Sequences
The following sequences are available for this feature:
Legend: exon five_prime_UTR CDS polypeptide three_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
ACAGTTCAACTTTGTAACCAGCGCAGCTGCGCTAAGTTCTGAGTTCCCACCTTATCTCTTTCCTTCTTCCTCCAACAAATTCTGCATCTCTTTCTTTTCCTCAGCAACTACA ATGGCCGATGGCGACTCAAGTGAAACCGTGGCCTCTCAACAGAAGGAGGAAAGAGAAGAAAAGCAAAGTGACCTGAGTTCGTCGGATAGTTCAGAATCCGAATATGACTCCGACGACGCATCGGAAGGTGAATACGAAGAGGAAGAACCACTCATTTATACTCGACGGACAGAGGAGCTGACGGAGACGGACAACAATGAGGAAACGAACGTTAGACGGCTTAGTCAAGCCCTCGGCGGAAAGCTCGTGAAGAAGATGCAAGAAGAGGAGGAAGAGACCGTTGTGTATCATGAAGACCTCTATGATTTTCCCAAAGACCCTGAGAATTGGACTGAGGAGGACCTGCAGGAGCTTTGGATGGATGCTCCATTGGAAATGGAAAAGCCTGGTTGGGACCCAATTTGGGCTGACGAGAAGGATTGGGAGGTAATGAGGGACGAGGTTGAGGCTGGGAAAGATCCTCCGATAGCGCCATTCTACGTCCCTTATCGGAAGCCATACCCTGTAATTCCAGATAACCATTTTGATATACCAAATGCAAAATCAGTGATTGAAGAATTGGATAGAATTGAGGAATTTCTCAAATGGGTCGGCTACATTTTTCCTGATGGAAGCTC GTATGAAGGAACTGTTTGGGATGATTTGGCTCATGGTAAAGGTGTTTACGTTGCTGAACTGGGGCTGGTCAG GTATGAAGGTGAATGGGTTCGGAACAATATGGAGGGTCATGGGGTGGTTGAGGTTGATATTCCTGACATAGAACCTGTGCCTGGTTCCAA GCTTGAGAAAAAGATGCGTGCGGAAGGAAAAATAATCTCGAGAGATTATATGACTCCAGAAGACAAAAATTGGCTGGAAATGGATATTGAAGATAGTATCCATCTGGCTGGAGGAAATTATGAAATTCCTTTTTACGAGAGAAAGGAATGGATCAAATATTTTGGAGGGAAACC GGAGAAAGGTCGGTACCGCTATGCTGGTGAATGGAAGCACGGCAGGATGCATGGATGTGGAGTGTATGAAGTTAACGAACGTCCAATATGG GGCAGGTTCTATTTTGGGGAGCTGTTGTATGATTCTACTGGATGTGATGAGGACACTTCAGCG CTTCATGCAAGCTTAGCAGAAGTTGCTGCAGCAAAGGCCCGAATGTTTGTCAACAAACCTGATGGAA TGATTAGAGAAGAGAGAGGTCCATATGGTGATCCTCAGCATCCCTATTTCTATGAGGAAGAAGATACATGGATGGCGCCAGGTTTCATCAATCAGTTTTACGAA GTACCTGACTACTGGAAAACGTACGTGCACGAGGTAGATGAGGAGAGAGAAATGTGGTTAAATTCCTTTTATAAAGCTCCGCTGAGATTACCAATGCCTGCAGAACTTGAATACTGGTGGGCACAAG ATCATACTCCCGAGTTCGTTCTCGTCAACAAGGAACCAGAGCCTGATCCTGAAGATCCATCAAAGCTTGTATATACTGAAGATCCTCTCATCCTACACACACCAACAGGACGGTTAATCAATTATGTTGAGGATGAGGAGCATGGGGTTCGCATGTTTTGGCAGCCACAGGTGGAAGAAGAGGAAGATGTAGACCCGGAGAAGGTCGAGTTCTTACCACTTGGCTTTGATGAGTTTTATGGGACAAAGACACCTGAAAAGAAGGAAAACATTTTGATGCGGCTAATATCCACCCTGGAAAATGGATTGAAACCGAAGCTCGAAAAATTTGGAAAATGGGCTGAAGAGAAAAAGAAAGAGAGTGAGTTGAAGAAGCAACTAATTGAAAAGGAACTCGAACTGATAGAAGCTGAAATTTGTTTGGAAGAGGCCATAGAGGATATGGATGAGATGCTGAAAACGAAAGAGAAAGAGGAATCAACCAACCAAGATAAAAAGGCTTCGGTCGAAGAGGAAGGTGAAGACGATGAAGACGACGATGACAATGACGTGGATGATTCTCCACCGTCCAGTTTTGATGCGCCACCTTCCAGTTTTGGCTCTGTTTCAGCTGATCAGAAGCCAAGCAAGCCACGAGATTCACCCTTTTCTACAGCTTCACTGCATTTTGCTTCTAGTACTCTTGTTTCTGGG