CDS
| Accession Number | TCMCG055C08659 |
| gbkey | CDS |
| Protein Id | XP_020411909.1 |
| Location | complement(join(17024206..17024364,17024688..17024807,17025085..17025222,17025357..17025430,17025536..17025575,17026218..17026355,17026446..17026538,17026637..17026714,17027092..17027243,17027327..17027404,17027821..17027917,17028064..17028168,17028265..17028337,17028455..17028576,17028742..17028816,17029815..17030063,17030159..17030293,17030407..17030463,17030555..17030665,17030780..17030837,17030944..17030999,17031512..17031667,17032094..17032159,17032291..17032373,17032564..17032660,17032786..17032896,17032987..17033119,17033760..17033821,17033905..17033946,17034041..17034205,17034476..17034538,17034877..17034978)) |
| Gene | LOC18785933 |
| GeneID | 18785933 |
| Organism | Prunus persica |
Protein
| Length | 1095aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA241430 |
| db_source | XM_020556320.1 |
| Definition | DNA replication ATP-dependent helicase/nuclease DNA2 isoform X2 [Prunus persica] |
EGGNOG-MAPPER Annotation
| COG_category | L |
| Description | DNA replication ATP-dependent helicase nuclease |
| 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: ATGGATAGTAACGGAAATGTGAGCGATATGACTATCTCTGGAAGAGCTAGTAGGCAGAGTCCATTCCGAACACCACCTTCTCTATCGTACTGCCATGATAAGCTTACGAATGGTGTTGCATGTAATGAAGGTTCTGATCAGCCGGGGTTAAGGCAGCATAAAAAGGCATTGCTTGAACTGTTAGATCAAGTGGAAGATGTTATTTCTGTCGAAGATTCAGTATCTAATGATGTGGAGGAATCTCCATTTCAAGTTAAAGATAGAAAAGGTGATGATATGCATGTCAAATTGCATCGGAAATCTTCCTATTGTAATTTCCTTGTATTGGAGGTATCTGACTGTGGACTTGCTGACTCATCTGATGCTCATAAGGTTCTTCGGTTACTGGATGAGCAATGTGGAGAGGAGCATGCTGTCTATTTACAGGATGAGTGGTTTTACAGTGTCGTTGCACCTGGAGATACTGTCAATGTTATTGGTGAATTTGATGACAAAGGACAGTGTCATGTGGATCATCACCATAATTTTATAATTGTTCATCCAGATGTGCTAGTGGCTGGAACTAGGGTTGCAGCTAGCTTCAGTTGCCCGAGGCGAACTGTCCTGGATGAGAGGCTAAAAGGCAATGAGCATTCAAGTGCAGCACTAAGTGGTACAATATTGCACCAAGTTTTTCAGGCTGCACTTGTGGAGGAGACACCTACAATAAATTTCTTGGAGGAACACACAAGATTTGTGCTCCAGAAAAACATTGAGAACTTGTATGCTTGTGGAGTGAACGAAAAGGGCATGTACAAAACGTTGATTGAGGCCGTCCCAAGAATATTGAAATGGGTTAATCTATTCAAAAACACCCAGAATTCAGAAGTTCCTTCTGTTGATTTTGGATCTGACAATGGGATGAAAAAGGTCAAATTATCTGAGGTAATTGATATTGAGGAGATGGCCTGGGCTCCGAAATATGGTCTGAAAGGCATGATTGATGCTTCTGTCAGAGTGAAAGTTGAATCTAACAAAAATGAATCTCATGAGATGGTTATGCCTTTAGAGTTCAAAAGTGGGAAAATACCTAATGGCCAGTCATCCATGGAGCATACTGCGCAAGTGGCATTGTACACTCTTCTTATGTCGGACAGGTACCAGAAGCATATTGATACTGGTCTTCTATGTTATCTGCAGTCAGATCAGACACAGGGAGTTGCAGTTAGAAGATCTGACCTGGTCGGGATAATCATGCGACGTAATGAACTTGCAAATGATGTCCTCAAGGCATCACGAACACAAGTACTGCCCCCGATGCTAAAGAGTCAGAGCATGTGCAGAGGTTGTCGCCATCTAAATGTCTGTACCATCTATCACAAGGCACATGGAGGAAGCTCAGGGAGCAGTTTATTGGGAGACTTATTTGATTCAAATACACATCACCTAACAAATGCTCATGCTGCTTTCCTAAGGCTGTGGGATTGGTTGATTGATTTGGAAGCTAAAGAGATGCAGCTTGTAAAGAACGAAATATGGCGGTCACATAATTCGAAGAGTGATTATGCCGTGGGTTGCCTTTCTTCTGTTGTTCTTGATTGGAAGCTTCCATATTCGAAGTCTAAAAAAGATAACAGATTCGTGTATCATTTTCTGCGTAATGGTTTGCCTTCTCTCAGCGAGAGGACATCTAAGGGAGATTTTTTGAATGCTGCTTCATCTCCAACAAAAGAAGTGGATTGCGCACTAAGATGTGGTGACTTTGTGATACTTAGCAGTGAATCTAGTCATCTACCTGTCGCAAGTGGGATTATAACGGATATAAGTCACTCCCATGTATCTGTTTCTTTCTCTAAGCTCTTACGACTTCCTGGGAGCAGTCCTTCTTCAGAGGCAAGTCATCTCCTTCAGGAGATCTGGCGGGTTGACAAAGATGAATTCATGACATCATTTTCAGTAATGAGGTTGAACCTTGTTCAACTTTTTCTTCAAAGTGCACAAGCTGCTCACGTGAGAAAAATGATTGTTGACTTAGAGGCTCCTAGATTTGACAAGGGACGTATATTGAGCCAGGATCCAGCAATATCTTATGTCTTGTCCCAGAGAAATTTAAATGTTGATCAGCGGCAAGCCATTCTTAAGATACTTGCAGCAAAGGATTACGCACTTATACTAGGAATGCCTGGAACAGGCAAGACATCTACGATGGTGCATGCTGTGAAAGCCTTGTTGATTAGAGCATTGCAGAATATAGATTTTTTACGCATTGGAAGACATGAAGCTGTGCATGAGGAAGTTCGAGGGCATTGCTTTTCAGAAATGAACATACAAAGTGTGGAAGACATTAAATTAAGACTAGACCAAGTCAAGGTGGTAGCTGTTACATGCTTGGGGATCACCAGTCCCTTGCTTGCCAATAAGAGATTTGATGTATGCATCATGGATGAAGCTGGACAAACCACCCTTCCAGTATCTCTTGGGCCTTTGATGTTTGCATCAAAGTTTGTTCTGGTTGGCGATCATTATCAATTACCTCCTCTGGTCAAGAGTACAGAGGCTCGAGAAAATGGAATGGGGGTAAGCTTGTTTTGCAGGCTCTCAGAAGCGCATCCTCAGGCAATCTCAGCCTTGCAAAGCCAGTACCGTATGTGTCAAGGCATTATGGAACTGTCAAATGCCTTGATTTATGGCGATAGATTGCGCTGTGGCTCTCCTGAAATAGCTAATGCCAAACTCGACTTTTCAAGTTCAAAGTCTCGTTCGTCGTGGATACAGGAGGTGTTAAATCCAACCAAACCAGTTATATTTATTAATACAGATGCTTTACCTGCTTTTGAGGCAAAGGATCACAAGATTGTGAATAACCCGATGGAAGCTCACATAATTGTACAGGTTGTGGAGGAACTAGTTAACAGTGGAATTAAGGAGGAAGATATTGGCGTCATCACCCCATATAACTCTCAGGCAGAGATTATCCGGCTTTCCATCAATCATACCTCTGTGGAGATACATACCATTGACAAATACCAGGGAAGAGATAAGGATTGCATACTAGTGTCTTTTGTTAGGTCAACGGAAAATCCAAGGAATTGCTCTTCTTCACTGCTTGGAGACTGGCATAGGATTAATGTGGCTCTTACTCGTGCCAAGAAAAAGTTAATAATGGTTGGATCATGCAAAACCCTATCAAAGGTTCTGCTAATGAAGCTTCTTATTGAGAAAGTTGACCAACAATCCGGCATCCTAAATGTATCCAAAAAGGATATCAACTTTAAAAGAGACCGAAAGAGATGCTCTCAGGCCAGATGA |
| Protein: MDSNGNVSDMTISGRASRQSPFRTPPSLSYCHDKLTNGVACNEGSDQPGLRQHKKALLELLDQVEDVISVEDSVSNDVEESPFQVKDRKGDDMHVKLHRKSSYCNFLVLEVSDCGLADSSDAHKVLRLLDEQCGEEHAVYLQDEWFYSVVAPGDTVNVIGEFDDKGQCHVDHHHNFIIVHPDVLVAGTRVAASFSCPRRTVLDERLKGNEHSSAALSGTILHQVFQAALVEETPTINFLEEHTRFVLQKNIENLYACGVNEKGMYKTLIEAVPRILKWVNLFKNTQNSEVPSVDFGSDNGMKKVKLSEVIDIEEMAWAPKYGLKGMIDASVRVKVESNKNESHEMVMPLEFKSGKIPNGQSSMEHTAQVALYTLLMSDRYQKHIDTGLLCYLQSDQTQGVAVRRSDLVGIIMRRNELANDVLKASRTQVLPPMLKSQSMCRGCRHLNVCTIYHKAHGGSSGSSLLGDLFDSNTHHLTNAHAAFLRLWDWLIDLEAKEMQLVKNEIWRSHNSKSDYAVGCLSSVVLDWKLPYSKSKKDNRFVYHFLRNGLPSLSERTSKGDFLNAASSPTKEVDCALRCGDFVILSSESSHLPVASGIITDISHSHVSVSFSKLLRLPGSSPSSEASHLLQEIWRVDKDEFMTSFSVMRLNLVQLFLQSAQAAHVRKMIVDLEAPRFDKGRILSQDPAISYVLSQRNLNVDQRQAILKILAAKDYALILGMPGTGKTSTMVHAVKALLIRALQNIDFLRIGRHEAVHEEVRGHCFSEMNIQSVEDIKLRLDQVKVVAVTCLGITSPLLANKRFDVCIMDEAGQTTLPVSLGPLMFASKFVLVGDHYQLPPLVKSTEARENGMGVSLFCRLSEAHPQAISALQSQYRMCQGIMELSNALIYGDRLRCGSPEIANAKLDFSSSKSRSSWIQEVLNPTKPVIFINTDALPAFEAKDHKIVNNPMEAHIIVQVVEELVNSGIKEEDIGVITPYNSQAEIIRLSINHTSVEIHTIDKYQGRDKDCILVSFVRSTENPRNCSSSLLGDWHRINVALTRAKKKLIMVGSCKTLSKVLLMKLLIEKVDQQSGILNVSKKDINFKRDRKRCSQAR |