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Tytuł artykułu

Bakterie kwasu octowego - taksonomia, ekologia oraz wykorzystanie przemysłowe

Treść / Zawartość

Warianty tytułu

EN
Acetic acid bacteria - taxonomy, ecology, and industrial application

Języki publikacji

PL

Abstrakty

PL
Bakterie kwasu octowego (AAB) należą do Gram-ujemnych, tlenowych pałeczek, szeroko rozpowszechnionych w przyrodzie. Izolowane są zarówno ze środowisk pochodzenia roślinnego, takich jak: kwiaty, owoce, miody i rośliny uprawne, jak i z zanieczyszczonych smakowych wód mineralnych oraz produktów pochodzących z ukierunkowanych i spontanicznych procesów fermentacyjnych. Taksonomia AAB charakteryzuje się dużą dynamiką. W pracy dokonano przeglądu literatury obejmującej fizjologię, morfologię i właściwości biochemiczne, które wchodzą w zakres identyfikacji polifazowej. W ciągu ostatnich lat badania polifazowe umożliwiły tworzenie nowych rodzajów i gatunków AAB. Omówiono wybrane aspekty wykorzystania bakterii kwasu octowego w przemyśle spożywczym, zwłaszcza w produkcji tradycyjnych octów winnych oraz octów regionalnych. Ponadto przedstawiono zastosowanie AAB w procesach fermentacji ziaren kakaowca oraz wytwarzania herbaty kombucha.
EN
Acetic acid bacteria (AAB) are gram negative, aerobic rods that are widespread in nature. They are isolated both from the environments of plant origin, such as flowers, fruits, honeys, and cultivated plants, and the flavoured mineral waters that are microbiologically contaminated, as well as from the products produced using targeted and spontaneous fermentation processes. The taxonomy of AAB is characterized by high dynamics. This paper is a review of the literature on the physiology and morphology of AAB, and on those biochemical properties thereof, which are included into the range of polyphasic taxonomy. In recent years, the polyphasic studies made it possible to create new genera and species of AAB. Selected aspects are discussed of using acetic acid bacteria in food industry, especially to produce traditional wine vinegars and regional vinegars. Moreover, the use of AAB is described in the fermentation processes of cocoa beans and in the production of kombucha tea.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

22

Numer

4

Opis fizyczny

s.21-35,rys.,tab.,bibliogr.

Twórcy

autor
  • Instytut Technologii Fermentacji i Mikrobiologii, Wydział Biotechnologii i Nauk o Żywności, Politechnika Łódzka, ul.Wółczańska 171/173, 90-924 Łódź
autor
  • Instytut Technologii Fermentacji i Mikrobiologii, Wydział Biotechnologii i Nauk o Żywności, Politechnika Łódzka, ul.Wółczańska 171/173, 90-924 Łódź

