Summary (as of July 2025)

Journal paper publications: 157 papers published

Books and Book chapters: 7 chapters in books

Patents: 25 registered

📃Journals


[2025]

[157] Jeon S, Sohn YJ, Lee H, Park JY, Kim D, Lee ES, Park SJ* (2025) “Recent advances in design-build-test-learn (DBTL) cycle for systems metabolic engineering of Corynebacterium glutamicumJ Microbiol 63, e2501021 *Corresponding author (2025.3) 

[156] Lee S, Jeon BW, Seong JY, Lee I, Song HM, Ryu MH, Pandey A, Kim GH, Seo SO, Sung BH, Park SJ, Ryu J, Joo JC (2025) Chemo- and biological funneling of lignin into 2-pyrone-4,6-dicarboxylic acid via electrocatalytic depolymerization and genetically engineered Pseudomonas putida KT2440” Int J Biol Macromol 306, 141657 (2025.5)

[155] Sohn YJ, Hwang SY, Lee H, Jeon S, Park JY, Kim J, Kim D, Jeong KJ, Lee SY, Joo JC*, Park JB*Park SJ* (2025) “Metabolic engineering of Corynebacterium glutamicum for high-level production of 1,5-propanediol, a C5 diol platform chemical” Adv Sci 12, 2412670 (2025.4) *Corresponding author 

[154] Sohn YJ, Kim HT, Kang M, Son J, Park K, Jeong KJ, Lee SY, Jeong JC*Park SJ* (2025) “Metabolic engineering of Corynebacterium glutamicum for highly selective production of 5-hydroxyvaleric acid” Metab Eng in revision 90, 33-42 (2025.7) *Corresponding author 

[153] Song HM, Lim SH, Lee ES, Kim D, Lee SY, Jeong KJ*Park SJ* (2024) “Biosynthesis of polyhydroxyalkanoates from sucrose by recombinant Pseudomonas putida KT2440” ChemBioChem 26, e202401000 (2025.4) *Corresponding author 


[2024]

[152] Jung M, Lee J, Park SJ, Na JG (2024) “Gas supply apparatus using rotational motion of shaking incubator for flask culture of aerobic microorganismsEng Life Sci 24: e2300243 (2024.7)

[151] Hur DH, Lee J, Park SJ*, Jeong KJ* (2024) “Engineering of Pseudomonas putida to produce medium-chain-length polyhydroxyalkanoate from crude glycerolInt J Biol Macromol 281: 136411 (2024.11)*Corresponding author

[150] Jo SY, Lim SH, Lee JY, Son J, Choi JI*, Park SJ* (2024) “Microbial production of poly(3-hydroxybutyrate-co-3-hydroxyvalerate), from lab to the shelf: A reviewInt J Biol Macromol 274: 133157 (2024.8) *Corresponding author

[149] Song HM, Jo SY, Lee H, Jeon S, Yun D, Kim C, Son J, Sohn YJ, Choi JI*, Park SJ* (2023) “Recent advances on the systems metabolically engineered Pseudomonas species as versatile biosynthetic platforms for the production of polyhydroxyalkanoates” Syst Microbiol Biomanufacturing in press *Corresponding author


[2023]

[148] Ashoor S, Khang TU, Lee YH, Hyung JS, Choi SY, Lim SE, Lee J, Park SJ, Na JG (2023) “Bioupgrading of the aqueous phase of pyrolysis oil from lignocellulosic biomass: a platform for renewable chemicals and fuels from the whole fraction of biomassBioresour Bioprocess 10: 34 (2023.5)

[147] Kim JH, Yoo JI, Ma HW, Park IS Son M, Shin Y, Kim K, Kim SW, Cheon JH, Park SJ*, Park J* (2023) “Anti-inflammatory properties of butyrate-producing atypical Escherichia coli in a murine colitis modelIntest Res 21: 266-269 (2023.4) *Corresponding author

[146] Son J, Lee H, Lee T, Sohn H, Park SJ, Na JG, Seo SW, Lee JW, Yoo HY, Park C (2023) “Novel synthetic pathway for methyl 3-hydroxybutyrate from β-hydroxybutyric acid and methanol by enzymatic esterificationJ Ind Eng Chem 123: 355-360 (2023.7)

[145] You SM, Lee SS, Ryu MH, Song HM, Kang MS, Jung YJ, Song EC, Sung BH, Park SJ, Joo JC, Kim HT, Cha HG (2023) β-Ketoadipic acid production from poly(ethylene terephthalate) waste via chemobiological upcyclingRSC Adv 13: 14102 (2023.5)

[144] Lee H, Sohn YJ, Jeon S, Yang H, Son J, Kim YJ, Park SJ* (2023) “Sugarcane wastes as microbial feedstocks: A review of the biorefinery framework from resource recovery to production of value-added productsBioresour Technol 376: 128879 *Corresponding author (2023.5) (IF 11.889, JCR 96.43%)

[143] Son J, Lim SH, Kim YJ, Lim HJ, Lee JY, Jeong S, Park C, Park SJ* (2023) “Customized valorization of waste streams by Pseudomonas putida: State-of-the-art, challenges, and future trendsBioresour Technol 371: 128607 *Corresponding author (2023.3) (IF 11.889, JCR 96.43%)

[142] Son J, Sohn YJ, Baritugo K, Jo SY, Song HM, Park SJ* (2023) “Recent advances in microbial production of diamines, aminocarboxylic acids, and diacids as potential platform chemicals and bio-based polyamides monomers” Biotechnol Adv 62: 108070 *Corresponding author (IF 17.681, JCR 97.17%)


[2022]

[141] Song HM, Joo JC, Lim SH, Lim HJ, Lee S, Park SJ* (2022) “Production of polyhdyroxyalkanoates containing monomers conferring amorphous and elastomeric properties from renewable resources: Current status and future perspectivesBioresour Technol 366: 128114 *Corresponding author (2022.12) (IF 11.889, JCR 96.43%)

[140] Kim TW, Jung S, Lim CI, Park SJ, Lee J, Oh BK, Na JG(2022) “Design of baffled flasks with high mass transfer performance and the applicaton in aerobic microbial cultureKSBB J 37: 107-111 (2022.09)

[139] Sohn YJ, Son J, Lim HJ, Lim SH, Park SJ* (2022) “Valorization of lignocellulosic biomass for polyhydroxyalkanoate production: Status and perspectivesBioresour Technol 360: 127575 *Corresponding author (2022.09) (IF 11.889, JCR 96.43%)

[138] Son J, Baritugo K, Sohn YJ, Kang KH, Kim HT, Joo JC, Park SJ* (2022) “Production of gamma-aminobutyrate (GABA) in recombinant Corynebacterium glutamicum by expression of glutamate decarboxylase active at neutral pHACS Omega 7: 29106-29115 (2022.08) *Corresponding author

[137] Lee S†, Jung YJ†,Park SJ†, Ryu MH, Kim JE, Song HM, Kang KH, Song BK, Sung BH, Kim YH, Kim HT, Joo JC (2022) “Microbial production of 2-pyrone-4,6-dicarboxylic acid from lignin-derivatives in an engineered Pseudomonas putida and its application for the synthesis of bioplasticBioresour Technol 352: 127106 (2022.05) (IF 11.889, JCR 96.43%)

[136] Son J, Joo JC, Baritugo K, Jeong S, Lee JY, Lim HJ, Lim SH, Yoo JI, Park SJ* (2022) “Consolidated microbial production of four, five, and six carbon organic acids from crop residues: Current status and future perspectivesBioresour Technol 351: 127001 (2022.05) *Corresponding author (IF 11.889, JCR 96.43%)

[135] Yoo JI, Sohn YJ, Son J, Jo SY, Pyo J, Park SK, Choi J, Joo JC*, Kim HT*, Park SJ* (2022) Recent advances in microbial production of C4 alcohols in metabolically engineered microorganismsBiotechnol J 17: 2000451 (2022.03) *Corresponding author

[134] Baek Y, Lee S, Son J, Lee T, Oh JM, Lee SH, Kim HU, Seo SW, Park SJ*, Yoo HY*, Park C* (2022) “Efficient production of naringin acetate via enzymatic trans-esterification catalyzed by lipasesInt J Environ Res Public Health 19: 2972 (2022.03) *Corresponding author

