Detail for ZS11_A09G20120.t1 |
| Genome: | |
| ZS11: | ZS11_A09G20120.t1 |
| ZS11_v0: | BnaC02T0284200ZS |
| WE: | WE_A09G20210.t1 |
| WE_v0: | BnaC02T0274600WE |
| Darmor: | A02p19540.1_BnaDAR |
| BH: | BnaA09T228500BH |
| Quinta: | BnaC02T0234200QU |
| ZS2: | BnaA05T173300ZS2 |
| SW: | BnaC09T135000SW |
| Express61: | C02p027450.1_BnaEXP |
| Xiaoyun: | BnaC06G0414700XY |
| P202: | BnaC06G061020P202.2 |
| BL: | BnaA09T228500BH |
| TA: | BnaA02T203500TA |
| Da-Ae: | Not available |
| RB: | BnaA09T193700RB |
| No2127: | BnaC02T0235600NO |
| P130: | BnaA07G027120P130.1 |
| Length: | 90 |
| KOG ID: | KOG1223 |
| KOG E-value: | 1.480000e-10 |
| KOG Score: | 57.0 |
| KOG Annotation: | Amino acid transport and metabolism |
| Biological Process: | GO:0009058(biosynthetic process) |
| Cellular Component: | - |
| Molecular Function: | GO:0008909(isochorismate synthase activity) |
| KEGG Ortholog: | K02552 menF; menaquinone-specific isochorismate synthase [EC:5.4.4.2] |
| NR Protein: | XP_006390397.1 |
| NR E-value: | 1.100000e-06 |
| NR Score: | 57.8 |
| NR Annotation: | XP_006390397.1 isochorismate synthase 1, chloroplastic [Eutrema salsugineum] |
| SwissProt Protein: | Q9S7H8|ICS1_ARATH |
| SwissProt E-value: | 6.350000e-10 |
| SwissProt Score: | 57.0 |
| SwissProt Annotation: | Isochorismate synthase 1, chloroplastic OS=Arabidopsis thaliana OX=3702 GN=ICS1 PE=1 SV=2 |
ATGATTAAGCAAAAAAATTCATCTTTTAGCAAGGTTGTGCTTGCTCGCAACAGCAGGATTATAACGGATA CCGACATTGATCCCATTGCTTGTGAGATAATATTTGACATCTTGGCTGCTTTGCATCCAACTCCAGCTGT TTGTGGGCTTCCAGAAGAAGAAGCCAGACTTTTGATTAAAGAAATAGGTGAAATATTGGCTGTTTGTATT ATTTTCTTATTTGATGAATTTTGCGAGAATTGCCATTTTTCCCATCTATTGATGTACTCTTGA
ATGATTAAGCAAAAAAATTCATCTTTTAGCAAGGTTGTGCTTGCTCGCAACAGCAGGATTATAACGGATA CCGACATTGATCCCATTGCTTGTGAGATAATATTTGACATCTTGGCTGCTTTGCATCCAACTCCAGCTGT TTGTGGGCTTCCAGAAGAAGAAGCCAGACTTTTGATTAAAGAAATAGGTGAAATATTGGCTGTTTGTATT ATTTTCTTATTTGATGAATTTTGCGAGAATTGCCATTTTTCCCATCTATTGATGTACTCTTGA
