Combining metabolic engineering and metabolic evolution to develop nonrecombinant strains of Escherichia coli C that produce succinate and malate
K Jantama, MJ Haupt, SA Svoronos… - Biotechnology and …, 2008 - Wiley Online Library
Derivatives of Escherichia coli C were engineered to produce primarily succinate or malate
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
[PDF][PDF] Combining Metabolic Engineering and Metabolic Evolution to Develop Nonrecombinant Strains of Escherichia coli C That Produce Succinate and Malate
K Jantama, MJ Haupt, SA Svoronos… - Biotechnology and …, 2008 - cmbe.engr.uga.edu
Derivatives of Escherichia coli C were engineered to produce primarily succinate or malate
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
[PDF][PDF] Combining Metabolic Engineering and Metabolic Evolution to Develop Nonrecombinant Strains of Escherichia coli C That Produce Succinate and Malate
K Jantama, MJ Haupt, SA Svoronos… - Biotechnology and …, 2008 - cmbe.engr.uga.edu
Derivatives of Escherichia coli C were engineered to produce primarily succinate or malate
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
[引用][C] Combining Metabolic Engineering and Metabolic Evolution to Develop Nonrecombinant Strains of Escherichia coli C That Produce Succinate and Malate
K JANTAMA, MJ HAUPT… - Biotechnology and …, 2008 - pascal-francis.inist.fr
Combining Metabolic Engineering and Metabolic Evolution to Develop Nonrecombinant Strains of
Escherichia coli C That Produce Succinate and Malate CNRS Inist Pascal-Francis CNRS Pascal …
Escherichia coli C That Produce Succinate and Malate CNRS Inist Pascal-Francis CNRS Pascal …
Combining metabolic engineering and metabolic evolution to develop nonrecombinant strains of Escherichia coli C that produce succinate and malate.
K Jantama, MJ Haupt, SA Svoronos… - Biotechnology and …, 2008 - europepmc.org
Derivatives of Escherichia coli C were engineered to produce primarily succinate or malate
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
[引用][C] Combining metabolic engineering and metabolic evolution to develop nonrecombinant strains ofEscherichia coli C that produce succinate and malate
K Jantama, MJ Haupt, SA Svoronos, X Zhang… - Biotechnology and …, 2008 - cir.nii.ac.jp
Combining metabolic engineering and metabolic evolution to develop nonrecombinant strains
ofEscherichia coli C that produce succinate and malate | CiNii Research CiNii 国立情報学 …
ofEscherichia coli C that produce succinate and malate | CiNii Research CiNii 国立情報学 …
Combining metabolic engineering and metabolic evolution to develop nonrecombinant strains of Escherichia coli C that produce succinate and malate
K Jantama, MJ Haupt, SA Svoronos… - Biotechnology and …, 2008 - pubmed.ncbi.nlm.nih.gov
Derivatives of Escherichia coli C were engineered to produce primarily succinate or malate
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
Combining metabolic engineering and metabolic evolution to develop nonrecombinant strains of Escherichia coli C that produce succinate and malate
K Jantama, MJ Haupt, SA Svoronos… - Biotechnology and …, 2008 - Wiley Online Library
Derivatives of Escherichia coli C were engineered to produce primarily succinate or malate
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …
in mineral salts media using simple fermentations (anaerobic stirred batch with pH control) …