[133] Son J, Baritugo K, Lim SH, Lim HJ, Jeong S, Lee JY, Choi J, Joo JC, Na JG, Park SJ* (2022) “Microbial cell factories for production of three-carbon backbone organic acids from agro-industrial wastesBioresour Technol 349:126797 (2022.04) *Corresponding author (IF 11.889, JCR 96.43%)

[132] Lee J, Kim K, Son J, Lee H, Song JH, Lee T, Jeon H, Kim HS, Park SJ*, Yoo HY*, Park C* (2022) “Improved productivity of naringin oleate with flavonoid and fatty acid by efficient enzymatic esterificationAntioxidants 11:242 (2022.01) *Corresponding author (IF 7.675, JCR 94.44%)

[131] Sohn YJ, Kang M, Ryu MH, Lee S, Kang KH, Hong Y, Song BK, Park K, Park SJ*, Joo JC*, Kim HT* (2022) “Development of bio-chemical route to C5 plasticizer synthesis using glutaric acid produced by metabolically engineered Corynebacterium glutamicumGreen Chem 24:1590-1602 (2022.2) *Corresponding author (IF 11.034, JCR 88.3%)


[2021]

[130] Jo SY, Son J, Sohn YJ, Lim SH, Lee JY, Yoo JI, Park SY, Na JG*, Park SJ* (2021) “A shortcut to carbon-neutral bioplastic production: Recent advances in microbial production of polyhydroxyalkanoates from C1 resourcesInt J Biol Macromol 192:978-998 (2021.12) *Corresponding author (IF 8.025, JCR 93.89%)

[129] Sohn YJ, Son J, Jo SY, Park SY, Yoo JI, Baritugo KA, Na JG, Choi J, Kim HT, Joo JC, Park SJ* (2021) “Chemoautroph Ralstonia eutropha as a potential game changer for global warming and plastic waste problemBioresour Technol 340:125693 (2021.11) *Corresponding author (IF 11.889, JCR 96.43%)

[128] Kim HT, Ryu MH, Jung YJ, Lim S, Song HM, Park J, Hwang SY, Lee HS, Yeon YJ, Sung BH, Bornscheuer UT, Park SJ*, Joo JC*, Oh, DX*(2021) Chemo-biological upcycling of PET to multifunctional coating materialsChemSusChem14:4251-4259 (2021.10) *Corresponding author (IF 9.140, JCR 83.52%)

[127] Min K, Kim HT, Park SJ, Lee S, Jung YJ, Lee JS, Park K, Yoo YJ, Joo JC* (2021) “Improving the organic solvent resistance of lipase A from Bacillus subtilis in water-ethanol solvent through rational surface engineeringBioresour Technol 337:125394 (2021.10) (IF 11.889, JCR 96.43%)

[126] Jo SY, Sohn YJ, Park SY,Son J, Yoo JI, Baritugo K,David Y, Kang KH, Kim H, Choi J, Rhie MN, Kim HT*, Joo JC*, Park SJ* (2021) Production of poly(3-hydroxybutyrate) and poly(3-hydroxybutyrate-co-lactate) from sugarcane molasses by recombinant Ralstonia eutropha strainsKorean J Chem Eng 38:1452-1459 (2021.07) *Corresponding author

[125] Baritugo K,Son J, Sohn YJ, Kim HT, Joo JC, Choi J, Park SJ* (2021) Recent progress in metabolic engineering of Corynebacterium glutamicum for the production of C4, C5, and C6 chemicalsKorean J Chem Eng 38:1291-1307 (2021.07) *Corresponding author

[124] Khang TU, Kim MJ, Yoo JI, Sohn YJ, Jeon SG, Park SJ*, Na JG* (2021) Rapid analysis of polyhydroxyalkanoate contents and its monomer compositions by pyrolysis-gas chromatography combined with mass spectrometry (Py-GC/MS)Int J Biol Macromol 174:449-456 *Corresponding author (2021.3) (IF 8.025, JCR 93.89%)

[123] Sohn YJ, Kang M, Baritugo K, Son J, Kang KH, Ryu MH, Lee S, Park K, Park SJ* Joo JC*, Kim HT* (2021)“Fermentative high-level production of 5-hydroxyvaleric acid by metabolically engineered Corynebacterium glutamicumACS Sus Chem Eng 9:2523-2533 *Corresponding author (2021.2) (IF 9.224, JCR 91.26%)


[2020]

[122] Park S, Sohn YJ, Park SJ*, Choi J* (2020) Effect of DR1558, a Deinococcus radiodurans response regulator, on the production of GABA in the recombinant Escherichia coliunder low pH conditionsMicrob Cell Fact19:64 *Corresponding author (2020.3)

[121] Sohn YJ, Kim HT, Jo SY, Song HM, Baritugo K, Pyo J, Choi J, Joo JC*, Park SJ* (2020) Recent advances in systems metabolic engineering strategies for the production of biopolymersBiotechnol Bioprocess Eng 25: 848-861 (2020. 12) *Corresponding author

[120] Sohn YJ, Kim HT, Baritugo K, Jo SY, Song HM, Park SY, Park SK, Pyo J, Cha HG, Kim H, Na JG, Park C, Choi J, Joo JC*,Park SJ* (2020) Recent advances in sustainable plastic upcycling and biopolymersBiotechnol J 15, 1900489 (2020. 6) *Corresponding author (Front Cover)

[119] Sohn YJ, Kim HT, Baritugo K, Song HM, Ryu MH, Kang KH, Jo SY, Kim H, Kim YJ, Choi J, Park SK, Joo JC*,Park SJ* (2020) Biosynthesis of polyhydroxyalkanoates from sucrose by metabolically engineered Escherichia coli strainsInt J Biol Macromol 149: 593-599 (2020. 4) *Corresponding author (IF 8.025, JCR 93.89%)

[118] Kang MJ, Kim HT, Lee M, Kim KA, Khang TU, Song HM, Park SJ*, Joo JC*, Cha HG* (2020)A Chemo-microbial hybrid process for the production of 2-pyrone-4,6-dicarboxylic acid as a promising bioplastic monomer from PET waste” Green Chem 22: 3461-3469 (2020. 6) *Corresponding author (back cover) (IF 11.034, JCR 88.3%)

[117] Kim HT, Baritugo K, Hyun SM, Khang TU, Sohn YJ, Kang KH, Jo SY, Song BK, Park K, Kim IK, Hwang YT, Lee SY, Park SJ*, Joo JC* (2020)Development of metabolically engineered Corynebacterium glutamicum for enhanced production of cadaverine and its use for the synthesis of bio-polyamide 510” ACS Sus Chem Eng 8: 129-138 (2020. 1) *Corresponding author (IF 9.224, JCR 91.26%)

[116] Park SJ, Sohn YJ, Park SJ*, Choi J* (2020)Enhanced production of 2,3-butanediol in recombinantEscherichia coli using response regulator DR1558 derived Deinococcus radioduransBiotechnol Bioprocess Eng 25: 45-52 *Corresponding author (2020.2)

[115] Jo SY, Rhie MN, Jung SM, Sohn YJ, Yeon YJ, Kim MS, Park C, Lee J, Park SJ*, Na JG* (2020) Hydrogen production from methane by Methylomonas sp. DH-1 under micro-aerobic conditionsBiotechnol Bioprocess Eng 25: 71-77 *Corresponding author (2020.2)

[114] Choi SY, Rhie MN, Kim HT, Joo JC, Cho IJ, Son J, Jo SY, Sohn YJ, Baritugo K, Pyo J, Lee YJ, Lee SY*, Park SJ* (2020) Metabolic engineering for the synthesis of polyesters: A 100-year journey from polyhydroxyalkanoates to non-natural microbial polyestersMetab Eng 58: 47-81 *Corresponding author (2020.3) (IF 8.829, JCR 90.25%)


[2019]