Bibliografia

  • [1] Alauzer A., Teyssier C., Jumas-Bilak E., Gouby A., Chiron R., Rabaud C., Counil F., Lozniewski A., Marchandi H.: Gluconobacter as well as Asaia species, newly emerging opportunistic human pathogens among acetic acid bacteria. J. Clin. Microbiol., 2010, 48, 3935-3942.
  • [2] Ardhana M.M., Fleet G.H.: The microbial ecology of cocoa bean fermentations in Indonesia. Int. J. Food Microbiol., 2003, 86, 87-99.
  • [3] Ashraf A.M., Rasool M., Mirza S.M.: Nitrogen fixation and indole acetic acid production potential of bacteria isolated from rhizosphere of sugarcane (Saccharum officinarum L.). Adv. Biol. Res., 2011, 6, 348-355.
  • [4] Camu N., De Winter T., Verbrugghe K., Cleenwerck I., Vandamme P., Takrama S.J., Vancanneyt M., De Vuyst L.: Dynamics and biodiversity of population of lactic acid bacteria and acetic acid bacteria involved in spontaneous heap fermentation of cocoa beans in Ghana. Appl. Environ. Microbiol., 2007, 73, 1809-1824.
  • [5] Cleenwerck I., Vandemeulebroecke K., Janssens D., Swings J.: Reexamination of the genus Acetobacter, with descriptions of Acetobacter cerevisiae sp. nov. and Acetobacter malorum sp. nov. Int. J. Syst. Evol. Micr., 2002, 52, 1551-1558.
  • [6] Cleenwerck I., De Vos P.: Polyphasic taxonomy of acetic acid bacteria: An overview of the currently applied methodology. Int. J. Food Microbiol., 2008, 125, 2-14.
  • [7] Cleenwerck I., Gonzàlez Á., Camu N., Engelbeen K., De Vos P., De Vuyst L.: Acetobacter fabarum sp. nov., an acetic acid bacterium from a Ghanaian coca bean heap fermentation. Int. J. Food Microbiol., 2008, 58, 2180-2185.
  • [8] De Vero L., Gala E., Gullo M., Solieri L., Landi S., Giudici P.: Application of denaturing gradient gel electrophoresis (DGGE) analysis to evaluate acetic acid bacteria in traditional balsamic vinegar. Food Microbiol., 2006, 23, 809-813.
  • [9] De Vero L., Giudici P.: Significance and management of acetic acid bacteria culture collections. 3rd International Conference on Acetic Acid Bacteria. Vinegar and other products, Cordoba, Spain, 2013.
  • [10] De Vuyst L., De Wachter M., Gonzàlez Á.: Differentiation of species of the family Acetobacteraceae by AFLP DNA fingerprinting: Gluconacetobacter kombuchae is a later heterotypic synonym of Gluconacetobacter hansenii. Int. J. Syst. Evol. Micr., 2009, 7, 1771-1786.
  • [11] Dufresne C., Farnworth E.: Tea kombucha, and health: A review. Food Res. Int., 2000, 33, 409-421.
  • [12] Favia G., Ricci I., Damian C., Raddadi N., Crotti E., Marzorati M., Rizzi A., Urso R., Brusetti L., Borin S., Mora D., Scuppa P., Pasqualini L., Clementi E., Genchi M., Corona S., Negri I., Grandi G., Alma A., Kramer L., Esposito F., Bandi C., Sacchi L., Daffonchio D.: Bacteria of the genus Asaia stably associated with Anopheles stephensi, an Asian material mosquito vector. P. Nat. Acad. Sci. USA, 2007, 104, 9047-9051.
  • [13] Fuentes-Ramirez L.E., Bustillos-Crystales R., Tapia-Hernández A., Jimenéz-Salgardo T., Wang E.T., Martinez-Romero E.: Novel nitrogen-fixing acetic acid bacteria, Gluconobacter johannae sp. nov and Gluconacetobacter azotocaptans sp. nov, associated with coffee plants. Int. J. Syst. Evol. Micr., 2001, 51, 1305-1314.
  • [14] Gonzàlez A., Guillamón J.M., Mas A., Poblet M.: Application of molecular methods for routine identification of acetic acid bacteria. Int. J. Food Microbiol., 2006, 108, 141-146.
  • [15] Gullo M., Giudici P.: Acetic acid bacteria in traditional balsamic vinegar: Phenotypic traits relevant for starter cultures selection. Int. J. Food Microbiol., 2008, 125, 46-53.
  • [16] Gullo M., Caggia C., De Vero L., Giudici P.: Characterization of acetic acid bacteria in „traditional balsamic vinegar”. Int. J. Food Microbiol., 2006, 106, 209-212.
