За научно-изследователската дейност през 2012 г. Директор:



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34, 185-188 (1994).

Цитирана в:



  1. Бинги, В.Н.,Магнитобиология, Експериментьи и модели, Институт общей физики РАН, Москва 2002, стр. 394.

  2. V.N. Binhi, Magnetobiology: Underlying physical problems, Elsevier Science Ltd- 2002, p. 322

Quantization…
Kosseva M., V. Beschkov, E. Pilafova, Modelling of Lactic Acid Production from Lactose by Immobilized Lactobacillus casei Cells, Bulg. Chem. Commun., 28 (3/4), 690-702 (1995)

Цитирана в:



  1. Xiaolin Pei, “Breeding of L-lactic acid high-produsing strain by genome-shiffling and research on the ferment technology”, Jilin University, Master Thesis, 2007, p. 49

Beschkov V., L. Peeva, B. Valchanova, Ion-Exchange Separation of Lactic Acid from Fermentation Broth, Hung. J. Ind. Chem., 23, 135-139 (1995).

Цитирана в:


  1. Xiaolin Pei, “Breeding of L-lactic acid high-produsing strain by genome-shiffling and research on the ferment technology”, Jilin University, Master Thesis, 2007, p. 49

Yankov D., Chr. Sapundzhiev, V. Beschkov, Modelling of enzyme hydrolysis of maltose in a single pellet of immobilized biocatalyst, Bioprocess Engineering,14, 219-222 (1996).

Цитирана в:


  1. M. Al-Shannag, Mass transport enhancement in annular-shaped lid-driven bioreactor, Bioprocess Biosyst Eng., 35, 875–884, 2012.

V. Beschkov, G. Bardarska, H. Gulyas, I. Sekoulov, Verbesserte Ozonierung refraktaerer gesaetigter organischer Substanzen in Gegenwart von Huminsaeure, GWF Wasser-Abwasser, 138 (7) 351-354 (1997).

Цитирана в:


  1. T. Buchholz, Photocatalytic oxidation of glymes in an aqueous suspension of titanium dioxide, MSc. Thesis, McGill Univ. Montreal, Canada, 2005, p. 10.

Beschkov V., G. Bardarska, H. Gulyas, I. Sekoulov, Degradation of triethyleneglycol-dimethyl-ether by ozonation combined with UV irradiation or hydrogen peroxide addition,Water Science & Technology, 36 (2-3) 131-138 (1997).

Цитирана в:


  1. T. Buchholz, Photocatalytic oxidation of glymes in an aqueous suspension of titanium dioxide, MSc. Thesis, McGill Univ. Montreal, Canada, 2005, p. 10.

Velizarov S., V. Beschkov, Biotransformation of glucose to free gluconic acid by Gluconobacter oxydans: substrate and product inhibition situations, Process Biochemistry, 33 (5) 527-534 (1998)



  1. Инджгия, Е.Ю., Электрокаталитическое окисление этанола ферментными системами бактерий Gluconobacter oxydans в присутствии медиаторов ферроценового ряда, кхн. Дис., Москва, 2010.

  2. Nguyen Quang Hao, Study on the dynamics of cell growing and forming of organic acids by Gluconobacter oxydans L-1 in the medium with glucose, Nong Nghiep Cong Nghiep Thuc Pham, 3, 137-138 (Mar 1997).

  3. http://agris.fao.org/agris-search/search/display.do?f=1998/VN/VN98002.xml;VN1998000197

  4. Mario Mihal’, Jozef Markos, Julius Annus, Vladimır Stefuca, Intensification of 1-phenylethanol production by periodical membrane extraction of the product from fermentation broth, J. Chem. Technol.Biotechnol., DOI 10.1002/jctb.3725, 2012.

  5. M Elqotbi, SD Vlaev, L Montastruc, I Nikov, CFD modelling of two-phase stirred bioreaction systems by segregated solution of the Euler-Euler model,Computers@Chem. Engineering, 2012

  6. Maria Magdalena Meintjes, Fermentation coupled with pervaporation: a kinetic study. MSc. Thesis, North-West University, Potchefstroom (S.Africa), November 2011, p. 48.

Kosseva M., V. Beschkov, J.F. Kennedy, L.L. Lloyd, Malolactic fermentation in Chardonnay wine by immobilised Lactobacillus casei cells, Proc. Biochem., 33 (8) 793-797 (1998).