[113] Kim HT, Kim JK, Cha HG, Kang MJ, Lee HS, Khang TU, Yun EJ, Lee DH, Song BK, Park SJ*, Joo JC*, Kim KH* (2019) Biological valorization of poly(ethylene terephthalate) monomers for waste upcyclingACS Sus Chem Eng 7: 19396-19406 (2019. 12) *Corresponding author (IF 9.224, JCR 91.26%)

[112] Lee Y, Kim SB, Lee T, Jang M, Shin A, Park SJ, Kim JR, Choi YE, Na JG, Park C (2019) Efficient and simultaneous cleaner production of biodiesel and glycerol carbonate in solvent-free system via statistical optimizationJ Clean Prod 218: 985-992 (2019. 5)

[111] Park S, Kim GB, Kim HU, Park SJ*, Choi J* (2019) Enhanced production of poly-3-hydroxybutyrate (PHB) by expression of response regulator DR1558 in recombinant Escherichia coliInt J Biol Macromol 131: 29-35 *Corresponding author (2019. 6) (IF 8.025, JCR 93.89%)

[110] Kim HT, Baritugo K, Oh YH, Kang KH, Hyun SM, Song BK, Kim IK, Lee MO, Hwang YT, Park K, Park SJ*, Joo JC*,(2019) High-level conversion of L-lysine into cadaverine byEscherichia coli whole cell biocatalyst expressing Hafnia alveiL-lysine decarboxylasePolymers 11: 1184 *Corresponding author (2019. 7)

[109] Rhie MN, Kim HT, Jo SY, Chu LL, Baritugo KA, Baylon MG, Lee J, Na JG, Kim LH, Kim TW, Park C, Hong SH, Joo JC*,Park SJ* (2019)Recent advances in the metabolic engineering of Klebsiella pneumoniae: A potential platform microorganism for biorefineriesBiotechnol Bioprocess Eng 24: 48-64 *Corresponding author (2019. 2)

[108] Kim HT, Khang TU, Baritugo K, Hyun SM, Kang KH, Jung SH, Song BK, Park K, Oh MK, Kim GB, Kim HU, Lee SY, Park SJ*, Joo JC* (2019)“Metabolic engineering of Corynebacterium glutamicum for the production of glutaric acid, a C5 dicarboxylic acid platform chemical” Metab Eng 51: 99-109 *Corresponding author (2019. 1) (IF 8.829, JCR 90.25%)


[2018]

[107] Baritugo K,Kim HT, Rhie MN, Jo SY, Khang TU, Kang KH, Song BK, Lee B, Song JJ, Choi JH, Lee DH, Joo JC*,Park SJ* (2018)Construction of a Vitreoscilla hemoglobin promoter-based tunable expression system for Corynebacterium glutamicumCatalysts 8: 561 *Corresponding author (2018.11)

[106] Mariyana R, Kim MS, Lim CI, Kim TW, Park SJ, Oh BK, Lee J, Na JG (2018)Mass transfer performance of string film reactor: A bioreactor design for aerobic methane bioconversionCatalysts8: 490 (2018.11)

[105] Kim H, Yoo HY, Kim YH, Kim IK, Byun EH, Yang YH, Park SJ, Na JG, Sohn H, Lee T, Kim JR, Park C (2018) Improved reutilization of industrial crude lysine to 1,5-diaminopentane by enzymatic decarboxylation using various detergents and organic solvents Korean J Chem Eng 35: 1854-1859 (2018.10)

[104] Baritugo K, Kim HT, David Y, Khang TU, Hyun SM, Kang KH, Yu JH, Choi JH, Song JJ, Joo JC*, Park SJ* (2018) “Enhanced production of gamma-aminobutyrate (GABA) in recombinant Corynebacterium glutamicum strains from empty fruit bunch biosugar solution” Microb Cell Fact 17: 129 (2018.8) *Corresponding author

[103] Baritugo K, Kim HT, David Y, Choi JH, Choi J, Kim TW, Park C, Hong SH, Na JG, Jeong KJ, Joo JC*, Park SJ*(2018) “Recent advances in metabolic engineering of Corynebacterium glutamicum strains as potential platform microorganisms for biorefinery” BiofuelBioprod Bior 12: 899-925 (2018. 9) *Corresponding author

[102] Baritugo K, Kim HT, David Y, Choi J, Hong SH, Jeong KJ, Joo JC*,Park SJ*(2018) “Metabolic engineering ofCorynebacterium glutamicum for fermentative production of chemicals in biorefinery” Appl Microbiol Biotechnol 102: 3915-3937 (2018. 5) *Corresponding author

[101] Kim HT, Baritugo K, Oh YH, Hyun SM, Khang TU, Kang KH, Jung SH, Song BK, Park K, Kim IK, Lee MO, Kam Y, Hwang YT, Park SJ*, Joo JC* (2018)“Metabolic engineering of Corynebacterium glutamicum for the high-level production of cadaverine that can be used for the synthesis of bio-polyamide 510” ACS Sus Chem Eng 6: 5296-5305 (2018.4) *Corresponding author

[100] Ravikumar S, David Y, Park SJ*, Choi J* (2018) “A chimeric two-component regulatory system-based Escherichia coli biosensor engineered to detect glutamate” Appl Biochem Biotechnol186: 335-349 (2018.10) *Corresponding author

[99] Shin J, Joo JC, Lee E, Hyun SM, Kim HJ, Park SJ, Yang YH, Park K (2018) “Characterization of a whole-cell biotransformation using a constitutive lysine decarboxylase from Escherichia coli for the high-level production of cadaverine from industrial grade L-lysine” Appl Biochem Biotechnol 185: 909-924 (2018.8)

[98] Yang JE†, Park SJ†, Kim WJ, Kim HJ, Kim BJ, Lee H, Shin J, Lee SY (2018) “One-step fermentative production of aromatic polyesters from glucose by metabolically engineered Escherichia coli strains” Nat commun 9: 79 (2018.1.8) †Equal contribution (IF 17.694, JCR 92.57%)


[2017]

[97] Choi SY, Kim WJ, Yu SJ, Park SJ, Im SG, Lee SY (2017) Engineering the xylose-catabolizing Dahms pathway for production of poly(D-lactate-co-glycolate) and poly(D-lactate-co-glycolate-co-D-2-hydroxybutyrate) in Escherichia coliMicrobial Biotechnol 10: 1353-1364 (2017. 11.1)

[96] David Y, Joo JC, Yang JE, Oh YH, Lee SY*, Park SJ* (2017) “Biosynthesis of 2-hydroxyacid-containing polyhydroxyalkanoates by employing butyryl-CoA transferases in metabolically engineered Escherichia coliBiotechnol J 12, 1700116 (2017.11.1) *Corresponding author

[95] Kim S, Lim S, Park SJ, Joo JC, Choi J (2017) “Enhanced production of lysine in recombinant Corynebacterium glutamicum by the expression of Deinococcus radiodurans pprMand dr1558 genes” Microbiol Biotechnol Lett 45: 271-275 (2017. 9. 28)

[94] Joo JC, Oh YH, Yu JH, Hyun SM, Kahng TU, Kang KH, Song BK, Park K, Oh MK, Lee SY, Park SJ* (2017) “Production of 5-aminovaleric acid in recombinant Corynebacterium glutamicum strains from Miscanthus hydrolysate solution prepared by a newly developed Miscanthushydrolysis process” Bioresour Technol 245: 1692-1700. (2017. 12. 1)*Corresponding author

[93] Yoo MS, Shin M, Kim Y, Jang M, Choi YE, Park SJ, Choi J, Lee J, Park C(2017)“Development of electrochemical biosensor for detection of pathogenic microorganism in Asian dust eventsChemosphere 175: 269-274. (2017. 5. 1)

[92] Ravikumar S, Baylon MG, Park SJ*, Choi J* (2017)Engineered microbial biosensors based on bacterial two-component systems as synthetic biotechnology platforms in bioremediation and biorefineryMicrob Cell Fact 16: 62 (2017. 4. 15) *Corresponding author

