Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba

Çiğdem Küçük; Cenap Cevheri

Araştırma Makalesi

Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba

Yıl 2016, Cilt: 10 Sayı: 28, 35 - 38, 01.04.2016

Çiğdem Küçük , Cenap Cevheri

Öz

Poly-β-hyroxybutyrate is a common bacterial polymer. It has been ecofriendly and best alternative biopolymer against environmental pollution. In this study, the poly-β-hyroxybutyrate (PHB) contents of Rhizobium isolates from isolated wild Vicia faba were studied in the media used by a spectrophotometric technique. The dry cell weights and PHB production of isolates were different. The production of PHB by 18 isolates ranged between 0.006-0.720 g/l with a productivity of 0.273-19.3 (%). B7 isolate produced more PHB than the other isolates.

Anahtar Kelimeler

Poly-β-hydroxybutyrate, Rhizobium, isolate, wild Vicia faba

Kaynakça

Anderson AJ and Dawes EA (1990). Occurrence, metabolism, metabolic role, and industrial uses of bacterial polyhydroxyalkanoates. Microbiol Rev., 54: 450-472.
Avcıoğlu R, Hatipoğlu R and Karadağ Y (2009) Yem bitkileri T.C. Tarım ve Köyişleri Bak. Tarımsal Üretim ve Geliştirme Genel Müd. İzmir. s. 545 (in Turkish).
Bergensen FJ, Peoples MB and Turner GL (1991). A role for poly-β-hydroxybutyrate in bacteroids of soybean root nodules. Prooceedings of the Royal Soc. B., 245: 59-64.
Bonartseva GA and Myskina VL (1985). Fluorescance intensity of strains of nodule Bacteria (Rhizobium meliloti, R.phaseoli different in activity, grown in the presence of the lipopohilic vital strain phosphine R. Transl. of Microbiologiya., 54(4): 535-541.
Bonartseva GA, Myskina VL and Zagreba ED (1994). Poly-β-hydroxybutyrate content in cells of various Rhizobium species during growth with different carbon and nitrogen sources. Microbiol., 63(1): 45-48.
Cevheri C and Polat T (2009). Şanlıurfa’da Yem Bitkileri Tarımının Dünü, Bugünü ve Yarını. Harran Üniversitesi Ziraat Fakültesi Dergisi (Journal of the Faculty of Agriculture) 13: 63-76. (in Turkish).
Hansen AP (1994). Symbiotic N2 Fixation of Crop Legumes: Achievement and Perspectives. Margraf Verlag, USA. pp. 31-36.
Hernandez I, Mapoles MC, Rosales PR, Bonas R and Ramirez JF (2013). Selection of rhizobia isolates from nodules of the forage legume Pueraira phaseoloides (tropical kuzdu). Cuban Journal of Agricultural Science, 47: 311-318.
Khanna S and Srivastava A (2005) Recent advances in microbial polyhydroxyalkanotes. Prosess Biochem. 40: 607-6019.
Kretovich WL, Romanov VI, Yushkova LA, Shramko VI and Fedulova NG (1977). Nitrogen fixation and poly-B-hydroxybutrytic acid content in bacteroids of Rhizobium lupine and R.leguminosarum. Plant and Soil., 48:291-302.
Lee SY (1996). Bacterial polyhydroxyalkanoates. Biotechnol. Bioeng., 49: 1–14.
Lowing EM, Leonard M, Marraoqui S, Wheelar TR, Findlay K, Downie JA and Poole PS (2005). Role of poly-hydroxybutyrate and glycogen as carbon storage compounds in pea and bean bacteroides. Mol. Plant Microb. Interact., 18: 67-74.
Mercan N, Aslım B, Yüksekdağ ZN and Beyatlı Y (2002). Production of poly-β-hydroxybutyrate by some Rhizobium bacteria. Turk J Biol., 26:215-219.
Jordan DC (1994). Family III. Rhizobiaceae. In: KRIEG, N.R. and Holt, J.G. eds. Bergey’s Manual of Systematic Bacteriology, Willians and Wilkins, Baltimore, pp. 234-342.
Junior PIF, de Oliveira PJ, Rumjanek NG and Xavier GR (2011). Poly-β-hydroxybutyrate and exopolysaccharide biosynthesis by bacterial isolates from pigeonpea (Cajanus cajan (L.) Mill sp.) root nodules. Appl. Biochem. Biotechnol., 163: 473-484.
O’Hara GW, Howieson JG, Graham PH (2003). Nitrogen fixation and agricultural practice. In: Nitrogen Fixation in the Millennium (ed. Leigh G.J.), pp. 391–410. Elsevier Press, London. Panigrahi S and Badveli U (2013). Screening, isolation and quantification of PHB-producing soil bacteria. Int. J. of Eng. Sci. Innovation., 2(9): 1–6.
Rebah FB, Prevost D, Tyagi RD and Belbahri L (2009). Poly-β-hydroxybutyrate production by fast growing Rhizobia cultivated in sludge and in industrial wastewater. Appl. Biochem. Biotechool., 158: 155-163. Seguin P, Graham PH, Sheaffer CC, Ehlke NJ and Russelle MP (2001). Genetic diversity of rhizobia nodulating Trifolium ambiguum in North America. Canadian Journal of Microbiology, 47: 81–85.
Tamdoğan N, Sıdal U (2011). Investigation of Poly-β-Hydroxybutyrate (PHB) production by Bacillus subtilis ATCC 6633 under different conditions. Kafkas Univ Vet Fak Derg., 17: 173-176.
Tavernier P, Portais JC, Nava Saucedo JE, Courtois J, Courtois B, Barbotin JN (1997). Exopolysaccharide and poly-β-hydroxybutyrate coproduction in two Rhizobium meliloti strains. Appl Environ Microbiol., 63: 21-26.
Tombilini R, Nuti MP (1989) Poly (β-hydroxyalkanoate) biosynthesis and accumulation by different Rhizobium species. FEMS Microbiology Letters, 60: 298-304.
Vincent JM (1970). A manual for the practical study of root nodules bacteria. In IBP handbook (15th ed.). Oxford: Blackwell Scientific, Zahran HH (2001). Rhizobia from wild legumes: diversity, taxonomy, ecology, nitrogen fixation and biotechnology. J Biotechnol., 91: 143-53.
Zevenhuizen LPTM (1981). Cellular and extracellular polysaccharides in fast growing species of Rhizobium. Antanie Van Leeuwenhook, 47: 481-497.