Цитирана в:


  1. Ainoa Sánchez, Raquel Rodríguez, Monika Coton, Emmanuel Coton, Mónica Herrero, Luis A. García, Mario Díaz, Population dynamics of lactic acid bacteria during spontaneous malolactic fermentation in industrial cider, Food Research International 43 (2010) 2101–2107.

  2. Carmen Berbegal, Olga Lucio, Lucía Polo y Sergi Ferrer, Nuevas tendencias para el desarrollo de la fermentación maloláctica en vino con O. oeni, Ciencia Y Tecnología, http://www.acenologia.com/cienciaytecnologia/tendencias_FML_cienc0412.htm

  3. Z Genisheva, SI Mussatto, JM Oliveira, JA Teixeira, Food Chemistry, 2012, http://www.sciencedirect.com/science/article/pii/S0308814612017906

  4. José Manuel Rodríguez-Nogales, Josefina Vila-Crespo, Encarnación Fernández-Fernández Immobilization of Oenococcus oeni in lentikats® to develop malolactic fermentation in wines, Biotechnology Progress, DOI. 10.1002/btpr.1651

Velizarov S.G., V.N. Beschkov, T. Georgieva, Inhibitory effects of gluconic acid on glucose oxidation by Gluconobacter, Compt. Rend. Acad. Bulg. Sci., 50 (11-12) 63-66 (1997).

Цитирана в:


  1. Инджгия, Е.Ю., Электрокаталитическое окисление этанола ферментными системами бактерий Gluconobacter oxydans в присутствии медиаторов ферроценового ряда, кхн. Дис., Москва, 2010

V. Beschkov, S. Velizarov, Dynamic modelling of aerobic processes in gel particles with immobilised cells. Part I: Growth associated biotransformation, Bioprocess Engineering, 22 (3) 233-241 (2000).

Цитирана в:


  1. Temperature Effects and Substrate Interactions During the Aerobic Biotransformation of BTEX Mixtures by Toluene-Enriched Consortia and ... , http://www.lw20.com/201103164699234.html

V. Beschkov, S. Velizarov, S.N. Agathos, V. Lukova, Bacterial denitrification of wastewater stimulated by constant electric field, The Biochemical Engineering Journal, 17 (2), 141-145 (2004).

Цитирана в:


  1. Joanna Rodziewicz, Urszula Filipkowska, Nitrification Onto A Rotating Electro-Biological Contactor, Pol. J. Natur. Sc., Vol 26(4): 311–321, 2011. http://www.uwm.edu.pl/stas/wydawnictwo/doc/nat26_4.pdf

  2. Junhan Liu & Cheng Yuan & Guangrong Hu & Fuli Li, Effects of Light Intensity on the Growth and Lipid Accumulation of Microalga Scenedesmus sp. 11-1 Under Nitrogen Limitation, Appl Biochem Biotechnol,DOI 10.1007/s12010-012-9639-2

  3. Ibrahim Bostami, Studi Penyisihan Nitrogen Air Limbah Agroindustri Hasil Perikanan Secara Biologis Dengan Model Dinamik Activated Sludge Model (ASM). Thesis, IMB Bogor Agricultural University, 2007. 1http://repository.ipb.ac.id/handle/123456789/40593

  4. Mousavi, S., Ibrahim, S. , Aroua, M.K., Ghafari, S., Development of nitrate elimination by autohydrogenotrophic bacteria in bio-electrochemical reactors - A review, Biochemical Engineering Journal, 67, 251– 264(2012).

  5. DOI: 10.1016/j.bej.2012.04.016.

  6. Qfb. Ruby Brenes Alcantara, Establesimiento de condiciones experimentales en la implementation de uno metodo bioelectroquimico para el tratamento de nitratos presents en aquas, Tesis “Maestria en Biotecnologia”, Instituto Politecnico Nacional, Tepetitla de Lardizabal (Mexico), 2011 pp. 31, 32.

M. Torz, V. Beschkov, Biodegradation of monochloroacetic acid used as a sole carbon and energy source by Xanthobacter autotrophicus GJ10 strain in batch and continuous culture, Biodegradation, 16 (5), 423-433 (2005).

Цитирана в:


  1. T. Pillay, Characterization of 1, 2-DCA degrading Ancylobacter aquaticus strains isolated in South Africa, MSc Thesis, University of KwaZulu-Natal, Westville, 2011; pp. 66, 67.

N. Burhan, Ts. Sapundzhiev, V. Beschkov, Mathematical modeling of cyclodextrin-glucano-transferase production by batch cultivation, Biochemical Engineering Journal, 24, 73-77 (2005).