[91] David Y, Baylon MG, Sudheer PDVN, Baritugo KA, Chae CG, Kim YJ, Kim TW, Kim MS, Na JG*, Park SJ* (2017) “Screening of microorganisms able to degrade low-rank coal in aerobic conditions: potential coal biosolubilization mediators from coal to biochemicalsBiotechnol Bioprocess Eng 22: 178-185. (2017. 4. 1) *Corresponding author

[90]Baylon MG, David Y, Sudheer PDVN, Baritugo KA, Chae CG,Kim YJ, Kim TW, Kim MS, Na JG*, Park SJ* (2017)“Bio-solubilization of untreated low rank coal by alkali-producing bacteria isolated from soil” Korean J Chem Eng 34: 105-109. (2017.1. 1) *Corresponding author


[2016]

[89]Baek J, Choi J, Park H, Lim S, Park SJ (2016)Isolation and proteomic analysis of Chlamydomonas reinhardtii mutant with enhanced lipid production by the gamma irradiation methodJ Microbiol Biotechnol26: 2076-2085. (2016.12. 1)

[88] Shin JH, Park SH, Oh YH, Choi JW, Lee MH, Cho JS, Jeong KJ, Joo JC, Yu J, Park SJ*, Lee SY* (2016)Metabolic engineering of Corynebacterium glutamicumfor enhanced production of 5-aminovaleric acidMicrob Cell Fact 15:174 (2016.10.7) *Corresponding author

[87] Pham VD, Somasundaram S,Lee SH, Park SJ, Hong SH (2016) “Gamma-aminobutyric acid production through GABA shunt by synthetic scaffolds introduction in recombinant Escherichia coli Biotechnol Bioprocess Eng 21: 261-267. (2016. 3. 1)

[86]Pham VD, Somasundaram S, Park SJ, Lee SH, Hong SH (2016)Co-localization of GABA shunt enzymes for the efficient production of gamma-aminobutyric acid via GABA shunt pathway in Escherichia coliJ Microbiol Biotechnol 26: 715-721. (2016. 4. 1)

[85] Kim HS, Oh YH, Jang YA, Kang KH, David Y, Yu JH, Song BK, Choi J, Chang YK, Joo JC*, Park SJ* (2016)“RecombinantRalstonia eutropha engineered to utilize xylose and its use for the production of poly(3-hydroxybutyrate) from sunflower stalks hydrolysate solutionMicrob Cell Fact 15: 95 (2016.6.3) *Corresponding author

[84] Pham VD, Somasundaram S,Lee SH, Park SJ, Hong SH (2016) “Efficient production of gamma-aminobutyric acid using Escherichia coli by co-localization of glutamate synthase, glutamate decarboxylase, and GABA transporterJ Ind Microbiol Biotechnol 43: 79-86 (2016.1.1)

[83] Pham VD, Somasundaram S,Lee SH, Park SJ, Hong SH (2016) “Redirection of metabolic flux into novel gamma-aminobutyric acid production pathway by introduction of synthetic scaffolds strategy in Escherichia ColiAppl Biochem Biotechnol 178: 1315-1324 (2016.4.1)

[82] Yang JE, Kim JW, Oh YH, Choi SY, Lee H, Park AR, Shin J, Park SJ*, Lee SY* (2016) “Biosynthesis of poly(2-hydroxyisovalerate-co-lactate) by metabolically engineered Escherichia coli Biotechnol J 11: 1572-1585. (2016. 12. 1) *Corresponding author

[81] Kim YJ, Chae CG, Kang KH, Oh YH, Joo JC, Song BK, Lee SY, Park SJ*(2016)“Biosynthesis of lactate-containing polyhydroxyalkanoates in recombinant Escherichia coli by employing new CoA transferasesKSBB Journal31:27-32. (2016. 3. 1) *Corresponding author

[80] Chae CG, Kim YJ, Lee SJ, Oh YH, Yang JE, Joo JC, Kang KH, Jang YA, Lee H, Park AR, Song BK, Lee SY, Park SJ* (2016) “Biosynthesis of poly(2-hydroxybutyrate-co-lactate) in metabolically engineered Escherichia coliBiotechnol Bioprocess Eng 21: 169-174. (2016. 1. 1) *Corresponding author

[79] Choi SY†, Park SJ†, Kim WJ, Yang JE, Lee H, Shin J, Lee SY (2016) “One-step fermentative production of poly(lactate-co-glycolate) from carbohydrates in Escherichia coliNat Biotechnol 34: 435-440. (2016. 4. 1) †Equal contribution (IF 68.164, JCR 99.06%)

[78] Oh YH, Eom GT, Kang KH, Joo JC, Jang YA, Choi JW, Song BK, Lee SH*, Park SJ* (2016) “Construction of heterologous gene expression cassettes for the development of recombinant Clostridium beijerinckiiBioprocess Biosyst Eng 39: 555-563. (2016. 4. 1) *Corresponding author

[77] Sudheer PDVN, David Y, Chae CG, Kim YJ, Baylon MG, Baritugo KA, Kim TW, Kim MS, Na JG*, Park SJ* (2016) “Advances in biological treatment of coal for synthetic natural gas and chemicalsKorean J Chem Eng 33: 2788-2801. (2016. 10. 1) *Corresponding author

[76] Pham VD, Somasundaram S,Lee SH, Park SJ, Hong SH (2016) “Engineering the intracellular metabolism of Escherichia coli to produce gamma-aminobutyric acid by co-localization of GABA shunt enzymesBiotechnol Lett 38: 321-327. (2016. 2. 1)


[2015]

[75] Oh YH, Eom GT, Kang KH, Choi JW, Song BK, Lee SH*, Park SJ* (2015)“Optimized transformation of newly constructed Escherichia coli-Clostridia shuttle vectors into Clostridium beijerinckiiAppl Biochem Biotechnol 177: 226-236. (2015. 9. 1) *Corresponding author

[74] Oh YH, Eom IY, Joo JC, Yu JH, Song BK, Lee SH, Hong SH, Park SJ* (2015) “Recent advances in development of biomass pretreatment technologies used in biorefinery for the production of bio-based fuels, chemicals and polymers” Korean J Chem Eng 32: 1945-1959. (2015. 10. 1) *Corresponding author

[73] Oh YH, Choi JW, Kim EY, Park K, Song BK, Jeong KJ, Kim IK, Woo HM, Lee SH*, Park SJ* (2015) “Construction of synthetic promoter-based expression cassettes for theproduction of cadaverine in recombinant Corynebacterium glutamicumAppl Biochem Biotechnol 176: 2065-2075. (2015. 8. 1) *Corresponding author

[72] Oh YH, Kang KH, Kwon MJ, Choi JW, Lee SH, Yang YH, Song BK, Kim IK, Yoon KH, Park K*, Park SJ* (2015) “Development of engineered Escherichia coli whole cell biocatalysts for high-level conversion of lysine into cadaverine” J Ind Microbiol Biotechnol 42: 1481-1491. (2015. 11. 1) *Corresponding author

[71] Chae TU, Kim WJ, Choi S, Park SJ, Lee SY (2015) “Metabolic engineering of Escherichia coli for the production of 1,3-diamineopropane, a three carbon diamine” Scientific Reports 5, 13040 doi:10.1038/srep13040 (2015.8. 11)

[70] Pham VD, Lee SH, Park SJ, Hong SH (2015) “Production of gamma-aminobutyric acid from glucose by introduction of synthetic scaffolds between isocitrate dehydrogenase, glutamate synthase and glutamate decarboxylase in recombinant Escherichia coliJ Biotechnol 207: 52-57. (2015. 8. 1)

[69] Eom IY, Oh YH, Park SJ, Lee SH, Yu JH (2015)Fermentative L-lactic acid production from pretreated whole slurry of oil palm trunk treated by hydrothermolysis and subsequent enzymatic hydrolysisBioresour Technol 185: 143-149. (2015. 6. 1)

[68]Oh YH, Lee SH, Jang YA, Choi JW, Hong KS, Yu JH, Shin J, Song BK, Mastan SG, David Y, Baylon MG, Lee SY, Park SJ* (2015) Development of rice bran treatment process and its use for the synthesis of polyhydroxyalkanoates from rice bran hydrolysate solutionBioresour Technol 181: 283-290. (2015. 4. 1) *Corresponding author