GTACCATCCAGACTGATTCAATCCATTTTGCCCTGGACCAAGGGTAGATCGACGTTAAAGGCGCCACCGCCGTCCTCACGTGATGACCGCCACTATTGCTCGGAATCTTTTCATTCAGTCTGTTTTCCAAGGATGCCAAGCTCAAGGGGAAGCTTGAAGGCCATTGTACCATCAAAATTGCAGAACAAATCCAGAATCCACCCAATTCAAATGAAATTGCAGCTGCAGCTGCAGCTGCGTTCAAGACCTGAAATTCATTCATGCCACCACTTAGTTTCGTTAAATCCCAACGAGTTTCCGATGTGTAACGGTCAGTTCTCCGAAACAGGAGGGATTAAACACAGCATACTGTCTTGGCACACACCATTAGATGAGTTGGAATCATATATAGATACTACCAAAAGATAG GCTTTTGTTTAACTTTTTCTTTACTTGATTTCAGAGATAAATTTTGCAAGAACTACATTGGATTAGTTGTATTTCTTTAAACGTACATCACATAGCGATGAAATGGGTTTCAGGCCGCTTTTAAGATTAACTTGTTTCTCTCTGTTACTAATCAGGATGGATTCTCCCGCACGTGAATTTAACACTTTAACGGC GTTTTGTAAAGAATGTTTCGTTCTTCTTTTCAACCGATGTAGAATCTCACAAACACGATATCAAAGAAGAAGAGCAACATGGACTGTTTCCTACCTCTTGAGACTAAAATCAGCGGTATCACAGCCAAAATTTGTTTACCTAACGTAGCTAAGTGACAAGTGATCGCTAAATGTCTCAACATTCAAACCAG
ACAGTTCAACTTTGTAACCAGCGCAGCTGCGCTAAGTTCTGAGTTCCCACCTTATCTCTTTCCTTCTTCCTCCAACAAATTCTGCATCTCTTTCTTTTCCTCAGCAACTACAATGGCCGATGGCGACTCAAGTGAAACCGTGGCCTCTCAACAGAAGGAGGAAAGAGAAGAAAAGCAAAGTGACCTGAGTTCGTCGGATAGTTCAGAATCCGAATATGACTCCGACGACGCATCGGAAGGTGAATACGAAGAGGAAGAACCACTCATTTATACTCGACGGACAGAGGAGCTGACGGAGACGGACAACAATGAGGAAACGAACGTTAGACGGCTTAGTCAAGCCCTCGGCGGAAAGCTCGTGAAGAAGATGCAAGAAGAGGAGGAAGAGACCGTTGTGTATCATGAAGACCTCTATGATTTTCCCAAAGACCCTGAGAATTGGACTGAGGAGGACCTGCAGGAGCTTTGGATGGATGCTCCATTGGAAATGGAAAAGCCTGGTTGGGACCCAATTTGGGCTGACGAGAAGGATTGGGAGGTAATGAGGGACGAGGTTGAGGCTGGGAAAGATCCTCCGATAGCGCCATTCTACGTCCCTTATCGGAAGCCATACCCTGTAATTCCAGATAACCATTTTGATATACCAAATGCAAAATCAGTGATTGAAGAATTGGATAGAATTGAGGAATTTCTCAAATGGGTCGGCTACATTTTTCCTGATGGAAGCTCGTATGAAGGAACTGTTTGGGATGATTTGGCTCATGGTAAAGGTGTTTACGTTGCTGAACTGGGGCTGGTCAGGTATGAAGGTGAATGGGTTCGGAACAATATGGAGGGTCATGGGGTGGTTGAGGTTGATATTCCTGACATAGAACCTGTGCCTGGTTCCAAGCTTGAGAAAAAGATGCGTGCGGAAGGAAAAATAATCTCGAGAGATTATATGACTCCAGAAGACAAAAATTGGCTGGAAATGGATATTGAAGATAGTATCCATCTGGCTGGAGGAAATTATGAAATTCCTTTTTACGAGAGAAAGGAATGGATCAAATATTTTGGAGGGAAACCGGAGAAAGGTCGGTACCGCTATGCTGGTGAATGGAAGCACGGCAGGATGCATGGATGTGGAGTGTATGAAGTTAACGAACGTCCAATATGGGGCAGGTTCTATTTTGGGGAGCTGTTGTATGATTCTACTGGATGTGATGAGGACACTTCAGCGCTTCATGCAAGCTTAGCAGAAGTTGCTGCAGCAAAGGCCCGAATGTTTGTCAACAAACCTGATGGAATGATTAGAGAAGAGAGAGGTCCATATGGTGATCCTCAGCATCCCTATTTCTATGAGGAAGAAGATACATGGATGGCGCCAGGTTTCATCAATCAGTTTTACGAAGTACCTGACTACTGGAAAACGTACGTGCACGAGGTAGATGAGGAGAGAGAAATGTGGTTAAATTCCTTTTATAAAGCTCCGCTGAGATTACCAATGCCTGCAGAACTTGAATACTGGTGGGCACAAGATCATACTCCCGAGTTCGTTCTCGTCAACAAGGAACCAGAGCCTGATCCTGAAGATCCATCAAAGCTTGTATATACTGAAGATCCTCTCATCCTACACACACCAACAGGACGGTTAATCAATTATGTTGAGGATGAGGAGCATGGGGTTCGCATGTTTTGGCAGCCACAGGTGGAAGAAGAGGAAGATGTAGACCCGGAGAAGGTCGAGTTCTTACCACTTGGCTTTGATGAGTTTTATGGGACAAAGACACCTGAAAAGAAGGAAAACATTTTGATGCGGCTAATATCCACCCTGGAAAATGGATTGAAACCGAAGCTCGAAAAATTTGGAAAATGGGCTGAAGAGAAAAAGAAAGAGAGTGAGTTGAAGAAGCAACTAATTGAAAAGGAACTCGAACTGATAGAAGCTGAAATTTGTTTGGAAGAGGCCATAGAGGATATGGATGAGATGCTGAAAACGAAAGAGAAAGAGGAATCAACCAACCAAGATAAAAAGGCTTCGGTCGAAGAGGAAGGTGAAGACGATGAAGACGACGATGACAATGACGTGGATGATTCTCCACCGTCCAGTTTTGATGCGCCACCTTCCAGTTTTGGCTCTGTTTCAGCTGATCAGAAGCCAAGCAAGCCACGAGATTCACCCTTTTCTACAGCTTCACTGCATTTTGCTTCTAGTACTCTTGTTTCTGGGGTACCATCCAGACTGATTCAATCCATTTTGCCCTGGACCAAGGGTAGATCGACGTTAAAGGCGCCACCGCCGTCCTCACGTGATGACCGCCACTATTGCTCGGAATCTTTTCATTCAGTCTGTTTTCCAAGGATGCCAAGCTCAAGGGGAAGCTTGAAGGCCATTGTACCATCAAAATTGCAGAACAAATCCAGAATCCACCCAATTCAAATGAAATTGCAGCTGCAGCTGCAGCTGCGTTCAAGACCTGAAATTCATTCATGCCACCACTTAGTTTCGTTAAATCCCAACGAGTTTCCGATGTGTAACGGTCAGTTCTCCGAAACAGGAGGGATTAAACACAGCATACTGTCTTGGCACACACCATTAGATGAGTTGGAATCATATATAGATACTACCAAAAGATAGGCTTTTGTTTAACTTTTTCTTTACTTGATTTCAGAGATAAATTTTGCAAGAACTACATTGGATTAGTTGTATTTCTTTAAACGTACATCACATAGCGATGAAATGGGTTTCAGGCCGCTTTTAAGATTAACTTGTTTCTCTCTGTTACTAATCAGGATGGATTCTCCCGCACGTGAATTTAACACTTTAACGGCGTTTTGTAAAGAATGTTTCGTTCTTCTTTTCAACCGATGTAGAATCTCACAAACACGATATCAAAGAAGAAGAGCAACATGGACTGTTTCCTACCTCTTGAGACTAAAATCAGCGGTATCACAGCCAAAATTTGTTTACCTAACGTAGCTAAGTGACAAGTGATCGCTAAATGTCTCAACATTCAAACCAG
ATGGCCGATGGCGACTCAAGTGAAACCGTGGCCTCTCAACAGAAGGAGGAAAGAGAAGAAAAGCAAAGTGACCTGAGTTCGTCGGATAGTTCAGAATCCGAATATGACTCCGACGACGCATCGGAAGGTGAATACGAAGAGGAAGAACCACTCATTTATACTCGACGGACAGAGGAGCTGACGGAGACGGACAACAATGAGGAAACGAACGTTAGACGGCTTAGTCAAGCCCTCGGCGGAAAGCTCGTGAAGAAGATGCAAGAAGAGGAGGAAGAGACCGTTGTGTATCATGAAGACCTCTATGATTTTCCCAAAGACCCTGAGAATTGGACTGAGGAGGACCTGCAGGAGCTTTGGATGGATGCTCCATTGGAAATGGAAAAGCCTGGTTGGGACCCAATTTGGGCTGACGAGAAGGATTGGGAGGTAATGAGGGACGAGGTTGAGGCTGGGAAAGATCCTCCGATAGCGCCATTCTACGTCCCTTATCGGAAGCCATACCCTGTAATTCCAGATAACCATTTTGATATACCAAATGCAAAATCAGTGATTGAAGAATTGGATAGAATTGAGGAATTTCTCAAATGGGTCGGCTACATTTTTCCTGATGGAAGCTCGTATGAAGGAACTGTTTGGGATGATTTGGCTCATGGTAAAGGTGTTTACGTTGCTGAACTGGGGCTGGTCAGGTATGAAGGTGAATGGGTTCGGAACAATATGGAGGGTCATGGGGTGGTTGAGGTTGATATTCCTGACATAGAACCTGTGCCTGGTTCCAAGCTTGAGAAAAAGATGCGTGCGGAAGGAAAAATAATCTCGAGAGATTATATGACTCCAGAAGACAAAAATTGGCTGGAAATGGATATTGAAGATAGTATCCATCTGGCTGGAGGAAATTATGAAATTCCTTTTTACGAGAGAAAGGAATGGATCAAATATTTTGGAGGGAAACCGGAGAAAGGTCGGTACCGCTATGCTGGTGAATGGAAGCACGGCAGGATGCATGGATGTGGAGTGTATGAAGTTAACGAACGTCCAATATGGGGCAGGTTCTATTTTGGGGAGCTGTTGTATGATTCTACTGGATGTGATGAGGACACTTCAGCGCTTCATGCAAGCTTAGCAGAAGTTGCTGCAGCAAAGGCCCGAATGTTTGTCAACAAACCTGATGGAATGATTAGAGAAGAGAGAGGTCCATATGGTGATCCTCAGCATCCCTATTTCTATGAGGAAGAAGATACATGGATGGCGCCAGGTTTCATCAATCAGTTTTACGAAGTACCTGACTACTGGAAAACGTACGTGCACGAGGTAGATGAGGAGAGAGAAATGTGGTTAAATTCCTTTTATAAAGCTCCGCTGAGATTACCAATGCCTGCAGAACTTGAATACTGGTGGGCACAAGATCATACTCCCGAGTTCGTTCTCGTCAACAAGGAACCAGAGCCTGATCCTGAAGATCCATCAAAGCTTGTATATACTGAAGATCCTCTCATCCTACACACACCAACAGGACGGTTAATCAATTATGTTGAGGATGAGGAGCATGGGGTTCGCATGTTTTGGCAGCCACAGGTGGAAGAAGAGGAAGATGTAGACCCGGAGAAGGTCGAGTTCTTACCACTTGGCTTTGATGAGTTTTATGGGACAAAGACACCTGAAAAGAAGGAAAACATTTTGATGCGGCTAATATCCACCCTGGAAAATGGATTGAAACCGAAGCTCGAAAAATTTGGAAAATGGGCTGAAGAGAAAAAGAAAGAGAGTGAGTTGAAGAAGCAACTAATTGAAAAGGAACTCGAACTGATAGAAGCTGAAATTTGTTTGGAAGAGGCCATAGAGGATATGGATGAGATGCTGAAAACGAAAGAGAAAGAGGAATCAACCAACCAAGATAAAAAGGCTTCGGTCGAAGAGGAAGGTGAAGACGATGAAGACGACGATGACAATGACGTGGATGATTCTCCACCGTCCAGTTTTGATGCGCCACCTTCCAGTTTTGGCTCTGTTTCAGCTGATCAGAAGCCAAGCAAGCCACGAGATTCACCCTTTTCTACAGCTTCACTGCATTTTGCTTCTAGTACTCTTGTTTCTGGGGTACCATCCAGACTGATTCAATCCATTTTGCCCTGGACCAAGGGTAGATCGACGTTAAAGGCGCCACCGCCGTCCTCACGTGATGACCGCCACTATTGCTCGGAATCTTTTCATTCAGTCTGTTTTCCAAGGATGCCAAGCTCAAGGGGAAGCTTGAAGGCCATTGTACCATCAAAATTGCAGAACAAATCCAGAATCCACCCAATTCAAATGAAATTGCAGCTGCAGCTGCAGCTGCGTTCAAGACCTGAAATTCATTCATGCCACCACTTAGTTTCGTTAAATCCCAACGAGTTTCCGATGTGTAACGGTCAGTTCTCCGAAACAGGAGGGATTAAACACAGCATACTGTCTTGGCACACACCATTAGATGAGTTGGAATCATATATAGATACTACCAAAAGATAG
MADGDSSETVASQQKEEREEKQSDLSSSDSSESEYDSDDASEGEYEEEEPLIYTRRTEELTETDNNEETNVRRLSQALGGKLVKKMQEEEEETVVYHEDLYDFPKDPENWTEEDLQELWMDAPLEMEKPGWDPIWADEKDWEVMRDEVEAGKDPPIAPFYVPYRKPYPVIPDNHFDIPNAKSVIEELDRIEEFLKWVGYIFPDGSSYEGTVWDDLAHGKGVYVAELGLVRYEGEWVRNNMEGHGVVEVDIPDIEPVPGSKLEKKMRAEGKIISRDYMTPEDKNWLEMDIEDSIHLAGGNYEIPFYERKEWIKYFGGKPEKGRYRYAGEWKHGRMHGCGVYEVNERPIWGRFYFGELLYDSTGCDEDTSALHASLAEVAAAKARMFVNKPDGMIREERGPYGDPQHPYFYEEEDTWMAPGFINQFYEVPDYWKTYVHEVDEEREMWLNSFYKAPLRLPMPAELEYWWAQDHTPEFVLVNKEPEPDPEDPSKLVYTEDPLILHTPTGRLINYVEDEEHGVRMFWQPQVEEEEDVDPEKVEFLPLGFDEFYGTKTPEKKENILMRLISTLENGLKPKLEKFGKWAEEKKKESELKKQLIEKELELIEAEICLEEAIEDMDEMLKTKEKEESTNQDKKASVEEEGEDDEDDDDNDVDDSPPSSFDAPPSSFGSVSADQKPSKPRDSPFSTASLHFASSTLVSGVPSRLIQSILPWTKGRSTLKAPPPSSRDDRHYCSESFHSVCFPRMPSSRGSLKAIVPSKLQNKSRIHPIQMKLQLQLQLRSRPEIHSCHHLVSLNPNEFPMCNGQFSETGGIKHSILSWHTPLDELESYIDTTKR