Цитирана в:


  1. R. Alt, S. Markov, Theoretical and Computational Studies of Some Bioreactor Models, Computers and Mathematics with Applications 64, 350-360 (2012).

  2. Kashipeta Ravinder, Tadimalla Prabhakar, Katikala Prasanthkumar, Guruju Venkata Phanihushan, Nalli Venuka, Screening, Isolation And Characterization Of Cyclodextrin Glycosyl Transferase Producing Bacteria From Soil Samples, International Journal of Pharmacy and Pharmaceutical Sciences,Vol 4, Issue 3, 2012, 408-414.

  3. Svetoslav M. Markov, On The Mathematical Modelling Of Microbial Growth: Some Computational Aspects, Serdica J. Computing 5 (2011), 153–16

Vassileva A., V. Beschkov, V. Ivanova and A. Tonkova, Continuous cyclodextrin glucanotransferase production by free and immobilized cells of Bacillus circulans ATCC 21783 in bioreactors, Process Biochemistry, 40 (10), 3290-3295 (2005).

Цитирана в:


  1. Ramesh C. Ray, Owen P. Ward, Microbial biotechnology in horticulture: Vol. 1, Science Publishers, 2006.

  2. Fundagül EREM, Muharrem CERTEL, Siklodekstrinler (SD’ler), ?-1,4 bağlı glukopiranoz alt birimlerinden oluşmuş, halkalı yapıdaki nişasta türevleridir. Diğer organik bileşiklerle, inklüzyon kompleksi (konakçı-konuk kompleksi) olarak isimlendirilen kompleksler oluşturdukları bulunan ilk organik bileşikler siklodekstrinlerdir, Dunya Gida, Sut sektoru ihracat destegi bekliyor., http://www.dunyagida.com.tr/dergi.php?did=99.

Petrov K.K., D.S. Yankov, V.N. Beschkov, Lactic acid fermentation by cells of Lactobacillus rhamnosus immobilized in polyacrylamide gel, World Journal of Microbiology and Biotechnology, 22 (4) 337-345 (2006).

Цитирана в:


  1. F. Cui, C, Wan, Y. Li, Zhe Liu, G. Rajashekar “Co-production of lactic acid and Lactobacillus rhamnosus cells from whey permeate with nutrient supplements”, Food Bioprocess Technol, 2012, 5, (4),1278-1286

  2. R. Victorelli, “Producao de l-acido latico à partir de celulas bacterianas imobilizadas”, MSc Thesis, Universidade Estudial Paulista de Rio Claro, 2011, pp. 32, 33, 35-37.

Stefanov S., D. Yankov, V. Beschkov, Biotransformation of phytosterols to androstenedione in two phase water-oil systems, Chemical and Biochemical Engineering Quarterly, 20 (4), 421-427 (2006). ISSN 0352-9568.

Цитирана в:


  1. Juliano Lemos Bicas, “Estudios de obtenção de bioaromas pela biotranformação de compostos terpênicos”, Tese de doutorado, Universidade estudial de Campinas, 2009, p. 126

  2. M.V. Donova, O. V. Egorova, “Microbial steroid transformations: current state and prospects”, Appl Microbiol Biotechnol, 2012, 94, 1423–1447

  3. Liang J.-J., Wang, W.-J., “Progress of Biotransforming Phytosterols into Androstadienedione and Androstenedione by Microorganisms”, Hubei Agricultural Sciences,2012, 51(7), 1309-1311

  4. Суходольская Г. В., Савинова Т. Ст., Фокина В. В., Шутов А. Ан., Николаева В. М., Лукашёв Н. В., Суровцев В. В., Донова М. В., „Микробиологический способ получения 1,2-дехидрированных производных Δ 4-3-кетостероидов ряда андростана в водно-органических средах“, RU 2447154, 2010

  5. Yang Ying, “Research on Study on Bioconversion of Phytosteril into Steroid Medicine Intermediates by Mycobacter”, Hefei University, PhD Thesis, 2009

  6. Mauro José Castanho Claudino, "Characterization of 4-androstene-3,17-dione production through the use of immobilized cells in minireactors", Universidade Técnica de Lisboa, Instituto Superior Técnico, MSc Thesis, 2007, p. 24

M. Torz, P. Wietzes, V. Beschkov, D. B. Janssen, Metabolism of mono- and dihalogenated C1 and C2 compounds by Xanthobacter autotrophicus growing on 1,2-dichloroethane, Biodegradation, 18 (2), 145-157 (2007).