[67] Choi JW, Yim SS, Lee SH, Kang TJ, Park SJ*, Jeong KJ* (2015) “Enhanced production of gamma-aminobutyrate (GABA) in recombinant Corynebacterium glutamicum by expressing glutamate decarboxylase active in expanded pH range” Microb Cell Fact 14: 21 doi:10.1186/s12934-015-0205-9. (2015. 2. 1) *Corresponding author

[66] Park SJ, Lee SH, Oh YH, Lee SY (2015) “Establishment of biosynthesis pathway for (R)-3-hydroxyalkanoates in recombinant Escherichia coliKorean J Chem Eng 32: 702-706. (2015. 4. 1)

[65] Park SJ, Jang YA, Noh W, Oh YH, Lee H, David Y, Baylon MG, Shin J, Yang JE, Choi SY, Lee SH, Lee SY (2015) “Metabolic engineering of Ralstonia eutropha for the production of polyhydroxyalkanoates from sucroseBiotechnol Bioeng 112: 638-643. (2015. 3. 1)


[2014]

[64] Oh YH, Kang KH, Shin J, Song BK, Lee SH, Lee SY*, Park SJ* (2014) “Biosynthesis of lactate-containing polyhydroxyalkanoates in recombinant Escherichia coli from sucrose” KSBB Journal 29: 443-447. (2014. 12. 1) *Corresponding author

[63] Lee JH, Nam DH, Lee SH, Park JH, Park SJ, Lee SH, Park CB, Jeong KJ (2014) New platform for cytochrome P450 reaction by in situ immobilization on biopolymerBioconju Chem 25: 2101-2104. (2014. 12. 1)

[62] Hwang IY, Lee SH, Choi YS, Park SJ, Na JG, Chang IS, Kim C, Kim HC, Kim YH, Lee JW, Lee EY (2014) “Biocatalytic conversion of methane to methanol as a key step for the starting of methane-based biorefinery” J Microbiol Biotechnol 24: 1597-1605. (2014. 12. 1)

[61] Park SJ, Oh YH, Noh W, Lee S, Kim HY, Shin JH, Lee EG, David Y, Baylon MG, Song BK, Jegal J, Lee SY, Lee SH (2014) High-level conversion of L-lysine into 5-aminovalerate that can be used for the synthesis of nylon 6, 5Biotechnol J 9: 1322-1328. (2014. 10. 1)

[60] Park SJ, Lee SH, Oh YH, Lee SY (2014) “MaoC mediated biosynthesis of medium-chain-length polyhydroxyalkanoates in recombinant Escherichia coli from fatty acid” KSBB Journal 29: 244-249. (2014. 8. 1)

[59] Eom GT, Lee SH, Oh YH, Choi JE, Park SJ*, Song JK* (2014) Efficient extracellular production of type I secretion pathway-dependent Pseudomonas fluorescens lipase in recombinant Escherichia coli by ABC exportersBiotechnol Lett 36: 2037-2042. (2014. 10. 1) *Corresponding author

[58] Kang MK, Lee J, Um Y, Lee TS, Bott M, Park SJ, Woo HM (2014) A synthetic biology platform of CoryneBrick vectors for gene expression in C. glutamicum and its application to xylose utilizationAppl Microbiol Biotechnol 98: 5991-6002. (2014. 7. 1)

[57] Le Vo TD, Pham VD, Ko JS, Lee SH, Park SJ, Hong SH (2014) Improvement of gamma-amino butyric acid production by an overexpression of glutamate decarboxylase from Pyrococcus horikoshii in Escherichia coliBiotechnol Bioprocess Eng 19: 327-331. (2014. 3. 1)

[56] Liu H, Ramos KRM, Valdehuesa KNG, Nisola GM, Maliha LB, Lee W-K, Park SJ, Chung W-J. (2014)Metabolic engineering ofEscherichia coli for biosynthesis of D-galactonate” Bioprocess Biosyst Eng 37: 383-391. (2014. 3. 1)

[55] Park SJ, David Y, Baylon MG, Hong SH, Oh YH, Yang JE, Choi SY, Lee SH, Lee SY (2014)Development of Metabolic Engineering Strategies for Microbial Platform to Produce bioplasticsAppl Chem Eng 25: 134-141. (2014. 4. 1)

[54] Valdehuesa KNG, Liu H, Ramos KRM, Park SJ, Nisola GM, Lee W-K, Chung W-J. (2014)Direct bioconversion of D-xylose to 1,2,4-butanetriol in an engineered Escherichia coliProcess Biochem 49: 25-32. (2014. 1. 1)

[53]  Kim YH, Goh JS, Ryu MH, Kim DS, Song BK, Lee SH, Park SJ, Jegal J (2014)Preparation and Characterization of Nylon 6,5 Copolymers from ε-caprolactam and 2-piperidonePolymer (Korea) 38: 31-37. (2014. 1. 1)

[52] Yang JE, Choi YJ, Lee SJ, Kang K-H, Lee H, Oh YH, Lee SH, Park SJ*, Lee SY* (2014) “Metabolic engineering of Escherichia coli for biosynthesis of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) from glucose” Appl Microbiol Biotechnol 98: 95-104. (2014. 1. 1) *Corresponding author


[2013]

[51] Liu H, Sun Y, Ramos KRM, Nisola GM, Lee W-K, Park SJ, Chung W-J (2013)Combination of entner-doudoroff pathway with MEP increases isoprene production in engineered Escherichia coliPLoS ONE 8(12): e83290 (2013. 12. 20)

[50] Le Vo TD, Ko JS, Lee SH, Park SJ*, Hong SH* (2013) Overexpression of Neurospora crassa OR74A glutamate decarboxylase in Escherichia coli for efficient GABA productionBiotechnol Bioprocess Eng18: 1062-1066. (2013. 12. 1) *Corresponding author

[49] Ganesh I, Ravikumar S, Lee SH, Park SJ*, Hong SH* (2013) “Engineered fumarate sensing Escherichia colibased on novel chimeric two-component system” J Biotechnol 168: 560-566. (2013. 12. 1) *Corresponding author

[48] Yang JE, Choi SY, Shin JH, Park SJ*, Lee SY* (2013) “Microbial production of lactate-containing polyestersMicrob Biotechnol 6: 621-636. (2013. 11. 1) *Corresponding author

[47] Lee H, Park SJ†, Han M-J, Eom GT, Choi MJ, Kim SH, Oh YH, Song BK, Lee SH (2013) Expression of lipase on the cell surface of Escherichia coli using the OmpW anchoring motif and its application to enantioselective reactionsBiotechnol Lett 35: 1677-1683. (2013. 10. 1) †Equal contribution

[46] Lee SH, Kang KH, Kim EY, Oh YH, Hong SH, Song BK, Jegal J, Park SJ*,Lee SY* (2013)“Metabolic engineering of Escherichia coli for enhanced biosynthesis of poly(3-hydroxybutyrate) based on proteome analysis” Biotechnol Lett 35: 1631-1637. (2013. 10. 1) *corresponding author

[45] Park SJ, Jang Y-A, Lee H, Park A-R, Yang JE, Shin J, Oh YH, Song BK, Jegal J, Lee SH, Lee SY (2013) “Metabolic engineering of Ralstonia eutropha for the biosynthesis of 2-hydroxyacid containing polyhydroxyalkanoates (PHAs)” Metab Eng 20: 20-28. (2013. 11. 1)

[44] Le Vo TD, Ko JS, Park SJ, Lee SH, Hong SH (2013) “Efficient gamma-aminobutyric acid bioconversion by employing synthetic complex between glutamate decarboxylase and glutamate/GABA antiporter in engineered Escherichia coliJ Ind Microbiol Biotechnol 40: 927-933. (2013. 8. 1)

[43] Ganesh I, Ravikumar S, Park SJ, Lee SH, Hong SH “Expression characteristics of the maeA and maeB genes by extracellular malate and pyruvate in Escherichia coli” (2013) Korean J Chem Eng 30: 1443-1447. (2013. 7. 1)

