Papers

INTERNATIONAL PAPERS

, first author; *, corresponding author


[80]  

[79Kyung Hyun Cho, Yuchan Kim,  and Sung Kuk Lee*.  Enhanced production of 3-hydroxypropionate in Escherichia coli by supplying reducing power. In preparation 

[78]  ChandranSathesh-Prabu, Young Shin Ryu, and Sung Kuk Lee*. Engineering in Methylobacterium extorquens for high protein expression. In preparation

[77]  Yuchan Kim, Kyung Hyun Cho and Sung Kuk Lee*. Dynamic control of metabolic pathways for high 3-hydroxypropionic acid production. In preparation

[76 Rameshwar Tiwari, ChandranSathesh-Prabu, Young Shin Ryu, and Sung Kuk Lee*. Engineering of Methylobacterium extorquens strain to grow on glucose and its application for protein expression. In preparation 


2024 ----------------------------------------------------------------------------------------------------

[75] Chaeyeon Cho, Hee Jeong Han, Young-Ah Jang, Yu-Ri Oh, Sung Kuk Lee*, and Gyeong Tae Eom*. Valorization of food waste: Production of lactobionic acid by Pseudomonas taetrolens using residual food dried substance derived from food waste as a culture nutrient. Submitted

[74] Chandran Sathesh-Prabu, Rameshwar Tiwari, and Sung Kuk Lee*. 2024/04/11. Enhancing translation efficiency and exploring constraints in high-level 4-hydroxyvaleric acid production from levulinic acid in Escherichia coli. Systems Microbiology and Biomanufacturing   In press [Open  Link]

[73] Rameshwar Tiwari, Chandran Sathesh-Prabu, Yuchan Kim, and Sung Kuk Lee*. Simultaneous utilization of glucose and xylose by metabolically engineered Pseudomonas putida for the production of 3-hydroxypropionic acid. Bioresource Technology 395(2024): 130389 [Open  Link]

[72 Huichang Ryu, Nguyen Ngoc Minh Chau, Sung Kuk Lee, and Sunghoon Park*. 2024/02/15. Development of Cupriavidus necator H16 as a host for heterologous production of formate dehydrogenase I of Methylorubrum extorquens: Possibilities and limitation. Bioresource Technology  394 (2024): 130189 [Open Link]

2023 ----------------------------------------------------------------------------------------------------

[71] Chandran Sathesh-Prabu, Jihoon Woo, Yuchan Kim, Suk Min Kim, Sun Bok Lee, Che Ok Jeon*, Donghyuk Kim*, and Sung Kuk Lee*. 2023/07/28. Comparative genomic analysis and BTEX degradation pathways of a thermotolerant Cupriavidus cauae PHS1. Journal of Microbiology and Biotechnology 33(7): 875-885 [Open Link]

[70Jung Vin An, Bo Ram Ha, and Sung Kuk Lee*. 2023/03/15. Production of polyhydroxyalkanoates by the thermophile  Cupriavidus cauae PHS1. Bioresource Technology 371: 128627 [Open Link]

2022 ----------------------------------------------------------------------------------------------------

[69 Ye Eun Kim, Kyung Hyun Cho, Ina Bang, Chang Hee Kim, Young Shin Ryu, Yuchan Kim, Eun Mi Choi, Linh Khanh Nong, Donghyuk Kim,* and Sung Kuk Lee*. 11/09/2022. Characterization of an Entner-Doudoroff pathway-activated Escherichia coli.  Biotechnology for Biofuels and Bioproducts  15: 120(2022) [Open Link]

[68]  Woo Sang Park, Kwang Soo Shin, Hyun Wook Jung, Yong Joo Lee, ChandranSathesh-Prabu*, and Sung Kuk Lee*.  10/06/2022. Improving free fatty acids production in Escherichia coli by combinatorial metabolic engineering.  Journal of Agricultural and Food Chemistry 70(43): 13913-13921  [Open Link[This paper was selected as a Front Cover.]

