAAATTGAATATATACGTTTGTCTGTT
CCATATTTTCATTTCTGTGAGTCTGATCTGTTTTTGACCTTGATTTACTCTCAGAAACAA
GACTATAAGATGGCTCTTAGAAAGTACCGTAAGGCTTTACGCTATCTGGATATTTGCTGG
GAGAAAGAGGGCATTGATGAAGGTGGTTTATCAGTTTTTCTCTCTATATATGTTTCCACT
TACTTCATCTCAAAAAATATTTATACTATCCATACCAATGTTCCCACTCACTCTCTACTT
GGGATCTTGTAGAGACGAGTACTGCCTTGCGTAAGACAAAGTCGCAGATCTTCACTAATA
GTGCTGTAAGTTCATCATGCTTTTACACCTTTTTTAAAGCTACATACATCCTTGTTGATA
TCTTTTCTTGTAAGTTGAACATATCTACCTTATATGTGTGTGTGCTTTACGTACCATCTG
AAGATTGATTGTCTTTGGAGTCGTTGATTTTTCCAAAAGAACTTAAATTTCTTACTCTGT
TGGGTTTTTAACATTACAATTTTTTTTGTTGAATCTGCTTAATTCTTACGGATGAGCTGT
ACCGTCGATAGAATGATAAGCAATTGATTGTGAACTAAAAATTAATTTGAAGTGCTCTAC
ACTGCAGACCTGTCATTTATGTTGGTTTCTGCTGTTTGATTAATTTCTTGGGAAAAAGTA
GGGTAGGTTGACCTTGACATAAGCAGGATAATATTCTCTGAGATTATGCTTGTGGGACAT
ACATTGCTCATATGAATTATTGTTTGCATCTCTGTTTACGTTGCCAGTGTTTTCACTTGT
CCAACTTAATTGCTTTGTTGTGCCTGTATAACCGATTTTTTTTTACTATGTTATCTCATT
GTATTGTAACTGGCTGTTGTGGCAGGCCTGCAAACTCAAATTCGGAGATGCAAAAGGAGC
GTTGTTGGACACTGAATTTGCTATGCGTGATGAAGATAACAATGTTAAAGCATTGTTTCG
ACAAGGCCAGGTACTTAAAAACTTATTGTTTGACAGTTTTCTAGAACCTAGACCACAATA
ACGAAAATTCTAGATTTCTCATGAGAGGAAGATGGTGTCTATTTCTTATCTGCGTTTGTT
TATAATGTTAGGCATACATGGCTCTTAATAACGTCGATGCTGCTGCTGAAAGCCTTGAGA
AAGCTCTTCAATTCGAACCTAATGACGGTGAGTGATTCATCAAGCTTCTATTAGTTGTGG
TTTGACAAGTTTGGTTCATCATTATCAATGTATGAACATAGTACAACACACTTAAATATA
TTACGAGAGAAATCTAACTAGCATTTATTTCTGTGAGTTGATTTTTCAGCTGGTATCAAG
AAAGAATATGCTGCTGTTATGAAAAAGGTCGGTATGCGGATAAAGAACACAAGTTCTTTT
TGCAGTTACTTTACTTCTAGTATAAAATCTTAGAGCTGACGTTAATAACCATGTGTTGCA
GATTGCCTTTAGAGACAACGAAGAGAAAAAGCAGTACCGCAAAATGTTCGTATAGGGGGG
GGGGGGGGTGCTCTGCTTCATTTAGGGTAAGCCTAAGATTTGTTGTTAATCTCAGAAAAC
TGACCTAGTGTAAGCTTTATGTCAACTAATTTAACTCTCAGGGTTTTTGATGTTGTCTAT
GTAGGTTTGGTCGGATAGTGAGGAAGAAGACTAACAAAAAGTGAAAAGAAGCATATAAAG
AAAGAAAAAACATTCAAAAAAGGACTTTGGGAATTGTTTCTATTTCCCTCATTTTGGTAA
ACATGTTTTTACTTTTGCATCATGGCAAAGACTGATGCATAGTAATATCGACTGGGAAAT
TGTTTTTACCCAAAGGATAGATTCAGTGCTTGAGACTGTTAATGAAATTTTGAGTTACTT
GGCCA