Цитирана в:


  1. T. Pillay, Characterization of 1, 2-DCA degrading Ancylobacter aquaticus strains isolated in South Africa, MSc Thesis, University of KwaZulu-Natal, Westville, 2011; p. 13.

  2. S. Fabritz, F. Maaß, O. Avrutina, T. Heiseler, B. Steinmann, H. Kolmar, A sensitive method for rapid detection of alkyl halides and dehalogenase activity using a multistep enzyme assay, AMB Express 2012, 2:51 doi:10.1186/2191-0855-2-51.

K. Petrov, P.P. Petrova, V.N. Beschkov, Improved immobilization of Lactobacillus rhamnosis ATCC 7469 in polyacrylamide gel, preventing cell leakage during lactic acid fermentation, World Journal of Microbiology and Biotechnology, 23, 423-428 (2007).

Цитирана в:


  1. Rodrigo Victorelli, Produção De L-Ácido Lático A Partir De Células Bacterianas Imobilizadas, MSc Thesis, Instituto deBiociências do Campus de Rio Claro,Universidade Estadual Paulista Júlio de MesquitaFilho (2011), pp. 29, 78.

  2. Robatjazi S., Shojaosadati S., Khalilzadeh R., Farahani E., Balochi N. (2012) “Immobilization of magnetic modified Flavobacterium ATCC 27551 using magnetic field and evaluation of the enzyme stability of immobilized bacteria” Bioresource Technology, vol. 104, 6-11. (ISSN 0960-8524)

Burhan N., Ts. Sapundzhiev, V. Beschkov, Mathematical modelling of cyclodextrin-glucano-transferase production by immobilised cells of Bacillus circulans ATCC 21783 at batch cultivation, The Biochemical Engineering Journal, 35 (2), 1 14-119 (2007). ISSN 1369-703Х.

Цитирана в:


  1. R. Alt, S. Markov, Theoretical and Computational Studies of Some Bioreactor Models, Computers and Mathematics with Applications,64, 350-360 (2012).

  2. Svetoslav M. Markov, On The Mathematical Modelling Of Microbial Growth: Some Computational Aspects, Serdica J. Computing 5 (2011), 153–168.

A.Mileva, Ts. Sapundzhiev, V. Beschkov, Modelling 1,2-dichloroethane biodegradation by Klebsiella oxytoca VA 8391 immobilized on granulated activated carbon, Bioprocess & Biosystems Engineering, 31, 75-85 (2008) ISSN 1615-7591.

Цитирана в:


  1. M. Borisov and N. Dimitrova, Stability Analysis in a Model of 1,2-dichloroethane Biodegradation by Klebsiella Oxytoca va 8391Immobilized on Granulated Activated Carbon, AIP Conf. Proc. Vol. 1404, 284-298 (2011).

  2. Martina Cappelletti, Giacomo Bucchi, Jocelia De SousaMendes,Andrea Alberini,b Stefano Fedi, Lorenzo Bertinc and Dario Frascari, Biohydrogen production from glucose, molasses and cheese whey by suspended and attached cells of four hyperthermophilic Thermotoga strains, J Chem Technol Biotechnol (2012), DOI 10.1002/jctb.3782

  3. Valeria R. Celloto,Arildo J. B. Oliveira ,Jose E.Gonc¸alves,Cecılia S. F. Wa tanabe,Graciette Mat ioli, Regina, A.C.Gonc¸alves, Biosynthesis of Indole-3-Acet ic Acid by New Klebsiella oxytoca Free and Immobilized Cells on Inorg anic Mat r ices, The Scientific World Journal,Vo l. 2012, Ar ticle I D 495970,doi:10.1100/2012/495970

Parvanova-Mancheva Ts., V. Beschkov, Microbial denitrification by immobilized bacteria Pseudomonas denitrificans stimulated by constant electric field, The Biochemical Engineering Journal, 44, 208-213 (2009) ISSN 1369-703Х,

Цитирана в:


  1. Xiaofan Qiu, Tianwen Wang, Xiaomin Zhong, Guocheng Du, Jian Chen. Screening and Characterization of an Aerobic Nitrifying-denitrifying Bacterium from Activated Sludge, Biotechnology and Bioprocess Engineering 17: 353-360 (2012)

  2. Study on isolation and characteristics of an aerobic denitrifying bacteria, 王慧荣, 韦彦斐, 梅荣武… - 环境保护科学, 2012 - cqvip.com http://www.cqvip.com/Read/Read.aspx?id=40958442.