[67] Rameshwar Tiwari, ChandranSathesh-Prabu, and Sung Kuk Lee*. Bioproduction of propionic acid using levulinic acid by engineered Pseudomonas putida. 08/10/2022.  Frontiers in Bioengineering and Biotechnology [Open Link]

[66] ChandranSathesh-Prabu, Rameshwar Tiwari, and Sung Kuk Lee*. Substrate-inducible and antibiotic-free high-level 4-hydroxyvaleric acid production in engineered Escherichia coli. 08/09/2022. Frontiers in Bioengineering and Biotechnology [Open Link]

[65] Doyun Kim and Sung Kuk Lee*. Metabolic engineering of Escherichia coli for production of polyhydroxyalkanotes with valeric acids derived from levulinic acid. 2022/01/28.  Journal of Microbiology and Biotechnology 31(12): 110-116 [Open Link]

2021 ----------------------------------------------------------------------------------------------------

[64]  ChandranSathesh-Prabu, Young Shin Ryu and Sung Kuk Lee*.  Levulinic acid- inducible and tunable gene expression system for Methylorubrum extorquens. 2021/12/15.  Frontiers in Bioengineering and Biotechnology [Open Link]

[63]  ChandranSathesh-Prabu,  Rameshwar Tiwari, Do Yun Kim  and Sung Kuk Lee*.  2021/09/10. Inducible and tunable gene expression systems for Pseudomonas putida KT2440.  Scientific Reports 11: 18079 [Open Link]

[62]  Yongjoo Lee, Chandran Sathesh-Prabu, Geun Hwa Kwak, Ina Bang, Hyun Wook Jung, Donghyuk Kim and Sung Kuk Lee*. 2021/05/08. Enhanced production of nonanedioic acid from nonanoic acid by engineered Escherichia coli . Biotechnology Journal e2000416. [Open Link]

2020 ----------------------------------------------------------------------------------------------------

[61] ChandranSathesh-Prabu, Donghyuk Kim and Sung Kuk Lee*. 2020/08.  Metabolic engineering of Escherichia coli for 2,3-butanediol production from cellulosic biomass by using glucose-inducible gene expression system. Bioresoure Technology 309: 123361 [Open Link]

[60] Dae geun Cha, Hyo Seok Ha and Sung Kuk Lee*. 2020/08/. Metabolic engineering of Pseudomonas putida for the production of various types of short-chain-length polyhydroxyalkanoates from levulinic acid. Bioresoure Technology 309: 123332 [Open Link]

2019 ----------------------------------------------------------------------------------------------------

[59]  Ji Won Lim, Kwang Soo Shin, Young Shin Ryu, Yong Joo Lee, Sung Kuk Lee* and Taesung Kim*. 2019/12/24. High-throughput screening of acyl-CoA thioesterase I mutants using a fluid array platform. ACS Omega 4(26) : 21848-21854 [Open Link]

[58] Kangseok Lee, Sunho Choi, Chuntae Kim, Woo Seok Kang, Wonhak Son, Sung Chul Bae*, Jin-Woo Oh*, Sung Kuk Lee* and Chaenyung Cha*. 2019/09/12. Implementation of combinatorial genetic and microenvironmental engineering to microbial-based field-deployable microbead biosensors for highly sensitive and remote chemical detection. ACS Sensors 4: 2716-2723 [Open Link]

[57] Do Yun Kim,  Chandran Sathesh-Prabu, Young Joo Yeon and Sung Kuk Lee*. 2019/09/02. High-level production of 4-hydroxyvalerate from levulinic acid via whole-cell biotransformation decoupled from cell metabolism. Journal of Agricultural and Food Chemistry 67(38): 10678-10684 [Open Link]

[56] Soohyun Kim, Hyunji Kim, Tian Qiao, Chaenyung Cha, Sung Kuk Lee, Kangseok Lee, Hyun Ji Ro, Youngkyun Kim, Wonmok Lee and Hyunjung Lee*.  03/26/2019. Fluorescence enhancement from nitro-compound-sensitive bacteria within spherical hydrogel scaffolds. ACS Applied Materials & Interfaces 11(15): 14354-14361 [Open Link]

[55] Sung Kuk Lee* and Keehon Won*. 03/16/2019. [Editorial] Special issue to mark the career and the retirement of professor Sun Bok Lee. Biotechnology and Bioprocess Engineering 24(1): 1-2  [Open Link

[54] Chandran Sathesh-Prabu, Kwang Soo Shin, Geun Hwa Kwak, Sang-Kyu Jung and Sung Kuk Lee*. 03/16/2019. Microbial production of free fatty acid via metabolic engineering and synthetic biology. Biotechnology and Bioprocess Engineering 24(1): 23-40 [Open Link]  [This paper was selected as one of 2021 & 2022 Best Articles based on citation number]

