Parts

    This year, among the 82 parts designed, 47 of them are basic parts and the rest are composite parts. All of the parts are designed by ourselves, and most of them have been tested to insure their reliability. You can click here to learn more about our project to see their specific function, or click on the part numbers when browse website.

Basic parts

Name Type Description Designer
BBa_K4297001 Coding ADH1 Ellie Sang
BBa_K4297002 Coding ADH2 Ellie Sang
BBa_K4297003 Coding ADH3 Ellie Sang
BBa_K4297004 Coding ADH4 Ellie Sang
BBa_K4297005 Coding ADH5 Ellie Sang
BBa_K4297006 Coding ADH6 Ellie Sang
BBa_K4297007 Coding ADH7 Ellie Sang
BBa_K4297008 Coding ADH8 Ellie Sang
BBa_K4297009 Coding PAR1 Ellie Sang
BBa_K4297010 Coding PAR2 Ellie Sang
BBa_K4297011 Coding PAR3 Ellie Sang
BBa_K4297012 Coding PAR4 Ellie Sang
BBa_K4297013 Coding PAR5 Ellie Sang
BBa_K4297014 Coding PAR6 Ellie Sang
BBa_K4297015 Coding PAR7 Ellie Sang
BBa_K4297016 Coding PAR8 Ellie Sang
BBa_K4297017 Coding PARL Ellie Sang
BBa_K4297018 Coding ARO8 Ellie Sang
BBa_K4297019 Coding ARO9 Ellie Sang
BBa_K4297020 Coding ARO10 Ellie Sang
BBa_K4297021 Promoter TEF Ellie Sang
BBa_K4297022 Terminator XPR2t Ellie Sang
BBa_K4297023 Coding Leu Ellie Sang
BBa_K4297024 Coding Cre Ellie Sang
BBa_K4297025 Coding Ura Ellie Sang
BBa_K4297026 DNA ALD2_Up Ellie Sang
BBa_K4297027 DNA ALD2_Dw Ellie Sang
BBa_K4297028 DNA ALD3_Up Ellie Sang
BBa_K4297029 DNA ALD3_Dw Ellie Sang
BBa_K4297030 DNA loxp Ellie Sang
BBa_K4297060 Coding ALD2 Ellie Sang
BBa_K4297061 Coding ALD3 Ellie Sang
BBa_K4297062 Coding ADH9 Ellie Sang
BBa_K4297065 DNA CYC1t Ellie Sang
BBa_K4297069 Coding YidC Ellie Sang
BBa_K4297070 Coding Ecb Ellie Sang
BBa_K4297071 Coding CodB Ellie Sang
BBa_K4297075 DNA SNF_Up Ellie Sang
BBa_K4297076 DNA SNF_Dw Ellie Sang
BBa_K4297078 Coding dCas9 Ellie Sang
BBa_K4297079 Coding PmCDA Ellie Sang
BBa_K4297080 Coding UGI Ellie Sang
BBa_K4297082 Coding lacZ-sgRNA Ellie Sang
BBa_K4297083 DNA Special SD sequence Ellie Sang
BBa_K4297084 Coding AmpR Ellie Sang

Composite parts

Name Type Description Designer
BBa_K4297031 Composite loxp-Ura-loxp Ellie Sang
BBa_K4297032 Composite pYLXP' Ellie Sang
BBa_K4297033 Composite pYLXP'-loxp-Ura-loxp Ellie Sang
BBa_K4297034 Composite pYLXP'-ADH1 Ellie Sang
BBa_K4297035 Composite pYLXP'-ADH2 Ellie Sang
BBa_K4297036 Composite pYLXP'-ADH3 Ellie Sang
BBa_K4297037 Composite pYLXP'-ADH4 Ellie Sang
BBa_K4297038 Composite pYLXP'-ADH5 Ellie Sang
BBa_K4297039 Composite pYLXP'-ADH6 Ellie Sang
BBa_K4297040 Composite pYLXP'-ADH7 Ellie Sang
BBa_K4297041 Composite pYLXP'-ADH8 Ellie Sang
BBa_K4297042 Composite PYLXP'-PAR1 Ellie Sang
BBa_K4297043 Composite PYLXP'-PAR2 Ellie Sang
BBa_K4297044 Composite PYLXP'-PAR3 Ellie Sang
BBa_K4297045 Composite PYLXP'-PAR4 Ellie Sang
BBa_K4297046 Composite PYLXP'-PAR5 Ellie Sang
BBa_K4297047 Composite PYLXP'-PAR6 Ellie Sang
BBa_K4297048 Composite PYLXP'-PAR7 Ellie Sang
BBa_K4297049 Composite PYLXP'-PAR8 Ellie Sang
BBa_K4297050 Composite PYLXP'-PARL Ellie Sang
BBa_K4297051 Composite PYLXP'-ARO8 Ellie Sang
BBa_K4297052 Composite PYLXP'-ARO9 Ellie Sang
BBa_K4297053 Composite PYLXP'-ARO10 Ellie Sang
BBa_K4297054 Composite PYLXP'-ARO10-ARO8 Ellie Sang
BBa_K4297055 Composite PYLXP'-ARO10-ARO9 Ellie Sang
BBa_K4297056 Composite PYLXP'-ARO10-ARO8-PAR4 Ellie Sang
BBa_K4297057 Composite pYLXP'-loxp-Ura-loxp-ALD2 Ellie Sang
BBa_K4297058 Composite pYLXP'-loxp-Ura-loxp-ALD3 Ellie Sang
BBa_K4297059 Composite pYLXP'-Cre Ellie Sang
BBa_K4297063 Composite pYLXP'-ADH9 Ellie Sang
BBa_K4297066 Composite TEF-mdh-CYC1t Ellie Sang
BBa_K4297074 Composite pYLXP'-loxp-Ura-loxp-SNF Ellie Sang
BBa_K4297077 Composite PL-CBE Ellie Sang
BBa_K4297085 Composite pET-Alloferon-1-eGFP-SD-AmpR Ellie Sang
BBa_K4297086 Composite PL-CBE-pET-Alloferon-1-eGFP-SD-AmpR Ellie Sang

Favourite parts

    Among the 82 basic parts designed this year by us, BBa_K4297056, BBa_K4297057 and BBa_K4297058 are our favorite parts. These three parts contains plasmids that are designed for the exogenous genes expression and gene deletion. By overexpressing (i) an optimal phenylacetaldehyde reductase (PAR4), a transaminase (ARO8), and a the phenylpyruvate decarboxylase (ARO10), and (ii) bolcking the byproducts phenylacetate production, we generated the final engineering strains po1fk3 that were able to produce 2-PE with titers of 2015.57 mg with the yield of 0.575 g/g.