  3. Pan Wang, Yongze Yuan, Qian Li, Junzhong Yang, Yongliang Zheng, Muqing He, Hui Geng ,Li Xiong, Deli Liu, Isolation and immobilization of new aerobic denitrifying bacteria, International Biodeterioration & Biodegradation, http://dx.doi.org/10.1016/j.ibiod.2012.06.008

  4. N. Maya Erna, Sanjoy Banerjee, Mohamed Shariff and Fatimah Md. Yusoff, Screening, Identification and Immobilization of Ammonia Oxidizing Bacterial Consortium Collected from Mangrove Areas and Shrimp Farms, Asian Journal of Animal and Veterinary Advances 1683-9919 1996-3289 orgz 10.3923/ajava.0000.45596.45596 (July 16, 2012).

Boyadjiev Chr., V.Beschkov, Mass Transfer in Liquid Film Flow, Publ. House of Bulg.Acad.Sci., Sofia, 1984.

Цитирана в:


  1. S. P. Fedorov, Yu. V. Sharikov and V. D. Lunev, Influence of longitudinal mixing on dissolution kinetics of a polydisperse system of particles, Journal of Engineering Physics and Thermophysics ,53(4), 1162-1168, DOI: 10.1007/BF00872448; (ИФЖ 53(4), 600-607, 1987).

  2. Grigor’ev A. I., D. M. Pozharitskii and S. O. Shiryaeva, Flow pattern due to capillary-gravitational waves in a charged layer of a viscous conducting liquid on a solid support, Technical Physics, 54, er 2, 214-220, DOI: 10.1134/S1063784209020091

Х. Бояджиев, В. Бешков, Массоперенос в движущихся пленках жидкости, Мир, Москва, 1988.

Цитирана в:


  1. Grigor’ev A. I., Internal Transverse Fluctuation Waves in a Viscous Liquid at a Hard Boundary, Technical Physics, 2011, Vol. 56, No. 6, pp. 776–781.

  2. Бекбулатов, И.Г., Разделение двухфазных сред при напорном течении в узлах фильтровального оборудования, ктн дис., Казань, 2010.

  3. Дударь, Е.С., Исследование процессов тепломассопереноса в калийных рудниках и конденсации влаги в шахтной вентиляционной сети, ктн дис., Тула, 2010.

  4. Мартовщук В.И., Научно-практические основы получения модифицированных жиров и жировых полуфабрикатов методом механохимической активации, дтн дис. Краснодар, 2000.

  5. Абрамов, В.В., Повышение работоспособности гидрофицированных самоходных машин дегазацией рабочей жидкости, Красноярск, ктн дис., 2000.

  6. Стоянович, И.О., Пожарная безопасность окраски щитовых изделий мебели методом лаконалива, канд. Дис., Москва, 2000.

  7. Николаев А.Б., Экспериментальное исследование кинетики и расчет основных массообменных процессов в отделочном производстве, ктн дис., Москва, 1999.

  8. Сугак, Е.В., Моделирование и интенсификация процессов очистки промышленных газовых выбросов в турбулентных газодисперсных потоках, дтн дис., Красноярск, 1999.

  9. Касаткин, Д.В., Интенсификация процесса диффузии генерацией вихрей на примере экстракции в системе керосин-уксусная кислота, дис. Ктн, Москва, 2000.

Danova S., Petrov K., Pavlov P., Petrova P. (2005) “Isolation and characterization of Lactobacillus strains involved in koumiss fermentation” International Journal of Dairy Technology, vol. 58 (2), 100-105.

Цитирана в:


  1. Mu Z., Yang X., Yuan H. (2012) “Detection and Identification of Wild yeast in Koumiss” Food Microbiol, vol. 31 (2), 301-308.

  2. Shi T., Nishiyama K., Nakamata K., Aryantini N., Mikumo D., Oda Y., Yamamoto Y., Mukai T., Sujaya I., Urashima T., Fukuda K. (2012) “Isolation of potential probiotic Lactobacillus rhamnosus strains from traditional fermented mare milk produced in Sumbawa Island of Indonesia” Biosci. Biotechnol. Biochem., vol. 76 (10), 1897-1903.

Petrov K., Urshev Z., Petrova P. (2008) “L (+) - Lactic acid production from starch by a novel amylolytic Lactococcus lactis subsp. lactis B84”, Food Microbiology, vol. 25 (4), 550-557.