[53] Chandran Sathesh-Prabu and Sung Kuk Lee*. 02/18/2019. Engineering the lva operon and optimization of culture conditions for enhanced production of 4-hydroxyvalerate from levulinic acid in Pseudomonas putida KT2440. Journal of Agricultural and Food Chemistry 67(9): 2540-2546 [Open Link]

2018 ----------------------------------------------------------------------------------------------------

[52] Chandran Sathesh Prabu and Sung Kuk Lee*. 03/14/2018. Enhancement of α,ω-dicarboxylic acid production by the expression of xylose reductase for refactoring redox cofactor regeneration. Journal of Agricultural and Food Chemistry 66(13): 3489-3497 [Open Link]

2017 ----------------------------------------------------------------------------------------------------

[51] Kwang Soo Shin and Sung Kuk Lee*. 11/30/2017. Increasing extracellular free fatty acid production in Escherichia coli by controlling membrane transport systems. Journal of Agricultural and Food Chemistry 65(51): 11243-11250 [Open Link]

[50] Kwang Soo Shin and Sung Kuk Lee*. 12/01/2017. Introduction of an acetyl-CoA carboxylation bypass into Escherichia coli for enhanced free fatty acid production. Bioresource Technology 245: 1627-1633 [Open Link]

[49] Kangseok Lee, Jisu Hong, Hyun Ji Rho, Soo Hyun Kim, Hyunjung Lee, Sung Kuk Lee and Chaenyung Cha*. 11/01/2017. Dual ionic crosslinked interpenetrating network of alginate-cellulose beads with enhanced mechanical properties for biocompatible encapsulation. Cellulose  24(11): 4963-4979 [Open Link]

[48] Minseok Kim, Ji-Won Lim, Sung Kuk Lee and Taesung Kim*. 10/03/2017. Nanoscale hydrodynamic film for diffusive mass transport control in compartmentalized microfluidic chambers. Analytical Chemistry 89(19): 10286-10295 [Open Link]

[47]  Vinuselvi Parisutham, Chandran Sathesh Prabu, Aindrila Mukhopadhyay, Sung Kuk Lee* and Jay D. Keasling. 09/01/2017. Intracellular cellobiose metabolism and its applications in lignocellulose-based biorefineries. Bioresource Technology 239: 496-506 [Open Link

[46]  Jong Woo Hyeon, Kyungchul Kim, Ah Ryeong Son, Eunmi Choi, Sung Kuk Lee* and Che Ok Jeon*. 08/22/2017. Novosphingobium humi sp. nov., isolated from soil of a shooting range. International Journal of Systematic and Evolutionary Microbiology First Online [Open Link

[45] Young Shin Ryu, Chandran Sathesh Prabu, Kyungchul Kim and Sung Kuk Lee*. 07/18/2017. Oligo− and dsDNA−mediated genome editing using a tetA dual selection system in Escherichia coli. PLos One 12(7): e0181501 [Open Link]

2016 ----------------------------------------------------------------------------------------------------

[44] Kwang Soo Shin, Sangwoo Kim and Sung Kuk Lee*. 10/06/2016. Improving fatty acid production using an acyl-CoA thioesterase I mutant with high specific activity in Escherichia coli. Biotechnology for Biofuels 2016 9:208 [Open Link]

[43] Ji Won Lim, Kwang Soo Shin, Jaemin Moon, Sung Kuk Lee* and  Taesung Kim*. 04/22/2016. A microfluidic platform for high-throughput screening of small mutant libraries. Analytical Chemistry 88(10) 5234-5242 [Open Link]

2015 ----------------------------------------------------------------------------------------------------

[42] Chandran Sathesh Prabu and Sung Kuk Lee*. 09/23/2015. Production of long chain α-,ω-dicarboxylic acids by engineered Escherichia coli from renewable fatty acids and plant oils. Journal of Agricultural and Food Chemistry 63(37) 8199-8208  [Open Link]

[41]  Sangwoo Kim, Yu-Sin Jang, Sung-Chul Ha, Jae-Woo Ahn, Eun-Jung Kim, Jae Hong Lim, Changhee Cho, Yong Shin Ryu, Sung Kuk Lee, Sang Yup Lee* and Kyung-Jin Kim*. 09/22/2015. Redox-switch regulatory mechanism of thiolase from Clostridium acetobutylicum. Nature Communications 6:8410, doi: 10.1038/ncomms9410 [Open Link]