GGTAGTTTAGTGACCAATGTTTGTCTCTATTCTTTCACTGTTATATTTTCCAGCTTAACT GATGTTTTCTGTTTGCAATAACAGGTTGTGCTTGCTCGCAACAGCAGGATTATAACGGAT ACCGACATTGATCCCATTGCTTGGTTTTTACAGTTACATGTGTGTTTTTTTTCTGAGGTG GCAGCCTAGGAGAATAGAGACCCTCTTCTTTATAATGAGGAAGCTTACAAGATTGCAGTA CCTATATTCTAAATTGGCGGGAAAGCTGAGGAGAGAATATGAAGTGAGATAATAGTATGT TCATCTAGATAGCTTGAAGTTAAGGGTTGTGAATGTTATCTCCCGATTTTTCTTTTCTTC ACAGTGGGTTTGACTCTTTGGTGTTTTTATCTACAGTTTGACATCTTGGCTGCTTTGCAT CCAACTCCAGCTGTTTGTGGGCTTCCAGAAGAAGAAGCCAGACTTTTGATTAAAGAAATA GGTGAAATATTGGCTGTTTGTATTATTTTCTTATTTGATGAATTTTGCGAGAATTGCCAT TTTTCCCATCTATTGATGTACTCTTGAGAATTGAATTGCCAAGAAGTAACAAGACTATCA GTTTACATAACTTATTTGAATGTCAAAGCTACGTTTACATGTCATCCTTACACCATTGAA ATTTGATGTGACACATGTATCTATTACAAACAGCATTAAAACTTTTTTTGATTTAAACAA TATATTTTTAAGGTTCAAGAGTCTGAAATAAAATGGAATCCCATATAATAATTTCTTTCT CGCAAAAGAGGTCGAACTCACAATCTATACTATTAAATCAGGATCATATTGTCTTTTTTA TCTTAGCATACCATTTTTTTTTAATAACATTGCATGTTTTACTAAAGACAATCAAGTAAT ATTAATAACATATTTATATTGGATCATTTTTTTCAGATCCAGCCCACATCAGATCTATCT TGGTCCATTTGGGCCAATTAAGAAATCAGATCCAATTCTCATATTTTTTTTTCTTTTGGG CCATTGAGTCCAAGTTCAAATAATTTTTTCAACTATTCTTAATTATTTTTTTTCTTTTCT TAATATAATTTAAGAATTCATAAAAGAAATTGAATTTTTCATTGAAAAGTATAAATCTTT ATAAAAGTATATAATTTTTTATTTAAATATTAACCACATAATAAAATTAATTTATCGAGT TATACCAACTTAACTCATTAAAGAAATAAAGTTTAATTTTTAAACATAAATAGTCATTTA AAATGAAATACGATAAATAAAGATAAAAAGTTTAAGTCTTTTATAAAATAAAACACAAAT ATATAAAAATATGATATTTATTAAATATTTGTCAATTGAAAAAAAAAAAAAGCTTTAAAG CCAGCTGGTAAAAATCTAGTTACACACTTACAAGAAGTCCACAAACTAAAAAATTTAGAT GGCGATACATAACGTTACAAACTCACACTAACATAAAAGATAAAGCTAAAAGATAGATGC TGAACACACCGTGGAGACATTCAAACAATAAAATCAATAGTTACACGCAAGTTTGTTTTC CCTCTAATCATCTAAATTATTTAACAATATATAGTGTTCTTTAAAAAAAACTACATCCAT GAAATCAGAATATATAATTAAAAACATGTTAGTTAATATATAACTAGGTGTTTTACCCGC ACATGCGGGCATTATCTTCTTACGAATAATTTTTGGTTTATGTCTTAGAGCAACCACATC AATGAACCCCCTCTTGGGGTTCATAGGATTTTTTTATTATATTTGTGGTGGGGTAAATAG TGATGAACTTGTATTGATTGTATTCTTCCATTAGTGAACCCAACATGGGGTTCTTAGAAA TTTAAATGATTTTTTATTTTTTTTTTGTTTAAAATTATTTAATACATAGAGAAATCTTAA ACATACAAAGATTATTCATCAAAATTACCAAACTTTTGCCATATATTTTCAACTAAATCA GCTTTCAAACGATGATGTAT
MIKQKNSSFSKVVLARNSRIITDTDIDPIACEIIFDILAALHPTPAVCGL PEEEARLLIKEIGEILAVCIIFLFDEFCENCHFSHLLMYS
ATGATTAAGCAAAAAAATTCATCTTTTAGCAAGGTTGTGCTTGCTCGCAACAGCAGGATTATAACGGATA CCGACATTGATCCCATTGCTTGTGAGATAATATTTGACATCTTGGCTGCTTTGCATCCAACTCCAGCTGT TTGTGGGCTTCCAGAAGAAGAAGCCAGACTTTTGATTAAAGAAATAGGTGAAATATTGGCTGTTTGTATT ATTTTCTTATTTGATGAATTTTGCGAGAATTGCCATTTTTCCCATCTATTGATGTACTCTTGA