Homology
BLAST of CmaCh02G013500 vs. ExPASy Swiss-Prot
Match:
Q8LPR8 (Protein TIC 100 OS=Arabidopsis thaliana OX=3702 GN=TIC100 PE=1 SV=1)
HSP 1 Score: 942.2 bits (2434), Expect = 4.0e-273
Identity = 496/862 (57.54%), Postives = 603/862 (69.95%), Query Frame = 0
BLAST of CmaCh02G013500 vs. TAIR 10
Match:
AT5G22640.1 (MORN (Membrane Occupation and Recognition Nexus) repeat-containing protein )
HSP 1 Score: 942.2 bits (2434), Expect = 2.9e-274
Identity = 496/862 (57.54%), Postives = 603/862 (69.95%), Query Frame = 0
BLAST of CmaCh02G013500 vs. TAIR 10
Match:
AT5G22640.2 (MORN (Membrane Occupation and Recognition Nexus) repeat-containing protein )
HSP 1 Score: 814.3 bits (2102), Expect = 9.0e-236
Identity = 440/833 (52.82%), Postives = 537/833 (64.47%), Query Frame = 0
The following BLAST results are available for this feature:
Match Name E-value Identity Description
Q8LPR8 4.0e-273 57.54 Protein TIC 100 OS=Arabidopsis thaliana OX=3702 GN=TIC100 PE=1 SV=1 [more]
Match Name E-value Identity Description
AT5G22640.1 2.9e-274 57.54 MORN (Membrane Occupation and Recognition Nexus) repeat-containing protein [more] AT5G22640.2 9.0e-236 52.82 MORN (Membrane Occupation and Recognition Nexus) repeat-containing protein [more]
InterPro
Analysis Name: InterPro Annotations of Cucurbita maxima (Rimu) v1.1
Date Performed: 2021-10-25
A C A G T T C A A C T T T G T A A C C A G C G C A G C T G C G C T A A G T T C T G A G T T C C C A C C T T A T C T C T T T C C T T C T T C C T C C A A C A A A T T C T G C A T C T C T T T C T T T T C C T C A G C A A C T A C A A T G G C C G A T G G C G A C T C A A G T G A A A C C G T G G C C T C T C A A C A G A A G G A G G A A A G A G A A G A A A A G C A A A G T G A C C T G A G T T C G T C G G A T A G T T C A G A A T C C G A A T A T G A C T C C G A C G A C G C A T C G G A A G G T G A A T A C G A A G A G G A A G A A C C A C T C A T T T A T A C T C G A C G G A C A G A G G A G C T G A C G G A G A C G G A C A A C A A T G A G G A A A C G A A C G T T A G A C G G C T T A G T C A A G C C C T C G G C G G A A A G C T C G T G A A G A A G A T G C A A G A A G A G G A G G A A G A G A C C G T T G T G T A T C A T G A A G A C C T C T A T G A T T T T C C C A A A G A C C C T G A G A A T T G G A C T G A G G A G G A C C T G C A G G A G C T T T G G A T G G A T G C T C C A T T G G A A