Yıl 2016, Cilt: 10 Sayı: 28, 35 - 38, 01.04.2016

Çiğdem Küçük , Cenap Cevheri

Öz

Kaynakça

Anderson AJ and Dawes EA (1990). Occurrence, metabolism, metabolic role, and industrial uses of bacterial polyhydroxyalkanoates. Microbiol Rev., 54: 450-472.
Avcıoğlu R, Hatipoğlu R and Karadağ Y (2009) Yem bitkileri T.C. Tarım ve Köyişleri Bak. Tarımsal Üretim ve Geliştirme Genel Müd. İzmir. s. 545 (in Turkish).
Bergensen FJ, Peoples MB and Turner GL (1991). A role for poly-β-hydroxybutyrate in bacteroids of soybean root nodules. Prooceedings of the Royal Soc. B., 245: 59-64.
Bonartseva GA and Myskina VL (1985). Fluorescance intensity of strains of nodule Bacteria (Rhizobium meliloti, R.phaseoli different in activity, grown in the presence of the lipopohilic vital strain phosphine R. Transl. of Microbiologiya., 54(4): 535-541.
Bonartseva GA, Myskina VL and Zagreba ED (1994). Poly-β-hydroxybutyrate content in cells of various Rhizobium species during growth with different carbon and nitrogen sources. Microbiol., 63(1): 45-48.
Cevheri C and Polat T (2009). Şanlıurfa’da Yem Bitkileri Tarımının Dünü, Bugünü ve Yarını. Harran Üniversitesi Ziraat Fakültesi Dergisi (Journal of the Faculty of Agriculture) 13: 63-76. (in Turkish).
Hansen AP (1994). Symbiotic N2 Fixation of Crop Legumes: Achievement and Perspectives. Margraf Verlag, USA. pp. 31-36.
Hernandez I, Mapoles MC, Rosales PR, Bonas R and Ramirez JF (2013). Selection of rhizobia isolates from nodules of the forage legume Pueraira phaseoloides (tropical kuzdu). Cuban Journal of Agricultural Science, 47: 311-318.
Khanna S and Srivastava A (2005) Recent advances in microbial polyhydroxyalkanotes. Prosess Biochem. 40: 607-6019.
Kretovich WL, Romanov VI, Yushkova LA, Shramko VI and Fedulova NG (1977). Nitrogen fixation and poly-B-hydroxybutrytic acid content in bacteroids of Rhizobium lupine and R.leguminosarum. Plant and Soil., 48:291-302.
Lee SY (1996). Bacterial polyhydroxyalkanoates. Biotechnol. Bioeng., 49: 1–14.
Lowing EM, Leonard M, Marraoqui S, Wheelar TR, Findlay K, Downie JA and Poole PS (2005). Role of poly-hydroxybutyrate and glycogen as carbon storage compounds in pea and bean bacteroides. Mol. Plant Microb. Interact., 18: 67-74.
Mercan N, Aslım B, Yüksekdağ ZN and Beyatlı Y (2002). Production of poly-β-hydroxybutyrate by some Rhizobium bacteria. Turk J Biol., 26:215-219.
Jordan DC (1994). Family III. Rhizobiaceae. In: KRIEG, N.R. and Holt, J.G. eds. Bergey’s Manual of Systematic Bacteriology, Willians and Wilkins, Baltimore, pp. 234-342.
Junior PIF, de Oliveira PJ, Rumjanek NG and Xavier GR (2011). Poly-β-hydroxybutyrate and exopolysaccharide biosynthesis by bacterial isolates from pigeonpea (Cajanus cajan (L.) Mill sp.) root nodules. Appl. Biochem. Biotechnol., 163: 473-484.
O’Hara GW, Howieson JG, Graham PH (2003). Nitrogen fixation and agricultural practice. In: Nitrogen Fixation in the Millennium (ed. Leigh G.J.), pp. 391–410. Elsevier Press, London. Panigrahi S and Badveli U (2013). Screening, isolation and quantification of PHB-producing soil bacteria. Int. J. of Eng. Sci. Innovation., 2(9): 1–6.
