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Polymer-Plastics Technology and Engineering Volume 55, 2016 - Issue 18
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Original Articles

Enhanced Production of Polyhydroxybutyrate Using Enterococcus faecium KT722772 Isolated from Cattle Rumen Fluid by Substrates Optimization

Meignanalakshmi SundaramDepartment of Animal Biotechnology, Madras Veterinary College, Chennai, IndiaCorrespondence[email protected]
,
Legadevi RadhakrishnanDepartment of Animal Biotechnology, Madras Veterinary College, Chennai, India
,
Swornakumari ChithiraiveluDepartment of Animal Biotechnology, Madras Veterinary College, Chennai, India
&
Palanisammi Athiyappa GounderDepartment of Animal Biotechnology, Madras Veterinary College, Chennai, India
Pages 1908-1915 | Published online: 13 Oct 2016

References

  • Nair, I.C. Screening for novel bacterial strains capable of accumulating intracellular PHB under phenol stress. Int. J. Plant Animal Environ. Sci. 2013, 3 (2), 155–162.
  • Hafuka, A.; Sakaida, K.; Satoh, H.; Takahashi, M.; Watanabe, Y.; Okabe, S. Effect of feeding regimens on polyhydroxybutyrate production from food wastes by Cupriavidus necator. Bioresour. Technol. 2011, 102 (3), 3551–3553.
  • Huschner, F.; Grousseau, E.; Brigham, C.J.; Plassmeier, J.; Popovic, M.; Rha, C.; Sinskey, A.J. Development of a feeding strategy for high cell and PHA density fed-batch fermentation of Ralstonia eutropha H16 from organic acids and their salts. Process Biochem. 2015, 50 (2), 165–172.
  • Charen, T.; Vaishali, P.; Kaushalya, M.; Amutha, K. Isolation and identification of Polyhydroxybutyrate producing bacterial strain (Bacillus thuringiensis GVP) from chlorine contaminated soil. Int. J. ChemTech Res. 2014, 6 (5), 3197–3202.
  • Kumari, P.; Harish Kumar, D. Isolation and characterization of PHB producing micro-organisms isolated from root nodules of leguminous plants. Int. Q. J. Life Sci. 2013, 8 (1), 109–113.
  • Mikkili, I.; Abraham, P.; Venkateswarulu, T.C. Isolation, screening and extraction of polyhydroxybutyrate (PHB) producing bacteria from Sewage sample. Int. J. PharmTech Res. 2014, 6 (2), 850–857.
  • López-Cortés, A.; Lanz-Landázuri, A.; García-Maldonado, J.Q. Screening and isolation of PHB-producing bacteria in a polluted marine microbial mat. Microb. Ecol. 2008, 56 (1), 112–120.
  • Singh, R. Isolation and characterization of efficient poly-β-hydroxybutyrate (PHB) synthesizing bacteria from agricultural and industrial land. Int. J. Curr. Microbiol. Appl. Sci. 2014, 3 (6), 304–308.
  • Meignanalakshmi, S.; Legadevi, R.; Sworna Kumari, C.; Palanisammi, A. Isolation and characterization of PHB producing Buttiauxella agrestis from slaughter house waste rumen fluid. International Journal of Scientific Research. 2015, 4 (6), 782–785.
  • Loo, C.-Y.; Sudesh, K. Polyhydroxyalkanoates: Bio-based microbial plastics and their properties. Malays. Polym. J. 2007, 2 (2), 31–57.
  • Radhika, D.; Murugesan, A.G. Bioproduction, statistical optimization and characterization of microbial plastic (poly 3-hydroxy butyrate) employing various hydrolysates of water hyacinth (Eichhornia crassipes) as sole carbon source. Bioresour. Technol. 2012, 121, 83–92.
  • Sarkar, K.; Ray, B.; Banerjee, R.; Saha, S.; Roy, S.; Chatterjee, S. Poly-β-hydroxybutyrate (Bio-plastic) production utilizing waste effluent of a sugar industry. IOSR-JESTFT 2014, 8 (4), 26–31.
  • Shen, L.; Hu, H.; Ji, H.; Cai, J.; He, N.; Li, Q.; Wang, Y. Production of poly(hydroxybutyrate-hydroxyvalerate) from waste organics by the two-stage process: Focus on the intermediate volatile fatty acids. Bioresour. Technol. 2014, 166 (422), 194–200.
  • Albuquerque, M.G.E.; Martino, V.; Pollet, E.; Avérous, L.; Reis, M.A.M. Mixed culture polyhydroxyalkanoate (PHA) production from volatile fatty acid (VFA)-rich streams: Effect of substrate composition and feeding regime on PHA productivity, composition and properties. J. Biotechnol. 2011, 151 (1), 66–76.
  • Defoirdt, T.; Boon, N.; Sorgeloos, P.; Verstraete, W.; Bossier, P. Short-chain fatty acids and poly-beta-hydroxyalkanoates: (New) Biocontrol agents for a sustainable animal production. Biotechnol. Adv. 2009, 27 (6), 680–685.