A T G G A A A A G C C T G G T T G G G A C C C A A T T T G G G C T G A C G A G A A G G A T T G G G A G G T A A T G A G G G A C G A G G T T G A G G C T G G G A A A G A T C C T C C G A T A G C G C C A T T C T A C G T C C C T T A T C G G A A G C C A T A C C C T G T A A T T C C A G A T A A C C A T T T T G A T A T A C C A A A T G C A A A A T C A G T G A T T G A A G A A T T G G A T A G A A T T G A G G A A T T T C T C A A A T G G G T C G G C T A C A T T T T T C C T G A T G G A A G C T C G T A T G A A G G A A C T G T T T G G G A T G A T T T G G C T C A T G G T A A A G G T G T T T A C G T T G C T G A A C T G G G G C T G G T C A G G T A T G A A G G T G A A T G G G T T C G G A A C A A T A T G G A G G G T C A T G G G G T G G T T G A G G T T G A T A T T C C T G A C A T A G A A C C T G T G C C T G G T T C C A A G C T T G A G A A A A A G A T G C G T G C G G A A G G A A A A A T A A T C T C G A G A G A T T A T A T G A C T C C A G A A G A C A A A A A T T G G C T G G A A A T G G A T A T T G A A G A T A G T A T C C A T C T G G C T G G A G G A A A T T A T G A A A T T C C T T T T T A C G A G A G A A A G G A A T G G A T C A A A T A T T T T G G A G G G A A A C C G G A G A A A G G T C G G T A C C G C T A T G C T G G T G A A T G G A A G C A C G G C A G G A T G C A T G G A T G T G G A G T G T A T G A A G T T A A C G A A C G T C C A A T A T G G G G C A G G T T C T A T T T T G G G G A G C T G T T G T A T G A T T C T A C T G G A T G T G A T G A G G A C A C T T C A G C G C T T C A T G C A A G C T T A G C A G A A G T T G C T G C A G C A A A G G C C C G A A T G T T T G T C A A C A A A C C T G A T G G A A T G A T T A G A G A A G A G A G A G G T C C A T A T G G T G A T C C T C A G C A T C C C T A T T T C T A T G A G G A A G A A G A T A C A T G G A T G G C G C C A G G T T T C A T C A A T C A G T T T T A C G A A G T A C C T G A C T A C T G G A A A A C G T A C G T G C A C G A G G T A G A T G A G G A G A G A G A A A T G T G G T T A A A T T C C T T T T A T A A A G C T C C G C T G A G A T T A C C A A T G C C T G C A G A A C T T G A A T A C T G G T G G G C A C A A G A T C A T A C T C C C G A G T T C G T T C T C G T C A A C A A G G A A C C A G A G C C T G A T C C T G A A G A T C C A T C A A A G C T T G T A T A T A C T G A A G A T C C T C T C A T C C T A C A C A C A C C A A C A G G A C G G T T A A T C A A T T A T G T T G A G G A T G A G G A G C A T G G G G T T C G C A T