Rebah FB, Prevost D, Tyagi RD and Belbahri L (2009). Poly-β-hydroxybutyrate production by fast growing Rhizobia cultivated in sludge and in industrial wastewater. Appl. Biochem. Biotechool., 158: 155-163. Seguin P, Graham PH, Sheaffer CC, Ehlke NJ and Russelle MP (2001). Genetic diversity of rhizobia nodulating Trifolium ambiguum in North America. Canadian Journal of Microbiology, 47: 81–85.
Tamdoğan N, Sıdal U (2011). Investigation of Poly-β-Hydroxybutyrate (PHB) production by Bacillus subtilis ATCC 6633 under different conditions. Kafkas Univ Vet Fak Derg., 17: 173-176.
Tavernier P, Portais JC, Nava Saucedo JE, Courtois J, Courtois B, Barbotin JN (1997). Exopolysaccharide and poly-β-hydroxybutyrate coproduction in two Rhizobium meliloti strains. Appl Environ Microbiol., 63: 21-26.
Tombilini R, Nuti MP (1989) Poly (β-hydroxyalkanoate) biosynthesis and accumulation by different Rhizobium species. FEMS Microbiology Letters, 60: 298-304.
Vincent JM (1970). A manual for the practical study of root nodules bacteria. In IBP handbook (15th ed.). Oxford: Blackwell Scientific, Zahran HH (2001). Rhizobia from wild legumes: diversity, taxonomy, ecology, nitrogen fixation and biotechnology. J Biotechnol., 91: 143-53.
Zevenhuizen LPTM (1981). Cellular and extracellular polysaccharides in fast growing species of Rhizobium. Antanie Van Leeuwenhook, 47: 481-497.

Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Tarımsal Biyoteknoloji (Diğer)
Bölüm	Makaleler
Yazarlar	Çiğdem Küçük Cenap Cevheri
Yayımlanma Tarihi	1 Nisan 2016
Yayımlandığı Sayı	Yıl 2016 Cilt: 10 Sayı: 28

Kaynak Göster

APA	Küçük, Ç., & Cevheri, C. (2016). Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba. Journal of Biological and Environmental Sciences, 10(28), 35-38.
AMA	Küçük Ç, Cevheri C. Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba. JBES. Temmuz 2016;10(28):35-38.
Chicago	Küçük, Çiğdem, ve Cenap Cevheri. “Poly-β-Hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia Faba”. Journal of Biological and Environmental Sciences 10, sy. 28 (Temmuz 2016): 35-38.
EndNote	Küçük Ç, Cevheri C (01 Temmuz 2016) Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba. Journal of Biological and Environmental Sciences 10 28 35–38.
IEEE	Ç. Küçük ve C. Cevheri, “Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba”, JBES, c. 10, sy. 28, ss. 35–38, 2016.
ISNAD	Küçük, Çiğdem - Cevheri, Cenap. “Poly-β-Hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia Faba”. Journal of Biological and Environmental Sciences 10/28 (Temmuz 2016), 35-38.
JAMA	Küçük Ç, Cevheri C. Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba. JBES. 2016;10:35–38.
MLA	Küçük, Çiğdem ve Cenap Cevheri. “Poly-β-Hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia Faba”. Journal of Biological and Environmental Sciences, c. 10, sy. 28, 2016, ss. 35-38.
Vancouver	Küçük Ç, Cevheri C. Poly-β-hyroxybutyrate Production by Root Nodule Isolates of Wild Vicia faba. JBES. 2016;10(28):35-8.

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