CDS
| Accession Number | TCMCG006C96561 |
| gbkey | CDS |
| Protein Id | XP_013672620.1 |
| Location | join(44728674..44728759,44728858..44728897,44729064..44729273,44729355..44729408,44729478..44729539,44729843..44729975,44730060..44730170,44730282..44730378,44730608..44730690,44731149..44731214,44731439..44731594,44731690..44731745,44731829..44731886,44731967..44732077,44732161..44732217,44732482..44732616,44732706..44732960,44733087..44733161,44733303..44733424,44733514..44733586,44733700..44733804,44733907..44734074,44734305..44734374,44734448..44734599,44734689..44734766,44734852..44734944,44735031..44735168,44735266..44735305,44735385..44735458,44735534..44735671,44735757..44735876,44735961..44736086) |
| Gene | LOC106377018 |
| GeneID | 106377018 |
| Organism | Brassica napus |
Protein
| Length | 1113aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA293435 |
| db_source | XM_013817166.2 |
| Definition | DNA replication ATP-dependent helicase/nuclease DNA2-like isoform X2 [Brassica napus] |
EGGNOG-MAPPER Annotation
| COG_category | L |
| Description | DNA replication factor Dna2 |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction | - |
| KEGG_rclass | - |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko01000 [VIEW IN KEGG] ko03032 [VIEW IN KEGG] |
| KEGG_ko |
ko:K10742
[VIEW IN KEGG] |
| EC |
3.6.4.12
[VIEW IN KEGG]
[VIEW IN INGREDIENT] |
| KEGG_Pathway |
ko03030
[VIEW IN KEGG] map03030 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGCAGAGTTTGAGATTGTTAACACTTCTAGTAGTGGAAACAGTCCTTTCCAGACCCCACCGTCACTTTCATGCTCTCACAACAAGTGCAGCTTGCAGGGTCACGGGCACTGGACAACATAAAAAGGCCTTGCTTGAACTTCTAGATCAAGTGGAGGATGTCATCTCAGTTGATGACAAAACAGCTGACGATGTGGGGACTGTGGTGCCCCAAATTCGTCTTGAAGATGATAACATCTGTTCCGTTGGTATCTGCAACTCCGTAGACGGAGGGCCAATTGCTCTACTAAAAAAAGATAATTCTGTAAATCCAGATAGCTATTTCCTTGTATTGGAGGTATCTGAGAAACGTGGCCTGGCTGGCTCTTCTAGGGTCCAGTGTCCTTATAAGGTTCTTCGCTTGCTAGACGAGCGCACTGGAAAAGAATGCGCTTTGTATCTCTGGGATGAATGGTTTTACAGCACTGTATCACCAGGAGATTCCATCAATGTTATTGGAGACTTTGACGGAGAGGGCAAGTGTGACGTAGACCATCAAAATAATTTCTTAATTGTTCATCCTGATACCCTTGTTGCTGGAACTAAGGTTGCAGCAAGTTTTGGTTGTCCAAGGAGAACCGTGCTAGATGAGAGGCTAAGATCCAATGAACACGCTACAGCTGCCTTGCTTGGAACCTTGCTGCATCAAGTTTTTCAGGCAGGTCTCACGCAAGAGTCTCCATCTGCAGATGGTTTGCAGGAATATGCGAGCATGGTGATTAAGAATAATATTGAGAGCTTATATGCATGTGGAGTGCATGAGCGAGGCGTGAAAGCAACCTTACACGAAGCTATCCCAAAAATGTTGAATTGGATTCATCACTTCCGAGATTCGAAGGACTCAACAATATCAAATGTTAATTTTGGGTCTACTAATGGGCAGCGAATGGTAAAGATATCAGAGGTAATTGACATTGAGGAGATGTCATGGGCCCCTAAATATGGTCTGAAAGGAATGGTTGATGCTTCAGTCAGAGTGATAGTTGGGTCTGACATGAACACAGCGAATGAGAAACTAATGCCTCTTGAGTTTAAATCTGGAAAGGCTCCTAATGGGCAGGCATCAATGGAACATTGTGCACAGGTGATCTTGTACACGCTCCTTATGTCTGAGAGGTACCTAAAGCATATTGACAATGGCCTTCTGTATTATCTACAGTCAGATCAGACACAGGGAATTTCTGTTCAAAGATCAGATTTGGTGGGTCTGATTATTCGTCGTAATGAACTTGCAAATGACATCCTCGTCGCATCAACAACCCAACAACTGCCACCAATGTTACGGAATCCAAATATGTGCCGTAACTGTCGCCATCTGGACGCCTGCACGATTTATCATAAGGCAGATGGTGGAAACACGGAGAGTAGCGGACTCGCCGATCTCTTTGACGCACATGTATCTCATCTTTCAACTTTGCATTTTAAATTCATACGACACTGGAACAGACTGATTGACTTGGAAGCTAGAGAGATGAAGCTTCCCAGGAAAGATATTGCACATCCACATGGTTCAAAGGGCAGCGACTCAGCTAGTCATCTTTCTTCTATGGTTCTTGACATGAAAGATGGGTTTCAGCATCATAGCTCTCATAAAGATTCTAGATTCATTTATCGTTTTGTACGTCAAAACTCATCTGAATCTAGAGAAAGAGTACCCATCGAAGATACGACTAGGACTGGAACCACTGCAGCTGATGACCTGGATTGCAGACTTAAAACAGGAGACCGCGTGATTCTTCGCACAGAAGTCAGCCACCTAACAGTTGCAAATGGAATTATAGCAGAGATTAGTCGCACTCATGTATCAGTTTCTTTTTCCAAGCGTTTACGTCTTCCTTGGAGTGAGCCTTCTTCTGAGGTGGCCAATCTCACTAATGAGTTATGGCGAATTTACAAGGATGAATTCATGACATCATTTTCAATTATGAGGTTCAATCTCATGCAGCTTTTCATACAAAGCATACATACCATTGGCATCAGGAAAATGATTGTGGATCTTGAGCCTCCTAGATTTGACAATGGATCTATACTGAGCCAGGATCCAGCAATATCATATATTTGGTCAGAAAAGAGCTTAAATAATGATCAGCGTCAAGCTATACTAAAGATACTGACTGCGAAGGACTATGCGTTAATCTTAGGAATGCCTGGAACAGGGAAAACCTCCACAATGGTCCATGCTGTGAAAGCTTTGTTGATCAGAGGTTCATCTATTCTGCTGGCATCTTACACAAACTCTGCAGTTGATAATCTACTTATCAAATTAAAAGCACAGGGAATTGAGTTTTTACGTATTGGAAGAGACGAGGCTGTACACGAAGAAGTTCGAGAAAGTTGCTTTTCGGCTATGGATATGTGCAGTGTCGACGACATCAAAACAAAGTTGGACCAGGTCAAAGTTGTGGCCTCTACTTGTCTGGGAATCAATAGTCCATACCTTGTGAATAGGCGATTTGACGTATGCATTATTGATGAAGCCGGCCAAATTGCCCTCCCTGTATCAATAGGACCTTTGCTGTTTGCCTCTACATTTGTACTTGTTGGCGACCACTATCAACTACCGCCACTAGTGCAGAGTACAGAGGCTAGAGAGAATGGGATGGGGATAAGCTTGTTTCGTAGGTTATCAGAAGCTCATCCTCAGGCAATTTCAATGTTACAAAACCAGTACCGAATGTGTCGAGGTATTATGGAACTATCAAATGCCTTGATATATGGAGACAGATTGTGCTGTGGTTCCGCTGAAGTAGCTAATGCCACACTTGTTCTTTCTACTTCCAGTTCTAATTCGCCATGGCTTAGGAAGGTTCTGGAGCCAGCGAGAACAGTTGTATTTATTAACACAGATATGCTGCGTGCTTTTGAAGCCAGGGATCAGAATGCGATCAACAATCCAGTTGAAGCTTCAATAATAGCTGAGATTGTGGAGGAGCTAGTTAACAATGGAGTGGATAGTAAAGATATTGGAATCATTACTCCTTATAATTCACAAGCGAGCCTCATTCAACACGCAATTCCAACGGCGTCTGTGGAGATACATACTATTGACAAGTATCAGGGAAGAGATAAAGACTGCATAATAGTATCCTTTGTGAGATCGAGAGAGAAACCAAGGAGTTCTGGCTCTTCACTGCTCGGAGATTGGCATAGGATCAACGTTGCTTTGACACGAGCCAAGAAAAAGTTGATAATGGTGGGATCACAAAGAACACTATCAAAAGTTCCACTCCTGATGCTTCTGCTGAAGAAGGTTAAAGAGCAGTCAGGTATCTTGACTCTTTCTCCGGGGGATCTAAAACCATAA |
| Protein: MQSLRLLTLLVVETVLSRPHRHFHALTTSAACRVTGTGQHKKALLELLDQVEDVISVDDKTADDVGTVVPQIRLEDDNICSVGICNSVDGGPIALLKKDNSVNPDSYFLVLEVSEKRGLAGSSRVQCPYKVLRLLDERTGKECALYLWDEWFYSTVSPGDSINVIGDFDGEGKCDVDHQNNFLIVHPDTLVAGTKVAASFGCPRRTVLDERLRSNEHATAALLGTLLHQVFQAGLTQESPSADGLQEYASMVIKNNIESLYACGVHERGVKATLHEAIPKMLNWIHHFRDSKDSTISNVNFGSTNGQRMVKISEVIDIEEMSWAPKYGLKGMVDASVRVIVGSDMNTANEKLMPLEFKSGKAPNGQASMEHCAQVILYTLLMSERYLKHIDNGLLYYLQSDQTQGISVQRSDLVGLIIRRNELANDILVASTTQQLPPMLRNPNMCRNCRHLDACTIYHKADGGNTESSGLADLFDAHVSHLSTLHFKFIRHWNRLIDLEAREMKLPRKDIAHPHGSKGSDSASHLSSMVLDMKDGFQHHSSHKDSRFIYRFVRQNSSESRERVPIEDTTRTGTTAADDLDCRLKTGDRVILRTEVSHLTVANGIIAEISRTHVSVSFSKRLRLPWSEPSSEVANLTNELWRIYKDEFMTSFSIMRFNLMQLFIQSIHTIGIRKMIVDLEPPRFDNGSILSQDPAISYIWSEKSLNNDQRQAILKILTAKDYALILGMPGTGKTSTMVHAVKALLIRGSSILLASYTNSAVDNLLIKLKAQGIEFLRIGRDEAVHEEVRESCFSAMDMCSVDDIKTKLDQVKVVASTCLGINSPYLVNRRFDVCIIDEAGQIALPVSIGPLLFASTFVLVGDHYQLPPLVQSTEARENGMGISLFRRLSEAHPQAISMLQNQYRMCRGIMELSNALIYGDRLCCGSAEVANATLVLSTSSSNSPWLRKVLEPARTVVFINTDMLRAFEARDQNAINNPVEASIIAEIVEELVNNGVDSKDIGIITPYNSQASLIQHAIPTASVEIHTIDKYQGRDKDCIIVSFVRSREKPRSSGSSLLGDWHRINVALTRAKKKLIMVGSQRTLSKVPLLMLLLKKVKEQSGILTLSPGDLKP |