|
|
| Accession Number |
TCMCG072C08525 |
| gbkey |
CDS |
| Protein Id |
XP_021843327.1 |
| Location |
complement(join(1092931..1093058,1093926..1094004,1094099..1094278,1094366..1094464,1094644..1094785,1094875..1095020,1095138..1095335,1095448..1095540,1095622..1095708,1095838..1095946,1096068..1096156,1096252..1096335,1096450..1096581)) |
| Gene |
LOC110783307 |
| GeneID |
110783307 |
| Organism |
Spinacia oleracea |
|
|
| Length |
521aa |
| Molecule type |
protein |
| Topology |
linear |
| Data_file_division |
PLN |
| dblink |
BioProject:PRJNA396054 |
| db_source |
XM_021987635.1
|
| Definition |
FACT complex subunit SSRP1 [Spinacia oleracea] |
|
|
| COG_category |
BKL |
| Description |
Component of the FACT complex, a general chromatin factor that acts to reorganize nucleosomes. The FACT complex is involved in multiple processes that require DNA as a template such as mRNA elongation, DNA replication and DNA repair. During transcription elongation the FACT complex acts as a histone chaperone that both destabilizes and restores nucleosomal structure. It facilitates the passage of RNA polymerase II and transcription by promoting the dissociation of one histone H2A-H2B dimer from the nucleosome, then subsequently promotes the reestablishment of the nucleosome following the passage of RNA polymerase II |
| KEGG_TC |
- |
| KEGG_Module |
-
|
| KEGG_Reaction |
-
|
| KEGG_rclass |
-
|
| BRITE |
ko00000
[VIEW IN KEGG]
ko03000
[VIEW IN KEGG]
|
| KEGG_ko |
ko:K09272
[VIEW IN KEGG]
|
| EC |
-
|
| KEGG_Pathway |
-
|
| GOs |
-
|
CDS:
ATGTTGACTTTTCTCGATGGCTCAAAACAAGCATTTGAGCTATCTTTAACTGATGTCTCACAAACACAGATGCAAGGAAAAACTGATGCTATATTGGAGTTCCATTTGGATGATGCAGCTGTTGCCAATGAGAAAGATACACTTATGGAGATAAGTTTCCACATACCGAATTCGAACACCCAGTTTGTTGGTGATGAAAATCGCCCTTCAGCACAAGTGTTCCATGATAAGATCATGTCTATGGCTGATGTAGATGCAGAAGAAGCTGTTGTCACATTCGACGGTATTGCTATTCTTACTCCAAGGGGTCGGTATAGCGTTGAACTGCATCTTTCATTCTTACGTCTCCAAGGACAAGCTAATGATTTTAAAATCCAGTATAGCAGCGTTGTTCGACTATTCTGTCTTCCCAAGTCAAACCAACCACATACATTTGTTGTTATCACTCTTGATCCTCCAATTCGTAAAGGGCAAACGTTGTACCCTCATATCGTAATGCAGTTTGAGACCGACTATGTTGTTGAAAGCACTCTTTCCATGAATGAAGACCTCTTGAATACCAAGTACAAGGATAAGTTGGAATCTTCGTACAAGGGTCTCATTCATGATGTGTTTACAAACATATTGCGTGCCTTATCTAGCGCCAAGGTCACCAGGCCTGGGAAATTCCGCAGCTGCCAAGATGGCTATGCTGTCAAGGCATCACTTAAAGCTGAAGACGGAATTCTATACCCACTTGAAAAGAGTTTCTTCTTCTTACCCAAACCTCCAACCCTTATTCTTCACGAGGAGATTGATTTTATGGAGTTCCAAAGGCACGTTGTTGCGGGGTCCAATATGCATTACTTTGATCTTCTTGTAAAACTGAAGACAGATCAGGAACATCTCTTCCGAAATATCCAGAGGAGTGAATACCAGAACTTGTTTGATTTCATCAGTGCTAAGGGCTTGAAAATCGTGAATGTCGGAGAAGGTGCTAATCTACCTTCAATCTCCATTGCACCTCTAAGTAGTGATGATGAAGTTGTGGACCCACATTTGAGAAGAATCAGGGATGCACAAGATGAAAGTGATGAAGAGGATGAAGATTTTGTTATAGACAAGGACGATGGAGGGTCTCCTACTGATGACTCTGAAGAAGATCATTCAGATGGTAGTGTTAGTGGCGATGAGAAAGAGAAGCCTGCTAAGAAAGAAAAGAAAGACTCGGCATCATTAAAACCTTCTTCAAGCAAGAAGAAATCTAGAGACGGGGATGAAGACGGATCGAAGAAGAGGAAAACGAAGAGGAAAAAGGATCCAAATGCTCCTAAAAAGGCAAAAACCGGTTTTATATTCTTCTCTCAAGCTGAGCGGGAGAACACAAAGAAAGAAAATCCAGGGATTGCATTCTTAGAAATGGGGAAGGCTCTTGGAGAGAAATGGAGGAAAATGTCAGCCGAGGAAAAAGAACCCTTTGAAGCACAAGCTCGCGCTGACAAGAAACGGTACAGTGAAGAAATTGGTGATTACAAGAATCCGCAATCTGTAAATGTGGATTCGGGGAATGATTCTGAAAGCGAATGA |
Protein:
MLTFLDGSKQAFELSLTDVSQTQMQGKTDAILEFHLDDAAVANEKDTLMEISFHIPNSNTQFVGDENRPSAQVFHDKIMSMADVDAEEAVVTFDGIAILTPRGRYSVELHLSFLRLQGQANDFKIQYSSVVRLFCLPKSNQPHTFVVITLDPPIRKGQTLYPHIVMQFETDYVVESTLSMNEDLLNTKYKDKLESSYKGLIHDVFTNILRALSSAKVTRPGKFRSCQDGYAVKASLKAEDGILYPLEKSFFFLPKPPTLILHEEIDFMEFQRHVVAGSNMHYFDLLVKLKTDQEHLFRNIQRSEYQNLFDFISAKGLKIVNVGEGANLPSISIAPLSSDDEVVDPHLRRIRDAQDESDEEDEDFVIDKDDGGSPTDDSEEDHSDGSVSGDEKEKPAKKEKKDSASLKPSSSKKKSRDGDEDGSKKRKTKRKKDPNAPKKAKTGFIFFSQAERENTKKENPGIAFLEMGKALGEKWRKMSAEEKEPFEAQARADKKRYSEEIGDYKNPQSVNVDSGNDSESE |