[40] Suk Min Kim, Bae Young Choi, Young Shin Ryu, Sung Hun Jung, Jung Min Park, Goo-Hee Kim and Sung Kuk Lee*.  07/01/2015. Simultaneous utilization of glucose and xylose via novel mechanisms in engineered Escherichia coli. Metabolic Engineering 30: 141-148 [Open Link]

[39] Vinuselvi Parisutham and Sung Kuk Lee*. 06/29/2015. Novel functions and regulation of cryptic cellobiose operons in Escherichia coli. PLos One 10(6): e0131928 [Open Link]

[38] Ji Won Lim, Dogyeong Ha, Jongwan Lee, Sung Kuk Lee and Taesung Kim*. 05/11/2015. Review of Micro/Nanotechnologies for Microbial Biosensors. Frontiers in Bioengineering and Biotechnology 3: Article 61: 1-13 [Open Link]

[37] Minseok Kim, Ji Won Lim, Hyun Ju Kim, Sung Kuk Lee, Sang Jun Lee* and Taesung Kim*. 03/15/2015. Chemostat-like microfluidic platform for highly sensitive detection of heavy metal ions using microbial biosensors. Biosensors & Bioelectronics 65: 257-264 [Open Link]

2014 ----------------------------------------------------------------------------------------------------

[36] Vinuselvi Parisutham, Tae Hyun Kim and Sung Kuk Lee*. 06/01/2014. Feasibilities of consolidated bioprocessing microbes: from pretreatment to biofuel production. Bioresource Technology 161: 431-440 [Open Link]

[35] Young Shin Ryu, Rajesh Kumar Biswas, Kwangsu Shin, Vinuselvi Parisutham, Suk Min Kim and Sung Kuk Lee*. 04/18/2014. A simple and effective method for construction of Escherichia coli strains proficient for genome engineering. PLoS ONE 9(4): e94266 [Open Link]

2013 ----------------------------------------------------------------------------------------------------

[34] Vinuselvi Parisutham, Sang-Kyu Jung, Dougu Nam and Sung Kuk Lee*. 11/15/2013. Transcriptome-driven synthetic re-modeling of Escherichia coli to enhance cellobiose utilization. Chemical Engineering Science 103: 50–57 [Open Link] [featured article in Advances in Engineering]

[33] Jae Myung Lee, Junhyeong Lee, Taesung Kim* and Sung Kuk Lee*. 01/17/2013. Switchable gene expression in Escherichia coli using a miniaturized photobioreactor. PLoS ONE 8(1): e5238 [Open Link]

2012 ----------------------------------------------------------------------------------------------------

[32] Hyungtae Kim, Wooseog Jeong, Hye-Young Jeoung, Jae-Young Song, Jong-So Kim, Jeong-Hun Beak, Vinuselvi Parisutham, Sung Kuk Lee, Jong Wan Kim, Ji-Yeon Kim, Suk-Chan Jung, Moon Her and Dong-Jun An*. 10/01/2012. Complete genome sequence of Brucella abortus A13334, a new strain isolated from the fetal gastric fluid of dairy cattle. Journal of Bacteriology 194(19): 5444 [Open Link]

[31] Jong-So Kim, Wooseog Jeong, Hye-Young Jeoung, Jae-Young Song, Hyungtae Kim, Jeong-Hun Beak, Vinuselvi Parisutham, Sung Kuk Lee, Jong Wan Kim, Ji-Yeon Kim, Suk-Chan Jung, Moon Her and Dong-Jun An*. 09/15/2012. Complete genome sequence of Brucella canis strain HSK A52141 isolated from the blood of an infected dog. Journal of Bacteriology 194(18): 5134 [Open Link]

[30] Sang-Kyu Jung, Parisutham Vinuselvi, Seong Hun Jeong and Sung Kuk Lee*. 09/01/2012. Heterologous expression of plant cell wall degrading enzymes for effective production of cellulosic biofuels. Journal of Biomedicine and Biotechnology vol. 2012, Article ID 405842, 10 pages, 2012. doi:10.1155/2012/405842 [Open Link]

[29] Jung Min Park, Vinuselvi Parisutham and Sung Kuk Lee*. 08/01/2012. The mechanism of sugar-mediated catabolite repression of the propionate catabolic genes in Escherichia coli. Gene 504 (1), 116-121 [Open Link]

[28] Vinuselvi Parisutham, Min Kyung Kim, Sung Kuk Lee and Cheol-Min Ghim*. 02/23/2012. Rewiring carbon catabolite repression for microbial cell factory. BMB Reports 45 (2), 59-70. [Open Link]