[42] Lee JH, Lee SH, Yim SS, Kang K-H, Lee SY*, Park SJ*, Jeong KJ* (2013) “Quantified high-throughput screening of Escherichia coli producing poly(3-hydroxybutyrate) based on FACS” Appl Biochem Biotechnol 170: 1767-1779. (2013. 8.1) *Corresponding author

[41] Park SJ, Kang K-H, Lee H, Park A-R, Yang JE, Oh YH, Song BK, Jegal J, Lee SH, Lee SY (2013) “Propionyl-CoA dependent biosynthesis of 2-hydroxybutyrate containing polyhydroxyalkanoates in metabolically engineered Escherichia coliJ Biotechnol 165: 93-98. (2013. 5. 20)

[40] Park SJ, Kim EY, Noh W, Oh YH, Kim HY, Song BK, Cho KM, Hong SH, Lee SH, Jegal J (2013) “Synthesis of nylon 4 from gamma-aminobutyrate (GABA) produced by recombinant Escherichia coliBioprocess Biosyst Eng 36: 885-892. (2013. 7. 1)

[39] Valdehuesa KNG, Liu H, Nisola GM, Chung W-J, Lee SH*, Park SJ* (2013) “Recent advancesin the metabolic engineering of microorganisms for the production of 3-hydroxypropionic acid as C3 platform chemical” Appl Microbiol Biotechnol 97: 3309-3321 (2013.04) *Corresponding author

[38] Chae HS, Lee SH, Lee, J-H, Park SJ, Lee PC (2013) “Use of a novel Escherichia coli-Leuconostoc shuttle vector for metabolic engineering of Leuconostoc citreum to overproduce D-lactateAppl Environ Microbiol 79: 1428-1435. (2013.03)

[37]Park SJ, Kim EY, Noh W, Park HM, Oh YH, Lee SH, Song BK, Jegal J, Lee SY (2013) “Metabolic engineering of Escherichia coli for the production of 5-aminovalerate and glutarate as C5 platform chemicals” Metab Eng 16: 42-47 (2013.3)

 

[2012]

[36] Park SJ, Kim MK, Lee SY (2012) Microbial metabolic engineering for the production of polyesters” Biotechnol Int 24: 11-13 (2012. 3)

[35] Park SJ, Kim MK, Lee SY (2012) “One-step fermentative production of polylactic acid (PLA)Chem Eng Prog 5: 51-55 (2012. 5)

[34] Park SJ†*, Kim TW†, Kim MK, Lee SY*, Lim S-C (2012) “Advanced bacterial polyhydroxyalkanoates: towards a versatile and sustainable platform for unnatural tailor-made polyestersBiotechnol Adv 30: 1196-1206 (2012. 11) †Equal contribution *Corresponding author

[33] Park SJ*, Lee SY*, Kim TW, Jung YK, Yang TH (2012) “Biosynthesis of lactate containing polyesters by metabolically engineered bacteria” Biotechnol J 7:199-212 (2012.2) *Corresponding author

[32] Park SJ*, Lee TW, Lim S-C, Kim TW, Lee H, Kim MK, Lee SH, Song BK, Lee SY* (2012) “Biosynthesis of polyhydroxyalkanoates containing 2-hydroxybutyrate from unrelated carbon source by metabolically engineered Escherichia coliAppl Microbiol Biotechnol 93:273-283 (2012.1) *Corresponding author


[2011]

[31] Yang TH, Jung YK, Kang HO, Kim TW, Park SJ, Lee SY (2011) “Tailor-made type II PseudomonasPHA synthases and their use for the biosynthesis of polylactic acid and its copolymer in recombinant Escherichia coliAppl Microbiol Biotechnol 90:603-614 (2011.4)


[2010]

[30] Jung YK, Kim TY, Park SJ, Lee SY (2010) “Metabolic engineering of Escherichia coli for the production of polylactic acid and its copolymers” Biotechnol Bioeng105:161-171 (2010.1)

[29] Yang TH, Kim TW, Kang HO, Lee S-H, Lee EJ, Lim S-C, Oh SO, SongA-J, Park SJ*, Lee SY* (2010) “Biosynthesis of polylactic acid and its copolymers using evolved propionate CoA transferase and PHA synthase” Biotechnol Bioeng 105:150-160 (2010.1) *Corresponding author


[2009]

[28] Lee S-H, Park SJ*, Park O-J, Cho J, Rhee JW (2009) “Production of 3-hydroxypropionic acid from acrylic acid by newly isolated Rhodococcus erythropolis LG12” J Microbiol Biotechnol 19:474-481 (2009.5) *Corresponding author


[2008]

[27] Lee S-H, Park SJ*, Lee SY, Hong SH* (2008) “Biosynthesis of enantiopure (S)-3-hydroxybutyric acid in metabolically engineered Escherichia coliAppl Microbiol Biotechnol 79:633-641 (2008.6) *Corresponding authors


[2006]

[26] Han M-J, Park SJ, Lee JW, Min BH, Lee SY, Kim S-J, Yoo J-S (2006) "Analysis of poly(3-hydroxybutyrate) granule-associated proteome in recombinant Escherichia coli", J Microbiol Biotechnol 16:901-910. (2006.6)


[2005]

[25] Park SJ*, Lee SY*, Cho J, Kim TY, Lee JW, Park JH, Han M-J (2005) “Global physiological understanding and metabolic engineering of microorganisms based on omics studies” Appl Microbiol Biotechnol68:567-579 (2005.9) *Corresponding authors

[24] Park SJ, Lee SY (2005) “Systems biotechnological approaches for the production of polyhydroxyalkanoates in recombinant Escherichia coliMacromol symp 224:1-9 (2005.4)

[23] Park SJ, Choi J, Lee SY (2005) “Engineering of Escherichia coli fatty acid metabolism for the production of polyhydroxyalkanoates” Enzyme Microb Technol 36: 579-588. (2005.3)

[22] Park SJ, Choi J, Lee SY (2005) “Short-chain-length polyhydroxyalkanoates: Synthesis in metabolically engineered Escherichia coli and medical application” J Microbiol Biotechnol 15: 206-215. (2005.2)


[2004]

[21] Choi J, Park SJ, Lee SY (2004) "In vivo analysis of fadB homologous enzymes involved in biosynthesis of polyhydroxyalkanoates in recombinant Escherichia coli", Kor J Biotechnol Bioeng 19:331-334 (in Korean)

[20] Park SJ, Lee SY (2004) “Biosynthesis of poly(3-hydroxybutyrate-co-3-hydroxyalkanoates) by metabolically engineered Escherichia coli strains” Appl Biochem Biotechnol114:335-346. (2004.3)

[19] Lee SY, Hong SH, Lee SH, Park SJ (2004)Fermentative production of chemicals that can be used for polymer synthesis” Macromol Biosci 4:157-164.

[18] Park SJ, Lee SY (2004) “New FadB homologous enzymes and their use in enhanced biosynthesis of medium-chain-length polyhydroxyalkanoates in fadB mutant Escherichia coliBiotechnol Bioeng 86:681-686. (2004.6)

[17] Han M-J†, Park SJ, Park TJ, Lee SY (2004) “Roles and applications of small heat shock proteins in the production of recombinant proteins in Escherichia coliBiotechnol Bioeng 88:426-436. (2004.11) †Equal contribution

[16] Park SJ, Lee SY, Lee Y (2004)Biosynthesis of (R)-3-hydroxyalkanic acid by metabolically engineered E. coli" Appl Biochem Biotechnol 114:373-380. (2004.3)

[15] Lee SH, Choi J, Park SJ, Lee SY, Park BC (2004) “Display of bacterial lipase on the Escherichia coli cell surface by using FadL as an anchoring motif and its use in enantioselective biocatalysis” Appl Environ Microbiol 70:5074-5080. (2004.9)


[2003]

[14] Hong SH, Park SJ, Moon SY, Park JP, Lee SY (2003) “In silico prediction and validation of the importance of enter-doudoroff pathway in poly(3-hydroxybutyrate) production by metabolically engineered Escherichia coliBiotechnol Bioeng 83:854-863. (2003.9)

