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e coli c600  (ATCC)
93
ATCC e coli c600
Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different <t>E.</t> <t>coli</t> strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains <t>C600,</t> MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).
E Coli C600, supplied by ATCC, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e coli  (ATCC)
99
ATCC e coli
Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different <t>E.</t> <t>coli</t> strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains <t>C600,</t> MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).
E Coli, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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factor κb ligand  (R&D Systems)
96
R&D Systems factor κb ligand
Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different <t>E.</t> <t>coli</t> strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains <t>C600,</t> MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).
Factor κb Ligand, supplied by R&D Systems, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/factor κb ligand/product/R&D Systems
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factor κb ligand - by Bioz Stars, 2026-05
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e coli dna polymerase i  (New England Biolabs)
99
New England Biolabs e coli dna polymerase i
Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different <t>E.</t> <t>coli</t> strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains <t>C600,</t> MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).
E Coli Dna Polymerase I, supplied by New England Biolabs, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rank l  (R&D Systems)
96
R&D Systems rank l
Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different <t>E.</t> <t>coli</t> strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains <t>C600,</t> MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).
Rank L, supplied by R&D Systems, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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e coli polar lipid extract  (Croda International Plc)
97
Croda International Plc e coli polar lipid extract
Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different <t>E.</t> <t>coli</t> strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains <t>C600,</t> MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).
E Coli Polar Lipid Extract, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different E. coli strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains C600, MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).

Journal: Synthetic and Systems Biotechnology

Article Title: Engineering Escherichia coli for robust Co-utilization of glucose and xylose enables high-titer succinate production from lignocellulosic hydrolysates

doi: 10.1016/j.synbio.2026.01.006

Figure Lengend Snippet: Investigation of xylose transport and PTS modification for succinate production. (A) Schematic representation of glucose and xylose transport routes in different E. coli strains, highlighting the key transporters and metabolic nodes influencing carbon flux; (B) Intracellular ATP levels in strains C600, MG1655, and BW25113 during aerobic growth on xylose; (C) Comparison of succinate and by-product accumulation between the parental strain C600 and engineered strain ESC2 under anaerobic conditions; (D) Fermentation performance of PTS-modified strain ESC3, showing sugar utilization, biomass generation, and succinate production; (E–F) Growth profiles of engineered ESC3 derivatives in defined medium with xylose (E) or glucose–xylose mixtures (F). All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗p < 0.01, ∗∗∗p < 0.001).

Article Snippet: In this study, we systematically engineered E. coli C600 (ATCC 23724) [ ], a strain with efficient and low-energy xylose transport, as the chassis for succinate production from lignocellulosic sugars.

Techniques: Modification, Comparison, Standard Deviation, Two Tailed Test

Construction of a succinate-producing strain from C600. (A) Metabolic map illustrating targeted knockouts ( ldhA , pflB , ptsG , adhE and pta-ackA ) and expression/integration of pck to redirect flux toward succinate; (B) Two-stage fermentation scheme comprising aerobic growth using shaking flasks and followed by anaerobic production in serum bottles; (C–D) Succinate fermentation of six engineered strains cultured on xylose (C) or glucose–xylose mixtures (D). All experimental data were performed in triplicate, and error bars represent the standard deviation.

Journal: Synthetic and Systems Biotechnology

Article Title: Engineering Escherichia coli for robust Co-utilization of glucose and xylose enables high-titer succinate production from lignocellulosic hydrolysates

doi: 10.1016/j.synbio.2026.01.006

Figure Lengend Snippet: Construction of a succinate-producing strain from C600. (A) Metabolic map illustrating targeted knockouts ( ldhA , pflB , ptsG , adhE and pta-ackA ) and expression/integration of pck to redirect flux toward succinate; (B) Two-stage fermentation scheme comprising aerobic growth using shaking flasks and followed by anaerobic production in serum bottles; (C–D) Succinate fermentation of six engineered strains cultured on xylose (C) or glucose–xylose mixtures (D). All experimental data were performed in triplicate, and error bars represent the standard deviation.