  • Gram, C. The isolated staining of schizomycetes in cut and dry preparations. Progr. Med. 1884, 2, 185–189.
  • George, M.; Julia, A.; Timothy, G. Taxonomical Outline of the Prokaryotes Bergey’s Manual of Systematic Bacteriology, 2nd ed., Springer: New York, Berlin, Heidelberg, 2004; pp. 1–401.
  • Chaitanya, K.; Nagamani, P.; Mahmood, S.K. Production of exopolysaccharide and polyhydroxybutyrate by newly isolated bacillus ap03 from industrial effluents. Int. J. Pharm. Bio. Sci. 2013, 4 (2), 404–414.
  • Kiran, G.S.; Lipton, A.N.; Priyadharshini, S.; Anitha, K.; Suárez, L.E.; Arasu, M.V.; Choi, K.C.; Selvin, J.; Al-Dhabi, N.A. Antiadhesive activity of poly-hydroxy butyrate biopolymer from a marine Brevibacterium casei MSI04 against shrimp pathogenic vibrios. Microb. Cell Fact. 2014, 13, 114.
  • Senthil, K.; Prabakaran, G. Production of PHB using bio effluent as substrate by Alcaligens europhus. Int. J. Biotechnol. 2006, 5, 76–79.
  • Berlanga, M.; Montero, M.T.; Fernández-Borrell, J.; Guerrero, R. Rapid spectrofluorometric screening of poly-hydroxyalkanoate-producing bacteria from microbial mats. Int. Microbiol. 2006, 9, 95–102.
  • Merugu, R.; Pratap Rudra, M.P.; Girisham, S.; Reddy, S.M. PHB (Polyhydroxy butyrate) production under nitrogen limitation by Rhodobacter capsulatus KU002 isolated from tannery effluent. Int. J. ChemTech Res. 2012, 4 (3), 1099–1102.
  • Elsayed, N.S.; Aboshanab, K.M.; Aboulwafa, M.M.; Hassouna, N. Optimization of bioplastic (poly-β-hydroxybutyrate) production by a promising Azomonas macrocytogenes bacterial isolate P173. Afr. J. Microbiol. Res. 2013, 7 (43), 5025–5035.
  • Ashby, R.D.; Solaiman, D.K.Y.; Strahan, G.D.; Zhu, C.; Tappel, R.C.; Nomura, C.T. Glycerine and levulinic acid: Renewable co-substrates for the fermentative synthesis of short-chain poly(hydroxyalkanoate) biopolymers. Bioresour. Technol. 2012, 118, 272–280.
  • Bengtsson, S.; Werker, A.; Welander, T. Production of polyhydroxyalkanoates by glycogen accumulating organisms treating a paper mill wastewater. Water Sci. Technol. 2008, 58 (2), 323–330.
  • Nair, D.S.; Thomas, C.; Singh, I.S.B. Preliminary optimization of PHB production by Vibrio sp. MCCB 237 isolated from Marine Environment. Res. J. Chem. Sci. 2014, 4 (5), 10–13.
  • Chaijamrus, S.; Udpuay, N. Production and characterization of polyhydroxybutyrate from molasses and corn steep liquor produced by Bacillus megaterium ATCC 6748. Agric. Eng. Int. 2008, X, 1–12.
  • Rohini, D.; Phadnis, S.; Rawal, S.K. Synthesis and characterization of poly-β-hydroxybutyrate from Bacillus thuringiensis R1. Int. J. Biotechnol. 2006, 5 (3), 276–283.
  • Muthazhagan, K.; Thangaraj, M. Production and FTIR analysis of bio-polymer by Bacillus sp. isolated from vellar estuary sediment. International Journal of Scientific Research. 2014, 3 (6), 625–638.
  • Albuquerque, M.G.E.; Concas, S.; Bengtsson, S.; Reis, M. Mixed culture polyhydroxyalkanoates production from sugar molasses: The use of a 2-stage CSTR system for culture selection. Bioresour. Technol. 2010, 101 (18), 7112–7122.
  • Dobroth, Z.T.; Hu, S.; Coats, E.R.; McDonald, A.G. Polyhydroxybutyrate synthesis on biodiesel wastewater using mixed microbial consortia. Bioresour. Technol. 2011, 102 (3), 3352–3359.
  • Fradinho, J.C.; Oehmen, A.; Reis, M.A.M. Photosynthetic mixed culture polyhydroxyalkanoate (PHA) production from individual and mixed volatile fatty acids (VFAs): Substrate preferences and co-substrate uptake. J. Biotechnol. 2014, 185, 19–27.
  • Selim, A.A.E.I.; El-sawah, M.M.A.; Kassem, M.M.; Ashour, E.H.; El-kadi, S.M.L. The influence of nutritional conditions on the accumulation of poly-β-hydroxybutyrate (PHB) in Azotobacter chroococcum, 2009, 1–14.
  • Yutaka, T.; Buenaventurada, P. Biodegradability of Plastics. Int J Mol Sci. 2009, 10 (9), 3722–3742.
  • Valentin, H.E.; Dennis, D. Production of poly(3-hydroxybutyrate-co-4-hydroxybutyrate) in recombinant Escherichia coli grown on glucose. J. Biotechnol. 1997, 58 (1), 33–38.
  • Sathianachiyar, S.; Devaraj, A. Biopolymer production by bacterial species using glycerol, a byproduct of biodiesel. IJSRES 2013, 3 (8), 1–5.

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