[13] Park SJ, Park JP, Lee SY, Doi Y (2003) “Enrichment of specific monomer in medium-chain-length poly(3-hydroxyalkanoates) by amplification of fadD and fadE genes in recombinant Escherichia coliEnzyme Microb Technol 33:62-70. (2003.7)

[12] Park SJ, Lee I-S, Lee SY, Chang YK (2003) “Desulfurization of dibenzothiophene and diesel oil by metabolically engineered Escherichia coliJ Microbiol Biotechnol 13:578-583. (2003.8)

[11] Park SJ, Lee SY (2003) “Identification and characterization of a new enoyl-coA hydratase involved in the biosynthesis of medium-chain-length polyhydroxyalkanoates in recombinant Escherichia coliJ Bacteriol 185: 5391-5397. (2003.9)


[2002]

[10] Park SJ, Park JP, Lee SY (2002) “Production of poly(3-hydroxybutyrate) from whey by fed-batch culture of recombinant Escherichia coli in a pilot-scale fermentor” Biotechnol Lett 24:185-189(2002.2)

[9] Park SJ, Park JP, Lee SY (2002) “Metabolic engineering of Escherichia coli for the production of medium-chain-length polyhydroxyalkanoates rich in specific monomers” FEMS Microbiol Lett 214:217-222. (2002.9)

[8] Choi J, Lee SY, Shin K, Lee WG, Park SJ, Chang HN, Chang YK (2002) “Pilot scale production of poly(3-hydroxybutyrate-co-3-hydroxyvalerate) by fed-batch culture of recombinant Escherichia coliBiotechnol Bioprocess Eng 7: 371-374. (2002.9)


[2001]

[7] Park SJ, Ahn WS, Green PR, Lee SY (2001) “Production of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) by metabolically engineered Escherichia coli strains” Biomacromolecules2:248-254 (2001.1)

[6] Park SJ, Ahn WS, Green PR, Lee SY (2001) “Biosynthesis of poly(3-hydroxybutyrate-co-3-hydroxyvalerate-co-3-hydroxyhexanoate) by metabolically engineered Escherichia coli strains” Biotechnol Bioeng 74:82-87 (2001.7)

[5] Ahn WS, Park SJ,Lee SY (2001) “Production of poly(3-hydroxybutyrate) from whey by cell recycle fed-batch culture of recombinant Escherichia coliBiotechnol Lett23:235-240 (2001.2)

[4] Chen GQ, Zhang G, Park SJ, Lee, SY (2001)"Industrial scale production of poly(3-hydroxybutyrate-co-3-hydroxyhexanoate)" Appl Microbiol Biotechnol57: 50-55 (2001.10.1)


[2000]

[3] Ahn WS, Park SJ,Lee SY (2000) “Production of poly(3-hydroxybutyrate) by fed-batch culture of recombinant Escherichia coli with a highly concentrated whey solution”, Appl Environ Microbiol 66:3624-3627 (2000.8.1)


[1999]

[2] Park SJ, Georgiou G, Lee SY (1999) "Secretory production of recombinant protein by high cell density culture of protease negative mutant Escherichia colistrain", Biotechnol Prog 15: 164-167 (1999.3.1)


[1998]

[1] Park SJ, Lee SY (1998) "Efficient recovery of secretory recombinant protein from protease negative mutant Escherichia colistrains", Biotechnol Techniques 12: 815-818 (1998.12.1)

 


📖Book chapters


1.  Lee SY, Park SJ (2002) “Fermentative production of SCL-PHAs” in Biopolymers Vol. 3a  

     (Steinbüchel A Ed), Wiley-VCH, 263-290.

2.  Lee SY, Park SJ (2002) “Biosynthesis and fermentative production of SCL-MCL-PHAs” in Biopolymers Vol. 3a (Steinbüchel A Ed), Wiley-VCH, 317-336.

3.  Lee SY, Hong SH, Park SJ, van Wegen R, Middelberg APJ (2002) “Metabolic flux analysis on the production of poly(3-hydroxybutyrate)” in Biopolymers Vol. 3a (Steinbüchel A Ed), Wiley-VCH, 249-261.

4.  Lee SY, Park SJ, Park JP, Lee Y, Lee SH (2003) “Economic aspects of biopolymer production” in Biopolymers Vol. 10 (Steinbüchel A Ed), Wiley-VCH, 307-338.

5.  Lee SY, Park SJ, Lee Y, Lee SH (2003) “Biotechnological Processes for the Production of Monomers for Subsequent Chemical Polymer Synthesis” in Biopolymers Vol. 10 (Steinbüchel A Ed), Wiley-VCH, 281-305.

6.  Park SJ, Hong SH, Lee SY (2009) "Chapter 4. Polymerization of building blocks to macromolecules: polyhydroxyalkanoates as an example." in The Metabolic Pathway Engineering Handbook: Fundamentals (Christina D. Smolke Ed.) CRC Press, USA (2009. 9)

7.  Park SJ, Shin JH, Yang JE, Lee SY (2015) "Synthetic biology of hydrophobic polymer production" in Hydrocarbon and Lipid Microbiology Protocols, Springer, Germany




 💡 Patents


1.    Recombinant E. coli expressing desulfurization enzymes and methods for desulfurization using the same, Korean patent appl. (99-1350) (1999. 1. 19), Registered 0343398 (2002. 06. 25)

2.    Recombinant bacterial system for producing P(3HB-co-3HA), Korean patent appl. (10-2002-10324) (2002. 02. 26) Registered 447,535 (2004. 08. 27)

3.    Recombinant bacterial system for producing MCL-PHA, Korean patent appl. (10-2002-10325)(2002. 2. 26) Registered 447,531 (2004. 08. 27)

4.    Process for preparing polyhydroxyalkanoate employing MaoC protein, Korean patent appl. (10-2003-25863) (2003. 04. 23) Registered 482,776 (2005. 04. 01)

5.    Composition for protecting proteins degradation comprising small heat shock proteins (sHSPs) and method of two-dimensional gel electrophoresis using the sHSPs, Korean patent appl. (10-2003-0062756) (2003. 09. 08) Registered 0516389 (2005. 09. 14)

6.    Fusion protein with substrate binding domain of extracellular PHA (polyhydroxyalkanoate) depolymerase, recombinant microorganism expressing the fusion protein and protein chip or microarray made of the fusion protein, Korean patent appl. (10-2003-0005730) (2003. 01. 29) Registered 0523211 (2005. 10. 14)

7.    Method for producing target proteins by deleting or amplifying ibpA and/or ibpB gene coding for inclusion body-associated proteins, Korean patent appl. (10-2003-15965) (2003. 03. 14) Registered 530,988 (2005. 11. 18.)

8.    Enoyl-CoA hydratase MaoC involved in the biosynthesis of poly (3- hydroxyalkanoates) [PHA] in recombinant Escherichia coliand production of PHA by applying MaoC, US patent appl., 10/662358 (2003.9.16) Registered US 7183087 (2007.02.27.)

9.    Method for cell surface display of target proteins using FadL of E. coli, Korean patent appl. (10-2004-0044881) (2004.6.17) Registered 10-0690948 (2007. 2. 27)

10.

11. Method for producing target proteins by deleting or amplifying ibpA and/or ibpB gene coding for inclusion body-associated proteins, US patent appl. US10/545,849 (2005.08.17) Registered US 7,291,325 (2007.11.06.)