G T T T T G G C A G C C A C A G G T G G A A G A A G A G G A A G A T G T A G A C C C G G A G A A G G T C G A G T T C T T A C C A C T T G G C T T T G A T G A G T T T T A T G G G A C A A A G A C A C C T G A A A A G A A G G A A A A C A T T T T G A T G C G G C T A A T A T C C A C C C T G G A A A A T G G A T T G A A A C C G A A G C T C G A A A A A T T T G G A A A A T G G G C T G A A G A G A A A A A G A A A G A G A G T G A G T T G A A G A A G C A A C T A A T T G A A A A G G A A C T C G A A C T G A T A G A A G C T G A A A T T T G T T T G G A A G A G G C C A T A G A G G A T A T G G A T G A G A T G C T G A A A A C G A A A G A G A A A G A G G A A T C A A C C A A C C A A G A T A A A A A G G C T T C G G T C G A A G A G G A A G G T G A A G A C G A T G A A G A C G A C G A T G A C A A T G A C G T G G A T G A T T C T C C A C C G T C C A G T T T T G A T G C G C C A C C T T C C A G T T T T G G C T C T G T T T C A G C T G A T C A G A A G C C A A G C A A G C C A C G A G A T T C A C C C T T T T C T A C A G C T T C A C T G C A T T T T G C T T C T A G T A C T C T T G T T T C T G G G G T A C C A T C C A G A C T G A T T C A A T C C A T T T T G C C C T G G A C C A A G G G T A G A T C G A C G T T A A A G G C G C C A C C G C C G T C C T C A C G T G A T G A C C G C C A C T A T T G C T C G G A A T C T T T T C A T T C A G T C T G T T T T C C A A G G A T G C C A A G C T C A A G G G G A A G C T T G A A G G C C A T T G T A C C A T C A A A A T T G C A G A A C A A A T C C A G A A T C C A C C C A A T T C A A A T G A A A T T G C A G C T G C A G C T G C A G C T G C G T T C A A G A C C T G A A A T T C A T T C A T G C C A C C A C T T A G T T T C G T T A A A T C C C A A C G A G T T T C C G A T G T G T A A C G G T C A G T T C T C C G A A A C A G G A G G G A T T A A A C A C A G C A T A C T G T C T T G G C A C A C A C C A T T A G A T G A G T T G G A A T C A T A T A T A G A T A C T A C C A A A A G A T A G G C T T T T G T T T A A C T T T T T C T T T A C T T G A T T T C A G A G A T A A A T T T T G C A A G A A C T A C A T T G G A T T A G T T G T A T T T C T T T A A A C G T A C A T C A C A T A G C G A T G A A A T G G G T T T C A G G C C G C T T T T A A G A T T A A C T T G T T T C T C T C T G T T A C T A A T C A G G A T G G A T T C T C C C G C A C G T G A A T T T A A C A C T T T A A C G G C G T T T T G T A A A G A A T G T T T C G T T C T T C T T T T C A A C C G A T G T A G A A