[27] Woon Sun Choi, Minseok Kim, Seongyong Park, Sung Kuk Lee and Taesung Kim*. 01/15/2012. Patterning and transferring hydrogel-encapsulated bacterial cells for quantitative analysis of synthetically engineered genetic circuits. Biomaterials 33(2): 624-633. [Open Link]

[26] Vinuselvi Parisutham and Sung Kuk Lee*. 01/05/2012. Engineered Escherichia coli capable of co-utilization of cellobiose and xylose. Enzyme and Microbial Technology 50(1) : 1-4. [Open Link]

2011 ----------------------------------------------------------------------------------------------------

[25] Taek S Lee, Rachel A Krupa, Fuzhong Zhang, Meghdad Hajimorad, William J Holtz, Nilu Prasad, Sung Kuk Lee and Jay D Keasling*. 09/20/2011. BglBrick vectors and datasheets: A synthetic biology platform for gene expression. Journal of Biological Engineering 5:12. [Highly accessed paper][Open Link]

[24] Vinuselvi Parisutham and Sung Kuk Lee*. 09/15/2011. Engineering Escherichia coli for efficient cellobiose utilization. Applied Microbiology and Biotechnology 92(1):125-132. [Open Link]

[23] Minseok Kim, Su Hyun Kim, Sung Kuk Lee* and Taesung Kim*. 08/21/2011. Microfluidic device for analyzing preferential chemotaxis and chemoreceptor sensitivity of bacterial cells toward carbon sources. Analyst 136(16): 3238-3242. [Journal cover paper] [Open Link]

[22] Vinuselvi Parisutham, Seongyong Park, Minseok Kim, Jung Min Park, Taesung Kim*, and Sung Kuk Lee*. 06/03/2011. Microfluidic technologies for synthetic biology. International Journal of Molecular Sciences 12(6): 3576-3593.[Open Link]

[21] Vinuselvi Parisutham, Jung Min Park, Jae Myung Lee, Kikwang Oh, Cheol-Min Ghim, and Sung Kuk Lee*. 03/30/2011. Engineering microorganisms for biofuel production. Biofuels 2(2): 153-166.[Open Link]

[20] Robert J. Mitchell, Sung Kuk Lee, Taesung Kim, and Cheol-Min Ghim*. 01/30/2011. Microbial linguistics: perspectives and applications of microbial cell-to-cell communication. BMB reports 44(1): 1-10. * co-first author [Open Link]

2010 ----------------------------------------------------------------------------------------------------

[19] S. Y. Kim, E. S. Lee, H. J. Lee, S. Y. Lee, Sung Kuk Lee* and Taesung Kim*. 08/05/2010.  Microfabricated ratchet structures for concentrating and patterning motile bacterial cells. Journal of Micromechanics and Microengineering 20: 095006. [Journal cover paper] [Open Link]

[18] Cheol-Min Ghim, Sung Kuk Lee, Shuichi Takayama*, and Robert J. Mitchell*. 07/31/2010. The art of reporter proteins in science: past, present and future applications. BMB reports 43(7): 451-460. * co-first author [Open Link]

[17] Yoon Kyong Cho, Heungjoo Shin, Sung Kuk Lee, and Taesung Kim*. 06/01/2010. Current application of micro/nano-interfaces to stimulate and analyze cellular responses. Annals of Biomedical Engineering 46: 512-516. [Open Link]

[16] Cheol-Min Ghim, Taesung Kim, Robert J. Mitchell,  and Sung Kuk Lee*. 02/28/2010. Synthetic biology for biofuels: building designer microbes from the scratch. Biotechnology and Bioprocess Engineering 15(1): 11-21. [Open Link] [This paper was selected as one of 2012 Best Articles based on citation number]

Before UNIST

2008 ----------------------------------------------------------------------------------------------------

[15] Sung Kuk Lee, Howard Chou, Timothy Ham, Taek Soon Lee, and Jay D. Keasling. 12/01/2008. Metabolic engineering of microorganisms for biofuels production: from bugs to synthetic biology to fuels. Current Opinion in Biotechnology 19:556-563. [Open Link] [This paper was selected as one of The most cited articles published since 2008. Ranked at No. 3]

[14] Sung Kuk Lee, and Jay D. Keasling. 10/01/2008. Heterologous protein production in Escherichia coli using the propionate-inducible pPro system by conventional and auto-induction methods. Protein Expression & Purification 61:197-203. [Open Link]