  • [17] Hansen C.E., Del Olmo M., Burri C.: Enzyme activities during cocoa beans fermentation. J. Sci. Food Agr., 1998, 77, 273-281.
  • [18] Iino T., Suzuki R., Tanaka N., Kosako Y., Ohkuma M., Komagata K., Uchimura T.:Gluconacetobacter kakiaceti sp. nov., an acetic acid bacterium isolated from a traditional Japanese fruit vinegar. Int. J. Syst. Evol. Micr., 2012, 62, 1465-1469.
  • [19] Jayabalan R., Subathradevi P., Marimathu S., Sathishkumar M., Swaminathan K.: Changes in freeradical scavenging ability of kombucha tea during fermentation. Food Chem., 2008, 109, 227-234.
  • [20] Kręgiel D., Rygała A., Libudzisz Z.: Bakterie z rodzaju Asaia - nowe zanieczyszczenie smakowych wód mineralnych. Żywność. Nauka. Technologia. Jakość, 2011, 2(75), 5-16.
  • [21] Kręgiel D., Rygała A., Libudzisz Z., Walczak P., Ołtuszak-Walczak E.: Asaia lannensis- the spoilage acetic acid bacteria isolated from strawberry-flavored bottled water in Poland. Food Control, 2012, 26, 147-150.
  • [22] Krommanee J., Tanasupawat S., Yuphan P., Malimas T., Muramatsu Y., Nakagawa Y., Yamada Y.: Asaia spathodeae sp. nov., an acetic acid bacterium in α-Proteobacteria. J. Gen. Appl. Microbiol., 2010, 56, 81-87.
  • [23] Lisdiyanti P., Katsura K., Potacharoen W., Navarro R.R., Yamada Y., Uchimura T., Komagata K.: Diversity of acetic acid bacteria in Indonesia, Thailand and the Philippines. Microbiol. Cult. Coll., 2003, 19, 91-99.
  • [24] Marsh J.A., O’Sullivan O.O., Hill C., Ross P.R., Cotter P.D.: Sequence-based analysis of the bacterial and fungal compositions of multiple kombucha (tea fungus) samples. Food Microbiol.,2014, 38, 171-178.
  • [25] Mateo E., Torija M.J., Mas A., Bartowsky E.J.: Acetic acid bacteria isolated from grapes of South Australian vineyards. Int. J. Food Microbiol., 2014, 178, 98-106.
  • [26] Matsushita K., Toyama H., Adachi O.: Respiration chains and bioenergetics of acetic acid bacteria. Adv. Microb. Physiol., 1994, 36, 247-301.
  • [27] Moore J.E., McCalmont M., Xu J., Millar B.C., Heaney N.: Asaia sp., an unusual spoilage organism of fruit-flavored bottled water. Appl. Environ. Microb., 2002, 68, 4130-4131.
  • [28] Muthukumarasamy R., Cleenwerck I., Revathia G., Vadivelua M., Janssens D., Hoste B., Gum K.U., Park K., Son C.Y., Sa T., Caballero-Mellado J.: Natural association of Gluconacetobacter diazotrophicus and diazotrophic Acetobacter peroxydans with wetland rice. Syst. Appl. Microbiol., 2005, 28, 277-286.
  • [29] Nanda K., Taniguchi M., Ujike S., Ishihara N., Mori H., Ono H., Murooka Y.: Characterization of acetic acid bacteria in traditional acetic acid fermentation of rice vinegar (Komesu) and unpolished rice vinegar (Kurosu) produced in Japan. Appl. Environ. Microb., 2001, 67, 986-990.
  • [30] Ndoye B., Lebeccque S., Dubois-Dauphin R., Tounkanra L., Guiro A.T., Kere C., Diawara B., Thonart P.: Thermoresistant properties of acetic acid bacteria isolated from tropical products of Sub-Saharam Africa and destined to industrial vinegar. Enzyme Microb. Tech., 2006, 39, 916-923.
  • [31] Nielsen D., Teniola O., Ban-Koffi L., Owusu M., Andersson T.S., Holzapfel W.H.: The microbiology of Ghanaian cocoa fermentations analyzed using culture-dependent and culture-independent methods. Int. J. Food Microbiol., 2007, 114, 168-186.
  • [32] Pedraza R.O.: Recent advances in nitrogen-fixing acetic acid bacteria. Int. J. Food Microbiol., 2008, 125, 25-35.
  • [33] Prieto C., Jara C., Mas A., Romero J.: Application of molecular methods for analyzing the distribution and diversity of acetic acid bacteria in Chilean vineyards. Int. J. Food Microbiol., 2007, 115, 348-355.
  • [34] Raspor P., Goranovič D.: Biotechnological applications of acetic acid bacteria. Crit. Rev. Biotechnol., 2008, 28, 101-124.