12. Mutants of PHA synthase from Pseudomonas sp. 6-19 and method for preparing lactate homopolymer or copolymer using the same, Registered 0957777  (2010.05.06)

13. Cells or plants having an producing ability of polylactate or its copolymers and method for preparing polylactate or its copolymers using the same, Registered 0979694  (2010.08.27)  

14. Rhodococcus-E. coli shuttle vector, Korean patent appl. 10-2006-0014208 (2006.02.14) Registered 10-0738002-0000 (2007.07.04)

15. Novel copolymer of [poly(MCL 3-hydroxyalkanoate-co-lactate)] and method for preparing the same, Registered 0957774  (2010.05.06)    

16. Novel Copolymer of [Poly(3-hydroxypropionate-co-lactate)] and method for preparing the same, Registered 0957773  (2010.05.06)

17. Novel Copolymer of [poly(3-hydroxybutyrate-co-3-hydroxypropionate-co-lactate)] and method for preparing the same, Registered 0957776  (2010.05.06)

18. Novel Copolymer of [poly(4-hydroxybutyrate-co-3-hydroxypropionate-co-lactate)] and method for preparing the same, Registered 0926489  (2009.11.05)

19. Novel Copolymer of [poly(3-hydroxybutyrate-co-4-hydroxybutyrate-co-lactate)] and method for preparing the same, Registered 0926492  (2009.11.05)

20. Novel Copolymer of [poly(3-hydroxybutyrate-co-3-hydroxypropionate-co-4-hyd roxybutyrate-co-lactate)] and method for preparing the same, Registered 0926491  (2009.11.05)

21. Novel copolymer of [poly(3-hydroxybutyrate-co-MCL 3-hydroxyalkanoate-co-lactate)] and method for preparing the same, Registered 0957775  (2010.05.06)

22. Novel copolymer of [poly(3-hydroxybutyrate-co-3-hydroxyvalerate-co-lactate)] and method for preparing the same, Registered 0948777  (2010.03.15)

23. Preparing Method for (S)-3-hydroxybutyric Acid and (S)-3-hydroxybutyrate Ester Using Recombinant Microorganism Registered 1011149180000 (2012.02.03)

24. Mutant of propionyl-CoA transferase from Clostridium propionicum and Preparing Method for PLA or PLA Copolymer Using the Same Registered 1010455720000 (2011.06.24)

25. Recombinant microorganism able to produce polylactate or polylactate copolymer from sucrose and method for producing polylactate or polylactate copolymer from sucrose using the same Registered 1010373540000 (2011.05.20)  

26. Method for Preparing Polylactate and its Copolymer Using Mutant Microorganism with Improved Productivity of Polylactate and its Copolymer Registered 1114912  (2012.02.03)

27. Recombinant microorganism able to produce polylactate or polylactate copolymer from glycerol and method for producing polylactate or polylactate copolymer from glycerol using the same Registered 1012601870000 (2013.04.25)

28. Mutants having a producing ability of 1,4-butanediol and method for preparing 1,4-butanediol using the same Registered 1010422420000 (2011.06.10)

29. Method for Preparing glutaric acid using recombinant microorganismRegistered 1012711600000 (2013.05.29)

30. Method for Preparing Polyhydroxyalkanoate Containing 2-Hydroxybutyrate Registered 1012735990000 (2013.06.04)

31. Recombinant Ralstonia eutropha Having an Producing Ability of Polylactate or Its Copolymers and Method for Preparing Polylactate or Its Copolymers Using the Same Korean patent appl. 10-2009-0009256  (2009.02.05)

32. Recombinant microorganism capable of producing polylactate or polylactate copolymer from xylose and method for producing polylactate or polylactate copolymer from xylose using the same Korean patent appl. 2009-0018082  (2009.03.03)

33. Mutants having a producing ability of 1,4-butanediol and method for preparing 1,4-BDO using the same, Korean patent appl. 10-2006-0026599 (2006.03.23)

34. Method for preparing PHA using BC4023 encoding b-ketothiolase derived from Bacillus cereus, Korean patent appl. 10-2006-0028728 (2006.03.30)

35. Method for preparing PHA using BC5344 encoding b-ketothiolase derived from Bacillus cereus, Korean patent appl. 10-2006-0028729 (2006.03.30)

36. Novel Copolymer of [Poly(3-hydroxybutyrate-co-lactate)] and method for preparing the same, Korean patent appl. 10-2006-0115158 (2006.11.21)

37. Rhodococcus erythropolis LG12 having an acrylic acid degrading activity and method for removing acrylic acid using the same, Korean patent appl.  10-2005-0086392 (2005.09.15)

38. Mutants having a producing ability of 4-hydroxybutyrate and method for preparing 4HB using the same, Korean patent appl. 10-2006-0026593 (2006.03.23)

39. Novel microorganism catalyzing regioselective hydroxylation of 6 cyclic compound containing nitrogen and method for producing hydroxylated 6 cyclic compound containing nitrogen using the same, Korean patent appl. 10-2005-0065198 (2005.07.19)

40. Production of 3-hydroxypropionic acid by Rhodococcus erythropolis LG12, Korean patent appl. 10-2004-0083542 (2004.10.19)

41. Method of gamma aminobutyrate (GABA) production from mono sodium glutamate (MSG) using Lactobacillus strains and recombinant Lactobacillus strains, Korean patent appl. 10-2010-0134368 (2010.12.24)

42. Method for Preparing gamma-aminobutyric acid using recombinant Escherichia coli strains Korean patent appl. 10-2011-0021962 (2011.3.11)

43. Method for Preparing 5-aminovalerate using recombinant Escherichia coli strains Korean patent appl. 10-2011-0021963 (2011.3.11)

44. Recombinant Microorganism Having Producing Poly(lactate-co-glycolate) from Glucose and Preparing Method of Poly(lactate-co-glycolate) Using Thereof Korean patent appl. 10-2011-0022020 (2011.3.11)

45. Recombinant Microorganism Producing polyhydroxyalkanoate (PHA) containing 2-hydroxybutyrate (2HB) monomer Korean patent appl. 10-2011-0022021 (2011.3.11)

46. L―lactic acid producing genetically modified microorganisms and the method for preparing L―lactic acid using the same Korean patent appl. 10-2011-0105350 (2011.10.14)

47. Genetically modified D―lactic acid―producing microorganisms and the method for preparing D―lactic acid using the same Korean patent appl. 10-2012-0020235 (2012.2.28)

48. Production of Polyhydroxyalkanoates from the Saccharified Solution of Hydrodictyaceae Algal Biomass Korean patent appl. 10-2011-0105330 (2011.10.14)

49. Mutants Having a High Producing Ability of 4-hydroxybutyrate and Preparing Method for 4-hydroxybutyrate Using Thereof Korean patent appl. 10-2011-0130183 (2011.12.7)

50. Method of high productivity butanol production using microorganism with elevated butanol titer Korean patent appl. 10-2010-0003900 (2010.1.15)

51. Mutants of PHA synthase from Pseudomonas sp. 6-19 and method for preparing lactate homopolymer or copolymer using the same, PCT WO 2009/022797 (2009.2.29)

52. Preparing Method for (S)-3-hydroxybutyric Acid and (S)-3-hydroxybutyrate Ester Using Recombinant Microorganism PCT WO 2009/020279 (2009.2.12)

53. Mutant of propionyl-CoA transferase from Clostridium propionicum and Preparing Method for PLA or PLA Copolymer Using the Same PCT WO 2009/022797 (2009.2.19)

54. Recombinant microorganism able to produce polylactate or polylactate copolymer from sucrose and method for producing polylactate or polylactate copolymer from sucrose using the same PCT WO 2009/031762 (2009.3.12)

55. Mutants having a producing ability of 1,4-butanediol and method for preparing 1,4-butanediol using the same PCT WO 2009/031766 (2009.3.12)

56. Recombinant Ralstonia eutropha Having an Producing Ability of Polylactate or Its Copolymers and Method for Preparing Polylactate or Its Copolymers Using the Same PCT WO 2010/090436 (2010.8.12)

57. Method of gamma aminobutyrate (GABA) production from mono sodium glutamate (MSG) using Lactobacillus strains and recombinant Lactobacillus strains PCT/KR2011/008020 (2011.10.26)

58. Method for Preparing gamma-aminobutyric acid using recombinant Escherichia coli strains PCT/KR2012/001756 (2012.3.9)

59. Method for Preparing 5-aminovalerate using recombinant Escherichia coli strains PCT/KR2012/001757 (2012.3.9)

60. Recombinant Microorganism Having Producing Poly(lactate-co-glycolate) from Glucose and Preparing Method of Poly(lactate-co-glycolate) Using Thereof PCT/KR2012/001754 (2012.3.9)

61. Recombinant Microorganism Producing polyhydroxyalkanoate (PHA) containing 2-hydroxybutyrate (2HB) monomer PCT/KR2012-001752 (2012.3.9)

 

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