[13] Timothy S. Ham, Sung Kuk Lee, Jay D. Keasling, and Adam P. Arkin. 06/30/2008. Design and construction of a double inversion recombination switch for heritable sequential genetic memory. PLos One 3(7): e2815 [Open Link]

2007 ----------------------------------------------------------------------------------------------------

[12] Sung Kuk Lee, Howard D. Chou, Brian Pfleger, Jack D. Newman, Yasuo Yoshikuni, and Jay D. Keasling. 09/11/2007. Directed evolution of AraC for improved compatibility of arabinose- and lactose-inducible promoters. Applied and Environmental Microbiology 73: 5711-5715. [Open Link]

2006 ----------------------------------------------------------------------------------------------------

[11] Sung Kuk Lee, and Jay D. Keasling. 12/01/2006.Effect of glucose or glycerol as the sole carbon source on gene expression from the Salmonella prpBCDE Promoter in Escherichia coliBiotechnology Progress 22 (6): 1547-1551. [Open Link]

[10] Sung Kuk Lee, and Jay D. Keasling. 08/01/2006. A Salmonella-based, propionate-inducible, expression system for Salmonella enterica. Gene 377: 6-11.[Open Link]

[9] Timothy S. Ham, Sung Kuk Lee, Jay D. Keasling, and Adam P. Arkin. 05/05/2006. A tightly regulated inducible expression system utilizing the fim inversion recombination switch. Biotechnology and Bioengineering 94 (1):1-4. [Open Link]

[8] Sung Kuk Lee, and Jay D. Keasling. 04/05/2006. Propionate-regulated high-yield protein production in Escherichia coli. Biotechnology and Bioengineering 93 (5):912-918. [Open Link]

2005 ----------------------------------------------------------------------------------------------------

[7] Sung Kuk Lee, and Jay D. Keasling. 11/01/2005. A propionate-inducible expression system for enteric bacteria. Applied and Environmental Microbiology 71:6856-6862. [Open Link]

[6] Sung Kuk Lee, Jack D. Newman, and Jay D. Keasling. 04/15/2005. Catabolic repression of the propionate catabolic genes in Escherichia coli and Salmonella enterica: Evidence for involvement of the cyclic AMP receptor protein. Journal of Bacteriology 187:2793-2800. [Open Link]

2002 ----------------------------------------------------------------------------------------------------

[5] Sung Kuk Lee, and Sun Bok Lee. 12/15/2002. Substrate utilization patterns during BTEX biodegradation by an o-xylene-degrading bacterium Ralstonia sp. PHS1. Journal of Microbiology and Biotechnology 12: 909-915. The Korean Society for Microbiology and Biotechnology [Open Link]

2001 ----------------------------------------------------------------------------------------------------

[4] Sung Kuk Lee, and Sun Bok Lee. 07/01/2001. Isolation and characterization of a thermotolerant bacterium Ralstonia sp. strain PHS1 that degrades benzene, toluene, ethylbenzene, and o-xylene. Applied Microbiology and Biotechnology 56 (1-2): 270-275. [Open Link]

2000 ----------------------------------------------------------------------------------------------------

[3] Sangwoo Shim, Sung Kuk Lee, and Jin–Kwan Han. 03/01/2000. A novel family of retrotransposons in Xenopus with a developmentally regulated expression. Genesis 26(3): 198-207. John Wiley & Sons [Open Link]

1997 ----------------------------------------------------------------------------------------------------

[2] June Myoung Kwak, Sun A. Kim, Sung Kuk Lee, Sung-Aeong Oh, Chang-Hyoung Byoum, Jin-Kwan Han, and Hong Gil Nam. 03/01/1997. Insulin-induced maturation of Xenopus oocytes is inhibited by microinjection of a Brassica napus cDNA clone with high similarity to a mammalian receptor for activated protein kinase C. Planta 201 (3): 245-251. Springer Berlin/Heidelberg

1995 ----------------------------------------------------------------------------------------------------

[1] Jin-Kwan Han, and Sung Kuk Lee. 12/26/1995. Reducing PIP2 hydrolysis, INS(1,4,5)P3 receptor availability, or calcium gradients inhibits progesterone-stimulated Xenopus oocyte maturation. Biochemical and Biophysical Research Communications 217 (3): 931-939. ELSEVIER  [Open Link]

 

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