T C T C A C A A A C A C G A T A T C A A A G A A G A A G A G C A A C A T G G A C T G T T T C C T A C C T C T T G A G A C T A A A A T C A G C G G T A T C A C A G C C A A A A T T T G T T T A C C T A A C G T A G C T A A G T G A C A A G T G A T C G C T A A A T G T C T C A A C A T T C A A A C C A G 500 1000 1500 2000 2500 3000 Score = Score = Expect = 2.2E-6 / Score = 29.2 Score = Score = Score = Score = Score = Score = Score = Score = Score = Score = Score = Expect = 8.3 / Score = 7.2 Expect = 0.11 / Score = 21.2 Expect = 0.082 / Score = 12.8 Expect = 0.0072 / Score = 16.2 Expect = 6.9E-4 / Score = 19.4 Sequence Coil Coil G3DSA:2.20.110.10 mobidb-lite mobidb-lite mobidb-lite mobidb-lite mobidb-lite mobidb-lite mobidb-lite mobidb-lite PTHR23084:SF238 PTHR23084 SSF82185 SM00698 PF02493
IPR Term IPR Description Source Source Term Source Description Alignment
None No IPR available COILS Coil Coil coord: 609..629 None No IPR available COILS Coil Coil coord: 586..606 None No IPR available GENE3D 2.20.110.10 coord: 195..259 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 622..685 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 10..27 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 31..47 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 638..655 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 48..69 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 659..685 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 622..637 None No IPR available MOBIDB_LITE mobidb-lite disorder_prediction coord: 1..70 None No IPR available PANTHER PTHR23084:SF238 PROTEIN TIC 100 coord: 5..791 None No IPR available PANTHER PTHR23084 PHOSPHATIDYLINOSITOL-4-PHOSPHATE 5-KINASE RELATED coord: 5..791 None No IPR available SUPERFAMILY 82185 Histone H3 K4-specific methyltransferase SET7/9 N-terminal domain coord: 201..349 IPR003409 MORN motif SMART SM00698 morn coord: 323..344 IPR003409 MORN motif PFAM PF02493 MORN coord: 231..245
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category
Term Accession
Term Name
biological_process
GO:0009658 chloroplast organization
biological_process
GO:0009793 embryo development ending in seed dormancy
biological_process
GO:0045037 protein import into chloroplast stroma
cellular_component
GO:0009706 chloroplast inner membrane
molecular_function
GO:0008320 protein transmembrane transporter activity