  • [35] Seearunruangchai A., Tanasupawat S., Keeratipibul S., Thawai C., Itoh T., Yamada Y.: Identification of acetic acid bacteria isolated from fruits collected in Thailand. J. Gen. Appl. Microbiol., 2004, 50, 47-53.
  • [36] Sengun I.Y., Karabiyikli S.: Importance of acetic acid bacteria in food industry. Food Control, 2011, 22, 647-656.
  • [37] Sharafi S.M., Rasooli I., Besheshti-Maal K.: Isolation, characterization and optimization of indigenous acetic acid bacteria and evaluation of their preservation methods. Iranian J. Microbiol., 2010, 2, 38-45.
  • [38] Solieri L., Giudici P.: Vinegars of the world. In: Vinegars of the world. Eds. Solieri L., Giudici P. Springer-Verlag, Segrate 2009, pp. 2-5.
  • [39] Stratford M., Capell C.J.: Soft drinks: Microbiology. Encyclopedia of Food Sciences and Nutrition. Oxford Academic Press. 2nd ed. Vol. 8. 2003, 5358-5366.
  • [40] Suzuki R., Zhang Y., Iino T., Kosako Y., Komagata K., Uchimura T.: Asaia astilbis sp., nov. Asaia platycodi sp. nov., and Asaia prunellae sp., nov. novel acetic acid bacteria isolated from flowers in Japan. J. Gen. Appl. Microbiol., 2010, 56, 339-346.
  • [41] Takao I., Suzuki R., Kosako Y., Ohkuma M., Komagata K., Uchimura T.: Acetobacter okinawensis sp. nov., Acetobacter papayae sp. nov., and Acetobacter persicus sp. nov., novel acetic acid bacteria isolated from stems of sugarcane, fruits, and flowers in Japan. J. Gen. Appl. Microbiol., 2012, 58, 235-243.
  • [42] Tuuminen T., Heinäsmäki T., Kertulla T.: First report of bacteremia by Asaia bogorensis, in patient with a history of intravenous-drug abuse. J. Clin. Microbiol., 2006, 44, 3048-3050.
  • [43] Wu J.J., Gullo M., Chen F.S., Giudici P.: Diversity of Acetobacter pasteurianus strains isolated from solid-state fermentation of cereal vinegars. Curr. Microbiol., 2010, 60, 280-286.
  • [44] Wu J.J., Ma K.Y., Zhang F.F., Chen F.S.: Biodiversity of yeasts, lactic acid bacteria and acetic acid bacteria in the fermentation of „Shanxi aged vinegar”, a traditional Chinese vinegar. Food Microbiol., 2012, 30, 289-297.
  • [45] Yamada Y., Katsura K., Kawasaki H., Widyastuti Y., Saono S., Seki T., Uchimura T., Komagata K.: Asaia bogorensis gen. nov., sp. nov., an unusual acetic acid bacterium in the α-Proteobacteria. Int. J. Syst. Evol. Microbiol., 2000, 50, 823-829.
  • [46] Yukphan P., Malimas T., Muramatsu Y., Takahashi M., Kaneyasu M., Potacharoen W.,
  • Tanasupawat S., Nakagawa Y., Hamana K., Tahara Y., Suzuki K.I., Tanticharoen M., Yamada Y.: Ameyamaea chiangmaiensis gen. nov., sp. nov., an acetic acid bacterium in α-Proteobacteria. Biosci. Biotech. Bioch., 2009, 73, 2156-2162.
  • [47] Yukphan P., Malimas T., Potacharoen W., Tanasupawat S., Tanticharoen M., Yamada Y.: Neoasaia chingmaiensis gen. nov., sp. nov., a novel osmotolerant acetic acid bacterium in the α-Proteobacteria. J. Gen. Appl. Microbiol., 2005, 51, 301-311.
  • [48] Vegas C.C., Mateo E., Gonzàlez Á., Jara C., Guillamón J.M., Poblet M., Torija J., Mas A.: Population dynamics of acetic acid bacteria during traditional wine vinegar production. Int. J. Food Microbiol., 2010, 138, 130-136.
  • [49] Vijayaraghavan R., Singh M., Rao P.V.L., Bhattacharya R., Kumar P., Sugendran K., Kumar O., Pant S.C., Singh R.: Subacute (90 days) oral toxicity studies of kombucha tea. Biomed. Environ. Sci., 2000, 13, 293-299
  • [50] Vu H.T.L., Yukphan P., Chaipitakchonlatam W., Malimas T., Muramatsu Y., Bui U.T.T., Tanasupawat S., Duong K.C., Nakagawa Y., Pham H.T., Yamada Y.: Nguyenibacter vanlangensis gen. nov., sp. nov., an unusual acetic acid bacterium in the α-Proteobacteria. J. Gen. Appl. Microbiol., 2013, 59, 153-166.
  • [51] www.bacterio.net Dostęp w Internecie: [03.04.2014 r.].

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Bibliografia

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