Цитирана в:


  1. Putri W.D.R., Haryadi, Marseno D.W., Cahyanto M.N. (2012) “Isolasi Dan Karakterisasi Bakteri Asam Laktat Amilolitik Selama Fermentasi Growol, Makanan Tradisional Indonesia” Jurnal Teknologi Pertanian, vol. 13 (1), 52-60.

  2. Mukisa I.M., Byaruhanga Y.B., Muyanja C.M.B.K., Aijuka M., Schuller R.B., Sahlstrom S., Langsrud T., Narvhusa J.A. (2012) “Influence of Cofermentation by Amylolytic Lactobacillus plantarum and Lactococcus lactis Strains on the Fermentation Process and Rheology of Sorghum Porridge” Appl. Environ. Microbiol. vol. 78 (15), 5220-5228.

  3. Sunkar S., Nachiyar V. (2012) “A prospective source of enzyme production” J. Pure Appl. Microbiol. vol. 6 (2), 859-867.

  4. Сапунова Л. И., Богданова Л. Л. (2012) „Α-Амилазы Бифидо- и Молочнокислых Бактерий” Микробные Биотехнологии:Фундаментальные и Прикладные Аспекты Том 4, стр. 65-79.

  5. Biscola V., Todorov S.D., Capuano V.S.C., Abriouel H., Galvez A., Franco B.D.G.M. (2013) “Isolation and characterization of a nisin-like bacteriocin produced by a Lactococcus lactis strain isolated from charqui, a Brazilian fermented, salted and dried meat product” Meat Science, vol. 93 (3), 607-613.

Petrova P., Petrov K., Beschkov V. (2009) „Production of 1,3-propanediol from glycerol by newly isolated strains of Klebsiella pneumoniae”, Comptes Rendus de l'Academie Bulgare des Sciences, vol. 62 (2) 233-242. (ISSN 1310-1331)

Цитирана в:


  1. Ringel A., Wilkens E., Hortig D., Willke T., Vorlop K. (2012) “An improved screening method for microorganisms able to convert crude glycerol to 1,3-propanediol and to tolerate high product concentrations” Appl Microbiol Biotechnol, vol. 93 (3), 1049-1056.

Petrov K., Petrova P. (2009) “High production of 2,3-butanediol from glycerol by Klebsiella pneumoniae G31”, Applied Microbiology and Biotechnology, vol. 84 (4) 659–665, ISSN 0175-7598.



Цитирана в:

  1. Metsoviti M., Paramithioti S., Drosinos E., Galiotou-Panayotou M., Nychas G., Zeng A.P., Papanikolaou S. (2012) “Screening of bacterial strains capable of converting biodiesel-derived raw glycerol into 1,3-propanediol, 2,3-butanediol and ethanol” Eng Life Sci, vol. 12 (1), 57-68.

  2. Khanna S, Goyal A., Moholkar V.S. (2012) “Microbial conversion of glycerol: present status and future prospects” Critical Reviews in Biotechnology, vol. 32 (3), 235-262.

  3. Jiang L., Fang Z., Guo F., Yang L. (2012) “Production of 2,3-butanediol from acid hydrolysates of Jatropha hulls with Klebsiella oxytoca” Bioresour Technol, vol. 107, 405-410.

  4. Wang Q., Chen T., Zhao X., Chamu J. (2012) “Metabolic engineering of thermophilic Bacillus licheniformis for chiral pure D-2, 3-butanediol production” Biotechnology and Bioengineering, vol. 109 (7), 1610-1621.

  5. Lee S., Kim B., Park K., Um Y., Lee J. (2012) “Synthesis of Pure meso-2,3-Butanediol from Crude Glycerol Using an Engineered Metabolic Pathway in Escherichia coli” Appl Biochem Biotechnol, vol. 166 (7), 1801-1813.

  6. Shin S.H., Kim S., Kim J.Y., Lee S., Um Y., Oh M., Kim Y., Lee J., Yang K. (2012) “Complete genome sequence of the 2,3-butanediuol-producing Klebsiella pneumoniae strain KCTC 2242” J Bacteriol, vol. 194 (10), 2736-2737.

  7. Jung M.-J., Ng C.Y., Song H., Lee J., Oh M.-K. (2012) “Deletion of lactate dehydrogenase in Enterobacter aerogenes to enhance 2,3-butanediol production” Appl Microbiol Biotechnol,
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