Article Snippet: In this study, we systematically engineered E. coli C600 (ATCC 23724) [ ], a strain with efficient and low-energy xylose transport, as the chassis for succinate production from lignocellulosic sugars.

Techniques: Expressing, Cell Culture, Standard Deviation

Evaluation of exogenous xylose utilization pathways and library-based strain selection. (A) Schematic comparison of the endogenous XI pathway with the Dahms and Weimberg pathways; (B) Design of pathway plasmid libraries and RBS variants controlling expression of key genes for Dahms and Weimberg pathways. The Weimberg library plasmid carries XylA , XylX , and XylB from C. crescentus , while the Dahms library plasmid contains XylB from C. crescentus . The helper plasmid harbors xylC from C. crescentus and the endogenous yjhG from E. coli . RBS sequences were designed with 32 mutations, enabling gene expression levels ranging from 4 to 57,523 au; (C) Growth and succinate production of four representative ESC7 derivatives (ESC7-W1, ESC7-W2, ESC7-D1, ESC7-D2), which were randomly selected from the Weimberg (W1, W2) or Dahms (D1, D2) pathway libraries, compared with ESC6 (XI pathway); (D) Fermentation performance of the same four ESC7 clones carrying the helper plasmid (harboring XylC and yjhG ), compared with ESC6; (E) Validation of pathway combinations in the ESC6 background using the same four representative plasmids, integrating XI with Dahms/Weimberg routes and help plasmid; (F) Screening of library colonies identified six optimal variants, which were reconstructed in ESC6 and evaluated for succinate production from glucose–xylose mixtures. All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗∗ p < 0.001).

Journal: Synthetic and Systems Biotechnology

Article Title: Engineering Escherichia coli for robust Co-utilization of glucose and xylose enables high-titer succinate production from lignocellulosic hydrolysates

doi: 10.1016/j.synbio.2026.01.006

Figure Lengend Snippet: Evaluation of exogenous xylose utilization pathways and library-based strain selection. (A) Schematic comparison of the endogenous XI pathway with the Dahms and Weimberg pathways; (B) Design of pathway plasmid libraries and RBS variants controlling expression of key genes for Dahms and Weimberg pathways. The Weimberg library plasmid carries XylA , XylX , and XylB from C. crescentus , while the Dahms library plasmid contains XylB from C. crescentus . The helper plasmid harbors xylC from C. crescentus and the endogenous yjhG from E. coli . RBS sequences were designed with 32 mutations, enabling gene expression levels ranging from 4 to 57,523 au; (C) Growth and succinate production of four representative ESC7 derivatives (ESC7-W1, ESC7-W2, ESC7-D1, ESC7-D2), which were randomly selected from the Weimberg (W1, W2) or Dahms (D1, D2) pathway libraries, compared with ESC6 (XI pathway); (D) Fermentation performance of the same four ESC7 clones carrying the helper plasmid (harboring XylC and yjhG ), compared with ESC6; (E) Validation of pathway combinations in the ESC6 background using the same four representative plasmids, integrating XI with Dahms/Weimberg routes and help plasmid; (F) Screening of library colonies identified six optimal variants, which were reconstructed in ESC6 and evaluated for succinate production from glucose–xylose mixtures. All experimental data were performed in triplicate, and error bars represent the standard deviation. Statistical analysis was performed using a two-tailed Student's t -test (∗∗∗ p < 0.001).

Article Snippet: In this study, we systematically engineered E. coli C600 (ATCC 23724) [ ], a strain with efficient and low-energy xylose transport, as the chassis for succinate production from lignocellulosic sugars.

Techniques: Selection, Comparison, Plasmid Preparation, Expressing, Gene Expression, Clone Assay, Biomarker Discovery, Standard Deviation, Two Tailed Test