MetNetComp Database [1] / Minimal gene deletions

Minimal gene deletions for simulation-based growth-coupled production. You can also see maximal gene deletions.

Model : iLB1027_lipid [2].
Target metabolite : m8masn_c
List of minimal gene deletion strategies (Download)

Gene deletion strategy (59 of 63: See next) for growth-coupled production (at least stoichioemetrically feasible)
  Gene deletion size : 28
  Gene deletion: PHATRDRAFT_26934 PHATRDRAFT_20342 PHATRDRAFT_800 PHATRDRAFT_12902 PHATRDRAFT_54219 PHATRDRAFT_30145 PHATRDRAFT_55126 PHATRDRAFT_3046 PHATRDRAFT_40430 PHATRDRAFT_13951 PHATRDRAFT_draft1572 PHATRDRAFT_31906 Phatr3_EG02361 PHATRDRAFT_41063 PHATRDRAFT_33839 PHATRDRAFT_42458 PHATRDRAFT_54731 PHATRDRAFT_859 PHATRDRAFT_13005 PHATRDRAFT_50084 Phatr3_EG02569 PHATRDRAFT_21970 PHATRDRAFT_39772 PHATRDRAFT_43697 PHATRDRAFT_45428 PHATRDRAFT_12452 Phatr3_EG02611 PHATRDRAFT_41686   (List of alternative genes)
  Computed by: RandTrimGdel [1] (Step 1, Step 2)

When growth rate is maximized,
  Growth Rate : 0.357402 (mmol/gDw/h)
  Minimum Production Rate : 0.005394 (mmol/gDw/h)

 Substrate: (mmol/gDw/h)
  EX_photon_e : 991.996685
  EX_co2_e : 64.253401
  EX_h2o_e : 60.079488
  EX_no3_e : 1.760000
  EX_so4_e : 0.200594
  EX_pi_e : 0.088746
  EX_mg2_e : 0.006387
  SK_Asn_X_Ser_Thr_c : 0.005394

Product: (mmol/gDw/h)
  EX_o2_e : 50.059626
  SK_for_c : 42.398707
  EX_h_e : 40.201694
  DM_fald_m : 3.106091
  DM_biomass_c : 0.357402
  EX_etoh_e : 0.305794
  DM_dmsp_c : 0.137033
  EX_glc__D_e : 0.016183
  Auxiliary production reaction : 0.005394

Visualization
  1. Download JSON file.
  2. Go to Escher site [3].

References
[1] Tamura, T. MetNetComp: Database for minimal and maximal gene deletion strategies for growth-coupled production of genome-scale metabolic networks, IEEE/ACM Transactions on Computational Biology and Bioinformatics, in press.
[2] Norsigian, C. J., Pusarla, N., McConn, J. L., Yurkovich, J. T., Dräger, A., Palsson, B. O., & King, Z. (2020). BiGG Models 2020: multi-strain genome-scale models and expansion across the phylogenetic tree. Nucleic acids research, 48(D1), D402-D406.
[3] King, Z. A., Dräger, A., Ebrahim, A., Sonnenschein, N., Lewis, N. E., & Palsson, B. O. (2015). Escher: a web application for building, sharing, and embedding data-rich visualizations of biological pathways. PLoS computational biology, 11(8), e1004321.

Last updated: 27-Sep-2023
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